http://192.168.164.12:81/ricewiki/api.php?action=feedcontributions&feedformat=atom&user=JiafuxiongRiceWiki - User contributions [en]2026-05-08T06:18:59ZUser contributionsMediaWiki 1.30.0https://ngdc.cncb.ac.cn/ricewiki/index.php?title=AY986492&diff=171688AY9864922014-05-24T07:22:27Z<p>Jiafuxiong: /* Labs working on this gene */</p>
<hr />
<div>===Function===<br />
Resistant and susceptible alleles of Xa27 encode identical proteins. However, expression of only the resistant allele occurs when a rice plant is challenged by bacteria harbouring avrXa27, whose product is a nuclear localized type-III effector. Induction of Xa27 occurs only in the immediate vicinity of infected tissue, whereas ectopic expression of Xa27 resulted in resistance to otherwise compatible strains of the pathogen. Thus Xa27 specificity towards incompatible pathogens involves the differential expression of the R gene in the presence of the AvrXa27 effector.<br />
<br />
<br />
===Expression===<br />
The Xa27(t) locus conferred a high level of resistance to 27 strains and moderate resistance to three strains. Resistance of the Xa27(t) gene was developmentally regulated in IRBB27 and showed semidominant or a dosage effect in the cv. CO39 genetic background. As a prelude to cloning Xa27(t), a molecular mapping strategy was employed with a large mapping population consisting of 3,875 gametes<br />
<br />
===Evolution===<br />
Induction of Xa27 occurs only in the immediate vicinity of infected tissue, whereas ectopic expression of Xa27 resulted in resistance to otherwise compatible strains of the pathogen. Thus Xa27 specificity towards incompatible pathogens involves the differential expression of the R gene in the presence of the AvrXa27 effector.<br />
<br />
==Labs working on this gene==<br />
1. Temasek Life Sciences Laboratory, National University of Singapore, Singapore, 117604, Singapore<br />
<br />
2. Rice Research Institute, Anhui Academy of Agricultural Sciences, Hefei, 230031, Anhui, China<br />
<br />
2. Rice Research Institute, Anhui Academy of Agricultural Sciences, Hefei, 230031, Anhui, China<br />
<br />
<br />
==References==<br />
1. Yanchang Luo;Jatinder S. Sangha;Shouhai Wang;Zefu Li;Jianbo Yang;Zhongchao Yin<br />
Marker-assisted breeding of Xa4, Xa21 and Xa27 in the restorer lines of hybrid rice for broad-spectrum and enhanced disease resistance to bacterial blight<br />
Molecular Breeding, 2012, 30(4): 1601-1610<br />
2. Keyu Gu;Bing Yang;Dongsheng Tian;Lifang Wu;Dongjiang Wang;Chellamma Sreekala;Fan Yang;Zhaoqing Chu;Guo-Liang Wang;Frank F. White;Zhongchao Yin<br />
R gene expression induced by a type-III effector triggers disease resistance in rice<br />
Nature, 2005, 435: 1122-1125<br />
3. K.Gu;D.Tian;F.Yang;L.Wu;C.Sreekala;D.Wang;G.-L.Wang;Z.Yin<br />
High-resolution genetic mapping of Xa27(t), a new bacterial blight resistance gene in rice, Oryza sativa L.<br />
Theoretical and Applied Genetics, 2004, 108(5): 800-807</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=AY986492&diff=171686AY9864922014-05-24T07:20:40Z<p>Jiafuxiong: /* Evolution */</p>
<hr />
<div>===Function===<br />
Resistant and susceptible alleles of Xa27 encode identical proteins. However, expression of only the resistant allele occurs when a rice plant is challenged by bacteria harbouring avrXa27, whose product is a nuclear localized type-III effector. Induction of Xa27 occurs only in the immediate vicinity of infected tissue, whereas ectopic expression of Xa27 resulted in resistance to otherwise compatible strains of the pathogen. Thus Xa27 specificity towards incompatible pathogens involves the differential expression of the R gene in the presence of the AvrXa27 effector.<br />
<br />
<br />
===Expression===<br />
The Xa27(t) locus conferred a high level of resistance to 27 strains and moderate resistance to three strains. Resistance of the Xa27(t) gene was developmentally regulated in IRBB27 and showed semidominant or a dosage effect in the cv. CO39 genetic background. As a prelude to cloning Xa27(t), a molecular mapping strategy was employed with a large mapping population consisting of 3,875 gametes<br />
<br />
===Evolution===<br />
Induction of Xa27 occurs only in the immediate vicinity of infected tissue, whereas ectopic expression of Xa27 resulted in resistance to otherwise compatible strains of the pathogen. Thus Xa27 specificity towards incompatible pathogens involves the differential expression of the R gene in the presence of the AvrXa27 effector.<br />
<br />
==Labs working on this gene==<br />
1. Temasek Life Sciences Laboratory, National University of Singapore, Singapore, 117604, Singapore<br />
<br />
2. Rice Research Institute, Anhui Academy of Agricultural Sciences, Hefei, 230031, Anhui, China<br />
<br />
2. Rice Research Institute, Anhui Academy of Agricultural Sciences, Hefei, 230031, Anhui, China</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=AY986492&diff=171684AY9864922014-05-24T07:18:51Z<p>Jiafuxiong: /* Expression */</p>
<hr />
<div>===Function===<br />
Resistant and susceptible alleles of Xa27 encode identical proteins. However, expression of only the resistant allele occurs when a rice plant is challenged by bacteria harbouring avrXa27, whose product is a nuclear localized type-III effector. Induction of Xa27 occurs only in the immediate vicinity of infected tissue, whereas ectopic expression of Xa27 resulted in resistance to otherwise compatible strains of the pathogen. Thus Xa27 specificity towards incompatible pathogens involves the differential expression of the R gene in the presence of the AvrXa27 effector.<br />
<br />
<br />
===Expression===<br />
The Xa27(t) locus conferred a high level of resistance to 27 strains and moderate resistance to three strains. Resistance of the Xa27(t) gene was developmentally regulated in IRBB27 and showed semidominant or a dosage effect in the cv. CO39 genetic background. As a prelude to cloning Xa27(t), a molecular mapping strategy was employed with a large mapping population consisting of 3,875 gametes<br />
<br />
===Evolution===<br />
Induction of Xa27 occurs only in the immediate vicinity of infected tissue, whereas ectopic expression of Xa27 resulted in resistance to otherwise compatible strains of the pathogen. Thus Xa27 specificity towards incompatible pathogens involves the differential expression of the R gene in the presence of the AvrXa27 effector.</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=AY986492&diff=171676AY9864922014-05-24T07:15:33Z<p>Jiafuxiong: /* Function */</p>
<hr />
<div>===Function===<br />
Resistant and susceptible alleles of Xa27 encode identical proteins. However, expression of only the resistant allele occurs when a rice plant is challenged by bacteria harbouring avrXa27, whose product is a nuclear localized type-III effector. Induction of Xa27 occurs only in the immediate vicinity of infected tissue, whereas ectopic expression of Xa27 resulted in resistance to otherwise compatible strains of the pathogen. Thus Xa27 specificity towards incompatible pathogens involves the differential expression of the R gene in the presence of the AvrXa27 effector.<br />
<br />
<br />
===Expression===<br />
The Xa27(t) locus conferred a high level of resistance to 27 strains and moderate resistance to three strains. Resistance of the Xa27(t) gene was developmentally regulated in IRBB27 and showed semidominant or a dosage effect in the cv. CO39 genetic background. As a prelude to cloning Xa27(t), a molecular mapping strategy was employed with a large mapping population consisting of 3,875 gametes</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=AY986492&diff=171673AY9864922014-05-24T07:13:18Z<p>Jiafuxiong: </p>
<hr />
<div>===Function===<br />
Resistant and susceptible alleles of Xa27 encode identical proteins. However, expression of only the resistant allele occurs when a rice plant is challenged by bacteria harbouring avrXa27, whose product is a nuclear localized type-III effector. Induction of Xa27 occurs only in the immediate vicinity of infected tissue, whereas ectopic expression of Xa27 resulted in resistance to otherwise compatible strains of the pathogen. Thus Xa27 specificity towards incompatible pathogens involves the differential expression of the R gene in the presence of the AvrXa27 effector.</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os05g0554400&diff=171659Os05g05544002014-05-24T07:06:13Z<p>Jiafuxiong: /* References */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
In vascular plants, the regulation of stem cell niche determines development of aerial shoot which consists of stems and lateral organs. Intercalary meristem (IM) controls internode elongation in rice and other grasses, however little attention has been paid to the underlying mechanism of stem cell maintenance. Here, we investigated the stem development in rice and showed that the Shortened Uppermost Internode 1 (SUI1) family of genes are pivotal for development of rice stems. We demonstrated that SUI-family genes regulate the development of IM for internode elongation and also the cell expansion of the panicle stem rachis in rice.<br />
<br />
===Expression===<br />
