http://192.168.164.12:81/ricewiki/api.php?action=feedcontributions&feedformat=atom&user=Yangjanezhen 2026-05-26T03:11:50Z User contributions MediaWiki 1.30.0 https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169278 2014-05-17T07:05:53Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:Figure_1.jpeg‎ ]]<br /> <br /> [[File:e.jpg]] [[File:c.jpg]] <br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2](Figure 2).<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> [[File:j.jpg]]<br /> <br /> '''Figure 2''' Expression pattern and localization of GIF1. '''(a,b)''' GUS activity in the growing root '''(a)''' and the node and elongating zone of the internode '''(b)'''.'''(c,d)''' GUS activity in developing grains was restricted to the ovular vascular trace (OV) end at 3 DAP (c) and 5 DAP (d). '''(e)''' GUS activity in the OV and lateral stylar vascular trace (SV) of grains at 10 DAP. '''(f)''' GUS activity in the OV at 20 DAP. '''(g)''' Cross-section of the grain at 10 DAP. '''(h)''' Boxed area in g observed under a microscope, showing GUS activity in the OV. NP, nucellar projection. '''(i)''' GIF1 transcript levels detected by RT-PCR. UBI1 was used as a loading control. The analysis was repeated twice with similar results. '''(j)''' GIF-GFP fusion protein localized to the cell wall in a transgenic rice root tip. Arrow indicates plasmolysis. Scale bars represent 3 mm (c–g) or 100 mm (h).<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].（Figure 3）<br /> <br /> [[File:yyy.jpg]]<br /> <br /> Figure 3 Phenotypes of OsCIN1-OE and GIF1-OE plants. '''(A)''' The GIF1-OE plants produced badly-filled grains (right), compared to the empty vector<br /> control (left). '''(B)''' The OsCIN1-OE plants produced grains completely filled (right). '''(C)''' Smaller seeds of the GIF1-OE plants (right), compared to the empty vector control (left). '''(D)''' The OsCIN1-OE seeds exhibited preharvest sprouting, while the control seeds did not germinate on panicle at the same<br /> time. '''(E)''' The GIF1-OE plants grew dwarfing in comparison with the control. '''(F)''' The OsCIN1-OE plants were morphologically similar to the control.<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Yyy.jpg&diff=169277 2014-05-17T07:03:54Z

<p>Yangjanezhen: </p> <hr /> <div></div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169276 2014-05-17T07:03:38Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:Figure_1.jpeg‎ ]]<br /> <br /> [[File:e.jpg]] [[File:c.jpg]] <br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2](Figure 2).<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> [[File:j.jpg]]<br /> <br /> '''Figure 2''' Expression pattern and localization of GIF1. '''(a,b)''' GUS activity in the growing root '''(a)''' and the node and elongating zone of the internode '''(b)'''.'''(c,d)''' GUS activity in developing grains was restricted to the ovular vascular trace (OV) end at 3 DAP (c) and 5 DAP (d). '''(e)''' GUS activity in the OV and lateral stylar vascular trace (SV) of grains at 10 DAP. '''(f)''' GUS activity in the OV at 20 DAP. '''(g)''' Cross-section of the grain at 10 DAP. '''(h)''' Boxed area in g observed under a microscope, showing GUS activity in the OV. NP, nucellar projection. '''(i)''' GIF1 transcript levels detected by RT-PCR. UBI1 was used as a loading control. The analysis was repeated twice with similar results. '''(j)''' GIF-GFP fusion protein localized to the cell wall in a transgenic rice root tip. Arrow indicates plasmolysis. Scale bars represent 3 mm (c–g) or 100 mm (h).<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> [[File:yyy.jpg]]<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169275 2014-05-17T07:03:18Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:Figure_1.jpeg‎ ]]<br /> <br /> [[File:e.jpg]] [[File:c.jpg]] <br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2](Figure 2).<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> [[File:j.jpg]]<br /> <br /> '''Figure 2''' Expression pattern and localization of GIF1. '''(a,b)''' GUS activity in the growing root '''(a)''' and the node and elongating zone of the internode '''(b)'''.'''(c,d)''' GUS activity in developing grains was restricted to the ovular vascular trace (OV) end at 3 DAP (c) and 5 DAP (d). '''(e)''' GUS activity in the OV and lateral stylar vascular trace (SV) of grains at 10 DAP. '''(f)''' GUS activity in the OV at 20 DAP. '''(g)''' Cross-section of the grain at 10 DAP. '''(h)''' Boxed area in g observed under a microscope, showing GUS activity in the OV. NP, nucellar projection. '''(i)''' GIF1 transcript levels detected by RT-PCR. UBI1 was used as a loading control. The analysis was repeated twice with similar results. '''(j)''' GIF-GFP fusion protein localized to the cell wall in a transgenic rice root tip. Arrow indicates plasmolysis. Scale bars represent 3 mm (c–g) or 100 mm (h).<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> [[File:j.jpg]]<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:G.jpg&diff=169274 2014-05-17T07:01:56Z

