http://192.168.164.12:81/ricewiki/api.php?action=feedcontributions&feedformat=atom&user=LinglingRiceWiki - User contributions [en]2026-05-07T09:19:22ZUser contributionsMediaWiki 1.30.0https://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=183723Os11g04906002014-06-10T15:45:50Z<p>Lingling: /* References */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.[[File:Zhangshuling1.jpg]]<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.[[File:Zhangshuling2.jpg]]<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.[[File:Zhangshuling3.jpg]]<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic response in the mutant shoots.[[File:Zhangshuling4.jpg]]<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.[[File:Zhangshuling5.jpg]] [[File:Zhangshuling6.jpg]] [[File:Zhangshuling7.jpg]]<br />
<br />
===Evolution===<br />
LA1 may represent a new type of regulating proteins that shuttle between the plasma membrane and the nucleus. Further investigations of LA1 functions will allow for a better understanding of the mechanism underlying the monocotyledonous shoot gravitropism.<br />
<br />
==Labs working on this gene==<br />
1、State Key Laboratory of Plant Genomics and National Center for Plant Gene Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; <br />
2、State Key Laboratory of Rice Biology, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310006, China<br />
<br />
==References==<br />
1. Morita MT, Tasaka M. Gravity sensing and signaling. Curr Opin Plant Biol 2004; 7:712-718.<br />
2. Perbal G, Driss-Ecole D. Mechanotransduction in gravisensing cells. Trends Plant Sci 2003; 8:498-504.<br />
3.Fukaki H, Wysocka-Diller J, Kato T, Fujisawa H, Benfey PN Tasaka M. Genetic evidence that the endodermis is essential for shoot gravitropism in Arabidopsis thaliana. Plant J 1998; 14:425-430.<br />
4. Tsugeki R, Olson ML, Fedoroff NV. Transposon tagging and the study of root development in Arabidopsis. Gravit Space Biol Bull 1998; 11:79-87.<br />
5. Moore I. Gravitropism: lateral thinking in auxin transport. CurrBiol 2002; 12:452-454.<br />
6. Kim SK, Chang SC, Lee EJ, et al. Involvement of brassinosteroids in the gravitropic response of primary root of maize. Plant Physiol 2000; 123:997-1004.<br />
7. Gutjahr C, Riemann M, Muller A, Duchting P, Weiler EW, Nick P. Cholodny-Went revisited: a role for jasmonate in gravitropism of rice coleoptiles. Planta 2005; 222:575-585.<br />
8. Aloni R, Langhans M, Aloni E, Ullrich CI. Role of cytokinin in the regulation of root gravitropism. Planta 2004; 220:177-182.<br />
9 Gutjahr C, Riemann M, Muller A, Duchting P, Weiler EW, Nick P. Cholodny-Went revisited: a role for jasmonate in gravitropism of rice coleoptiles. Planta 2005; 222:575-585.<br />
10 Aloni R, Langhans M, Aloni E, Ullrich CI. Role of cytokinin in the regulation of root gravitropism. Planta 2004; 220:177-182.<br />
11 Heilmann I, Shin J, Huang J, Perera IY, Davies E. Transient dissociation of polyribosomes and concurrent recruitment of calreticulin and calmodulin transcripts in gravistimulated maize pulvini. Plant Physiol 2001; 127:1193-1203.<br />
12 Belyavskaya NA. Changes in calcium signalling, gravitropism, and statocyte ultrastructure in pea roots induced by calcium channel blockers. J Gravit Physiol 2004; 11:P209-P210.<br />
13 Fasano JM, Swanson SJ, Blancaflor EB, Dowd PE, Kao TH, Gilroy S. Changes in root cap pH are required for the gravityresponse of the Arabidopsis root. Plant Cell 2001; 13:907-921.<br />
14 Monshausen GB, Sievers A. Basipetal propagation of gravityinduced surface pH changes along primary roots of Lepidium sativum L. Planta 2002; 215:980-988.<br />
15 Perera IY, Heilmann I, Chang SC, Boss WF, Kaufman PB. A role for inositol 1,4,5-trisphosphate in gravitropic signaling and the retention of cold-perceived gravistimulation of ooat shoot pulvini. Plant Physiol 2001; 125:1499-1507.<br />
16 Perera IY, Hung CY, Brady S, Muday GK, Boss WF. A universal role for inositol 1,4,5-trisphosphate-mediated signaling in plant gravitropism. Plant Physiol 2006; 140:746-760.<br />
17 Guan C, Rosen ES, Boonsirichai K, Poff KL, Masson PH. The ARG1-LIKE2 gene of Arabidopsis functions in a gravity signal transduction pathway that is genetically distinct from the PGM pathway. Plant Physiol 2003; 133:100-112.<br />
