Difference between revisions of "Os02g0743400"
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===Function=== | ===Function=== | ||
OsPIN1 was expressed in the vascular tissues and root primordial in a manner similar to AtPIN1. Adventitious root emergence and development were significantly inhibited in the OsPIN1 RNA interference (RNAi) transgenic plants, which was similar to the phenotype of NPA (N-1-naphthylphalamic acid, an auxintransport inhibitor)-treated wild-type plants. α-naphthylacetic | OsPIN1 was expressed in the vascular tissues and root primordial in a manner similar to AtPIN1. Adventitious root emergence and development were significantly inhibited in the OsPIN1 RNA interference (RNAi) transgenic plants, which was similar to the phenotype of NPA (N-1-naphthylphalamic acid, an auxintransport inhibitor)-treated wild-type plants. α-naphthylacetic | ||
| − | acid (α-NAA) treatment was able to rescue the mutated phenotypes occurring in the RNAi plants. Overexpression or suppression of the OsPIN1 expression through a transgenic approach resulted in changes of tiller numbers and shoot/root ratio. Taken together, these data suggest that OsPIN1 plays an important role in auxindependent adventitious root emergence and tillering<ref name="pmid:16085936" />. | + | acid (α-NAA) treatment was able to rescue the mutated phenotypes occurring in the RNAi plants. Overexpression or suppression of the OsPIN1 expression through a transgenic approach resulted in changes of tiller numbers and shoot/root ratio. Taken together, these data suggest that OsPIN1 plays an important role in auxindependent adventitious root emergence and tillering<ref name="pmid:16085936" /><ref name="pmid:14651850" /><ref name="pmid:15635403" />. |
[[File:Adventitious roots in OsPIN1 transgenic plants.jpg]] | [[File:Adventitious roots in OsPIN1 transgenic plants.jpg]] | ||
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<references> | <references> | ||
<ref name="pmid:16085936"> Xu M, Zhu L, Shou H, Wu P. A PIN1 family gene, OsPIN1, involved in auxin-dependent adventitious root emergence and tillering in rice. Plant Cell Physiol. 2005 Oct;46(10):1674-81. </ref> | <ref name="pmid:16085936"> Xu M, Zhu L, Shou H, Wu P. A PIN1 family gene, OsPIN1, involved in auxin-dependent adventitious root emergence and tillering in rice. Plant Cell Physiol. 2005 Oct;46(10):1674-81. </ref> | ||
| + | <ref name="pmid:14651850"> Benková E, Michniewicz M, Sauer M, Teichmann T, Seifertová D, Jürgens G, Friml J. Local, efflux-dependent auxin gradients as a common module for plant organ formation. Cell. 2003 Nov 26;115(5):591-602. </ref> | ||
| + | <ref name="pmid:15635403"> Blilou I1, Xu J, Wildwater M, Willemsen V, Paponov I, Friml J, Heidstra R, Aida M, Palme K, Scheres B.The PIN auxin efflux facilitator network controls growth and patterning in Arabidopsis roots. Nature. 2005 Jan 6;433(7021):39-44. </ref> | ||
</references> | </references> | ||
Revision as of 12:41, 3 June 2014
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Contents
Annotated Information
Function
OsPIN1 was expressed in the vascular tissues and root primordial in a manner similar to AtPIN1. Adventitious root emergence and development were significantly inhibited in the OsPIN1 RNA interference (RNAi) transgenic plants, which was similar to the phenotype of NPA (N-1-naphthylphalamic acid, an auxintransport inhibitor)-treated wild-type plants. α-naphthylacetic
acid (α-NAA) treatment was able to rescue the mutated phenotypes occurring in the RNAi plants. Overexpression or suppression of the OsPIN1 expression through a transgenic approach resulted in changes of tiller numbers and shoot/root ratio. Taken together, these data suggest that OsPIN1 plays an important role in auxindependent adventitious root emergence and tillering[1][2][3].
Expression
Please input expression information here.
Evolution
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You can also add sub-section(s) at will.
Labs working on this gene
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References
- ↑ Xu M, Zhu L, Shou H, Wu P. A PIN1 family gene, OsPIN1, involved in auxin-dependent adventitious root emergence and tillering in rice. Plant Cell Physiol. 2005 Oct;46(10):1674-81.
- ↑ Benková E, Michniewicz M, Sauer M, Teichmann T, Seifertová D, Jürgens G, Friml J. Local, efflux-dependent auxin gradients as a common module for plant organ formation. Cell. 2003 Nov 26;115(5):591-602.
- ↑ Blilou I1, Xu J, Wildwater M, Willemsen V, Paponov I, Friml J, Heidstra R, Aida M, Palme K, Scheres B.The PIN auxin efflux facilitator network controls growth and patterning in Arabidopsis roots. Nature. 2005 Jan 6;433(7021):39-44.