<p>Yangjanezhen: </p> <hr /> <div></div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169273 2014-05-17T07:01:39Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:Figure_1.jpeg‎ ]]<br /> <br /> [[File:e.jpg]] [[File:c.jpg]] <br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2](Figure 2).<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> [[File:j.jpg]]<br /> <br /> '''Figure 2''' Expression pattern and localization of GIF1. '''(a,b)''' GUS activity in the growing root '''(a)''' and the node and elongating zone of the internode '''(b)'''.'''(c,d)''' GUS activity in developing grains was restricted to the ovular vascular trace (OV) end at 3 DAP (c) and 5 DAP (d). '''(e)''' GUS activity in the OV and lateral stylar vascular trace (SV) of grains at 10 DAP. '''(f)''' GUS activity in the OV at 20 DAP. '''(g)''' Cross-section of the grain at 10 DAP. '''(h)''' Boxed area in g observed under a microscope, showing GUS activity in the OV. NP, nucellar projection. '''(i)''' GIF1 transcript levels detected by RT-PCR. UBI1 was used as a loading control. The analysis was repeated twice with similar results. '''(j)''' GIF-GFP fusion protein localized to the cell wall in a transgenic rice root tip. Arrow indicates plasmolysis. Scale bars represent 3 mm (c–g) or 100 mm (h).<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> [[File:g.jpg]]<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:J.jpg&diff=169269 2014-05-17T06:57:05Z

<p>Yangjanezhen: </p> <hr /> <div></div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169268 2014-05-17T06:56:49Z

<p>Yangjanezhen: /* Expression */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:Figure_1.jpeg‎ ]]<br /> <br /> [[File:e.jpg]] [[File:c.jpg]] <br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2](Figure 2).<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> [[File:j.jpg]]<br /> <br /> '''Figure 2''' Expression pattern and localization of GIF1. '''(a,b)''' GUS activity in the growing root '''(a)''' and the node and elongating zone of the internode '''(b)'''.'''(c,d)''' GUS activity in developing grains was restricted to the ovular vascular trace (OV) end at 3 DAP (c) and 5 DAP (d). '''(e)''' GUS activity in the OV and lateral stylar vascular trace (SV) of grains at 10 DAP. '''(f)''' GUS activity in the OV at 20 DAP. '''(g)''' Cross-section of the grain at 10 DAP. '''(h)''' Boxed area in g observed under a microscope, showing GUS activity in the OV. NP, nucellar projection. '''(i)''' GIF1 transcript levels detected by RT-PCR. UBI1 was used as a loading control. The analysis was repeated twice with similar results. '''(j)''' GIF-GFP fusion protein localized to the cell wall in a transgenic rice root tip. Arrow indicates plasmolysis. Scale bars represent 3 mm (c–g) or 100 mm (h).<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169267 2014-05-17T06:56:29Z

<p>Yangjanezhen: /* Expression */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:Figure_1.jpeg‎ ]]<br /> <br /> [[File:e.jpg]] [[File:c.jpg]] <br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2](Figure 2).<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> [[File:e.jpg]]<br /> <br /> '''Figure 2''' Expression pattern and localization of GIF1. '''(a,b)''' GUS activity in the growing root '''(a)''' and the node and elongating zone of the internode '''(b)'''.'''(c,d)''' GUS activity in developing grains was restricted to the ovular vascular trace (OV) end at 3 DAP (c) and 5 DAP (d). '''(e)''' GUS activity in the OV and lateral stylar vascular trace (SV) of grains at 10 DAP. '''(f)''' GUS activity in the OV at 20 DAP. '''(g)''' Cross-section of the grain at 10 DAP. '''(h)''' Boxed area in g observed under a microscope, showing GUS activity in the OV. NP, nucellar projection. '''(i)''' GIF1 transcript levels detected by RT-PCR. UBI1 was used as a loading control. The analysis was repeated twice with similar results. '''(j)''' GIF-GFP fusion protein localized to the cell wall in a transgenic rice root tip. Arrow indicates plasmolysis. Scale bars represent 3 mm (c–g) or 100 mm (h).<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169266 2014-05-17T06:51:10Z

<p>Yangjanezhen: /* Expression */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:Figure_1.jpeg‎ ]]<br /> <br /> [[File:e.jpg]] [[File:c.jpg]] <br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2](Figure 2).<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> [[File:d.jpg]]<br /> <br /> '''Figure 2''' Expression pattern and localization of GIF1. '''(a,b)''' GUS activity in the growing root '''(a)''' and the node and elongating zone of the internode '''(b)'''.'''(c,d)''' GUS activity in developing grains was restricted to the ovular vascular trace (OV) end at 3 DAP (c) and 5 DAP (d). '''(e)''' GUS activity in the OV and lateral stylar vascular trace (SV) of grains at 10 DAP. '''(f)''' GUS activity in the OV at 20 DAP. '''(g)''' Cross-section of the grain at 10 DAP. '''(h)''' Boxed area in g observed under a microscope, showing GUS activity in the OV. NP, nucellar projection. '''(i)''' GIF1 transcript levels detected by RT-PCR. UBI1 was used as a loading control. The analysis was repeated twice with similar results. '''(j)''' GIF-GFP fusion protein localized to the cell wall in a transgenic rice root tip. Arrow indicates plasmolysis. Scale bars represent 3 mm (c–g) or 100 mm (h).<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:D.jpg&diff=169265 2014-05-17T06:47:53Z

<p>Yangjanezhen: </p> <hr /> <div></div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169264 2014-05-17T06:47:37Z

<p>Yangjanezhen: /* Expression */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:Figure_1.jpeg‎ ]]<br /> <br /> [[File:e.jpg]] [[File:c.jpg]] <br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> [[File:d.jpg]]<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169261 2014-05-17T06:45:28Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:Figure_1.jpeg‎ ]]<br /> <br /> [[File:e.jpg]] [[File:c.jpg]] <br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:E.jpg&diff=169260 2014-05-17T06:43:29Z

<p>Yangjanezhen: </p> <hr /> <div></div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169259 2014-05-17T06:43:15Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:e.jpg]]<br /> <br /> [[File:Figure_1.jpeg‎ ]]<br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:C.jpg&diff=169257 2014-05-17T06:41:51Z

<p>Yangjanezhen: </p> <hr /> <div></div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169256 2014-05-17T06:41:41Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]] [[File:c.jpg]]<br /> <br /> [[File:Figure_1.jpeg‎ ]]<br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169255 2014-05-17T06:41:12Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]]<br /> <br /> [[File:Figure_1.jpeg‎ ]]<br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169254 2014-05-17T06:40:51Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]][[File:Figure_1.jpeg‎ ]]<br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Figure_1.jpeg&diff=169252 2014-05-17T06:38:14Z

<p>Yangjanezhen: uploaded a new version of &amp;quot;File:Figure 1.jpeg&amp;quot;</p> <hr /> <div>Grain-filling and sugar content of gif1 mutant</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169250 2014-05-17T06:35:28Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]][[File:c.jpg]]<br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169248 2014-05-17T06:33:09Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]][[File:c]]<br /> <br /> '''Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.'''<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:B.jpg&diff=169246 2014-05-17T06:32:08Z

<p>Yangjanezhen: </p> <hr /> <div></div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169243 2014-05-17T06:30:33Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]][[File:b.jpg]]<br /> <br /> Figure 1 Grain-filling and sugar content of gif1 mutant VS. Wild-type rice.<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169241 2014-05-17T06:29:27Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> [[File:a.jpg]]<br /> <br /> Figure 1 Grain-filling and sugar content of gif1 mutant<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:A.jpg&diff=169240 2014-05-17T06:28:01Z

<p>Yangjanezhen: </p> <hr /> <div></div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169239 2014-05-17T06:27:35Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].[[File:a.jpg]]<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169231 2014-05-17T06:20:57Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> <br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169230 2014-05-17T06:20:26Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> '''''GIF1'':''' ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> '''''OsCIN1'':''' ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169228 2014-05-17T06:19:59Z