18 Sedbrook JC, Chen R, Masson PH. ARG1 (Altered Response to Gravity) encodes a DnaJ-like protein that potentially interacts with the cytoskeleton. Proc Natl Acad Sci USA 1999; 96:1140-1145.<br />
19 Went FW, Thimann KV, eds. Phytohormones. New York: Macmillan, 1937.<br />
20 Richard D, Firn, Wagstaff C, Digby J. The use of mutants to probe models of gravitropism. J Exp Bot 2000; 51:1323-1340.<br />
21 Sieberer T, Leyser O. Plant science: auxin transport, but in which direction? Science 2006; 312:858-860.<br />
22 Petrasek J, Mravec J, Bouchard R, et al. PIN proteins perform a rate-limiting function in cellular auxin efflux. Science 2006; 312:914-918.<br />
23 Okada K, Ueda J, Komaki MK, Bell CJ, Shimura Y. Requirement of the auxin polar transport system in early stages of Arabidopsis floral bud formation. Plant Cell 1991; 3:677-684.<br />
24 Luschnig C, Gaxiola RA, Grisafi P, Fink GR. EIR1, a root-specific protein involved in auxin transport, is required for gravitropism in Arabidopsis thaliana. Genes Dev 1998; 12:2175-2187.<br />
25 Galweiler L, Guan C, Muller A, et al. Regulation of polar auxin transport by AtPIN1 in Arabidopsis vascular tissue. Science 1998; 282:2226-2230.<br />
26 Muller A, Guan C, Galweiler L, et al. AtPIN2 defines a locus of Arabidopsis for root gravitropism control. EMBO J 1998; 17:6903-6911.<br />
27 Friml J, Wisniewska J, Benkova E, Mendgen K, Palme K. Lateral relocation of auxin efflux regulator PIN3 mediates tropism in Arabidopsis. Nature 2002; 415:806-809.<br />
28 Benjamins R, Quint A, Weijers D, Hooykaas P, Offringa R. The PINOID protein kinase regulates organ development in Arabidopsis by enhancing polar auxin transport. Development 2001; 128:4057-4067.<br />
29 Noh B, Bandyopadhyay A, Peer WA, Spalding EP, Murphy ASEnhanced gravi- and phototropism in plant mdr mutants mislocalizing the auxin efflux protein PIN1. Nature 2003; 423:999-1002.<br />
30 Wisniewska J, Xu J, Seifertova D, et al. Polar PIN localization directs auxin flow in plants. Science 2006; 312:883.<br />
31 Marchant A, Kargul J, May ST, et al. AUX1 regulates root gravitropism in Arabidopsis by facilitating auxin uptake within root apical tissues. EMBO J 1999; 18:2066-2073.<br />
32 Yang Y, Hammes UZ, Taylor CG, Schachtman DP, Nielsen E. High-affinity auxin transport by the AUX1 influx carrier protein. Curr Biol 2006; 16:1123-1127.<br />
33 Terasaka K, Blakeslee JJ, Titapiwatanakun B, et al. PGP4, an ATP binding cassette P-glycoprotein, catalyzes auxin transport in Arabidopsis thaliana roots. Plant Cell 2005; 17:2922-2939.<br />
34 Overbeek JV. “Lazy”, an a-geotropic form of maize. J Heredity 1936; 27:93-96.<br />
<br />
== Supplementary information==<br />
It is linked to the online version of the paper on the Cell Research website.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=182009Os11g04906002014-06-09T07:51:57Z<p>Lingling: /* References */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.[[File:Zhangshuling1.jpg]]<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.[[File:Zhangshuling2.jpg]]<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.[[File:Zhangshuling3.jpg]]<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic response in the mutant shoots.[[File:Zhangshuling4.jpg]]<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.[[File:Zhangshuling5.jpg]] [[File:Zhangshuling6.jpg]] [[File:Zhangshuling7.jpg]]<br />
<br />
===Evolution===<br />
LA1 may represent a new type of regulating proteins that shuttle between the plasma membrane and the nucleus. Further investigations of LA1 functions will allow for a better understanding of the mechanism underlying the monocotyledonous shoot gravitropism.<br />
<br />
==Labs working on this gene==<br />
1、State Key Laboratory of Plant Genomics and National Center for Plant Gene Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; <br />
2、State Key Laboratory of Rice Biology, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310006, China<br />
<br />
==References==<br />
1. Morita MT, Tasaka M. Gravity sensing and signaling. Curr Opin Plant Biol 2004; 7:712-718.<br />
2. Perbal G, Driss-Ecole D. Mechanotransduction in gravisensing cells. Trends Plant Sci 2003; 8:498-504.<br />
3.Fukaki H, Wysocka-Diller J, Kato T, Fujisawa H, Benfey PN Tasaka M. Genetic evidence that the endodermis is essential for shoot gravitropism in Arabidopsis thaliana. Plant J 1998; 14:425-430.<br />