Structured Information
| Gene Name |
Os02g0743400 |
|---|---|
| Description |
Auxin transport protein REH1 |
| Version |
NM_001054630.1 GI:115448630 GeneID:4330700 |
| Length |
3075 bp |
| Definition |
Oryza sativa Japonica Group Os02g0743400, 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 2:32045781..32048855 |
| Sequence Coding Region |
32046245..32046311,32046396..32046472,32046764..32046921,32047015..32047100,32047215..32047488 |
| Expression | |
| Genome Context |
<gbrowseImage1> name=NC_008395:32045781..32048855 source=RiceChromosome02 preset=GeneLocation </gbrowseImage1> |
| Gene Structure |
<gbrowseImage2> name=NC_008395:32045781..32048855 source=RiceChromosome02 preset=GeneLocation </gbrowseImage2> |
| Coding Sequence |
<cdnaseq>atgattacggcggcggacttctaccacgtgatgacggcgatggtgccgttgtacgtggcgatgatactggcgtacgggtcggtgaagtggtggcgcatcttcacgccggaccagtgctccgggatcaaccgcttcgtggcgctcttcgccgtgccgctgctgtcgttccacttcatctccaccaacaacccgtacacgatgaacctccggttcatcgccgccgacacgctgcagaagctgatggtgctggccatgctcacggcgtggagccacctcagccgccgggggagcctcgagtggaccatcacgctcttctccctctccacgctgcccaacacgctcgtcatggggatccctttgctcaagggcatgtacggggagttctccggcagcctcatggtgcagatcgtcgtgctgcagtgcatcatctggtacacgctcatgctcttcatgttcgagtaccgcggcgcccggatgctcatcaccgagcagttcccggacaccgccgccaacatcgcctccatcgtcgtcgacccggacgtcgtgtcgctggacggcaggagggacgccatcgagacggagacggaggtgaaggaggacggcaggatacacgtcaccgtgcgccgctccaacgcgtctcgctcggacatctactcccgccgctccatgggcttctccagcaccacgccgcggccgagcaacctcaccaacgccgagatctactcgctgcagtcgtcgcggaacccgacgccgaggggttcaagcttcaaccacaccgacttctactccatggtgggccgcagctccaacttcggcgcggccgacgcgttcggcgtccgcaccggcgccacgccgcgcccgtccaactacgaggacgacgcgtccaagcccaagtacccgctcccggcgtcgaatgcggcgcccatggcgggccactacccggcgccgaacccggccgtgtcgtcggcgcccaagggcgccaagaaggcggccacgaacgggcaggccaagggcgaggacctccacatgttcgtctggagctccagcgcgtcgcccgtgtccgacgtcttcggcggcggcgcgccagactacaacgacgccgcggcagtcaagtccccccgcaaaatggatggagcgaaggacagggaggactacgtggagcgggacgatttcagcttcgggaacaggggcgtcatggacagggacgcggaggcaggggacgagaaggcggcggcggcggcgggcgccgaccccagcaaggccatggcggcgccgacggcgatgccgccgacgagcgtgatgacccgcctcatcctgatcatggtgtggcgcaagctcatccgcaacccgaacacctactccagcctcatcggcctcatctggtccctcgtctgcttcaggtggaacttcgagatgccggccatcgtcctgaaatccatctcgatcctgtcggacgcggggctcggcatggccatgttcagtctcggtctgttcatggcgctgcagccgcacatcatcgcgtgcgggaacaaggtggcgacgtacgccatggcggtgcggttcctggccgggccggccgtgatggcggcggcgtccttcgccgtcggactccgtggcacgctcctgcacgtcgccattgtccaggcagctctgccccagggcattgtccccttcgtcttcgccaaggagtacagcgtgcaccctagcattctcagcacagctgtcatctttggcatgctcatcgccttgcctatcaccctcgtctactacatcttgcttgggctgtaa</cdnaseq> |
| Protein Sequence |
<aaseq>MITAADFYHVMTAMVPLYVAMILAYGSVKWWRIFTPDQCSGINR FVALFAVPLLSFHFISTNNPYTMNLRFIAADTLQKLMVLAMLTAWSHLSRRGSLEWTI TLFSLSTLPNTLVMGIPLLKGMYGEFSGSLMVQIVVLQCIIWYTLMLFMFEYRGARML ITEQFPDTAANIASIVVDPDVVSLDGRRDAIETETEVKEDGRIHVTVRRSNASRSDIY SRRSMGFSSTTPRPSNLTNAEIYSLQSSRNPTPRGSSFNHTDFYSMVGRSSNFGAADA FGVRTGATPRPSNYEDDASKPKYPLPASNAAPMAGHYPAPNPAVSSAPKGAKKAATNG QAKGEDLHMFVWSSSASPVSDVFGGGAPDYNDAAAVKSPRKMDGAKDREDYVERDDFS FGNRGVMDRDAEAGDEKAAAAAGADPSKAMAAPTAMPPTSVMTRLILIMVWRKLIRNP NTYSSLIGLIWSLVCFRWNFEMPAIVLKSISILSDAGLGMAMFSLGLFMALQPHIIAC GNKVATYAMAVRFLAGPAVMAAASFAVGLRGTLLHVAIVQAALPQGIVPFVFAKEYSV HPSILSTAVIFGMLIALPITLVYYILLGL</aaseq> |
| Gene Sequence |
