Difference between revisions of "Os09g0441900"
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<ref name="ref1"> | <ref name="ref1"> | ||
| − | Huang X, Qian Q, Liu Z, et al. Natural variation at the DEP1 locus enhances grain yield in rice[J]. Nature genetics, 2009, 41(4): 494-497.</ref> | + | Huang X, Qian Q, Liu Z, et al. Natural variation at the ''DEP1'' locus enhances grain yield in rice[J]. Nature genetics, 2009, 41(4): 494-497.</ref> |
<ref name="ref2">Sun H, Qian Q, Wu K, et al. Heterotrimeric G proteins regulate nitrogen-use efficiency in rice[J]. Nature genetics, 2014.</ref> | <ref name="ref2">Sun H, Qian Q, Wu K, et al. Heterotrimeric G proteins regulate nitrogen-use efficiency in rice[J]. Nature genetics, 2014.</ref> | ||
<ref name="ref3">New D C, Wong J T Y. The evidence for G-protein-coupled receptors and heterotrimeric G proteins in protozoa and ancestral metazoa[J]. Neurosignals, 1998, 7(2): 98-108.</ref> | <ref name="ref3">New D C, Wong J T Y. The evidence for G-protein-coupled receptors and heterotrimeric G proteins in protozoa and ancestral metazoa[J]. Neurosignals, 1998, 7(2): 98-108.</ref> | ||
| − | <ref name="ref4">Perfus-Barbeoch L, Jones A M, Assmann S M. Plant heterotrimeric G protein function: insights from | + | <ref name="ref4">Perfus-Barbeoch L, Jones A M, Assmann S M. Plant heterotrimeric G protein function: insights from Arabidopsis and rice mutants[J]. Current opinion in plant biology, 2004, 7(6): 719-731.</ref> |
<ref name="ref5">Jones J C, Duffy J W, Machius M, et al. The crystal structure of a self-activating G protein {alpha} subunit reveals its distinct mechanism of signal initiation[J]. Science signaling, 2011, 4(159): ra8.</ref> | <ref name="ref5">Jones J C, Duffy J W, Machius M, et al. The crystal structure of a self-activating G protein {alpha} subunit reveals its distinct mechanism of signal initiation[J]. Science signaling, 2011, 4(159): ra8.</ref> | ||
<ref name="ref6">Ford C E, Skiba N P, Bae H, et al. Molecular basis for interactions of G protein βγ subunits with effectors[J]. Science, 1998, 280(5367): 1271-1274.</ref> | <ref name="ref6">Ford C E, Skiba N P, Bae H, et al. Molecular basis for interactions of G protein βγ subunits with effectors[J]. Science, 1998, 280(5367): 1271-1274.</ref> | ||
Revision as of 18:32, 23 May 2014
The rice Os09g0441900 was identified as DEP1 (DENSE AND ERECT PANICLE1) and qPE9-1 respectively in 2009 by researchers from China[1].(in chronological order).
Contents
Annotated Information
Function
Natural variation at the DEP1 locus enhances grain yield in rice[1]. DEP1 regulates nitrogen uptake and metabolism and participates in determining the amount and direction of cell division,which in turn controls organ size and shape.It has been suggested to encode a plant-specific G protein γ subunit.The DEP1 protein interacts in vivo with both the Gα(RGA1)and Gβ(RGB1)subunits,and reduced RGA1 or enhanced RGB1 activity inhibits nitrogen responses.The plant G protein complex regulates nitrogen signaling and modulation of heterotrimeric G protein activity provides a strategy for environmentally sustainable increases in rice grain yield[2].
GO assignment(s): GO:0005882
Mutation
- dep1 confers an increased number of grains per panicle (and a consequent increase in grain yield).Figure 1 shows the DEP1 and dep1 NIL line field performance.(a) Dense and erect panicle.(b)Increased panicle branching and reduced rachis length. (c)Grain number per main panicle was significantly higher in the presence of dep1[1].