4. Tsugeki R, Olson ML, Fedoroff NV. Transposon tagging and the study of root development in Arabidopsis. Gravit Space Biol Bull 1998; 11:79-87.<br />
5. Moore I. Gravitropism: lateral thinking in auxin transport. CurrBiol 2002; 12:452-454.<br />
6. Kim SK, Chang SC, Lee EJ, et al. Involvement of brassinosteroids in the gravitropic response of primary root of maize. Plant Physiol 2000; 123:997-1004.<br />
7. Gutjahr C, Riemann M, Muller A, Duchting P, Weiler EW, Nick P. Cholodny-Went revisited: a role for jasmonate in gravitropism of rice coleoptiles. Planta 2005; 222:575-585.<br />
8. Aloni R, Langhans M, Aloni E, Ullrich CI. Role of cytokinin in the regulation of root gravitropism. Planta 2004; 220:177-182.<br />
9 Gutjahr C, Riemann M, Muller A, Duchting P, Weiler EW, Nick P. Cholodny-Went revisited: a role for jasmonate in gravitropism of rice coleoptiles. Planta 2005; 222:575-585.<br />
10 Aloni R, Langhans M, Aloni E, Ullrich CI. Role of cytokinin in the regulation of root gravitropism. Planta 2004; 220:177-182.<br />
11 Heilmann I, Shin J, Huang J, Perera IY, Davies E. Transient dissociation of polyribosomes and concurrent recruitment of calreticulin and calmodulin transcripts in gravistimulated maize pulvini. Plant Physiol 2001; 127:1193-1203.<br />
12 Belyavskaya NA. Changes in calcium signalling, gravitropism, and statocyte ultrastructure in pea roots induced by calcium channel blockers. J Gravit Physiol 2004; 11:P209-P210.<br />
13 Fasano JM, Swanson SJ, Blancaflor EB, Dowd PE, Kao TH, Gilroy S. Changes in root cap pH are required for the gravityresponse of the Arabidopsis root. Plant Cell 2001; 13:907-921.<br />
14 Monshausen GB, Sievers A. Basipetal propagation of gravityinduced surface pH changes along primary roots of Lepidium sativum L. Planta 2002; 215:980-988.<br />
15 Perera IY, Heilmann I, Chang SC, Boss WF, Kaufman PB. A role for inositol 1,4,5-trisphosphate in gravitropic signaling and the retention of cold-perceived gravistimulation of ooat shoot pulvini. Plant Physiol 2001; 125:1499-1507.<br />
16 Perera IY, Hung CY, Brady S, Muday GK, Boss WF. A universal role for inositol 1,4,5-trisphosphate-mediated signaling in plant gravitropism. Plant Physiol 2006; 140:746-760.<br />
17 Guan C, Rosen ES, Boonsirichai K, Poff KL, Masson PH. The ARG1-LIKE2 gene of Arabidopsis functions in a gravity signal transduction pathway that is genetically distinct from the PGM pathway. Plant Physiol 2003; 133:100-112.<br />
18 Sedbrook JC, Chen R, Masson PH. ARG1 (Altered Response to Gravity) encodes a DnaJ-like protein that potentially interacts with the cytoskeleton. Proc Natl Acad Sci USA 1999; 96:1140-1145.<br />
19 Went FW, Thimann KV, eds. Phytohormones. New York: Macmillan, 1937.<br />
20 Richard D, Firn, Wagstaff C, Digby J. The use of mutants to probe models of gravitropism. J Exp Bot 2000; 51:1323-1340.<br />
<br />
== Supplementary information==<br />
It is linked to the online version of the paper on the Cell Research website.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Zhangshuling7.jpg&diff=181662File:Zhangshuling7.jpg2014-06-09T03:14:13Z<p>Lingling: </p>
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<div></div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Zhangshuling6.jpg&diff=181660File:Zhangshuling6.jpg2014-06-09T03:13:25Z<p>Lingling: </p>
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<div></div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Zhangshuling5.jpg&diff=181656File:Zhangshuling5.jpg2014-06-09T03:12:40Z<p>Lingling: </p>
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<div></div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Zhangshuling4.jpg&diff=181655File:Zhangshuling4.jpg2014-06-09T03:12:10Z<p>Lingling: </p>
<hr />
<div></div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Zhangshuling3.jpg&diff=181652File:Zhangshuling3.jpg2014-06-09T03:11:47Z<p>Lingling: </p>
<hr />
<div></div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Zhangshuling2.jpg&diff=181643File:Zhangshuling2.jpg2014-06-09T03:09:50Z<p>Lingling: </p>
<hr />
<div></div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=File:Zhangshuling1.jpg&diff=181642File:Zhangshuling1.jpg2014-06-09T03:09:12Z<p>Lingling: </p>
<hr />
<div></div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181639Os11g04906002014-06-09T03:08:44Z<p>Lingling: /* Mutation */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.[[File:Zhangshuling1.jpg]]<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.[[File:Zhangshuling2.jpg]]<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.[[File:Zhangshuling3.jpg]]<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic response in the mutant shoots.[[File:Zhangshuling4.jpg]]<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.[[File:Zhangshuling5.jpg]] [[File:Zhangshuling6.jpg]] [[File:Zhangshuling7.jpg]]<br />
<br />
===Evolution===<br />
LA1 may represent a new type of regulating proteins that shuttle between the plasma membrane and the nucleus. Further investigations of LA1 functions will allow for a better understanding of the mechanism underlying the monocotyledonous shoot gravitropism.<br />
<br />
==Labs working on this gene==<br />
1、State Key Laboratory of Plant Genomics and National Center for Plant Gene Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; <br />
2、State Key Laboratory of Rice Biology, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310006, China<br />
<br />
==References==<br />
1. Morita MT, Tasaka M. Gravity sensing and signaling. Curr Opin Plant Biol 2004; 7:712-718.<br />
2. Perbal G, Driss-Ecole D. Mechanotransduction in gravisensing cells. Trends Plant Sci 2003; 8:498-504.<br />
3.Fukaki H, Wysocka-Diller J, Kato T, Fujisawa H, Benfey PN Tasaka M. Genetic evidence that the endodermis is essential for shoot gravitropism in Arabidopsis thaliana. Plant J 1998; 14:425-430.<br />
4. Tsugeki R, Olson ML, Fedoroff NV. Transposon tagging and the study of root development in Arabidopsis. Gravit Space Biol Bull 1998; 11:79-87.<br />
5. Moore I. Gravitropism: lateral thinking in auxin transport. CurrBiol 2002; 12:452-454.<br />
6. Kim SK, Chang SC, Lee EJ, et al. Involvement of brassinosteroids in the gravitropic response of primary root of maize. Plant Physiol 2000; 123:997-1004.<br />
7. Gutjahr C, Riemann M, Muller A, Duchting P, Weiler EW, Nick P. Cholodny-Went revisited: a role for jasmonate in gravitropism of rice coleoptiles. Planta 2005; 222:575-585.<br />
8. Aloni R, Langhans M, Aloni E, Ullrich CI. Role of cytokinin in the regulation of root gravitropism. Planta 2004; 220:177-182.<br />
<br />
<br />
== Supplementary information==<br />
It is linked to the online version of the paper on the Cell Research website.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181638Os11g04906002014-06-09T03:07:59Z<p>Lingling: /* Expression */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic <br />
response in the mutant shoots.<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.[[File:Zhangshuling5.jpg]] [[File:Zhangshuling6.jpg]] [[File:Zhangshuling7.jpg]]<br />
<br />
===Evolution===<br />
LA1 may represent a new type of regulating proteins that shuttle between the plasma membrane and the nucleus. Further investigations of LA1 functions will allow for a better understanding of the mechanism underlying the monocotyledonous shoot gravitropism.<br />
<br />
==Labs working on this gene==<br />
1、State Key Laboratory of Plant Genomics and National Center for Plant Gene Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; <br />
2、State Key Laboratory of Rice Biology, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310006, China<br />
<br />
==References==<br />
1. Morita MT, Tasaka M. Gravity sensing and signaling. Curr Opin Plant Biol 2004; 7:712-718.<br />
2. Perbal G, Driss-Ecole D. Mechanotransduction in gravisensing cells. Trends Plant Sci 2003; 8:498-504.<br />
3.Fukaki H, Wysocka-Diller J, Kato T, Fujisawa H, Benfey PN Tasaka M. Genetic evidence that the endodermis is essential for shoot gravitropism in Arabidopsis thaliana. Plant J 1998; 14:425-430.<br />
4. Tsugeki R, Olson ML, Fedoroff NV. Transposon tagging and the study of root development in Arabidopsis. Gravit Space Biol Bull 1998; 11:79-87.<br />
5. Moore I. Gravitropism: lateral thinking in auxin transport. CurrBiol 2002; 12:452-454.<br />
6. Kim SK, Chang SC, Lee EJ, et al. Involvement of brassinosteroids in the gravitropic response of primary root of maize. Plant Physiol 2000; 123:997-1004.<br />
7. Gutjahr C, Riemann M, Muller A, Duchting P, Weiler EW, Nick P. Cholodny-Went revisited: a role for jasmonate in gravitropism of rice coleoptiles. Planta 2005; 222:575-585.<br />