The SUI-family genes encoded base-exchange types of phosphatidylserine synthases (PSSs), which possessed enzymatic activity in a yeast complementary assay. Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired. Furthermore, genome-wide gene expression analysis revealed that overexpression and RNA knockdown of SUI-family genes affected downstream gene expression related to phospholipid metabolic pathways.Moreover, using Ultra-performance liquid chromatography–quadrupole time of flight-mass spectrometry, we analyzed PS contents in different genetic backgrounds of rice and showed that the quantity of very long chain fatty acids PS is affected by transgene of SUI-family genes. Our study reveals a new mechanism conveyed by the SUI1 pathway and provides evidence to link lipid metabolism with plant stem cell maintenance<br />
<br />
===Evolution===<br />
Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired.<br />
<br />
==Labs working on this gene==<br />
1. National Key Laboratory of Plant Molecular Genetics, Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Graduate School of the Chinese Academy of Sciences, Chinese Academy of Sciences, Shanghai, 200032, China.<br />
<br />
2. Department of Cell Biology and Molecular Genetics, University of Maryland, College Park, Maryland, USA.<br />
<br />
==References==<br />
1. Hengfu Yin;Peng Gao;Chengwu Liu;Jun Yang;Zhongchi Liu;Da Luo<br />
SUI-family genes encode phosphatidylserine synthases and regulate stem development in rice<br />
Planta, 2013, 237(1): 15-27<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os05g0554400|<br />
Description = Phosphatidyl serine synthase family protein|<br />
Version = NM_001062804.1 GI:115465338 GeneID:4339554|<br />
Length = 5432 bp|<br />
Definition = Oryza sativa Japonica Group Os05g0554400, 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 5|Chromosome 5]]|<br />
AP = Chromosome 5:27634371..27639802|<br />
CDS = 27634761..27634915,27635631..27635696,27635877..27635936,27636331..27636421,27636799..27636853<br>,27636943..27637022,27637136..27637249,27637332..27637416,27637943..27638034<br>,27638578..27638831,27638928..27639016,27639434..27639561|<br />
GCID = <gbrowseImage1><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttgaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatgggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataa</cdnaseq>|<br />
AA = <aaseq>MEAKQRTRHRDGEERRLVAAADGGAEEYDPWTAWLYKPHTISVL LVGACLLIWASGALDPEGASYHSSATSIKRGVWAMIAVFLAYCTLQAPSTILIRPHPA VWRLVHGLAVVYLVALAFLLFQNRDDARQFMKHLYPDLGVELPERSYGADCRLYVPEN PKNKFINIYTLFDEFVVAHILGWWGKAVMIRNQLLLWVLSIGFELMELTFRHMLPNFN ECWWDSIILDILICNWFGIWAGMHTVRYFDGKTYEWVGLSRQPSIMGKVKRSLSQFTP AQWDKDQWYPFMGPLRFVQVLFLCVVFMTVELNTFFLKFCLWIPPRNPLVVYRLILWW LIAIPTIREYNSYLQNSKPVKKVGAFCWLSLAICIVELLICMKFGHGLFHDPMPTWLI IFWSSVGVALVVFLLAWSWRNHLKYQRKRL</aaseq>|<br />
DNA = <dnaseqindica>391..545#1261..1326#1507..1566#1961..2051#2429..2483#2573..2652#2766..2879#2962..3046#3573..3664#4208..4461#4558..4646#5064..5191#tcatccaacccaagtacccaacccgcgtcgtcatcgtcgtcttcctacttcctcctcctccccaccccacgcacgcgcgtgcggcgccgatcgcggccgacgccgagatttccgcgtgcgcgtggagatagggcacacccgttctctctctccctctctcgggctctgaagtaatccttcgcttctgcttctttcttcttctgcatgtcctgtctgtccccctcgtctcgtctcgtctcgtctcgtctcttgctttcgcctctcctgacctgaccgcgacaatccgtggtggttatatcgcgcaggcgcttcgcttggtttggcgtgttgtttggctgccgcggcagttttctcctgtcacatatcgcagagggttctggaagtgggaacatggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatgtaagtgctcttccacgattaaatttcacaaattcgtttttatttttttttctcgctttgctgcctctgcctgtgacttaagggctaaggctgtaaatttcttggtgggagaactggaaaaaaaggccttgttgtgttggggcaaagtacaattcaacagatgccagggcttctgcctatcaggtgcatcaacagtgtcagagttgaaagcagggcatgtagtactcattgtgatttttttactttctctgaaagaaaaaggtgaaatttttgggtcgggaaatttagtgattttgtgccagcaagttgaggtttctgaatgattgaacgaacatgaaagcatggcagtctggttcagcaaggctagcaaacaaccgagcgtacgagtggctgaggagaatcggaatcatgttcaagaatctcgtgcgaaagcttccctagaacaatcattttttcccatatcatttttagcaggtgcaaattacatgggaagtacattcctctcgtcccttttttttaactgtagaaacggctcaccaagaactttattgttgctattgcttcatgaaaggattaagcatataactttgtgtctgaaacaaccattagctaggctaggctgttgagtggttggttgtgaacttgctggggcgttctccttttcactttctcgtggtgctgtctgatttcatgttcaatcatgttcccgtttcagttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggtaatgaccgaaaaccttttttttttactttactggaaagtgatgcaatcatctaagggaactctggttacttctctactttgattgtgtcttttggacttgagctgttctcctctcaccactgcacaatgattgggagagagtgacactgactcatattttctcactgacactctccaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgtgagttagcccccctcttcttatatgtatttcaaacattggaactatgttagtgcagtggctgtcgttgtcaggcatttttctttaagtagggaaattgaaggttttctgcttcaaagaggtgacccacgtgttactgtatgagtgagaccatatagtggccaattctcttgaaagtgtagggcttattattcgtcaggttgtttttaatggtgacacaaaaattaccttgagggacccaataccaatgccattctcatgctgtttttgtacttgctacttttgtcttctttatctccttgggttcataacaatttgagaacctgtaaatctactgtgcatctctaatatttttgcatgatgatgattcaatgttctggcaatattgtcacaggatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccaggttagttgttactattgaaaaattcatacatcgataaagtaggacaaaaaatgccctttcaataatatcccatgcacgtaaaatgttagaaaatggcgggagatgtctattattcatagggttattttgggaagttcttacaggagcgtgaagtggcaagtatttgtgaaagaaaaaacttgagatccaagcaaatgcaaattgtcttgtcaaaaaaaaaagttggaagtcttgtatccaaactatttgattatcaaaattcagtataaatggcattttttcaagactcttgagcgaggggcctcaactacgtagagatatgctacatcttggatatcttgtactgtaataattcttatttctttctcgttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttggtaatatctttacatcgaaaggatttacactggaaattaaatattgtagaagaaatggtgctgacaaacatttctgtacactaatgcagaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatgtatgatttttcatttgaaccttcctatttcatgctctggtttttgttattattgtagttattatcattgttattaccccatcatatttgacggtttgatatacatataggagacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggaggttagatatggttactcaaccttttgttatcttttacttgttatctctaacaaggtattgtgcttattatgaccttttgcagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtaggacaatcggagacagctgactttcatgttgtatacattcagtgacattgatgatacattttttacatctaaagttattagtaaaacaaagttaggcagattaaaataatatagtgtttttgggtttgcatattttatacagtttgtttggatctaactcttatcaactgaacatgataatatagaaaatgaatagcgatgtgatgtatctgagagttttaagaagaaaacttagacctgatgcacatgcatactgctgacattaaacacttactgtttatgaagtaatataatttatcttcttctatcagttcatgggttgaaagcaatctttctatttcagtaaccagttattgaaagagtacctgcatatgcacgttagggtcaaaagtgacaagtaaatgtgaatggaggaagaacaaatctgccatataagcctcactcttagcagtaggctatggagtgttttatgtgttcagcttcatctaaatattttggctgaaatgctaatattcttattcaggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtatgttaccaaacaaacaaattgtttcttatttgcaaataggttagtacctttttttaggactgttcttttaatcttcattcatcatggcccttaggcctagattttttttttgtacctgctgaattttcctgggctattgtgctttttgtaagaatttcctcatcgattctttcttgagttacgacttacaagagcctcttgctactgctaagtccatgggagcattctataacaatgcagtcgctgagcaaaagtaaatcactttgacttcttgtctgtagtacgccaaacaacatgtgaggttttcccagtgggactgtattgatttctgttgctctgtccaaactctaaactgtcaattgccattattgatacctgacttcataatttattttgttgtataccattctggcattcagtgtgttttatctgattggactatatgcacatttgtgcagttacattctgcttcagactgcatactatagttaggttgaacccatttacagtttaccgaccttcctttacttgcatatgcaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacaggttatcccaatttccctgcacgcccaatagcattgcacattttttacaattttacttaatggcttgctaatatatattttttcatggtcacaccagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatggtgagttactctcttctgacatcatcatcacttgtgaaataattgatctgatttgaaaaattaccttatggtcgcttgattttctcgtgatatatactactccctccggttctataataattaacgttttggacaaagttaaggtcaaacttttataactttgaccatcaataactttaaaaatatttagtttaaagaaactagaacaacatatatagatttgtctttcaaaacactataataaaagtaaacatgtatttatttattgtatatattataatagaaaaataagatcaaaggtatattttgtagaccgtgtcattgtctaaaacatcaattaaaatgaaaccggagggagtagtatatatttggaacattaaatgttaagagtgcctaacttttttgtaatctggatagggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataatggattaatttttcggaagattttcgactctggacccccttcaaacttgtttcttcttcttgataggatgtacatatgtgatgggtgatgatgtaacttaaatgtgatgggtaattatgtaactttaaatcctaggataaagcaattttcagctacatttcacattatgttttacaatagccaattgttgcctcgcaagagggatggctaatttcagattaataagtgaaatattaccatg</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001062804.1 RefSeq:Os05g0554400]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 5]]<br />
[[Category:Chromosome 5]]</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os05g0554400&diff=171658Os05g05544002014-05-24T07:05:33Z<p>Jiafuxiong: /* Labs working on this gene */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
In vascular plants, the regulation of stem cell niche determines development of aerial shoot which consists of stems and lateral organs. Intercalary meristem (IM) controls internode elongation in rice and other grasses, however little attention has been paid to the underlying mechanism of stem cell maintenance. Here, we investigated the stem development in rice and showed that the Shortened Uppermost Internode 1 (SUI1) family of genes are pivotal for development of rice stems. We demonstrated that SUI-family genes regulate the development of IM for internode elongation and also the cell expansion of the panicle stem rachis in rice.<br />
<br />
===Expression===<br />
The SUI-family genes encoded base-exchange types of phosphatidylserine synthases (PSSs), which possessed enzymatic activity in a yeast complementary assay. Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired. Furthermore, genome-wide gene expression analysis revealed that overexpression and RNA knockdown of SUI-family genes affected downstream gene expression related to phospholipid metabolic pathways.Moreover, using Ultra-performance liquid chromatography–quadrupole time of flight-mass spectrometry, we analyzed PS contents in different genetic backgrounds of rice and showed that the quantity of very long chain fatty acids PS is affected by transgene of SUI-family genes. Our study reveals a new mechanism conveyed by the SUI1 pathway and provides evidence to link lipid metabolism with plant stem cell maintenance<br />