<p>Yangjanezhen: /* Expression */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> 4. The mapping experiment made by ''Wang et al.'' revealed that the wild rice ''GIF1'' is most likely to be the gene that decreases grain weight in the introgression lines. The further analyzed the effect of cultivated alleles on grain-filling using three introgression lines in a recurrent Huajingxian 74 (indica) background with two japonica alleles and one indica allele with distinct origins (in total, two japonica alleles and two indica alleles). It could be proved that these introgression lines showed no difference in grain weight, suggesting that the cultivated rice alleles of indica and japonica have the same effect on grain-filling.<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169226 2014-05-17T06:16:57Z

<p>Yangjanezhen: /* Expression */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> 3.Real-time PCR quantitatively by ''Wang et al.''confirmed expression levels of the wild and cultivated alleles.Similarly elevated expression of wild rice ''GIF1'' was found in other tissues of the introgression lines (data not shown). These results strongly suggest that ''GIF1'' is a domestication gene and that the restricted expression pattern of the cultivated ''GIF1'' gene was caused by nucleotide changes in its promoter during rice domestication [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Figure_1.jpeg&diff=169224 2014-05-17T06:09:27Z

<p>Yangjanezhen: Grain-filling and sugar content of gif1 mutant</p> <hr /> <div>Grain-filling and sugar content of gif1 mutant</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169223 2014-05-17T06:06:28Z

<p>Yangjanezhen: /* Function */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].The ''GIF1'' gene is responsible for controlling Sucrose Enzyme (enzyme) activity which is located in the cell wall. the ''GIF1''could converse sucrose to starch material for manufacturing.The Sucrose Enzyme play an important role in starch formation. If the Sucrose Enzyme is inactive, rice plants might not make full edible grain.<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169220 2014-05-17T05:58:56Z

<p>Yangjanezhen: /* References */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> [5]Lu F, Ammiraju JS, Sanyal A, Zhang S, Song R, Chen J, Li G, Sui Y, Song X,Cheng Z, de Oliveira AC, Bennetzen JL, Jackson SA, Wing RA, Chen M: Comparative sequence analysis of MONOCULM1-orthologous regions in 14 Oryza genomes. Proc Natl Acad Sci USA 2009, 106:2071-2076.<br /> <br /> [6]Taylor JS, Raes J: Duplication and divergence: the evolution of new genes and old ideas. Annu Rev Genet 2004, 38:615-643.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169219 2014-05-17T05:58:01Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development[5][6], which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169214 2014-05-17T05:21:33Z

<p>Yangjanezhen: /* Expression */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> 1. ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> 2. ''Wang et al.'' used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169213 2014-05-17T05:21:13Z

<p>Yangjanezhen: /* Expression */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> <br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169212 2014-05-17T05:20:55Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of ''gif1'' mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169211 2014-05-17T05:20:29Z

<p>Yangjanezhen: /* Grain-filling and sugar content of gif1 mutant VS. Wild-type rice. */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> '''Grain-filling and sugar content of gif1 mutant:''' The mutant was morphologically normal, with normal seed setting. It showed slower grain-filling than wild-type rice [2].<br /> <br /> '''Wild-type rice:''' The gif1 mutant also showed markedly more grain chalkiness as a result of abnormally developed and loosely packed starch granules [2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169210 2014-05-17T05:19:30Z

<p>Yangjanezhen: /* Annotated Information */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Grain-filling and sugar content of ''gif1'' mutant VS. Wild-type rice.===<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169209 2014-05-17T05:16:49Z

<p>Yangjanezhen: /* References */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> <br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169208 2014-05-17T05:16:27Z

<p>Yangjanezhen: /* References */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108<br /> .<br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> <br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> <br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169207 2014-05-17T05:16:11Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108.<br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169206 2014-05-17T05:15:49Z

<p>Yangjanezhen: /* Labs working on this gene */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> Please input evolution information here.<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> <br /> 2. China National Rice Research Institute.<br /> <br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> <br /> 4. School of Life Sciences, Fudan University.<br /> <br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania.<br /> <br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108.<br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169205 2014-05-17T05:15:28Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> Please input evolution information here.<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> <br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> 2. China National Rice Research Institute.<br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> 4. School of Life Sciences, Fudan University.<br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania<br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108.<br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169204 2014-05-17T05:15:05Z