8. Aloni R, Langhans M, Aloni E, Ullrich CI. Role of cytokinin in the regulation of root gravitropism. Planta 2004; 220:177-182.<br />
<br />
<br />
== Supplementary information==<br />
It is linked to the online version of the paper on the Cell Research website.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181637Os11g04906002014-06-09T03:07:18Z<p>Lingling: /* Expression */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic <br />
response in the mutant shoots.<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.[[File:Zhangshuling5.jpg]][[File:Zhangshuling6.jpg]][[File:Zhangshuling7.jpg]]<br />
<br />
===Evolution===<br />
LA1 may represent a new type of regulating proteins that shuttle between the plasma membrane and the nucleus. Further investigations of LA1 functions will allow for a better understanding of the mechanism underlying the monocotyledonous shoot gravitropism.<br />
<br />
==Labs working on this gene==<br />
1、State Key Laboratory of Plant Genomics and National Center for Plant Gene Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; <br />
2、State Key Laboratory of Rice Biology, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310006, China<br />
<br />
==References==<br />
1. Morita MT, Tasaka M. Gravity sensing and signaling. Curr Opin Plant Biol 2004; 7:712-718.<br />
2. Perbal G, Driss-Ecole D. Mechanotransduction in gravisensing cells. Trends Plant Sci 2003; 8:498-504.<br />
3.Fukaki H, Wysocka-Diller J, Kato T, Fujisawa H, Benfey PN Tasaka M. Genetic evidence that the endodermis is essential for shoot gravitropism in Arabidopsis thaliana. Plant J 1998; 14:425-430.<br />
4. Tsugeki R, Olson ML, Fedoroff NV. Transposon tagging and the study of root development in Arabidopsis. Gravit Space Biol Bull 1998; 11:79-87.<br />
5. Moore I. Gravitropism: lateral thinking in auxin transport. CurrBiol 2002; 12:452-454.<br />
6. Kim SK, Chang SC, Lee EJ, et al. Involvement of brassinosteroids in the gravitropic response of primary root of maize. Plant Physiol 2000; 123:997-1004.<br />
7. Gutjahr C, Riemann M, Muller A, Duchting P, Weiler EW, Nick P. Cholodny-Went revisited: a role for jasmonate in gravitropism of rice coleoptiles. Planta 2005; 222:575-585.<br />
8. Aloni R, Langhans M, Aloni E, Ullrich CI. Role of cytokinin in the regulation of root gravitropism. Planta 2004; 220:177-182.<br />
<br />
<br />
== Supplementary information==<br />
It is linked to the online version of the paper on the Cell Research website.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181634Os11g04906002014-06-09T03:05:21Z<p>Lingling: /* References */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic <br />
response in the mutant shoots.<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.<br />
<br />
===Evolution===<br />
LA1 may represent a new type of regulating proteins that shuttle between the plasma membrane and the nucleus. Further investigations of LA1 functions will allow for a better understanding of the mechanism underlying the monocotyledonous shoot gravitropism.<br />
<br />
==Labs working on this gene==<br />
1、State Key Laboratory of Plant Genomics and National Center for Plant Gene Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; <br />
2、State Key Laboratory of Rice Biology, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310006, China<br />
<br />
==References==<br />
1. Morita MT, Tasaka M. Gravity sensing and signaling. Curr Opin Plant Biol 2004; 7:712-718.<br />
2. Perbal G, Driss-Ecole D. Mechanotransduction in gravisensing cells. Trends Plant Sci 2003; 8:498-504.<br />
3.Fukaki H, Wysocka-Diller J, Kato T, Fujisawa H, Benfey PN Tasaka M. Genetic evidence that the endodermis is essential for shoot gravitropism in Arabidopsis thaliana. Plant J 1998; 14:425-430.<br />
4. Tsugeki R, Olson ML, Fedoroff NV. Transposon tagging and the study of root development in Arabidopsis. Gravit Space Biol Bull 1998; 11:79-87.<br />
5. Moore I. Gravitropism: lateral thinking in auxin transport. CurrBiol 2002; 12:452-454.<br />
6. Kim SK, Chang SC, Lee EJ, et al. Involvement of brassinosteroids in the gravitropic response of primary root of maize. Plant Physiol 2000; 123:997-1004.<br />
7. Gutjahr C, Riemann M, Muller A, Duchting P, Weiler EW, Nick P. Cholodny-Went revisited: a role for jasmonate in gravitropism of rice coleoptiles. Planta 2005; 222:575-585.<br />