- The dep1-1 and dep1-32 alleles exhibit insensitive growth to nitrogen input level[2].
Expression
- During reproductive development,DEP1 was preferentially expressed on the adaxial side of the bract primordium,as well as in the bract primordia of primary and secondary rachis-branches. Within the inflorescence meristem,DEP1 was expressed weakly in the carpel and stamen primordia, with patchy expression in the lemma and palea(Figure 2)[1].
- DEP1 transcript abundance was positively induced by the level of nitrogen supplied[2].
Cellular Location
RGB1-GFP, DEP1-GFP,and dep1-1–GFP fusion proteins were detected both on the plasma membrane and within the nucleus of transgenic rice root cells[2].
Extension
Heterotrimeric G proteins are multisubunit, integral membrane signal-transduction complexes that mediate intracellular responses to external stimuli in diverse eukaryotic organisms[3].G proteins typically consist of α, β and γ subunits[4][5].Gβγ acts as a functional monomer,and Gβ-mediated processes require a γ subunit[6][7][8].
Labs working on this gene
- The State Key Laboratory of Plant Cell and Chromosome Engineering, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, National Centre for Plant Gene Research, Beijing, China.
- The State Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou, China.
- The State Key Laboratory of Plant Molecular Genetics, Shanghai Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences, Shanghai, China.
- Institute of Technical Biology and Agriculture Engineering, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei, China.
- The State Key Laboratory of Genetic Resources and Evolution, Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, China.
References
<references> [1] [2] [3] [4] [5] [6] [7] <ref name="ref8">Trusov Y, Rookes J E, Tilbrook K, et al. Heterotrimeric G protein γ subunits provide functional selectivity in Gβγ dimer signaling in Arabidopsis[J]. The Plant Cell Online, 2007, 19(4): 1235-1250.
Structured Information
| Gene Name |
Os09g0441900 |
|---|---|
| Description |
Whey acidic protein, core region domain containing protein |
| Version |
NM_001069822.1 GI:115479386 GeneID:4347178 |
| Length |
4701 bp |
| Definition |
Oryza sativa Japonica Group Os09g0441900, complete gene. |
| Source |
Oryza sativa Japonica Group ORGANISM Oryza sativa Japonica Group
Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;
Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP
clade; Ehrhartoideae; Oryzeae; Oryza.
|
| Chromosome | |
| Location |
Chromosome 9:17064862..17069562 |
| Sequence Coding Region |
17065265..17065393,17066606..17066664,17067820..17067864,17067951..17067995,17068411..17069413 |
| Expression | |
| Genome Context |