<br />
===Evolution===<br />
Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired.<br />
<br />
==Labs working on this gene==<br />
1. National Key Laboratory of Plant Molecular Genetics, Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Graduate School of the Chinese Academy of Sciences, Chinese Academy of Sciences, Shanghai, 200032, China.<br />
<br />
2. Department of Cell Biology and Molecular Genetics, University of Maryland, College Park, Maryland, USA.<br />
<br />
==References==<br />
Please input cited references here.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os05g0554400|<br />
Description = Phosphatidyl serine synthase family protein|<br />
Version = NM_001062804.1 GI:115465338 GeneID:4339554|<br />
Length = 5432 bp|<br />
Definition = Oryza sativa Japonica Group Os05g0554400, 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 5|Chromosome 5]]|<br />
AP = Chromosome 5:27634371..27639802|<br />
CDS = 27634761..27634915,27635631..27635696,27635877..27635936,27636331..27636421,27636799..27636853<br>,27636943..27637022,27637136..27637249,27637332..27637416,27637943..27638034<br>,27638578..27638831,27638928..27639016,27639434..27639561|<br />
GCID = <gbrowseImage1><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttgaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatgggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataa</cdnaseq>|<br />
AA = <aaseq>MEAKQRTRHRDGEERRLVAAADGGAEEYDPWTAWLYKPHTISVL LVGACLLIWASGALDPEGASYHSSATSIKRGVWAMIAVFLAYCTLQAPSTILIRPHPA VWRLVHGLAVVYLVALAFLLFQNRDDARQFMKHLYPDLGVELPERSYGADCRLYVPEN PKNKFINIYTLFDEFVVAHILGWWGKAVMIRNQLLLWVLSIGFELMELTFRHMLPNFN ECWWDSIILDILICNWFGIWAGMHTVRYFDGKTYEWVGLSRQPSIMGKVKRSLSQFTP AQWDKDQWYPFMGPLRFVQVLFLCVVFMTVELNTFFLKFCLWIPPRNPLVVYRLILWW LIAIPTIREYNSYLQNSKPVKKVGAFCWLSLAICIVELLICMKFGHGLFHDPMPTWLI IFWSSVGVALVVFLLAWSWRNHLKYQRKRL</aaseq>|<br />
DNA = <dnaseqindica>391..545#1261..1326#1507..1566#1961..2051#2429..2483#2573..2652#2766..2879#2962..3046#3573..3664#4208..4461#4558..4646#5064..5191#tcatccaacccaagtacccaacccgcgtcgtcatcgtcgtcttcctacttcctcctcctccccaccccacgcacgcgcgtgcggcgccgatcgcggccgacgccgagatttccgcgtgcgcgtggagatagggcacacccgttctctctctccctctctcgggctctgaagtaatccttcgcttctgcttctttcttcttctgcatgtcctgtctgtccccctcgtctcgtctcgtctcgtctcgtctcttgctttcgcctctcctgacctgaccgcgacaatccgtggtggttatatcgcgcaggcgcttcgcttggtttggcgtgttgtttggctgccgcggcagttttctcctgtcacatatcgcagagggttctggaagtgggaacatggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatgtaagtgctcttccacgattaaatttcacaaattcgtttttatttttttttctcgctttgctgcctctgcctgtgacttaagggctaaggctgtaaatttcttggtgggagaactggaaaaaaaggccttgttgtgttggggcaaagtacaattcaacagatgccagggcttctgcctatcaggtgcatcaacagtgtcagagttgaaagcagggcatgtagtactcattgtgatttttttactttctctgaaagaaaaaggtgaaatttttgggtcgggaaatttagtgattttgtgccagcaagttgaggtttctgaatgattgaacgaacatgaaagcatggcagtctggttcagcaaggctagcaaacaaccgagcgtacgagtggctgaggagaatcggaatcatgttcaagaatctcgtgcgaaagcttccctagaacaatcattttttcccatatcatttttagcaggtgcaaattacatgggaagtacattcctctcgtcccttttttttaactgtagaaacggctcaccaagaactttattgttgctattgcttcatgaaaggattaagcatataactttgtgtctgaaacaaccattagctaggctaggctgttgagtggttggttgtgaacttgctggggcgttctccttttcactttctcgtggtgctgtctgatttcatgttcaatcatgttcccgtttcagttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggtaatgaccgaaaaccttttttttttactttactggaaagtgatgcaatcatctaagggaactctggttacttctctactttgattgtgtcttttggacttgagctgttctcctctcaccactgcacaatgattgggagagagtgacactgactcatattttctcactgacactctccaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgtgagttagcccccctcttcttatatgtatttcaaacattggaactatgttagtgcagtggctgtcgttgtcaggcatttttctttaagtagggaaattgaaggttttctgcttcaaagaggtgacccacgtgttactgtatgagtgagaccatatagtggccaattctcttgaaagtgtagggcttattattcgtcaggttgtttttaatggtgacacaaaaattaccttgagggacccaataccaatgccattctcatgctgtttttgtacttgctacttttgtcttctttatctccttgggttcataacaatttgagaacctgtaaatctactgtgcatctctaatatttttgcatgatgatgattcaatgttctggcaatattgtcacaggatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccaggttagttgttactattgaaaaattcatacatcgataaagtaggacaaaaaatgccctttcaataatatcccatgcacgtaaaatgttagaaaatggcgggagatgtctattattcatagggttattttgggaagttcttacaggagcgtgaagtggcaagtatttgtgaaagaaaaaacttgagatccaagcaaatgcaaattgtcttgtcaaaaaaaaaagttggaagtcttgtatccaaactatttgattatcaaaattcagtataaatggcattttttcaagactcttgagcgaggggcctcaactacgtagagatatgctacatcttggatatcttgtactgtaataattcttatttctttctcgttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttggtaatatctttacatcgaaaggatttacactggaaattaaatattgtagaagaaatggtgctgacaaacatttctgtacactaatgcagaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatgtatgatttttcatttgaaccttcctatttcatgctctggtttttgttattattgtagttattatcattgttattaccccatcatatttgacggtttgatatacatataggagacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggaggttagatatggttactcaaccttttgttatcttttacttgttatctctaacaaggtattgtgcttattatgaccttttgcagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtaggacaatcggagacagctgactttcatgttgtatacattcagtgacattgatgatacattttttacatctaaagttattagtaaaacaaagttaggcagattaaaataatatagtgtttttgggtttgcatattttatacagtttgtttggatctaactcttatcaactgaacatgataatatagaaaatgaatagcgatgtgatgtatctgagagttttaagaagaaaacttagacctgatgcacatgcatactgctgacattaaacacttactgtttatgaagtaatataatttatcttcttctatcagttcatgggttgaaagcaatctttctatttcagtaaccagttattgaaagagtacctgcatatgcacgttagggtcaaaagtgacaagtaaatgtgaatggaggaagaacaaatctgccatataagcctcactcttagcagtaggctatggagtgttttatgtgttcagcttcatctaaatattttggctgaaatgctaatattcttattcaggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtatgttaccaaacaaacaaattgtttcttatttgcaaataggttagtacctttttttaggactgttcttttaatcttcattcatcatggcccttaggcctagattttttttttgtacctgctgaattttcctgggctattgtgctttttgtaagaatttcctcatcgattctttcttgagttacgacttacaagagcctcttgctactgctaagtccatgggagcattctataacaatgcagtcgctgagcaaaagtaaatcactttgacttcttgtctgtagtacgccaaacaacatgtgaggttttcccagtgggactgtattgatttctgttgctctgtccaaactctaaactgtcaattgccattattgatacctgacttcataatttattttgttgtataccattctggcattcagtgtgttttatctgattggactatatgcacatttgtgcagttacattctgcttcagactgcatactatagttaggttgaacccatttacagtttaccgaccttcctttacttgcatatgcaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacaggttatcccaatttccctgcacgcccaatagcattgcacattttttacaattttacttaatggcttgctaatatatattttttcatggtcacaccagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatggtgagttactctcttctgacatcatcatcacttgtgaaataattgatctgatttgaaaaattaccttatggtcgcttgattttctcgtgatatatactactccctccggttctataataattaacgttttggacaaagttaaggtcaaacttttataactttgaccatcaataactttaaaaatatttagtttaaagaaactagaacaacatatatagatttgtctttcaaaacactataataaaagtaaacatgtatttatttattgtatatattataatagaaaaataagatcaaaggtatattttgtagaccgtgtcattgtctaaaacatcaattaaaatgaaaccggagggagtagtatatatttggaacattaaatgttaagagtgcctaacttttttgtaatctggatagggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataatggattaatttttcggaagattttcgactctggacccccttcaaacttgtttcttcttcttgataggatgtacatatgtgatgggtgatgatgtaacttaaatgtgatgggtaattatgtaactttaaatcctaggataaagcaattttcagctacatttcacattatgttttacaatagccaattgttgcctcgcaagagggatggctaatttcagattaataagtgaaatattaccatg</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001062804.1 RefSeq:Os05g0554400]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 5]]<br />
[[Category:Chromosome 5]]</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os05g0554400&diff=171657Os05g05544002014-05-24T07:05:15Z<p>Jiafuxiong: /* Labs working on this gene */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
In vascular plants, the regulation of stem cell niche determines development of aerial shoot which consists of stems and lateral organs. Intercalary meristem (IM) controls internode elongation in rice and other grasses, however little attention has been paid to the underlying mechanism of stem cell maintenance. Here, we investigated the stem development in rice and showed that the Shortened Uppermost Internode 1 (SUI1) family of genes are pivotal for development of rice stems. We demonstrated that SUI-family genes regulate the development of IM for internode elongation and also the cell expansion of the panicle stem rachis in rice.<br />
<br />
===Expression===<br />
The SUI-family genes encoded base-exchange types of phosphatidylserine synthases (PSSs), which possessed enzymatic activity in a yeast complementary assay. Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired. Furthermore, genome-wide gene expression analysis revealed that overexpression and RNA knockdown of SUI-family genes affected downstream gene expression related to phospholipid metabolic pathways.Moreover, using Ultra-performance liquid chromatography–quadrupole time of flight-mass spectrometry, we analyzed PS contents in different genetic backgrounds of rice and showed that the quantity of very long chain fatty acids PS is affected by transgene of SUI-family genes. Our study reveals a new mechanism conveyed by the SUI1 pathway and provides evidence to link lipid metabolism with plant stem cell maintenance<br />
<br />
===Evolution===<br />
Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired.<br />
<br />
==Labs working on this gene==<br />
1. National Key Laboratory of Plant Molecular Genetics, Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Graduate School of the Chinese Academy of Sciences, Chinese Academy of Sciences, Shanghai, 200032, China.<br />
2. Department of Cell Biology and Molecular Genetics, University of Maryland, College Park, Maryland, USA.<br />