<dnaseqindica>2545..2611#2384..2460#1935..2092#1756..1841#1368..1641#146..1271#gcgcacacacccaatcaaatgctcctcctccgccgcctcctctcgctgagctgagctgagctgtgaaatagtgccaccgagtgagcgctgagctgagctcgaagcaagagaggaagaggaggaggagggaagagggggggcgaagatgattacggcggcggacttctaccacgtgatgacggcgatggtgccgttgtacgtggcgatgatactggcgtacgggtcggtgaagtggtggcgcatcttcacgccggaccagtgctccgggatcaaccgcttcgtggcgctcttcgccgtgccgctgctgtcgttccacttcatctccaccaacaacccgtacacgatgaacctccggttcatcgccgccgacacgctgcagaagctgatggtgctggccatgctcacggcgtggagccacctcagccgccgggggagcctcgagtggaccatcacgctcttctccctctccacgctgcccaacacgctcgtcatggggatccctttgctcaagggcatgtacggggagttctccggcagcctcatggtgcagatcgtcgtgctgcagtgcatcatctggtacacgctcatgctcttcatgttcgagtaccgcggcgcccggatgctcatcaccgagcagttcccggacaccgccgccaacatcgcctccatcgtcgtcgacccggacgtcgtgtcgctggacggcaggagggacgccatcgagacggagacggaggtgaaggaggacggcaggatacacgtcaccgtgcgccgctccaacgcgtctcgctcggacatctactcccgccgctccatgggcttctccagcaccacgccgcggccgagcaacctcaccaacgccgagatctactcgctgcagtcgtcgcggaacccgacgccgaggggttcaagcttcaaccacaccgacttctactccatggtgggccgcagctccaacttcggcgcggccgacgcgttcggcgtccgcaccggcgccacgccgcgcccgtccaactacgaggacgacgcgtccaagcccaagtacccgctcccggcgtcgaatgcggcgcccatggcgggccactacccggcgccgaacccggccgtgtcgtcggcgcccaagggcgccaagaaggcggccacgaacgggcaggccaagggcgaggacctccacatgttcgtctggagctccagcgcgtcgcccgtgtccgacgtcttcggcggcggcgcgccagactacaacgacgccgcggcagtcaagtccccccgcaaaagtagcaatcttttatcttcaccgtgtactatttgcctgatttggggagcatttcttgggctaatttgtactgactcgtatatttcttttacgtcagtggatggagcgaaggacagggaggactacgtggagcgggacgatttcagcttcgggaacaggggcgtcatggacagggacgcggaggcaggggacgagaaggcggcggcggcggcgggcgccgaccccagcaaggccatggcggcgccgacggcgatgccgccgacgagcgtgatgacccgcctcatcctgatcatggtgtggcgcaagctcatccgcaacccgaacacctactccagcctcatcggcctcatctggtccctcgtctgcttcaggtgcgtacaccccgggcttctcgcaaacccaaacccatctgctcgtacgtgctgtggtggtgcggtgtggtggtctggttctgacaaggcgttcgtctcgttttggcgttgcaggtggaacttcgagatgccggccatcgtcctgaaatccatctcgatcctgtcggacgcggggctcggcatggccatgttcagtctcggtcggtattctcttgtttccatgctaacctcacctcacccccggcagtgtcacgagctgttcccctgagtttgcgatctcgccatgcatgcaggtctgttcatggcgctgcagccgcacatcatcgcgtgcgggaacaaggtggcgacgtacgccatggcggtgcggttcctggccgggccggccgtgatggcggcggcgtccttcgccgtcggactccgtggcacgctcctgcacgtcgccattgtccaggtaaaccggaacggaaaagaacagccatacgcacacactgtcacacgcacagtcacacaccgaaaataaaggtctccgtgtgggtgggcatgcaacctaccgcgcgcagccagccagcgtcgttcttttctcccagcccctcgtgctcgttcgcgtctgctttctctcctgccttttgctctccacggccgcggcactttctacgtttggccagcacgaaagccttttgctttggctaacctttttctctctgttgttcttttgtttggtccaaaccgaacgaacgaacaggcagctctgccccagggcattgtccccttcgtcttcgccaaggagtacagcgtgcaccctagcattctcagcacagcgtaagtactagattctctctcagtttgcactctgtcctgaatcgacgggccactgacattttttgcctttgctcctgctcgcagtgtcatctttggcatgctcatcgccttgcctatcaccctcgtctactacatcttgcttgggctgtaatcgagttgcatgcatgtaaattcctgctcctgacaaccagccatgttaagaagaggggagaagaagacagagctggtacactgtttgcaaagtcaggactctttgatttttcttttcttttctgtatttcttgaagtagaatttgggaggagggggattggaagggagtcaaacgagtcaaggggaggacaggatggtagctagcttagctaggacaatggtgagtcacaaaagagcaccaaaagcaagtacaagtacaaagcttggggggacacaggatccagttcaggtcacagaaacggttcggttttgggaggggattgtgggagttttggttggctgcgctgcgctgacccttgtaaaacggacgccgattctgacaagagatcgaccttgttttgttcgtgtcgtggtattgctgactactactttggaatgattaatctcctactactaattactcc</dnaseqindica> |
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