<gbrowseImage1> name=NC_008402:17064862..17069562 source=RiceChromosome09 preset=GeneLocation </gbrowseImage1> |
| Gene Structure |
<gbrowseImage2> name=NC_008402:17064862..17069562 source=RiceChromosome09 preset=GeneLocation </gbrowseImage2> |
| Coding Sequence |
<cdnaseq>atgggggaggaggcggtggtgatggaggcgccgaggcccaagtcgccgccgaggtacccggacctgtgcggccggcggcggatgcagctggaggtgcagatcctgagccgcgagatcacgttcctcaaggatgagcttcacttccttgaaggagctcagcccgtttctcgttctggatgcattaaagagataaatgagtttgttggtacaaaacatgacccactaataccaacaaagagaaggaggcacagatcttgccgtctttttcggtggatcggatcaaaattgtgtatctgcatttcatgtctttgctactgttgcaagtgctcacccaagtgcaaaagaccaaggtgcctcaattgttcttgcagctcatgctgcgacgagccatgctgtaagccaaactgcagtgcgtgctgcgctgggtcatgctgtagtccagactgctgctcatgctgtaaacctaactgcagttgctgcaagaccccttcttgctgcaaaccgaactgctcgtgctcctgtccaagctgcagctcatgctgcgatacatcgtgctgcaaaccgagctgcacctgcttcaacatcttttcatgcttcaaatccctgtacagctgcttcaagatcccttcatgcttcaagtcccagtgcaactgctctagccccaattgctgcacttgcacccttccaagctgtagctgcaagggctgtgcctgtccaagctgtggatgcaacggctgtggctgtccaagctgcggatgcaacggttgtggctgtccaagctgcggttgcaacggctgtggccttccaagctgcggttgcaacggctgcggctcgtgctcttgcgcccaatgcaaacccgattgtggctcgtgctctaccaattgctgtagctgcaagccaagctgcaacggctgctgcggcgagcagtgctgccgctgcgcggactgcttctcctgctcgtgccctcgttgctccagctgcttcaacatcttcaaatgctcctgcgctggctgctgctcgagcctgtgcaagtgcccctgcacgacgcagtgcttcagctgccagtcgtcatgctgcaagcggcagccttcgtgctgcaagtgccagtcgtcttgctgcgaggggcagccttcctgctgcgagggacactgctgcagcctcccgaaaccgtcgtgccctgaatgttcctgtgggtgtgtctggtcttgcaagaattgtacagagggttgtcgatgcccacggtgtcgtaacccatgctgtctcagtggttgcttatgttga</cdnaseq> |
| Protein Sequence |
<aaseq>MGEEAVVMEAPRPKSPPRYPDLCGRRRMQLEVQILSREITFLKD ELHFLEGAQPVSRSGCIKEINEFVGTKHDPLIPTKRRRHRSCRLFRWIGSKLCICISC LCYCCKCSPKCKRPRCLNCSCSSCCDEPCCKPNCSACCAGSCCSPDCCSCCKPNCSCC KTPSCCKPNCSCSCPSCSSCCDTSCCKPSCTCFNIFSCFKSLYSCFKIPSCFKSQCNC SSPNCCTCTLPSCSCKGCACPSCGCNGCGCPSCGCNGCGCPSCGCNGCGLPSCGCNGC GSCSCAQCKPDCGSCSTNCCSCKPSCNGCCGEQCCRCADCFSCSCPRCSSCFNIFKCS CAGCCSSLCKCPCTTQCFSCQSSCCKRQPSCCKCQSSCCEGQPSCCEGHCCSLPKPSC PECSCGCVWSCKNCTEGCRCPRCRNPCCLSGCLC</aaseq> |
| Gene Sequence |
<dnaseqindica>404..532#1745..1803#2959..3003#3090..3134#3550..4552#tctcttccctctctctctttctctctccaaaccccacgcacgccgcgtcgccgcctcctcctctccatctccgctgctattattgcccgcgcagacgcaggccaccatccttcctctcgctcacgctcgctgctatatgggggtcctcctcatcgcatcgcatcgcatcacctcgcacgggcgcgcgcgccgtgccgtgccgctagctcgatccgcctcgtacgccagctcgctcgctcgctcccccaccccgctgctgcacggctgcgcccgcgctgtcccctgtccccccgctcgccgcggcgatttatacccaccacgccccctgctgctgctataatgcccatgagtgaaggcggcgaggggtggttctgagttggccgttggcgtgctgcgtgtggagatgggggaggaggcggtggtgatggaggcgccgaggcccaagtcgccgccgaggtacccggacctgtgcggccggcggcggatgcagctggaggtgcagatcctgagccgcgagatcacgttcctcaaggtgagcgccccgcggcggcggcggctgcgtttttctctataggtttctctttcacactcgctcgctcgaaattctcggggcccgagctctacttgcttcgtcttcctttgactttaccgattaattttaaaaaaaaggagatccgattcgccgcgcatttttcaaaacccaagcggccgagtacggagctacccgctactgcaagtaggatgctgtgaagtgtacagtaatggcgttgttaattgcggtagctagtgctattctagtacttgtagtactgtttctaggcggaggtgaatcacggcgccatcaatccgaggctggcgagacaagcttggccctctttgggcgtggcgccatggctgtactacctttgtcgttgtttggttgggctcctcgttggagaaaagaagagcgtgggcatggacaactgacctgagtggccttgtcagggagagccatagcagtggacgtgtctatctccgccattgcttcgtcgacactggacgtgcagacggcatggccatgagggctttgcacgatgggtggtgccgtgttggtgttatgggctgccaccatggtttgaggcttttgatgttgctagattttgtgtttaacgagggagggaagaatgtgttgttcttgacactgtgctgtgcttttaaggagcagagatttcagaagctcttcagatatcagagaacttctttgtagtagtaatcaaatgcgctttagacatctttttatcgtttcttgcaaggtcagtccctgctttggtacccgatctcgcttttgtgcaacatcaaagttacacttacacagtaaagcaggaatctttatgggaccgttcgtactggtcaattactccaggctttgattaatgggttttaagttttaaccgcagatttggtacaagtaacaacctttatttactttttatttctgcaactgtgtcttttaacatgaaagaatccagctccattcaaaagtttagtttttattttccattgtggtgcatggtcactcagcctgcagtactgaattatcaaaattttcttttgtcatttctctcatgttaagtgcatagtctattttacttcaacaggtagaaaaacttttgtgggtttgtttctagctcaaggaggaaattcatgggtttgcatctagcacatgagagaacaatattggtctaacacaaagctccttttgtaggatgagcttcacttccttgaaggagctcagcccgtttctcgttctggatgcattaaagagtatgtactactgcccttcatgcattacagatattttgtttttaagtttttagaaatttgaagagcttatgtcaagtatgaaatgtcagcttaattttattgctgtccttatctaatgtcttatgctctgttttataaaatttggttgcattttctcccccagggaaaaatcttgtataagtgtgttatgtacttatgtgtataaaatcttgttgcacttgtatgtcacacttaggccctgtttagatcctccaaaatggcagtttgccattttgaagaaccttttgccattttggatctaaacactagtaacaaaacttggcaatttggcatttggcatttgctagtctatagtagcaaattgtgccaaaaagtgctttggaaccactctctctttctttctctctctcactttagtgctagaatggtaaaagtttaggatgcatctaaacaccaactagtacttttacaatactaaaacttttgccaccaaaacttttgccatttgccatttgctatttcaaatggatctaaacagggccttagcaaatcaccatatgttaaaattaccttgggatgaaaaagaaaaaggaaaccagcattgaagtcttgtttgaaatgcatatgtacttgtaccattacagaaattcttaaaactgctgtcttgacagctacttatcaaacagccccacctgcatcataacgttcctagtggtgcctataactctgcctcagttattattttgtggcccactggtccaacaatttgaaaaaaattatattgaactaaatatattgaacagtagtatgacgtcctctttgcttgagttccatattacagctcacagtcctgagatttgtttcaccgattctttccatgcgatgtgcacatattcttattcaatttaaaaaatgaaagcagattatttttaacaagtaacctatcacgttagcttaacattgtatatttgtggtggaattatgtaatattccgatatcgcatttgaagttttgaacatgtgtgctcaaattgagggacacatgactgtagtgaaagcaaatataaatgtctgagcaatggactatactttgtattcattactacaagttatgtccttttgcaggttgctaatgtcctcttacattacttgtcaggataaatgagtttgttggtacaaaacatgacccactaataccaacgtatggcctctaaactttcagttcccccattttaagcatgttcgctgtttatttacgagttttgacattgttttttccttttccagaaagagaaggaggcacagatcttgccgtctttttcggtggatcgggtatgttttgatccaatatagtttgctcgcaggttctgaggggcaagaacattcaaatatctataatgttttctgttggattcaacattcatcactatttccctcgaaaaaaaagcattcgtcactattggaattgaaagtctgaaagtgcctctagtccctttgtatgttaaaagtcaataaacaagcagtagttttctatatgccacattaatattattgacgcattttaaaaagcaaactagtccagggatgtaatcatctttgttatctaaaactaaaaaaggaaaaactagtgcttttttacattaacattgatttttttgcggctgaaattacatgtagaaactttggcataataatctgtactactgccaaactgagcttttacatggtgaaaatattttccctgcagatcaaaattgtgtatctgcatttcatgtctttgctactgttgcaagtgctcacccaagtgcaaaagaccaaggtgcctcaattgttcttgcagctcatgctgcgacgagccatgctgtaagccaaactgcagtgcgtgctgcgctgggtcatgctgtagtccagactgctgctcatgctgtaaacctaactgcagttgctgcaagaccccttcttgctgcaaaccgaactgctcgtgctcctgtccaagctgcagctcatgctgcgatacatcgtgctgcaaaccgagctgcacctgcttcaacatcttttcatgcttcaaatccctgtacagctgcttcaagatcccttcatgcttcaagtcccagtgcaactgctctagccccaattgctgcacttgcacccttccaagctgtagctgcaagggctgtgcctgtccaagctgtggatgcaacggctgtggctgtccaagctgcggatgcaacggttgtggctgtccaagctgcggttgcaacggctgtggccttccaagctgcggttgcaacggctgcggctcgtgctcttgcgcccaatgcaaacccgattgtggctcgtgctctaccaattgctgtagctgcaagccaagctgcaacggctgctgcggcgagcagtgctgccgctgcgcggactgcttctcctgctcgtgccctcgttgctccagctgcttcaacatcttcaaatgctcctgcgctggctgctgctcgagcctgtgcaagtgcccctgcacgacgcagtgcttcagctgccagtcgtcatgctgcaagcggcagccttcgtgctgcaagtgccagtcgtcttgctgcgaggggcagccttcctgctgcgagggacactgctgcagcctcccgaaaccgtcgtgccctgaatgttcctgtgggtgtgtctggtcttgcaagaattgtacagagggttgtcgatgcccacggtgtcgtaacccatgctgtctcagtggttgcttatgttgatctagatccttttttggttgttgtttttcttgtattttttagttgttaggcctttgattaagttcgaactttcataaatatatggtgtttatcctgtaaagaaatgatgatttcaaggatttttcatagctatgagacgaggttgaacc</dnaseqindica> |
| External Link(s) |
- ↑ 1.0 1.1 1.2 1.3 1.4 1.5 1.6 Huang X, Qian Q, Liu Z, et al. Natural variation at the DEP1 locus enhances grain yield in rice[J]. Nature genetics, 2009, 41(4): 494-497.
- ↑ 2.0 2.1 2.2 2.3 2.4 Sun H, Qian Q, Wu K, et al. Heterotrimeric G proteins regulate nitrogen-use efficiency in rice[J]. Nature genetics, 2014.
- ↑ 3.0 3.1 New D C, Wong J T Y. The evidence for G-protein-coupled receptors and heterotrimeric G proteins in protozoa and ancestral metazoa[J]. Neurosignals, 1998, 7(2): 98-108.
- ↑ 4.0 4.1 Perfus-Barbeoch L, Jones A M, Assmann S M. Plant heterotrimeric G protein function: insights from Arabidopsis and rice mutants[J]. Current opinion in plant biology, 2004, 7(6): 719-731.
- ↑ 5.0 5.1 Jones J C, Duffy J W, Machius M, et al. The crystal structure of a self-activating G protein {alpha} subunit reveals its distinct mechanism of signal initiation[J]. Science signaling, 2011, 4(159): ra8.
- ↑ 6.0 6.1 Ford C E, Skiba N P, Bae H, et al. Molecular basis for interactions of G protein βγ subunits with effectors[J]. Science, 1998, 280(5367): 1271-1274.
- ↑ 7.0 7.1 Ullah H, Chen J G, Young J C, et al. Modulation of cell proliferation by heterotrimeric G protein in Arabidopsis[J]. Science, 2001, 292(5524): 2066-2069.
- ↑ Cite error: Invalid
<ref>tag; no text was provided for refs namedref8