<p>Yangjanezhen: /* Knowledge Extension */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> Please input evolution information here.<br /> <br /> 1. Grain filling is the process of increasing the weight of every grain of Rice. The grain filling is also the aim which proposed by human. ''Wang et al.'' made a research of history of this gene, and proved that its promoter region chose to clean in the process of domestication of rice just as the expectation of people[2]. More researches would concentrate this area which would be helpful in using this gene.<br /> 2. There is found that ''GIF1'' and ''OsCIN1'' is a pair of duplication which experienced sub-functionalization implies that selection could act independently on each duplicate towards different functional specificity and provided a vivid example for evolution of genetic novelties in a model crop[1]. Differential biological functions of ''GIF1'' and ''OsCIN1'':<br /> ''GIF1'': ''GIF1'' is mainly expressed in seed vascular tissues and controls sucrose unloading for starch synthesis at the early grain-filling stage[3]. Overexpression of the ''GIF1'' gene produced plants with marked defects both in grainfilling and development, indicating that over-activity of the ''GIF1'' enzyme disrupts sugar homeostasis, a process important to normal grain and plant development. <br /> ''OsCIN1'': ''OsCIN1'' has lower CWI activity compared to ''GIF1'' in the transgenic plants. Consistent with this, no obvious phenotype was observed in CIN1-OE plants except pre-harvest sprouting. Interestingly, ''OsCIN1'' might be involved in pathogen defense and stress response[4]. It has been reported that sugars interact with signaling pathways mediated by phytohormones such as GA and ABA during seed germination and seedling development, which are also involved in stress responses[1].<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> 2. China National Rice Research Institute.<br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> 4. School of Life Sciences, Fudan University.<br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania<br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108.<br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169203 2014-05-17T05:12:40Z

<p>Yangjanezhen: /* Annotated Information */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Knowledge Extension===<br /> Please input evolution information here.<br /> <br /> You can also add sub-section(s) at will.<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> 2. China National Rice Research Institute.<br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> 4. School of Life Sciences, Fudan University.<br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania<br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108.<br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169202 2014-05-17T05:11:09Z

<p>Yangjanezhen: /* Expression */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> ''Wang et al''. investigate the site of ''GIF1'' action using a pGIF1- β –glucuronidase (GUS) reporter transgene (pGIF1-GUS). GUS activity was mainly detected in growing roots, the node and the rapidly elongating zone of the internode, similar to its transcript accumulation. Particularly during early grain-filling, strong GUS activity was observed in the ovular vascular trace end of the grain at 3 and 5 DAP. It is proposed that propose that the restricted expression pattern of the GIF1 gene in the ovular vascular trace is the key to increased grain weight. Consistent with our interpretation, transgenic rice plants that ectopically expressed the cultivated ''GIF1'' gene from the rice ''Waxy'' promoter also had smaller grains [2].<br /> An extensive microarray survey of gene expression indicates that many genes encoding proteins involved in sugar and energy metabolism have higher expression levels in O. rufipogon than in cultivated rice. The restricted expression pattern of ''GIF1'' in the vascular bundle should facilitate sucrose unloading favoring grain-filling, whereas the wild rice ''GIF1'' allele might promote energy metabolism [2].<br /> Wang et al. used microarray analysis to examine the regulation of genes involved in sugar metabolis and proposed that sucrose partitioning is altered by the gif1 mutation, leading to lower sucrose levels in the gif1 grain, as similarly reported for carrot [2].<br /> <br /> ===Evolution===<br /> Please input evolution information here.<br /> <br /> You can also add sub-section(s) at will.<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> 2. China National Rice Research Institute.<br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> 4. School of Life Sciences, Fudan University.<br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania<br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108.<br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169201 2014-05-17T05:08:13Z

<p>Yangjanezhen: /* Labs working on this gene */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> Please input expression information here.<br /> <br /> ===Evolution===<br /> Please input evolution information here.<br /> <br /> You can also add sub-section(s) at will.<br /> <br /> ==Labs working on this gene==<br /> 1. Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.<br /> 2. China National Rice Research Institute.<br /> 3. Zhejiang Academy of Agricultural Sciences.<br /> 4. School of Life Sciences, Fudan University.<br /> 5. Department of Biology and the Huck Institutes of Life Sciences, Pennsylvania State University, University Park, Pennsylvania<br /> 6. College of Agriculture, South China Agricultural University.<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108.<br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os04g0413500&diff=169200 2014-05-17T05:07:30Z

