Difference between revisions of "Os07g0596300"

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(Expression)
(Function)
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==Annotated Information==
 
==Annotated Information==
 
===Function===
 
===Function===
formin homology 5 (FH5), a type II formin mutated in rice morphology determinant (rmd),
+
  Formin Homology 5(FH5), a type II formin-like protein encoded by Rice Morphology Determinant (RMD), functions as
plays a crucial role in determining rice (Oryza sativa) morphology.
+
an actin-nucleating protein that regulates rice plant morphology by modulating the microtubule- and microfilament-based cytoskeletal systems.
 +
  Biochemical assays demonstrated that recombinant FH5 protein can nucleate actin polymerization from monomeric G-actin or actin/profilin complexes, cap the barbed end of actin filaments, and bundle actin filaments in vitro. Moreover, FH5 can directly bind to and bundle microtubules through its FH2 domain in vitro. The rice formin protein FH5 plays a critical role in determining plant morphology by regulating actin dynamics and proper spatial organization of microtubules and microfilaments.
  
 
===Expression===
 
===Expression===

Revision as of 14:20, 6 June 2014

Please input one-sentence summary here.

Annotated Information

Function

  Formin Homology 5(FH5), a type II formin-like protein encoded by Rice Morphology Determinant (RMD), functions as

an actin-nucleating protein that regulates rice plant morphology by modulating the microtubule- and microfilament-based cytoskeletal systems. 

  Biochemical assays demonstrated that recombinant FH5 protein can nucleate actin polymerization from monomeric G-actin or actin/profilin complexes, cap the barbed end of actin filaments, and bundle actin filaments in vitro. Moreover, FH5 can directly bind to and bundle microtubules through its FH2 domain in vitro. The rice formin protein FH5 plays a critical role in determining plant morphology by regulating actin dynamics and proper spatial organization of microtubules and microfilaments.

Expression

FH5/RMD encodes a formin-like protein consisting of an N-terminal phosphatase tensin (PTEN)-like domain, an FH1 domain, and an FH2 domain. FH5/RMD is ubiquitously expressed in rice tissues, and its protein localization to the chloroplast surface is mediated by the PTEN domain.

Mutation

The rmd mutants display a bending growth pattern in seedlings, are stunted as adult plants, and have aberrant inflorescence (panicle) and seed shape. Cytological analysis showed that rmd mutants have severe cell elongation defects and abnormal microtubule and microfilament arrays.

Labs working on this gene

Please input related labs here.

References

Please input cited references here.

Structured Information

Gene Name

Os07g0596300

Description

Actin-binding FH2 domain containing protein

Version

NM_001066706.1 GI:115473144 GeneID:4343793

Length

6892 bp

Definition

Oryza sativa Japonica Group Os07g0596300, 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

Chromosome 7

Location

Chromosome 7:24926636..24933527

Sequence Coding Region

24927271..24927363,24927449..24927588,24927919..24927985,24928076..24928144,24928599..24928715
,24928815..24928886,24929281..24929375,24930111..24930192,24930296..24930427
,24931501..24931542,24931615..24931713,24931793..24931864,24932078..24932204
,24932468..24933486

Expression

GEO Profiles:Os07g0596300

Genome Context

<gbrowseImage1> name=NC_008400:24926636..24933527 source=RiceChromosome07 preset=GeneLocation </gbrowseImage1>

Gene Structure

<gbrowseImage2> name=NC_008400:24926636..24933527 source=RiceChromosome07 preset=GeneLocation </gbrowseImage2>