<br />
==References==<br />
Please input cited references here.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os05g0554400|<br />
Description = Phosphatidyl serine synthase family protein|<br />
Version = NM_001062804.1 GI:115465338 GeneID:4339554|<br />
Length = 5432 bp|<br />
Definition = Oryza sativa Japonica Group Os05g0554400, 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 5|Chromosome 5]]|<br />
AP = Chromosome 5:27634371..27639802|<br />
CDS = 27634761..27634915,27635631..27635696,27635877..27635936,27636331..27636421,27636799..27636853<br>,27636943..27637022,27637136..27637249,27637332..27637416,27637943..27638034<br>,27638578..27638831,27638928..27639016,27639434..27639561|<br />
GCID = <gbrowseImage1><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttgaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatgggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataa</cdnaseq>|<br />
AA = <aaseq>MEAKQRTRHRDGEERRLVAAADGGAEEYDPWTAWLYKPHTISVL LVGACLLIWASGALDPEGASYHSSATSIKRGVWAMIAVFLAYCTLQAPSTILIRPHPA VWRLVHGLAVVYLVALAFLLFQNRDDARQFMKHLYPDLGVELPERSYGADCRLYVPEN PKNKFINIYTLFDEFVVAHILGWWGKAVMIRNQLLLWVLSIGFELMELTFRHMLPNFN ECWWDSIILDILICNWFGIWAGMHTVRYFDGKTYEWVGLSRQPSIMGKVKRSLSQFTP AQWDKDQWYPFMGPLRFVQVLFLCVVFMTVELNTFFLKFCLWIPPRNPLVVYRLILWW LIAIPTIREYNSYLQNSKPVKKVGAFCWLSLAICIVELLICMKFGHGLFHDPMPTWLI IFWSSVGVALVVFLLAWSWRNHLKYQRKRL</aaseq>|<br />
DNA = <dnaseqindica>391..545#1261..1326#1507..1566#1961..2051#2429..2483#2573..2652#2766..2879#2962..3046#3573..3664#4208..4461#4558..4646#5064..5191#tcatccaacccaagtacccaacccgcgtcgtcatcgtcgtcttcctacttcctcctcctccccaccccacgcacgcgcgtgcggcgccgatcgcggccgacgccgagatttccgcgtgcgcgtggagatagggcacacccgttctctctctccctctctcgggctctgaagtaatccttcgcttctgcttctttcttcttctgcatgtcctgtctgtccccctcgtctcgtctcgtctcgtctcgtctcttgctttcgcctctcctgacctgaccgcgacaatccgtggtggttatatcgcgcaggcgcttcgcttggtttggcgtgttgtttggctgccgcggcagttttctcctgtcacatatcgcagagggttctggaagtgggaacatggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatgtaagtgctcttccacgattaaatttcacaaattcgtttttatttttttttctcgctttgctgcctctgcctgtgacttaagggctaaggctgtaaatttcttggtgggagaactggaaaaaaaggccttgttgtgttggggcaaagtacaattcaacagatgccagggcttctgcctatcaggtgcatcaacagtgtcagagttgaaagcagggcatgtagtactcattgtgatttttttactttctctgaaagaaaaaggtgaaatttttgggtcgggaaatttagtgattttgtgccagcaagttgaggtttctgaatgattgaacgaacatgaaagcatggcagtctggttcagcaaggctagcaaacaaccgagcgtacgagtggctgaggagaatcggaatcatgttcaagaatctcgtgcgaaagcttccctagaacaatcattttttcccatatcatttttagcaggtgcaaattacatgggaagtacattcctctcgtcccttttttttaactgtagaaacggctcaccaagaactttattgttgctattgcttcatgaaaggattaagcatataactttgtgtctgaaacaaccattagctaggctaggctgttgagtggttggttgtgaacttgctggggcgttctccttttcactttctcgtggtgctgtctgatttcatgttcaatcatgttcccgtttcagttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggtaatgaccgaaaaccttttttttttactttactggaaagtgatgcaatcatctaagggaactctggttacttctctactttgattgtgtcttttggacttgagctgttctcctctcaccactgcacaatgattgggagagagtgacactgactcatattttctcactgacactctccaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgtgagttagcccccctcttcttatatgtatttcaaacattggaactatgttagtgcagtggctgtcgttgtcaggcatttttctttaagtagggaaattgaaggttttctgcttcaaagaggtgacccacgtgttactgtatgagtgagaccatatagtggccaattctcttgaaagtgtagggcttattattcgtcaggttgtttttaatggtgacacaaaaattaccttgagggacccaataccaatgccattctcatgctgtttttgtacttgctacttttgtcttctttatctccttgggttcataacaatttgagaacctgtaaatctactgtgcatctctaatatttttgcatgatgatgattcaatgttctggcaatattgtcacaggatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccaggttagttgttactattgaaaaattcatacatcgataaagtaggacaaaaaatgccctttcaataatatcccatgcacgtaaaatgttagaaaatggcgggagatgtctattattcatagggttattttgggaagttcttacaggagcgtgaagtggcaagtatttgtgaaagaaaaaacttgagatccaagcaaatgcaaattgtcttgtcaaaaaaaaaagttggaagtcttgtatccaaactatttgattatcaaaattcagtataaatggcattttttcaagactcttgagcgaggggcctcaactacgtagagatatgctacatcttggatatcttgtactgtaataattcttatttctttctcgttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttggtaatatctttacatcgaaaggatttacactggaaattaaatattgtagaagaaatggtgctgacaaacatttctgtacactaatgcagaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatgtatgatttttcatttgaaccttcctatttcatgctctggtttttgttattattgtagttattatcattgttattaccccatcatatttgacggtttgatatacatataggagacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggaggttagatatggttactcaaccttttgttatcttttacttgttatctctaacaaggtattgtgcttattatgaccttttgcagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtaggacaatcggagacagctgactttcatgttgtatacattcagtgacattgatgatacattttttacatctaaagttattagtaaaacaaagttaggcagattaaaataatatagtgtttttgggtttgcatattttatacagtttgtttggatctaactcttatcaactgaacatgataatatagaaaatgaatagcgatgtgatgtatctgagagttttaagaagaaaacttagacctgatgcacatgcatactgctgacattaaacacttactgtttatgaagtaatataatttatcttcttctatcagttcatgggttgaaagcaatctttctatttcagtaaccagttattgaaagagtacctgcatatgcacgttagggtcaaaagtgacaagtaaatgtgaatggaggaagaacaaatctgccatataagcctcactcttagcagtaggctatggagtgttttatgtgttcagcttcatctaaatattttggctgaaatgctaatattcttattcaggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtatgttaccaaacaaacaaattgtttcttatttgcaaataggttagtacctttttttaggactgttcttttaatcttcattcatcatggcccttaggcctagattttttttttgtacctgctgaattttcctgggctattgtgctttttgtaagaatttcctcatcgattctttcttgagttacgacttacaagagcctcttgctactgctaagtccatgggagcattctataacaatgcagtcgctgagcaaaagtaaatcactttgacttcttgtctgtagtacgccaaacaacatgtgaggttttcccagtgggactgtattgatttctgttgctctgtccaaactctaaactgtcaattgccattattgatacctgacttcataatttattttgttgtataccattctggcattcagtgtgttttatctgattggactatatgcacatttgtgcagttacattctgcttcagactgcatactatagttaggttgaacccatttacagtttaccgaccttcctttacttgcatatgcaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacaggttatcccaatttccctgcacgcccaatagcattgcacattttttacaattttacttaatggcttgctaatatatattttttcatggtcacaccagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatggtgagttactctcttctgacatcatcatcacttgtgaaataattgatctgatttgaaaaattaccttatggtcgcttgattttctcgtgatatatactactccctccggttctataataattaacgttttggacaaagttaaggtcaaacttttataactttgaccatcaataactttaaaaatatttagtttaaagaaactagaacaacatatatagatttgtctttcaaaacactataataaaagtaaacatgtatttatttattgtatatattataatagaaaaataagatcaaaggtatattttgtagaccgtgtcattgtctaaaacatcaattaaaatgaaaccggagggagtagtatatatttggaacattaaatgttaagagtgcctaacttttttgtaatctggatagggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataatggattaatttttcggaagattttcgactctggacccccttcaaacttgtttcttcttcttgataggatgtacatatgtgatgggtgatgatgtaacttaaatgtgatgggtaattatgtaactttaaatcctaggataaagcaattttcagctacatttcacattatgttttacaatagccaattgttgcctcgcaagagggatggctaatttcagattaataagtgaaatattaccatg</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001062804.1 RefSeq:Os05g0554400]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 5]]<br />
[[Category:Chromosome 5]]</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os05g0554400&diff=171656Os05g05544002014-05-24T07:03:45Z<p>Jiafuxiong: /* Expression */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
In vascular plants, the regulation of stem cell niche determines development of aerial shoot which consists of stems and lateral organs. Intercalary meristem (IM) controls internode elongation in rice and other grasses, however little attention has been paid to the underlying mechanism of stem cell maintenance. Here, we investigated the stem development in rice and showed that the Shortened Uppermost Internode 1 (SUI1) family of genes are pivotal for development of rice stems. We demonstrated that SUI-family genes regulate the development of IM for internode elongation and also the cell expansion of the panicle stem rachis in rice.<br />
<br />
===Expression===<br />
The SUI-family genes encoded base-exchange types of phosphatidylserine synthases (PSSs), which possessed enzymatic activity in a yeast complementary assay. Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired. Furthermore, genome-wide gene expression analysis revealed that overexpression and RNA knockdown of SUI-family genes affected downstream gene expression related to phospholipid metabolic pathways.Moreover, using Ultra-performance liquid chromatography–quadrupole time of flight-mass spectrometry, we analyzed PS contents in different genetic backgrounds of rice and showed that the quantity of very long chain fatty acids PS is affected by transgene of SUI-family genes. Our study reveals a new mechanism conveyed by the SUI1 pathway and provides evidence to link lipid metabolism with plant stem cell maintenance<br />
<br />
===Evolution===<br />
Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired.<br />
<br />
==Labs working on this gene==<br />
Please input related labs here.<br />
<br />
==References==<br />
Please input cited references here.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os05g0554400|<br />
Description = Phosphatidyl serine synthase family protein|<br />
Version = NM_001062804.1 GI:115465338 GeneID:4339554|<br />
Length = 5432 bp|<br />
Definition = Oryza sativa Japonica Group Os05g0554400, 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 5|Chromosome 5]]|<br />
AP = Chromosome 5:27634371..27639802|<br />
CDS = 27634761..27634915,27635631..27635696,27635877..27635936,27636331..27636421,27636799..27636853<br>,27636943..27637022,27637136..27637249,27637332..27637416,27637943..27638034<br>,27638578..27638831,27638928..27639016,27639434..27639561|<br />
GCID = <gbrowseImage1><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttgaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatgggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataa</cdnaseq>|<br />