8. Aloni R, Langhans M, Aloni E, Ullrich CI. Role of cytokinin in the regulation of root gravitropism. Planta 2004; 220:177-182.<br />
<br />
<br />
== Supplementary information==<br />
It is linked to the online version of the paper on the Cell Research website.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181556Os11g04906002014-06-09T01:07:56Z<p>Lingling: /* References */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic <br />
response in the mutant shoots.<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.<br />
<br />
===Evolution===<br />
LA1 may represent a new type of regulating proteins that shuttle between the plasma membrane and the nucleus. Further investigations of LA1 functions will allow for a better understanding of the mechanism underlying the monocotyledonous shoot gravitropism.<br />
<br />
==Labs working on this gene==<br />
1、State Key Laboratory of Plant Genomics and National Center for Plant Gene Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; <br />
2、State Key Laboratory of Rice Biology, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310006, China<br />
<br />
==References==<br />
Supplementary information:<br />
It is linked to the online version of the paper on the Cell Research website.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181555Os11g04906002014-06-09T01:07:26Z<p>Lingling: /* Labs working on this gene */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic <br />
response in the mutant shoots.<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.<br />
<br />
===Evolution===<br />
LA1 may represent a new type of regulating proteins that shuttle between the plasma membrane and the nucleus. Further investigations of LA1 functions will allow for a better understanding of the mechanism underlying the monocotyledonous shoot gravitropism.<br />
<br />
==Labs working on this gene==<br />
1、State Key Laboratory of Plant Genomics and National Center for Plant Gene Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China; <br />
2、State Key Laboratory of Rice Biology, China National Rice Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou 310006, China<br />
<br />
==References==<br />
Please input cited references here.<br />
<br />
==Structured Information==<br />
{{JaponicaGene|<br />
GeneName = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181554Os11g04906002014-06-09T01:07:01Z<p>Lingling: /* Evolution */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic <br />
response in the mutant shoots.<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.<br />
<br />
===Evolution===<br />
LA1 may represent a new type of regulating proteins that shuttle between the plasma membrane and the nucleus. Further investigations of LA1 functions will allow for a better understanding of the mechanism underlying the monocotyledonous shoot gravitropism.<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 = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181552Os11g04906002014-06-09T01:06:32Z<p>Lingling: /* Expression */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
== Mutation==<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic <br />
response in the mutant shoots.<br />
<br />
== Expression==<br />
LA1 is a finely regulated temporally and spatially expressed gene, and that the region of its specific expression may play an important role in controlling the rice tiller angle.<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 = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181549Os11g04906002014-06-09T01:04:45Z<p>Lingling: /* Expression */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<br />
<br />
===Expression===<br />
Mutations were also identified in the la1-Shiokari allele with a prostrate phenotype similar to la1-ZF802.<br />
Sequence analysis revealed a single base substitute (TGG→TGA) at the second exon of LOC_Os03g03150 in tad1, which produces a premature stop codon. LOC_Os03g03150 is the TAD1 gene and the premature mutation is responsible for the phenotypes of the tad1 mutant plant.<br />
TAD1 is involved in regulating the exit of mitosis and it is indeed a functional cell-cycle switch protein homolo¬gous to Cdh1.<br />
Mutation in LA1 results in a significant increase in PAT and thus impairs the IAA differential distribution in la1-ZF802, which ultimately leads to a reduced gravitropic<br />