<p>Yangjanezhen: /* References */</p> <hr /> <div>Please input one-sentence summary here.<br /> <br /> ==Annotated Information==<br /> ===Function===<br /> '''''GIF1'' ((grain incomplete filling 1))''' plays an important role in crop cultivation which controlling crop grain-filling remain elusive. The cultivated ''GIF1'' gene shows a restricted expression pattern during grain-filling compared to the wild rice allele. Fine mapping with introgression lines revealed that the wild rice ''GIF1'' is responsible for grain weight reduction[2]. The overexpression of ''GIF1'' driven by its native promoter increased grain production. It is suggested that ''GIF1'' is a potential domestication gene and that such a domestication-selected gene can be used for further crop improvement[2]. ''GIF'' protein could control rice tissues, including the number of the starch grain. The ''GIF1'' gene in modern cultivated rice is specifically expressed in strict organization which good for grain filling, increasing the yield of rice[2].<br /> <br /> ===Expression===<br /> Please input expression information here.<br /> <br /> ===Evolution===<br /> Please input evolution information here.<br /> <br /> You can also add sub-section(s) at will.<br /> <br /> ==Labs working on this gene==<br /> '''Localization:'''<br /> <br /> ==References==<br /> [1] Wang E., Xu X., Zhang L., et al. Duplication and independent selection of cell-wall invertase genes GIF1 and OsCIN1 during rice evolution and domestication. BMC Evolutionary Biology 2010, 10: 108.<br /> [2] Wang E., Wang JJ., Zhu XD., et al. Control of rice grain-filling and yield by a gene with a potential signature of domestication. Nature Genetics 2008, 40(11): 1370-1374.<br /> [3] Wang ET, Wang JJ, Zhu XD, Hao W, Wang LY, Li Q, Zhang LX, He W, Lu BR, Lin HX, Ma H, Zhang GQ, He ZH: Control of rice grain-filling and yield by a gene with potential signature of domestication. Nat Genet 2008, 40:1270-1274.<br /> [4] Cho JI, Lee SK, Ko S, Kim HK, Jun SH, Lee YH, Bhoo SH, Lee KW, An G, Hahn TR, Jeon JS: Molecular cloning and expression analysis of the cell wall invertase gene family in rice (Oryza sativa L). Plant Cell Rep 2005, 24:225-236.<br /> <br /> ==Structured Information==<br /> {{JaponicaGene|<br /> GeneName = Os04g0413500|<br /> Description = Similar to Cell wall invertase 2|<br /> Version = NM_001059283.1 GI:115458295 GeneID:4335790|<br /> Length = 4751 bp|<br /> Definition = Oryza sativa Japonica Group Os04g0413500, complete gene.|<br /> Source = Oryza sativa Japonica Group<br /> <br /> ORGANISM Oryza sativa Japonica Group<br /> Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;<br /> Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP<br /> clade; Ehrhartoideae; Oryzeae; Oryza.