AA = <aaseq>MEAKQRTRHRDGEERRLVAAADGGAEEYDPWTAWLYKPHTISVL LVGACLLIWASGALDPEGASYHSSATSIKRGVWAMIAVFLAYCTLQAPSTILIRPHPA VWRLVHGLAVVYLVALAFLLFQNRDDARQFMKHLYPDLGVELPERSYGADCRLYVPEN PKNKFINIYTLFDEFVVAHILGWWGKAVMIRNQLLLWVLSIGFELMELTFRHMLPNFN ECWWDSIILDILICNWFGIWAGMHTVRYFDGKTYEWVGLSRQPSIMGKVKRSLSQFTP AQWDKDQWYPFMGPLRFVQVLFLCVVFMTVELNTFFLKFCLWIPPRNPLVVYRLILWW LIAIPTIREYNSYLQNSKPVKKVGAFCWLSLAICIVELLICMKFGHGLFHDPMPTWLI IFWSSVGVALVVFLLAWSWRNHLKYQRKRL</aaseq>|<br />
DNA = <dnaseqindica>391..545#1261..1326#1507..1566#1961..2051#2429..2483#2573..2652#2766..2879#2962..3046#3573..3664#4208..4461#4558..4646#5064..5191#tcatccaacccaagtacccaacccgcgtcgtcatcgtcgtcttcctacttcctcctcctccccaccccacgcacgcgcgtgcggcgccgatcgcggccgacgccgagatttccgcgtgcgcgtggagatagggcacacccgttctctctctccctctctcgggctctgaagtaatccttcgcttctgcttctttcttcttctgcatgtcctgtctgtccccctcgtctcgtctcgtctcgtctcgtctcttgctttcgcctctcctgacctgaccgcgacaatccgtggtggttatatcgcgcaggcgcttcgcttggtttggcgtgttgtttggctgccgcggcagttttctcctgtcacatatcgcagagggttctggaagtgggaacatggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatgtaagtgctcttccacgattaaatttcacaaattcgtttttatttttttttctcgctttgctgcctctgcctgtgacttaagggctaaggctgtaaatttcttggtgggagaactggaaaaaaaggccttgttgtgttggggcaaagtacaattcaacagatgccagggcttctgcctatcaggtgcatcaacagtgtcagagttgaaagcagggcatgtagtactcattgtgatttttttactttctctgaaagaaaaaggtgaaatttttgggtcgggaaatttagtgattttgtgccagcaagttgaggtttctgaatgattgaacgaacatgaaagcatggcagtctggttcagcaaggctagcaaacaaccgagcgtacgagtggctgaggagaatcggaatcatgttcaagaatctcgtgcgaaagcttccctagaacaatcattttttcccatatcatttttagcaggtgcaaattacatgggaagtacattcctctcgtcccttttttttaactgtagaaacggctcaccaagaactttattgttgctattgcttcatgaaaggattaagcatataactttgtgtctgaaacaaccattagctaggctaggctgttgagtggttggttgtgaacttgctggggcgttctccttttcactttctcgtggtgctgtctgatttcatgttcaatcatgttcccgtttcagttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggtaatgaccgaaaaccttttttttttactttactggaaagtgatgcaatcatctaagggaactctggttacttctctactttgattgtgtcttttggacttgagctgttctcctctcaccactgcacaatgattgggagagagtgacactgactcatattttctcactgacactctccaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgtgagttagcccccctcttcttatatgtatttcaaacattggaactatgttagtgcagtggctgtcgttgtcaggcatttttctttaagtagggaaattgaaggttttctgcttcaaagaggtgacccacgtgttactgtatgagtgagaccatatagtggccaattctcttgaaagtgtagggcttattattcgtcaggttgtttttaatggtgacacaaaaattaccttgagggacccaataccaatgccattctcatgctgtttttgtacttgctacttttgtcttctttatctccttgggttcataacaatttgagaacctgtaaatctactgtgcatctctaatatttttgcatgatgatgattcaatgttctggcaatattgtcacaggatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccaggttagttgttactattgaaaaattcatacatcgataaagtaggacaaaaaatgccctttcaataatatcccatgcacgtaaaatgttagaaaatggcgggagatgtctattattcatagggttattttgggaagttcttacaggagcgtgaagtggcaagtatttgtgaaagaaaaaacttgagatccaagcaaatgcaaattgtcttgtcaaaaaaaaaagttggaagtcttgtatccaaactatttgattatcaaaattcagtataaatggcattttttcaagactcttgagcgaggggcctcaactacgtagagatatgctacatcttggatatcttgtactgtaataattcttatttctttctcgttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttggtaatatctttacatcgaaaggatttacactggaaattaaatattgtagaagaaatggtgctgacaaacatttctgtacactaatgcagaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatgtatgatttttcatttgaaccttcctatttcatgctctggtttttgttattattgtagttattatcattgttattaccccatcatatttgacggtttgatatacatataggagacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggaggttagatatggttactcaaccttttgttatcttttacttgttatctctaacaaggtattgtgcttattatgaccttttgcagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtaggacaatcggagacagctgactttcatgttgtatacattcagtgacattgatgatacattttttacatctaaagttattagtaaaacaaagttaggcagattaaaataatatagtgtttttgggtttgcatattttatacagtttgtttggatctaactcttatcaactgaacatgataatatagaaaatgaatagcgatgtgatgtatctgagagttttaagaagaaaacttagacctgatgcacatgcatactgctgacattaaacacttactgtttatgaagtaatataatttatcttcttctatcagttcatgggttgaaagcaatctttctatttcagtaaccagttattgaaagagtacctgcatatgcacgttagggtcaaaagtgacaagtaaatgtgaatggaggaagaacaaatctgccatataagcctcactcttagcagtaggctatggagtgttttatgtgttcagcttcatctaaatattttggctgaaatgctaatattcttattcaggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtatgttaccaaacaaacaaattgtttcttatttgcaaataggttagtacctttttttaggactgttcttttaatcttcattcatcatggcccttaggcctagattttttttttgtacctgctgaattttcctgggctattgtgctttttgtaagaatttcctcatcgattctttcttgagttacgacttacaagagcctcttgctactgctaagtccatgggagcattctataacaatgcagtcgctgagcaaaagtaaatcactttgacttcttgtctgtagtacgccaaacaacatgtgaggttttcccagtgggactgtattgatttctgttgctctgtccaaactctaaactgtcaattgccattattgatacctgacttcataatttattttgttgtataccattctggcattcagtgtgttttatctgattggactatatgcacatttgtgcagttacattctgcttcagactgcatactatagttaggttgaacccatttacagtttaccgaccttcctttacttgcatatgcaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacaggttatcccaatttccctgcacgcccaatagcattgcacattttttacaattttacttaatggcttgctaatatatattttttcatggtcacaccagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatggtgagttactctcttctgacatcatcatcacttgtgaaataattgatctgatttgaaaaattaccttatggtcgcttgattttctcgtgatatatactactccctccggttctataataattaacgttttggacaaagttaaggtcaaacttttataactttgaccatcaataactttaaaaatatttagtttaaagaaactagaacaacatatatagatttgtctttcaaaacactataataaaagtaaacatgtatttatttattgtatatattataatagaaaaataagatcaaaggtatattttgtagaccgtgtcattgtctaaaacatcaattaaaatgaaaccggagggagtagtatatatttggaacattaaatgttaagagtgcctaacttttttgtaatctggatagggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataatggattaatttttcggaagattttcgactctggacccccttcaaacttgtttcttcttcttgataggatgtacatatgtgatgggtgatgatgtaacttaaatgtgatgggtaattatgtaactttaaatcctaggataaagcaattttcagctacatttcacattatgttttacaatagccaattgttgcctcgcaagagggatggctaatttcagattaataagtgaaatattaccatg</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001062804.1 RefSeq:Os05g0554400]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 5]]<br />
[[Category:Chromosome 5]]</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os05g0554400&diff=171655Os05g05544002014-05-24T07:02:46Z<p>Jiafuxiong: /* Evolution */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
In vascular plants, the regulation of stem cell niche determines development of aerial shoot which consists of stems and lateral organs. Intercalary meristem (IM) controls internode elongation in rice and other grasses, however little attention has been paid to the underlying mechanism of stem cell maintenance. Here, we investigated the stem development in rice and showed that the Shortened Uppermost Internode 1 (SUI1) family of genes are pivotal for development of rice stems. We demonstrated that SUI-family genes regulate the development of IM for internode elongation and also the cell expansion of the panicle stem rachis in rice.<br />
<br />
===Expression===<br />
The SUI-family genes encoded base-exchange types of phosphatidylserine synthases (PSSs), which possessed enzymatic activity in a yeast complementary assay. Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired. Furthermore, genome-wide gene expression analysis revealed that overexpression and RNA knockdown of SUI-family genes affected downstream gene expression related to phospholipid metabolic pathways.<br />
<br />
===Evolution===<br />
Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired.<br />
<br />
==Labs working on this gene==<br />
Please input related labs here.<br />
<br />
==References==<br />
Please input cited references here.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os05g0554400|<br />
Description = Phosphatidyl serine synthase family protein|<br />
Version = NM_001062804.1 GI:115465338 GeneID:4339554|<br />
Length = 5432 bp|<br />
Definition = Oryza sativa Japonica Group Os05g0554400, 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 5|Chromosome 5]]|<br />
AP = Chromosome 5:27634371..27639802|<br />
CDS = 27634761..27634915,27635631..27635696,27635877..27635936,27636331..27636421,27636799..27636853<br>,27636943..27637022,27637136..27637249,27637332..27637416,27637943..27638034<br>,27638578..27638831,27638928..27639016,27639434..27639561|<br />
GCID = <gbrowseImage1><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttgaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatgggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataa</cdnaseq>|<br />
AA = <aaseq>MEAKQRTRHRDGEERRLVAAADGGAEEYDPWTAWLYKPHTISVL LVGACLLIWASGALDPEGASYHSSATSIKRGVWAMIAVFLAYCTLQAPSTILIRPHPA VWRLVHGLAVVYLVALAFLLFQNRDDARQFMKHLYPDLGVELPERSYGADCRLYVPEN PKNKFINIYTLFDEFVVAHILGWWGKAVMIRNQLLLWVLSIGFELMELTFRHMLPNFN ECWWDSIILDILICNWFGIWAGMHTVRYFDGKTYEWVGLSRQPSIMGKVKRSLSQFTP AQWDKDQWYPFMGPLRFVQVLFLCVVFMTVELNTFFLKFCLWIPPRNPLVVYRLILWW LIAIPTIREYNSYLQNSKPVKKVGAFCWLSLAICIVELLICMKFGHGLFHDPMPTWLI IFWSSVGVALVVFLLAWSWRNHLKYQRKRL</aaseq>|<br />