response in the mutant shoots.<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 = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Linglinghttps://ngdc.cncb.ac.cn/ricewiki/index.php?title=Os11g0490600&diff=181548Os11g04906002014-06-09T01:04:14Z<p>Lingling: /* Function */</p>
<hr />
<div>Please input one-sentence summary here.<br />
<br />
==Annotated Information==<br />
===Function===<br />
LAZY1 (LA1) gene regulates shoot gravitropism by which the rice tiller angle is controlled. LA1, a novel grass-specific gene, is temporally and spatially expressed, and plays a negative role in polar auxin transport (PAT). Loss-of-function of LA1 enhances PAT greatly and thus alters the endogenous IAA distribution in shoots, leading to thereduced gravitropism, and therefore the tiller-spreading phenotype of rice plants.<br />
LA1 is an essential regulator of tiller angle of rice, opening a promising way for<br />
breeders to develop elite rice cultivars and other cereal crops with optimal plant architecture.<br />
LA1ΔN100 is the truncated LA1 with a deletion of amino-acid residues1-100 that<br />
contain a predicted transmembrane domain. LA1ΔNLS refers to the LA1 truncated from amino-acid residues 286 to 312, a segment containing a putative nuclear localization signal (NLS) domain. The 996-1571 bp region of the LA1 gene was subcloned into the T-easy vector and used as templates to generate sense and antisense RNA probes.<br />
Rice LA1gene is responsible for the tiller-spreading phenotype of mutant plants.<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 = Os11g0490600|<br />
Description = Conserved hypothetical protein|<br />
Version = NM_001074458.1 GI:115485564 GeneID:4350543|<br />
Length = 5524 bp|<br />
Definition = Oryza sativa Japonica Group Os11g0490600, 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 11|Chromosome 11]]|<br />
AP = Chromosome 11:19145382..19150905|<br />
CDS = 19145410..19145415,19145782..19145851,19147818..19148686,19150064..19150349,19150566..19150585<br>|<br />
GCID = <gbrowseImage1><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage1>|<br />
GSID = <gbrowseImage2><br />
name=NC_008404:19145382..19150905<br />
source=RiceChromosome11<br />
preset=GeneLocation<br />
</gbrowseImage2>|<br />
CDNA = <cdnaseq>atgaagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactacttggtgctggaattataa</cdnaseq>|<br />
AA = <aaseq>MKLLGWMHRKLRSNNDVFKEFNTGGGGACNCITGLASPDHDNDY FSGDDAAHASPPVTAGDLFTFGGSGLLTIGTLGIAAVAIPSGGDDDDYDIDFEVDATS DDDGGFTVEDDDADVGGAVTPTFTFPAATAAEAVVATVEKAVAAVEAIAEKDDDTTTE DDLMVVSAELEKVLGGVDVASARVSFAMGGGVDCPLQGFLFGSPVSDVESRPEYLQAP RDSSGSCGGGGRRTSLGELFMRTRFADEKVALVAVAEGEDGVAGDDGAAAAGVGGDRA GKGGGYKTMKKRKVKDEKGGGGAAGGGMPATVTKSKFQKILQIFHRKVYPENTLLTRN LTKKSRNRGATDNGGGAVATGDPDGPLASPVLRCRKDHPMRGFGCCTNGAFGASSPGG NAEMNGNKSGHWIKTDADYLVLEL</aaseq>|<br />
DNA = <dnaseqindica>29..34#401..470#2437..3305#4683..4968#5185..5204#atcttagcacgctaaaccggcttccaagatgaaggttagtgtttcatctattgaacatatccatgcttattagtttcgtaatgtagatactaagtttatgtatatgtagttctcttttggaacttgagttgttaatttctttttgtaaatattttttgtttggtttggttacgttgctggcctagctgatcatgctttctgggttgaataaatgtagctacaactattaatcctttattttgtttttccatcattgccgttgtcatcatctttcattgtcatcatcatcttctccttttgacgatcttcatcagatcttgatcaaaagtaatagaccatgcattttcatgattgatgaagttcataaaaatttctgatcctcatatgtgtatatgatcagctcttaggttggatgcatcgaaagctacggagtaataatgacgtgttcaaagagttcaacaccggaggaggtatgcacgcacaacttaattaatctattttttgtcctttttttcttatgtttaattgatgaagtataattgttttgaaaaatacagtagctcgtaacacaaacgcactcacctctagtactctctccagtgtttttatatattaaactaacgtcatataaaaaattgaagttagtatatatgtataatagttcatcggtacatgcagaaaaaaaaaagagtttgtctctggttttagatctgtaagcatgcccacaataatgagaaaaccactgcaaaattgttggccggccggtcccacatgtcattgaccagattagccgtctgaagtgctgaactgtatggaacactagcaatcatcaatgggagttttgcactcttgcgcttggtcacattggagatggcacatctatctataatatcacacatgccacttttcttccagcctcaatatctatagttccagcactagctagctagctagaccaactattgcatagcaagaaccctatattatcattttgcagataacattttcttttccatgtagtaacattgccatggaaagatcacgagggcatgtctatcttttgtgaaactctctctctctccttttgaaggcttcctttgagagttttctccttgttggactgttgctcttaggctcagcatgttaatatcagagttttcgcccgtttttcataaatcaattgtgccgttgtaagatttttgcgtccagttttccttataaactggacctctctgcctgtttcctcgagaaaaattgtccaagagcattctcgacgattcaacaactagaattcaacaaataaagatttttatatatggtgcatatggtacggtgagatattgtatttttagtgtgagataccaaaagagctacaacaaattaatacgataaaataagggaaatttcatggactaactagttagaaacatattttgagtaaatgaaaattttattttattaccttggtttacaaaagacttataataagtgctgtcaaacatctaaaatgttaaattcttaatagacgaaaagtattagaatttaaaacgtgaaaattatatactttttgatgaaaaatagtaggaatgtgaaaattatattagtagactttttttgatgaaaactctttcatatagttatatgttaattttttataactatatagtttgagaaagtaatcatataacttttgcattaaaaaatgtgtcaatgtccaaaacattatcttaattaacccggtccttctcctcccaaaggaacacataaaaaaggacaaaaaccaatacatcttgaaaaacttacatagaaaaagcttaatcatattttatatcaccctgatcccgttgcaacgcacatgaatgtaactatttctttttaaaatggtgttgtacttcataaatttgaaacaaaaaaaatacatataatgtaacccttttaatttctgaaacacatcaaaacttttctttctcaaaaaaaagaaaagaaaacacatgaaagcctgcataattttgcatgcaaatgatcgtactccttcctttttaaggttacaagactttcttacattacccaaatttatatagataataaatctagacacaaatatatgtgatttattaatatgtatatgaatgtgaacaatgccaaaaagtcttataatataaaatggagaaagtatttaatactccctcagtttctaaatatttgacaccattgattttttaaacatgtttaatcattcgtcttattcaaaaattttaagtaattattaattattttcctatcatttgattcattgttaaatatacttttatgtatacatataattttacgtatttcacaaaagtttttgataagacggacggtcaaacatgtgctaaaaagtcaactgtgtcagatatttagaaacggagggagtaattcactgtgtgactgcaggtggggcctgcaactgcatcaccgggcttgcctcgcctgaccacgacaacgactacttctccggcgacgacgccgcccacgcctcgccgccggtcaccgccggcgacctcttcaccttcggcggcagcggccttctcaccatcggcacgctaggcatcgccgccgtcgccattcccagcggcggcgacgacgacgactacgacatcgacttcgaggtggacgccaccagcgacgacgacggcggcttcaccgtcgaggacgacgacgccgacgtcggcggcgccgtcacgcccaccttcaccttccccgcggcgacggcggcggaggcggtcgtcgccaccgtggagaaggcagtggccgcggtggaggcgatcgcggagaaggacgacgacaccaccacggaggacgacctgatggtggtgagcgccgagctggagaaggtgctcggcggcgtcgacgtggcgtcggcgcgggtgagcttcgccatgggcggtggcgtcgactgcccgctccagggcttcctgttcggctccccggtgagcgacgtcgagtcgcgcccggagtacctgcaggcgccgcgggactcgtccggctcctgcggcggcggcgggcggcgcacctcgctcggcgagctgttcatgcgcacccgcttcgccgacgagaaggtggcgctcgtcgccgtcgccgagggcgaggacggcgtcgccggcgacgacggcgctgctgctgccggcgtcggcggagacagagcggggaaaggcggcggctacaagacgatgaagaagaggaaggtgaaggacgagaaaggcggcggcggcgccgccggcggtggaatgccggcgacggtgacgaagagcaagtttcagaaggtaacttttttttttgttgttgctagcattttaatttgctttgaagaaaactataaaatatctgcaattttggctgactatttcatgaggtttccttggatatgatcatttgattaattagttcgttcgattgctatagttttagttcatttttctttaattaatttgtaataaaactcaagagttattgtgagttttttttttattatttttgcttcagtacgtgcattttctactagtgaaacttcaatattaaccaggccagtcgacatttcttaattgtgatttgatttaagggtcaagattagaactatagattgaatatgcaaagtttcagctcggacgacatttgaacatttgactaattatatatttccgagttcaattgtttgccggtaaaattctgaacttgcagttggaacattcaagattcaactctgattcacatgatctcgaactcaatatctccaactttataaaaagacaaaaagattactgctcaacggtgagtttaatgaaggaatgctcatcacagcaaatccataattctatataactctctgtaatatgtaatggtaagaaacagatattcatgattaaatcatttttccccttcagaaagaaatactgatttttcgtggtacatccaaaattactccaaagtttacactgaatttcacgctgttcttggtgtttaagattaattttaggtagatattttctagtcccgcaacaaagctgacaatgaaaaccccaaaactaatcctaaatgaaattctaaaattaagaaaaacagctttagattataaattttaatagtaagtccaaggaaatagccagcaatgttaataagattgctgataagaatatataacagtttggagccaatccatttcacatgtgtatcctgctctgggacataagtagacacaaatcccgagttttgactatcatctcataatcggaagatctttcactgtgtcgtcagattcgagttaagtttctgtagaccaacttggtgtgtcaatggtgttgttaggagtggggatactgggggcagtgagttgacatgcgatttgtttgcaatctcctgtctaatgctatctttatggatcatttcatttgtcatttttcgtttgccccataaacaacaagggattcttgatttgatatattatacatccttctaggtgctctcttgcatttcttttccttggagagatgctccaaatatccctcaaaagaaattctagattccttttgctactacttggtacttacatttaattttgttacaacgaatgaaagaaactgagtttcagaaagtgatcaaaagttgacaatgttctgaaatgaggaaacatctgctcattgcagatccttcaaatcttccacaggaaagtctaccccgagaacacactcctcacaaggaatctgaccaagaagagccgcaaccgcggcgccaccgataatggcggtggcgccgtggccaccggagaccccgacgggcctctggcctcgccggtgctccggtgccggaaggaccatcccatgaggggcttcggctgctgcaccaatggcgccttcggtgcatcgtcaccgggaggcaacgccgagatgaacggcaacaagagcggccactggatcaagactgatgccgactgtgagtagcactgcacaccttggtgtctccatccatcttcaatggatctatctttgcaatcatgcattcagtcttgacagctacatctttccatactatttttggggaatcttccaagagctatccatcactagtttctgagttactgtgtgctgatgcacacactgcaaacattgtgctttttcactgaaaccctgtctctctgatctgatgcagacttggtgctggaattataatggggaaaagaagaggagctatttgtttcatcaagaattaaagcttgaatagtgagcatctcatatatatgaatatgtgcttgctgttacaatataatctctatctgtttggtatagaagggcttgaatgtgctgtatatgtcactatatattgggggggagaggattactatgagatcaactcataagtgtgtggtgtttatatacattgctctgtgaatgtatgacagagatcagaacttaatgtattgtatgctttcttgatgtgattggtgtttatgagcctagctgatggcaatattgtgtgtgggtccacccct</dnaseqindica>|<br />
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001074458.1 RefSeq:Os11g0490600]|<br />
}}<br />
[[Category:Genes]]<br />
[[Category:Japonica mRNA]]<br />
[[Category:Oryza Sativa Japonica Group]]<br />
[[Category:Japonica Genes]]<br />
[[Category:Japonica Chromosome 11]]<br />
[[Category:Chromosome 11]]</div>Lingling