<br /> |<br /> Chromosome = [[:category:Japonica Chromosome 4|Chromosome 4]]|<br /> AP = Chromosome 4:20444480..20449230|<br /> CDS = 20444531..20444735,20445379..20445387,20445875..20446755,20447145..20447306,20448058..20448317&lt;br&gt;,20448426..20448516,20448803..20448991|<br /> GCID = &lt;gbrowseImage1&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage1&gt;|<br /> GSID = &lt;gbrowseImage2&gt;<br /> name=NC_008397:20444480..20449230<br /> source=RiceChromosome04<br /> preset=GeneLocation<br /> &lt;/gbrowseImage2&gt;|<br /> CDNA = &lt;cdnaseq&gt;atgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatgatccgaacgcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctgatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaa&lt;/cdnaseq&gt;|<br /> AA = &lt;aaseq&gt;MGVLGSRVAWAWLVQLLLLQQLAGASHVVYDDLELQAAATTADG VPPSIVDSELRTGYHFQPPKNWINDPNAPMYYKGWYHLFYQYNPKGAVWGNIVWAHSV SRDLINWVALKPAIEPSIRADKYGCWSGSATMMADGTPVIMYTGVNRPDVNYQVQNVA LPRNGSDPLLREWVKPGHNPVIVPEGGINATQFRDPTTAWRGADGHWRLLVGSLAGQS RGVAYVYRSRDFRRWTRAAQPLHSAPTGMWECPDFYPVTADGRREGVDTSSAVVDAAA SARVKYVLKNSLDLRRYDYYTVGTYDRKAERYVPDDPAGDEHHIRYDYGNFYASKTFY DPAKRRRILWGWANESDTAADDVAKGWAGIQAIPRKVWLDPSGKQLLQWPIEEVERLR GKWPVILKDRVVKPGEHVEVTGLQTAQADVEVSFEVGSLEAAERLDPAMAYDAQRLCS ARGADARGGVGPFGLWVLASAGLEEKTAVFFRVFRPAARGGGAGKPVVLMCTDPTKSS RNPNMYQPTFAGFVDTDITNGKISLRSLIDRSVVESFGAGGKACILSRVYPSLAIGKN ARLYVFNNGKAEIKVSQLTAWEMKKPVMMNGA&lt;/aaseq&gt;|<br /> DNA = &lt;dnaseqindica&gt;52..256#900..908#1396..2276#2666..2827#3579..3838#3947..4037#4324..4512#atcctcctctcctcttctcgctctcacttcttgtgcccaagtgtgagagcaatgggagttcttggtagtagggtcgcttgggcatggctggtccagctgctgctgctccagcagctcgccggagcgtcgcacgtcgtctacgacgacctcgagctgcaggcggctgctaccacagcggacggcgtgccgccgtccatcgtcgactctgagctccggactgggtatcacttccagccacccaagaactggatcaatggtaatgtgaactaactgaaatgttgccaacttgccattgttcatgccagaacgccggtcaggccgtatgatttgcaggtcatagggcaccacttgtggttgtggatactggatagatgagcaaagggaacagagtgctctgttcttgagaattgagacgcagaatcgtgcagagtaactagtacagttttgacgacgttgttgtgtagaacatcacctgaactaaatggctcaacttgagtaatttatagtcagagttgaaaatattgacatcatagtcatatcaaatgtttggcacacaacataaattacggacagtacactaaggcatcagtttttatgtccattttgtcgggtcagctagtagagtcaacgttagcacccacgcggtcacgctgaaagaagtagcttcagaagcatctcacagtaaactactgagagtttgccatctctttttcatgaagctcacacttagtcccttcgaactgttaacagatgtactaccttgttctacttttcttgctaatgattcttgtgacaaggcttagtcctaaccggcaattttcttgtgcaattatttggtgggggtgtgctctgctctacactgtgattgctgctgcgtcatcaacattggaaacccgcagatccgaacggtacgtcgttttcccaccctttataatatatcctgtcacgaatctctgtctactagtagtagtagtagtagtactagaacttttatgccttgcaacttgcaatttcgttgtacgggagaggactgtagttagtgacgcctttcatggtaggattaaaggttcaaagcacattttagcacgaaaatggtaggcgcactgggactccacatgcaggcttgcttgtcgaccgtggggtacctagcccctaccacggctgatgaccacaaagttcagaaaatcttaacttcctctcagaaagggaattagccaaaagttcacctttttctcgtacgaaatgaagcatctatagttctataattaatcgtgagcagtgtagagaaaaatgcaatgtacacgcgcgattaaactgaaatggtaattgatttcaatgtactactaagactgaagatcatttcttgatttggtgaaactgaacgggtgcatgcagcgccgatgtactacaaggggtggtaccatctgttctaccagtacaaccccaagggcgccgtgtgggggaacatcgtgtgggcgcactcagtgtcacgtgacctcatcaactgggtggcgctcaagccggccatcgagcccagcatcagggccgacaagtacggctgctggtcggggtcggcgacgatgatggccgacgggacgccggtgatcatgtacaccggcgtcaaccgccccgacgtcaactaccaggtgcagaacgtggcgctgccgaggaacgggtcggacccgctgctgcgcgagtgggtgaagcccggccacaacccggtgatcgtgcccgagggcggcatcaacgcgacgcagttccgcgacccgaccaccgcgtggcgcggggccgacggccactggcggctgctcgtcggcagcctcgcggggcagtcccgcggcgtggcgtacgtgtaccggagcagggacttccggcggtggacgcgcgcggcgcagccgctgcactcggcgcccacggggatgtgggagtgcccggacttctacccggtcaccgcggacggccgccgcgagggcgtcgacacctcgtccgccgtcgtcgacgccgccgcctcggcgcgcgtcaagtacgtgctcaagaacagcctcgacctgcgccggtacgactactacaccgtcggaacgtacgaccggaaggccgagcggtacgtgccggacgaccccgccggcgacgagcaccacatccgctacgactacggcaacttctacgcctccaagacgttctacgacccggcgaagcgccgccgcatcctctggggatgggccaacgagtccgacaccgccgccgacgacgtggccaagggctgggccggaatccaggtaattaaccgcacgtcctgactgcatacgtgcatgccatttacgtgtccaccatgcatgctgccatcttcagatagtcaatatcaccatatactccctccgttctaaaatgtttaacaccattgactttttagcacatgtttgaccgttcgtcttattaaaaaaatatgaaatatataaaactatatgtatacataaaagtatatttaacaatgaatcaaatgatatgaaaagaacaaataattacttaaattttttgaataagacgaatggtgtcaagtattttgaaaaaagagagtatatcttaaaagtcaaatggaacaacactagcagctcaattttgctggtaatctttgattgaatcgtgtgtttgtgatgtgatgttttaggcgattccgaggaaagtgtggctggacccaagtgggaagcaactgttgcagtggccaatcgaggaggtcgagaggctgagagggaagtggccggtcattctcaaggacagggtggtcaagccaggggaacacgtcgaggtgaccgggctacaaactgcacaggtattcctttttgcatctgtaattctgtaaaactattttttttaccccaaaagggcattcgaataaaactgctcacacatccatggttctgtgcatgacagtagtaattattaataagttatcctgtttgttttgctgtgtcctggaccgatctttatcttatctggcacgcctgaagttgtgtccagtgtgcagtgcccactgaacaccacctactacgtgtgccgtgtcgctttcttctcgtccccttttaccatctcctgcacactttgctcgtacttaactgatctcactgattctctcgtcatccgcgcatgtcacgtacaacttccaggttgcagcgtgattagtgcacatatcactaagacactaaacaacataattagagagatagttaaggagctcaattaatgtgctttgttggtgacgtacgtgagtaggagctgtgatctctgatagcaagtttaatagtatagctaactactggctctaaattatctatagtcaatctaataataaattcatataatagttacctataaacatatactaaataattaatacatggttccacatgtcatacacatatgcatcttaaagtccgtactataatttgctgtaaatctatagcttgttgtttttctctctcctcttttatctcctcgatcgaaatgtgtttatagctggcttatagtgtgctattgtccctggtctgatgaagtgatcatgcattctgtttggtggggtgcaggctgacgtggaggtgagcttcgaggtggggagcctggaggcggcggagcggctggacccggcgatggcgtacgacgcgcagcggctgtgcagcgcgcggggcgccgacgcgaggggcggcgtggggccgttcggcctgtgggtgctcgcgtccgcggggctggaggagaagaccgccgtgttcttcagggtgttcaggccggcggcgcgcggcggcggcgccggcaagcccgtcgtgctcatgtgcaccgaccccaccaagtacgtgcggcttttgcactttatcggtgattgatcgcactacacaataaacaaaatattgccttgactccgtttactgattttttggtatggtgcgtatgcgtgcaggtcatcgcgcaacccgaacatgtaccagccgacgtttgcagggttcgttgacacggacatcaccaacgggaagatatctctgaggagcctggtacgtaataggaccaaattatcgggaaaaaaggaaaatgttgcatgacggtatcccgttcggataaaattatacctcttaaatattgtccgatacctaataaatattaattggctaataaactatttgaatgggatgatatctttgaggtatcgtctgatacctatctgataggtacctcataggtatcacctcgtccgaacgggttactgttttataacattcatctggaaaaggttcataaattgtagaatatgttttgatatcttgtgtctctcttgtgcagatcgacaggtcggttgttgagagcttcggggctggaggaaaggcgtgcatcctgtcgagggtgtacccgtcgctggccatcggcaagaacgcgcgcctttacgttttcaataacgggaaggcggagatcaaggtgtcgcagctcaccgcgtgggagatgaagaagccggtcatgatgaatggagcctaaacaatatttgaaattgagagagatagatgcaatgcatgatgagaactaccttcagtagctagctagatttttgagtttcagcggaaaagaaaaaactgattgcccttaattatgtgctaaatcatgcccccttgtgtaaaatggtttcagtcacacgtgtcgtatgcatatgtaccaaggggacagtttgaatgcatggatgccattaggactaataaagattgatgctagtataaccc&lt;/dnaseqindica&gt;|<br /> Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001059283.1 RefSeq:Os04g0413500]|<br /> }}<br /> [[Category:Genes]]<br /> [[Category:Japonica mRNA]]<br /> [[Category:Oryza Sativa Japonica Group]]<br /> [[Category:Japonica Genes]]<br /> [[Category:Japonica Chromosome 4]]<br /> [[Category:Chromosome 4]]</div>

Yangjanezhen