DNA = <dnaseqindica>391..545#1261..1326#1507..1566#1961..2051#2429..2483#2573..2652#2766..2879#2962..3046#3573..3664#4208..4461#4558..4646#5064..5191#tcatccaacccaagtacccaacccgcgtcgtcatcgtcgtcttcctacttcctcctcctccccaccccacgcacgcgcgtgcggcgccgatcgcggccgacgccgagatttccgcgtgcgcgtggagatagggcacacccgttctctctctccctctctcgggctctgaagtaatccttcgcttctgcttctttcttcttctgcatgtcctgtctgtccccctcgtctcgtctcgtctcgtctcgtctcttgctttcgcctctcctgacctgaccgcgacaatccgtggtggttatatcgcgcaggcgcttcgcttggtttggcgtgttgtttggctgccgcggcagttttctcctgtcacatatcgcagagggttctggaagtgggaacatggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatgtaagtgctcttccacgattaaatttcacaaattcgtttttatttttttttctcgctttgctgcctctgcctgtgacttaagggctaaggctgtaaatttcttggtgggagaactggaaaaaaaggccttgttgtgttggggcaaagtacaattcaacagatgccagggcttctgcctatcaggtgcatcaacagtgtcagagttgaaagcagggcatgtagtactcattgtgatttttttactttctctgaaagaaaaaggtgaaatttttgggtcgggaaatttagtgattttgtgccagcaagttgaggtttctgaatgattgaacgaacatgaaagcatggcagtctggttcagcaaggctagcaaacaaccgagcgtacgagtggctgaggagaatcggaatcatgttcaagaatctcgtgcgaaagcttccctagaacaatcattttttcccatatcatttttagcaggtgcaaattacatgggaagtacattcctctcgtcccttttttttaactgtagaaacggctcaccaagaactttattgttgctattgcttcatgaaaggattaagcatataactttgtgtctgaaacaaccattagctaggctaggctgttgagtggttggttgtgaacttgctggggcgttctccttttcactttctcgtggtgctgtctgatttcatgttcaatcatgttcccgtttcagttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggtaatgaccgaaaaccttttttttttactttactggaaagtgatgcaatcatctaagggaactctggttacttctctactttgattgtgtcttttggacttgagctgttctcctctcaccactgcacaatgattgggagagagtgacactgactcatattttctcactgacactctccaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgtgagttagcccccctcttcttatatgtatttcaaacattggaactatgttagtgcagtggctgtcgttgtcaggcatttttctttaagtagggaaattgaaggttttctgcttcaaagaggtgacccacgtgttactgtatgagtgagaccatatagtggccaattctcttgaaagtgtagggcttattattcgtcaggttgtttttaatggtgacacaaaaattaccttgagggacccaataccaatgccattctcatgctgtttttgtacttgctacttttgtcttctttatctccttgggttcataacaatttgagaacctgtaaatctactgtgcatctctaatatttttgcatgatgatgattcaatgttctggcaatattgtcacaggatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccaggttagttgttactattgaaaaattcatacatcgataaagtaggacaaaaaatgccctttcaataatatcccatgcacgtaaaatgttagaaaatggcgggagatgtctattattcatagggttattttgggaagttcttacaggagcgtgaagtggcaagtatttgtgaaagaaaaaacttgagatccaagcaaatgcaaattgtcttgtcaaaaaaaaaagttggaagtcttgtatccaaactatttgattatcaaaattcagtataaatggcattttttcaagactcttgagcgaggggcctcaactacgtagagatatgctacatcttggatatcttgtactgtaataattcttatttctttctcgttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttggtaatatctttacatcgaaaggatttacactggaaattaaatattgtagaagaaatggtgctgacaaacatttctgtacactaatgcagaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatgtatgatttttcatttgaaccttcctatttcatgctctggtttttgttattattgtagttattatcattgttattaccccatcatatttgacggtttgatatacatataggagacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggaggttagatatggttactcaaccttttgttatcttttacttgttatctctaacaaggtattgtgcttattatgaccttttgcagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtaggacaatcggagacagctgactttcatgttgtatacattcagtgacattgatgatacattttttacatctaaagttattagtaaaacaaagttaggcagattaaaataatatagtgtttttgggtttgcatattttatacagtttgtttggatctaactcttatcaactgaacatgataatatagaaaatgaatagcgatgtgatgtatctgagagttttaagaagaaaacttagacctgatgcacatgcatactgctgacattaaacacttactgtttatgaagtaatataatttatcttcttctatcagttcatgggttgaaagcaatctttctatttcagtaaccagttattgaaagagtacctgcatatgcacgttagggtcaaaagtgacaagtaaatgtgaatggaggaagaacaaatctgccatataagcctcactcttagcagtaggctatggagtgttttatgtgttcagcttcatctaaatattttggctgaaatgctaatattcttattcaggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtatgttaccaaacaaacaaattgtttcttatttgcaaataggttagtacctttttttaggactgttcttttaatcttcattcatcatggcccttaggcctagattttttttttgtacctgctgaattttcctgggctattgtgctttttgtaagaatttcctcatcgattctttcttgagttacgacttacaagagcctcttgctactgctaagtccatgggagcattctataacaatgcagtcgctgagcaaaagtaaatcactttgacttcttgtctgtagtacgccaaacaacatgtgaggttttcccagtgggactgtattgatttctgttgctctgtccaaactctaaactgtcaattgccattattgatacctgacttcataatttattttgttgtataccattctggcattcagtgtgttttatctgattggactatatgcacatttgtgcagttacattctgcttcagactgcatactatagttaggttgaacccatttacagtttaccgaccttcctttacttgcatatgcaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacaggttatcccaatttccctgcacgcccaatagcattgcacattttttacaattttacttaatggcttgctaatatatattttttcatggtcacaccagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatggtgagttactctcttctgacatcatcatcacttgtgaaataattgatctgatttgaaaaattaccttatggtcgcttgattttctcgtgatatatactactccctccggttctataataattaacgttttggacaaagttaaggtcaaacttttataactttgaccatcaataactttaaaaatatttagtttaaagaaactagaacaacatatatagatttgtctttcaaaacactataataaaagtaaacatgtatttatttattgtatatattataatagaaaaataagatcaaaggtatattttgtagaccgtgtcattgtctaaaacatcaattaaaatgaaaccggagggagtagtatatatttggaacattaaatgttaagagtgcctaacttttttgtaatctggatagggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataatggattaatttttcggaagattttcgactctggacccccttcaaacttgtttcttcttcttgataggatgtacatatgtgatgggtgatgatgtaacttaaatgtgatgggtaattatgtaactttaaatcctaggataaagcaattttcagctacatttcacattatgttttacaatagccaattgttgcctcgcaagagggatggctaatttcagattaataagtgaaatattaccatg</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001062804.1 RefSeq:Os05g0554400]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 5]]<br />
[[Category:Chromosome 5]]</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os05g0554400&diff=171654Os05g05544002014-05-24T07:01:06Z<p>Jiafuxiong: /* Expression */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
In vascular plants, the regulation of stem cell niche determines development of aerial shoot which consists of stems and lateral organs. Intercalary meristem (IM) controls internode elongation in rice and other grasses, however little attention has been paid to the underlying mechanism of stem cell maintenance. Here, we investigated the stem development in rice and showed that the Shortened Uppermost Internode 1 (SUI1) family of genes are pivotal for development of rice stems. We demonstrated that SUI-family genes regulate the development of IM for internode elongation and also the cell expansion of the panicle stem rachis in rice.<br />
<br />
===Expression===<br />
The SUI-family genes encoded base-exchange types of phosphatidylserine synthases (PSSs), which possessed enzymatic activity in a yeast complementary assay. Overexpression of SUI1 and SUI2 caused outgrowths of internodes during vegetative development, and we showed that expression patterns of Oryza Sativa Homeobox 15 (OSH15) and Histone4 were impaired. Furthermore, genome-wide gene expression analysis revealed that overexpression and RNA knockdown of SUI-family genes affected downstream gene expression related to phospholipid metabolic pathways.<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 />
Please input related labs here.<br />
<br />
==References==<br />
Please input cited references here.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os05g0554400|<br />
Description = Phosphatidyl serine synthase family protein|<br />
Version = NM_001062804.1 GI:115465338 GeneID:4339554|<br />
Length = 5432 bp|<br />
Definition = Oryza sativa Japonica Group Os05g0554400, 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 5|Chromosome 5]]|<br />
AP = Chromosome 5:27634371..27639802|<br />
CDS = 27634761..27634915,27635631..27635696,27635877..27635936,27636331..27636421,27636799..27636853<br>,27636943..27637022,27637136..27637249,27637332..27637416,27637943..27638034<br>,27638578..27638831,27638928..27639016,27639434..27639561|<br />
GCID = <gbrowseImage1><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttgaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatgggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataa</cdnaseq>|<br />
AA = <aaseq>MEAKQRTRHRDGEERRLVAAADGGAEEYDPWTAWLYKPHTISVL LVGACLLIWASGALDPEGASYHSSATSIKRGVWAMIAVFLAYCTLQAPSTILIRPHPA VWRLVHGLAVVYLVALAFLLFQNRDDARQFMKHLYPDLGVELPERSYGADCRLYVPEN PKNKFINIYTLFDEFVVAHILGWWGKAVMIRNQLLLWVLSIGFELMELTFRHMLPNFN ECWWDSIILDILICNWFGIWAGMHTVRYFDGKTYEWVGLSRQPSIMGKVKRSLSQFTP AQWDKDQWYPFMGPLRFVQVLFLCVVFMTVELNTFFLKFCLWIPPRNPLVVYRLILWW LIAIPTIREYNSYLQNSKPVKKVGAFCWLSLAICIVELLICMKFGHGLFHDPMPTWLI IFWSSVGVALVVFLLAWSWRNHLKYQRKRL</aaseq>|<br />
DNA = <dnaseqindica>391..545#1261..1326#1507..1566#1961..2051#2429..2483#2573..2652#2766..2879#2962..3046#3573..3664#4208..4461#4558..4646#5064..5191#tcatccaacccaagtacccaacccgcgtcgtcatcgtcgtcttcctacttcctcctcctccccaccccacgcacgcgcgtgcggcgccgatcgcggccgacgccgagatttccgcgtgcgcgtggagatagggcacacccgttctctctctccctctctcgggctctgaagtaatccttcgcttctgcttctttcttcttctgcatgtcctgtctgtccccctcgtctcgtctcgtctcgtctcgtctcttgctttcgcctctcctgacctgaccgcgacaatccgtggtggttatatcgcgcaggcgcttcgcttggtttggcgtgttgtttggctgccgcggcagttttctcctgtcacatatcgcagagggttctggaagtgggaacatggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatgtaagtgctcttccacgattaaatttcacaaattcgtttttatttttttttctcgctttgctgcctctgcctgtgacttaagggctaaggctgtaaatttcttggtgggagaactggaaaaaaaggccttgttgtgttggggcaaagtacaattcaacagatgccagggcttctgcctatcaggtgcatcaacagtgtcagagttgaaagcagggcatgtagtactcattgtgatttttttactttctctgaaagaaaaaggtgaaatttttgggtcgggaaatttagtgattttgtgccagcaagttgaggtttctgaatgattgaacgaacatgaaagcatggcagtctggttcagcaaggctagcaaacaaccgagcgtacgagtggctgaggagaatcggaatcatgttcaagaatctcgtgcgaaagcttccctagaacaatcattttttcccatatcatttttagcaggtgcaaattacatgggaagtacattcctctcgtcccttttttttaactgtagaaacggctcaccaagaactttattgttgctattgcttcatgaaaggattaagcatataactttgtgtctgaaacaaccattagctaggctaggctgttgagtggttggttgtgaacttgctggggcgttctccttttcactttctcgtggtgctgtctgatttcatgttcaatcatgttcccgtttcagttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggtaatgaccgaaaaccttttttttttactttactggaaagtgatgcaatcatctaagggaactctggttacttctctactttgattgtgtcttttggacttgagctgttctcctctcaccactgcacaatgattgggagagagtgacactgactcatattttctcactgacactctccaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgtgagttagcccccctcttcttatatgtatttcaaacattggaactatgttagtgcagtggctgtcgttgtcaggcatttttctttaagtagggaaattgaaggttttctgcttcaaagaggtgacccacgtgttactgtatgagtgagaccatatagtggccaattctcttgaaagtgtagggcttattattcgtcaggttgtttttaatggtgacacaaaaattaccttgagggacccaataccaatgccattctcatgctgtttttgtacttgctacttttgtcttctttatctccttgggttcataacaatttgagaacctgtaaatctactgtgcatctctaatatttttgcatgatgatgattcaatgttctggcaatattgtcacaggatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccaggttagttgttactattgaaaaattcatacatcgataaagtaggacaaaaaatgccctttcaataatatcccatgcacgtaaaatgttagaaaatggcgggagatgtctattattcatagggttattttgggaagttcttacaggagcgtgaagtggcaagtatttgtgaaagaaaaaacttgagatccaagcaaatgcaaattgtcttgtcaaaaaaaaaagttggaagtcttgtatccaaactatttgattatcaaaattcagtataaatggcattttttcaagactcttgagcgaggggcctcaactacgtagagatatgctacatcttggatatcttgtactgtaataattcttatttctttctcgttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttggtaatatctttacatcgaaaggatttacactggaaattaaatattgtagaagaaatggtgctgacaaacatttctgtacactaatgcagaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatgtatgatttttcatttgaaccttcctatttcatgctctggtttttgttattattgtagttattatcattgttattaccccatcatatttgacggtttgatatacatataggagacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggaggttagatatggttactcaaccttttgttatcttttacttgttatctctaacaaggtattgtgcttattatgaccttttgcagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtaggacaatcggagacagctgactttcatgttgtatacattcagtgacattgatgatacattttttacatctaaagttattagtaaaacaaagttaggcagattaaaataatatagtgtttttgggtttgcatattttatacagtttgtttggatctaactcttatcaactgaacatgataatatagaaaatgaatagcgatgtgatgtatctgagagttttaagaagaaaacttagacctgatgcacatgcatactgctgacattaaacacttactgtttatgaagtaatataatttatcttcttctatcagttcatgggttgaaagcaatctttctatttcagtaaccagttattgaaagagtacctgcatatgcacgttagggtcaaaagtgacaagtaaatgtgaatggaggaagaacaaatctgccatataagcctcactcttagcagtaggctatggagtgttttatgtgttcagcttcatctaaatattttggctgaaatgctaatattcttattcaggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtatgttaccaaacaaacaaattgtttcttatttgcaaataggttagtacctttttttaggactgttcttttaatcttcattcatcatggcccttaggcctagattttttttttgtacctgctgaattttcctgggctattgtgctttttgtaagaatttcctcatcgattctttcttgagttacgacttacaagagcctcttgctactgctaagtccatgggagcattctataacaatgcagtcgctgagcaaaagtaaatcactttgacttcttgtctgtagtacgccaaacaacatgtgaggttttcccagtgggactgtattgatttctgttgctctgtccaaactctaaactgtcaattgccattattgatacctgacttcataatttattttgttgtataccattctggcattcagtgtgttttatctgattggactatatgcacatttgtgcagttacattctgcttcagactgcatactatagttaggttgaacccatttacagtttaccgaccttcctttacttgcatatgcaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacaggttatcccaatttccctgcacgcccaatagcattgcacattttttacaattttacttaatggcttgctaatatatattttttcatggtcacaccagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatggtgagttactctcttctgacatcatcatcacttgtgaaataattgatctgatttgaaaaattaccttatggtcgcttgattttctcgtgatatatactactccctccggttctataataattaacgttttggacaaagttaaggtcaaacttttataactttgaccatcaataactttaaaaatatttagtttaaagaaactagaacaacatatatagatttgtctttcaaaacactataataaaagtaaacatgtatttatttattgtatatattataatagaaaaataagatcaaaggtatattttgtagaccgtgtcattgtctaaaacatcaattaaaatgaaaccggagggagtagtatatatttggaacattaaatgttaagagtgcctaacttttttgtaatctggatagggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataatggattaatttttcggaagattttcgactctggacccccttcaaacttgtttcttcttcttgataggatgtacatatgtgatgggtgatgatgtaacttaaatgtgatgggtaattatgtaactttaaatcctaggataaagcaattttcagctacatttcacattatgttttacaatagccaattgttgcctcgcaagagggatggctaatttcagattaataagtgaaatattaccatg</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001062804.1 RefSeq:Os05g0554400]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 5]]<br />
[[Category:Chromosome 5]]</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os05g0554400&diff=171650Os05g05544002014-05-24T06:58:12Z<p>Jiafuxiong: /* Function */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
In vascular plants, the regulation of stem cell niche determines development of aerial shoot which consists of stems and lateral organs. Intercalary meristem (IM) controls internode elongation in rice and other grasses, however little attention has been paid to the underlying mechanism of stem cell maintenance. Here, we investigated the stem development in rice and showed that the Shortened Uppermost Internode 1 (SUI1) family of genes are pivotal for development of rice stems. We demonstrated that SUI-family genes regulate the development of IM for internode elongation and also the cell expansion of the panicle stem rachis in rice.<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 />
Please input related labs here.<br />
<br />
==References==<br />
Please input cited references here.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os05g0554400|<br />
Description = Phosphatidyl serine synthase family protein|<br />
Version = NM_001062804.1 GI:115465338 GeneID:4339554|<br />
Length = 5432 bp|<br />
Definition = Oryza sativa Japonica Group Os05g0554400, 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 5|Chromosome 5]]|<br />
AP = Chromosome 5:27634371..27639802|<br />
CDS = 27634761..27634915,27635631..27635696,27635877..27635936,27636331..27636421,27636799..27636853<br>,27636943..27637022,27637136..27637249,27637332..27637416,27637943..27638034<br>,27638578..27638831,27638928..27639016,27639434..27639561|<br />
GCID = <gbrowseImage1><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttgaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatgggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataa</cdnaseq>|<br />
AA = <aaseq>MEAKQRTRHRDGEERRLVAAADGGAEEYDPWTAWLYKPHTISVL LVGACLLIWASGALDPEGASYHSSATSIKRGVWAMIAVFLAYCTLQAPSTILIRPHPA VWRLVHGLAVVYLVALAFLLFQNRDDARQFMKHLYPDLGVELPERSYGADCRLYVPEN PKNKFINIYTLFDEFVVAHILGWWGKAVMIRNQLLLWVLSIGFELMELTFRHMLPNFN ECWWDSIILDILICNWFGIWAGMHTVRYFDGKTYEWVGLSRQPSIMGKVKRSLSQFTP AQWDKDQWYPFMGPLRFVQVLFLCVVFMTVELNTFFLKFCLWIPPRNPLVVYRLILWW LIAIPTIREYNSYLQNSKPVKKVGAFCWLSLAICIVELLICMKFGHGLFHDPMPTWLI IFWSSVGVALVVFLLAWSWRNHLKYQRKRL</aaseq>|<br />
DNA = <dnaseqindica>391..545#1261..1326#1507..1566#1961..2051#2429..2483#2573..2652#2766..2879#2962..3046#3573..3664#4208..4461#4558..4646#5064..5191#tcatccaacccaagtacccaacccgcgtcgtcatcgtcgtcttcctacttcctcctcctccccaccccacgcacgcgcgtgcggcgccgatcgcggccgacgccgagatttccgcgtgcgcgtggagatagggcacacccgttctctctctccctctctcgggctctgaagtaatccttcgcttctgcttctttcttcttctgcatgtcctgtctgtccccctcgtctcgtctcgtctcgtctcgtctcttgctttcgcctctcctgacctgaccgcgacaatccgtggtggttatatcgcgcaggcgcttcgcttggtttggcgtgttgtttggctgccgcggcagttttctcctgtcacatatcgcagagggttctggaagtgggaacatggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatgtaagtgctcttccacgattaaatttcacaaattcgtttttatttttttttctcgctttgctgcctctgcctgtgacttaagggctaaggctgtaaatttcttggtgggagaactggaaaaaaaggccttgttgtgttggggcaaagtacaattcaacagatgccagggcttctgcctatcaggtgcatcaacagtgtcagagttgaaagcagggcatgtagtactcattgtgatttttttactttctctgaaagaaaaaggtgaaatttttgggtcgggaaatttagtgattttgtgccagcaagttgaggtttctgaatgattgaacgaacatgaaagcatggcagtctggttcagcaaggctagcaaacaaccgagcgtacgagtggctgaggagaatcggaatcatgttcaagaatctcgtgcgaaagcttccctagaacaatcattttttcccatatcatttttagcaggtgcaaattacatgggaagtacattcctctcgtcccttttttttaactgtagaaacggctcaccaagaactttattgttgctattgcttcatgaaaggattaagcatataactttgtgtctgaaacaaccattagctaggctaggctgttgagtggttggttgtgaacttgctggggcgttctccttttcactttctcgtggtgctgtctgatttcatgttcaatcatgttcccgtttcagttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggtaatgaccgaaaaccttttttttttactttactggaaagtgatgcaatcatctaagggaactctggttacttctctactttgattgtgtcttttggacttgagctgttctcctctcaccactgcacaatgattgggagagagtgacactgactcatattttctcactgacactctccaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgtgagttagcccccctcttcttatatgtatttcaaacattggaactatgttagtgcagtggctgtcgttgtcaggcatttttctttaagtagggaaattgaaggttttctgcttcaaagaggtgacccacgtgttactgtatgagtgagaccatatagtggccaattctcttgaaagtgtagggcttattattcgtcaggttgtttttaatggtgacacaaaaattaccttgagggacccaataccaatgccattctcatgctgtttttgtacttgctacttttgtcttctttatctccttgggttcataacaatttgagaacctgtaaatctactgtgcatctctaatatttttgcatgatgatgattcaatgttctggcaatattgtcacaggatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccaggttagttgttactattgaaaaattcatacatcgataaagtaggacaaaaaatgccctttcaataatatcccatgcacgtaaaatgttagaaaatggcgggagatgtctattattcatagggttattttgggaagttcttacaggagcgtgaagtggcaagtatttgtgaaagaaaaaacttgagatccaagcaaatgcaaattgtcttgtcaaaaaaaaaagttggaagtcttgtatccaaactatttgattatcaaaattcagtataaatggcattttttcaagactcttgagcgaggggcctcaactacgtagagatatgctacatcttggatatcttgtactgtaataattcttatttctttctcgttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttggtaatatctttacatcgaaaggatttacactggaaattaaatattgtagaagaaatggtgctgacaaacatttctgtacactaatgcagaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatgtatgatttttcatttgaaccttcctatttcatgctctggtttttgttattattgtagttattatcattgttattaccccatcatatttgacggtttgatatacatataggagacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggaggttagatatggttactcaaccttttgttatcttttacttgttatctctaacaaggtattgtgcttattatgaccttttgcagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtaggacaatcggagacagctgactttcatgttgtatacattcagtgacattgatgatacattttttacatctaaagttattagtaaaacaaagttaggcagattaaaataatatagtgtttttgggtttgcatattttatacagtttgtttggatctaactcttatcaactgaacatgataatatagaaaatgaatagcgatgtgatgtatctgagagttttaagaagaaaacttagacctgatgcacatgcatactgctgacattaaacacttactgtttatgaagtaatataatttatcttcttctatcagttcatgggttgaaagcaatctttctatttcagtaaccagttattgaaagagtacctgcatatgcacgttagggtcaaaagtgacaagtaaatgtgaatggaggaagaacaaatctgccatataagcctcactcttagcagtaggctatggagtgttttatgtgttcagcttcatctaaatattttggctgaaatgctaatattcttattcaggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtatgttaccaaacaaacaaattgtttcttatttgcaaataggttagtacctttttttaggactgttcttttaatcttcattcatcatggcccttaggcctagattttttttttgtacctgctgaattttcctgggctattgtgctttttgtaagaatttcctcatcgattctttcttgagttacgacttacaagagcctcttgctactgctaagtccatgggagcattctataacaatgcagtcgctgagcaaaagtaaatcactttgacttcttgtctgtagtacgccaaacaacatgtgaggttttcccagtgggactgtattgatttctgttgctctgtccaaactctaaactgtcaattgccattattgatacctgacttcataatttattttgttgtataccattctggcattcagtgtgttttatctgattggactatatgcacatttgtgcagttacattctgcttcagactgcatactatagttaggttgaacccatttacagtttaccgaccttcctttacttgcatatgcaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacaggttatcccaatttccctgcacgcccaatagcattgcacattttttacaattttacttaatggcttgctaatatatattttttcatggtcacaccagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatggtgagttactctcttctgacatcatcatcacttgtgaaataattgatctgatttgaaaaattaccttatggtcgcttgattttctcgtgatatatactactccctccggttctataataattaacgttttggacaaagttaaggtcaaacttttataactttgaccatcaataactttaaaaatatttagtttaaagaaactagaacaacatatatagatttgtctttcaaaacactataataaaagtaaacatgtatttatttattgtatatattataatagaaaaataagatcaaaggtatattttgtagaccgtgtcattgtctaaaacatcaattaaaatgaaaccggagggagtagtatatatttggaacattaaatgttaagagtgcctaacttttttgtaatctggatagggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataatggattaatttttcggaagattttcgactctggacccccttcaaacttgtttcttcttcttgataggatgtacatatgtgatgggtgatgatgtaacttaaatgtgatgggtaattatgtaactttaaatcctaggataaagcaattttcagctacatttcacattatgttttacaatagccaattgttgcctcgcaagagggatggctaatttcagattaataagtgaaatattaccatg</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001062804.1 RefSeq:Os05g0554400]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 5]]<br />
[[Category:Chromosome 5]]</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os05g0554400&diff=171649Os05g05544002014-05-24T06:57:43Z<p>Jiafuxiong: /* Function */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
Please input function information here.<br />
In vascular plants, the regulation of stem cell niche determines development of aerial shoot which consists of stems and lateral organs. Intercalary meristem (IM) controls internode elongation in rice and other grasses, however little attention has been paid to the underlying mechanism of stem cell maintenance. Here, we investigated the stem development in rice and showed that the Shortened Uppermost Internode 1 (SUI1) family of genes are pivotal for development of rice stems. We demonstrated that SUI-family genes regulate the development of IM for internode elongation and also the cell expansion of the panicle stem rachis in rice.<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 />
Please input related labs here.<br />
<br />
==References==<br />
Please input cited references here.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os05g0554400|<br />
Description = Phosphatidyl serine synthase family protein|<br />
Version = NM_001062804.1 GI:115465338 GeneID:4339554|<br />
Length = 5432 bp|<br />
Definition = Oryza sativa Japonica Group Os05g0554400, 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 5|Chromosome 5]]|<br />
AP = Chromosome 5:27634371..27639802|<br />
CDS = 27634761..27634915,27635631..27635696,27635877..27635936,27636331..27636421,27636799..27636853<br>,27636943..27637022,27637136..27637249,27637332..27637416,27637943..27638034<br>,27638578..27638831,27638928..27639016,27639434..27639561|<br />
GCID = <gbrowseImage1><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008398:27634371..27639802<br />
source=RiceChromosome05<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttgaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatgggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataa</cdnaseq>|<br />
AA = <aaseq>MEAKQRTRHRDGEERRLVAAADGGAEEYDPWTAWLYKPHTISVL LVGACLLIWASGALDPEGASYHSSATSIKRGVWAMIAVFLAYCTLQAPSTILIRPHPA VWRLVHGLAVVYLVALAFLLFQNRDDARQFMKHLYPDLGVELPERSYGADCRLYVPEN PKNKFINIYTLFDEFVVAHILGWWGKAVMIRNQLLLWVLSIGFELMELTFRHMLPNFN ECWWDSIILDILICNWFGIWAGMHTVRYFDGKTYEWVGLSRQPSIMGKVKRSLSQFTP AQWDKDQWYPFMGPLRFVQVLFLCVVFMTVELNTFFLKFCLWIPPRNPLVVYRLILWW LIAIPTIREYNSYLQNSKPVKKVGAFCWLSLAICIVELLICMKFGHGLFHDPMPTWLI IFWSSVGVALVVFLLAWSWRNHLKYQRKRL</aaseq>|<br />
DNA = <dnaseqindica>391..545#1261..1326#1507..1566#1961..2051#2429..2483#2573..2652#2766..2879#2962..3046#3573..3664#4208..4461#4558..4646#5064..5191#tcatccaacccaagtacccaacccgcgtcgtcatcgtcgtcttcctacttcctcctcctccccaccccacgcacgcgcgtgcggcgccgatcgcggccgacgccgagatttccgcgtgcgcgtggagatagggcacacccgttctctctctccctctctcgggctctgaagtaatccttcgcttctgcttctttcttcttctgcatgtcctgtctgtccccctcgtctcgtctcgtctcgtctcgtctcttgctttcgcctctcctgacctgaccgcgacaatccgtggtggttatatcgcgcaggcgcttcgcttggtttggcgtgttgtttggctgccgcggcagttttctcctgtcacatatcgcagagggttctggaagtgggaacatggaggcgaagcagaggacgaggcatcgcgacggagaggagaggaggctcgtagcggcggcggatggcggcgccgaggagtacgacccatggacggcgtggctctacaagccgcacaccatctcggtgctcctcgtcggtgcttgccttctaatgtaagtgctcttccacgattaaatttcacaaattcgtttttatttttttttctcgctttgctgcctctgcctgtgacttaagggctaaggctgtaaatttcttggtgggagaactggaaaaaaaggccttgttgtgttggggcaaagtacaattcaacagatgccagggcttctgcctatcaggtgcatcaacagtgtcagagttgaaagcagggcatgtagtactcattgtgatttttttactttctctgaaagaaaaaggtgaaatttttgggtcgggaaatttagtgattttgtgccagcaagttgaggtttctgaatgattgaacgaacatgaaagcatggcagtctggttcagcaaggctagcaaacaaccgagcgtacgagtggctgaggagaatcggaatcatgttcaagaatctcgtgcgaaagcttccctagaacaatcattttttcccatatcatttttagcaggtgcaaattacatgggaagtacattcctctcgtcccttttttttaactgtagaaacggctcaccaagaactttattgttgctattgcttcatgaaaggattaagcatataactttgtgtctgaaacaaccattagctaggctaggctgttgagtggttggttgtgaacttgctggggcgttctccttttcactttctcgtggtgctgtctgatttcatgttcaatcatgttcccgtttcagttgggcaagtggagcgcttgatccagagggtgcttcttatcacagtagtgcgacatctattaagaggtaatgaccgaaaaccttttttttttactttactggaaagtgatgcaatcatctaagggaactctggttacttctctactttgattgtgtcttttggacttgagctgttctcctctcaccactgcacaatgattgggagagagtgacactgactcatattttctcactgacactctccaggggtgtctgggctatgattgcagtcttccttgcttactgcactctccaagcaccttcaacgtgagttagcccccctcttcttatatgtatttcaaacattggaactatgttagtgcagtggctgtcgttgtcaggcatttttctttaagtagggaaattgaaggttttctgcttcaaagaggtgacccacgtgttactgtatgagtgagaccatatagtggccaattctcttgaaagtgtagggcttattattcgtcaggttgtttttaatggtgacacaaaaattaccttgagggacccaataccaatgccattctcatgctgtttttgtacttgctacttttgtcttctttatctccttgggttcataacaatttgagaacctgtaaatctactgtgcatctctaatatttttgcatgatgatgattcaatgttctggcaatattgtcacaggatacttattaggccccatcctgctgtctggcgcctggtgcacggactggctgtcgtttaccttgtcgctctagcctttcttcttttccaggttagttgttactattgaaaaattcatacatcgataaagtaggacaaaaaatgccctttcaataatatcccatgcacgtaaaatgttagaaaatggcgggagatgtctattattcatagggttattttgggaagttcttacaggagcgtgaagtggcaagtatttgtgaaagaaaaaacttgagatccaagcaaatgcaaattgtcttgtcaaaaaaaaaagttggaagtcttgtatccaaactatttgattatcaaaattcagtataaatggcattttttcaagactcttgagcgaggggcctcaactacgtagagatatgctacatcttggatatcttgtactgtaataattcttatttctttctcgttttccagaaccgcgatgatgctcgccagttcatgaaacacctttaccctgatcttggagttggtaatatctttacatcgaaaggatttacactggaaattaaatattgtagaagaaatggtgctgacaaacatttctgtacactaatgcagaattgccggagagatcttatggagctgactgccgtctgtatgttccggaaaaccctaaaaacaagttcataaatatttatgtatgatttttcatttgaaccttcctatttcatgctctggtttttgttattattgtagttattatcattgttattaccccatcatatttgacggtttgatatacatataggagacattatttgacgaatttgtggttgcccatattttgggttggtggggtaaagccgtaatgatacgaaaccagcttcttctttgggtcctctcgattggtttcgagctaatggaggttagatatggttactcaaccttttgttatcttttacttgttatctctaacaaggtattgtgcttattatgaccttttgcagcttacattcagacatatgttgccaaactttaatgagtgctggtgggatagtattattttggatatcttgatctgcaactggtttggtaggacaatcggagacagctgactttcatgttgtatacattcagtgacattgatgatacattttttacatctaaagttattagtaaaacaaagttaggcagattaaaataatatagtgtttttgggtttgcatattttatacagtttgtttggatctaactcttatcaactgaacatgataatatagaaaatgaatagcgatgtgatgtatctgagagttttaagaagaaaacttagacctgatgcacatgcatactgctgacattaaacacttactgtttatgaagtaatataatttatcttcttctatcagttcatgggttgaaagcaatctttctatttcagtaaccagttattgaaagagtacctgcatatgcacgttagggtcaaaagtgacaagtaaatgtgaatggaggaagaacaaatctgccatataagcctcactcttagcagtaggctatggagtgttttatgtgttcagcttcatctaaatattttggctgaaatgctaatattcttattcaggtatatgggcggggatgcacacagtccgttactttgacggtaaaacatatgagtgggttggactgagccgacagccaagcatcatgggcaaggtatgttaccaaacaaacaaattgtttcttatttgcaaataggttagtacctttttttaggactgttcttttaatcttcattcatcatggcccttaggcctagattttttttttgtacctgctgaattttcctgggctattgtgctttttgtaagaatttcctcatcgattctttcttgagttacgacttacaagagcctcttgctactgctaagtccatgggagcattctataacaatgcagtcgctgagcaaaagtaaatcactttgacttcttgtctgtagtacgccaaacaacatgtgaggttttcccagtgggactgtattgatttctgttgctctgtccaaactctaaactgtcaattgccattattgatacctgacttcataatttattttgttgtataccattctggcattcagtgtgttttatctgattggactatatgcacatttgtgcagttacattctgcttcagactgcatactatagttaggttgaacccatttacagtttaccgaccttcctttacttgcatatgcaggtgaaaagatcactgagccagttcacccctgcacaatgggacaaggatcaatggtaccctttcatggggccgttgcggttcgttcaagtgttgttcctgtgcgttgttttcatgacagtggagctcaacacattttttcttaaattttgcctctggattcctccaaggaatcctttggttgtgtacagattaatcctatggtggttgattgctattccaaccatccgtgagtacaactcctacttgcaaaacaggttatcccaatttccctgcacgcccaatagcattgcacattttttacaattttacttaatggcttgctaatatatattttttcatggtcacaccagcaaaccggtgaagaaggttggggctttttgctggctctctctagctatatgcattgtagagcttcttatatgtatgaagtttggacatggtgagttactctcttctgacatcatcatcacttgtgaaataattgatctgatttgaaaaattaccttatggtcgcttgattttctcgtgatatatactactccctccggttctataataattaacgttttggacaaagttaaggtcaaacttttataactttgaccatcaataactttaaaaatatttagtttaaagaaactagaacaacatatatagatttgtctttcaaaacactataataaaagtaaacatgtatttatttattgtatatattataatagaaaaataagatcaaaggtatattttgtagaccgtgtcattgtctaaaacatcaattaaaatgaaaccggagggagtagtatatatttggaacattaaatgttaagagtgcctaacttttttgtaatctggatagggctgtttcatgatcccatgcctacttggttgatcatcttttggagttcggtgggggtagcactagtggttttcttgcttgcatggtcttggaggaatcacctgaaatatcagagaaagcggctataatggattaatttttcggaagattttcgactctggacccccttcaaacttgtttcttcttcttgataggatgtacatatgtgatgggtgatgatgtaacttaaatgtgatgggtaattatgtaactttaaatcctaggataaagcaattttcagctacatttcacattatgttttacaatagccaattgttgcctcgcaagagggatggctaatttcagattaataagtgaaatattaccatg</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001062804.1 RefSeq:Os05g0554400]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 5]]<br />
[[Category:Chromosome 5]]</div>Jiafuxionghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=AY986492&diff=171589AY9864922014-05-24T05:04:22Z<p>Jiafuxiong: Created page with "function"</p>
<hr />
<div>function</div>Jiafuxiong