Coding Sequence

<cdnaseq>atgtcttttggagcacaaacacgaacttttgtccctcctcctccaccccctcctccacctcctaggtcaggtgttggtgggaatactccacctgcacctcctcccccgcctctaaggtcaactgttcctgctatttctccacctccgccaccacctcctccaccactgaaaccaagttctggtgctccatgcccacccccacctccaccgccaccgccacctccccctccctcagccccatcctctcgagcattttcaagtgctcctccaccgccaccaccaccgcccttgttacgatccgttccacctcctcctccaccaccgccaatctcacactctaatgctccaccaccacctccacttccagctgcacgctttaatgctccgccaccgcccccaccacctccaacaacacattttaatgcccctcctccaccgccaccaccgcctatcacacgttcaggagcaccaccttccccacctccaccccctagccctccacctccaccaccacctccaggtgcacgtccaggtcctccacctcctccaccacctccaggtgctcgcccaggtcctccaccacctccaccccctccaggtggtcgtccaagtgctccacctcttcctcctccaggtggccgtgcaagtgctccacctcctccaccccctccaagcacacgtcttggagctccacctcccccgccaccacctggagctggtgggcgagcacctccaccaccgcctgcccctgggggaaggctcggtggtcctcccccacctccacctcctggtggacgtgcaccacctcctcctagaggaccaggagcaccaccacctccaggaggcaatcctagtagtttaataggtagagggcgtggggtggtacgtgcttcaggatcaggttttggggctgcagctgcacgtaaatcaactttaaagccattacattggatcaaggtgactagagctttgcaaggaagtctatgggaagaattacagcgaaatgatgactcacagagtgtttcggagtttgatttgtcagagctggaaagcctttttccagcagctgttccaaaaccgaatgacagctctaaatctgattcacgtagaaaatcgcttggttcaaagccagaaaaagttcacctaattgagttgaggagggcaaacaacacagagatcatgctgacaaaagtgaagatgccactgccagatttggtgagtgcggctttggcactggaccaatctaccttggatgttgatcaagtggagaatctcataaagttctgtcctacaaaagaagaaatggaacttctcaagaattacactggagataaggaaaatctgggtaaatgcgaacagttcttcctagaattgatgaaagtgccacgaatggagtcaaaactgcgggtgttctccttcaagatccagtttggttcgcaagtcgcagatcttcgaaaaagtttgaacaccatagactcttcatgtgatgagattcgaagttctctcaagttaaaagaaatcatgaagaaaattctcctccttgggaatacattgaaccagggtactgctagaggtgctgcagttggcttccggttggacagtcttctaaaactaacagatacccgagcaacaaataataaaatgacacttatgcactacctctgcaaggtacttgctgcaaaatcatcacagcttctggacttctacatggatcttgttagtttagaagctacatcaaagatacaactaaaaatgctggcagaagaaatgcaagcggttagtaaagggctggaaaaggttcagctcgagtataatgcttcagaaagtgatggtccagtatcagagatttttcgtgagaaactgaaagaattcactgacaatgctggagctgatgtgcaatctttgtcttcattattttctgaagtgggaaaaaaggctgatgcactgattaaatatttcggcgaagatcctgtacgctgcccttttgagcaagttatctccaccctcttaacatttgtaacaatgtttcggaaagcacatgaagagaaccgcaagcaagctgagctcgataagaaaagggctgaaaaagaggcagaagcagaaaagtctaaagcacagttggctagtaaaaatgactctaaaccatcaaatccaagccggcaagtgaaacaaacgccagatactaaaacaagagctgcaagcagacgaggaaaagatgtaggttga</cdnaseq>

Protein Sequence

<aaseq>MSFGAQTRTFVPPPPPPPPPPRSGVGGNTPPAPPPPPLRSTVPA ISPPPPPPPPPLKPSSGAPCPPPPPPPPPPPPPSAPSSRAFSSAPPPPPPPPLLRSVP PPPPPPPISHSNAPPPPPLPAARFNAPPPPPPPPTTHFNAPPPPPPPPITRSGAPPSP PPPPSPPPPPPPPGARPGPPPPPPPPGARPGPPPPPPPPGGRPSAPPLPPPGGRASAP PPPPPPSTRLGAPPPPPPPGAGGRAPPPPPAPGGRLGGPPPPPPPGGRAPPPPRGPGA PPPPGGNPSSLIGRGRGVVRASGSGFGAAAARKSTLKPLHWIKVTRALQGSLWEELQR NDDSQSVSEFDLSELESLFPAAVPKPNDSSKSDSRRKSLGSKPEKVHLIELRRANNTE IMLTKVKMPLPDLVSAALALDQSTLDVDQVENLIKFCPTKEEMELLKNYTGDKENLGK CEQFFLELMKVPRMESKLRVFSFKIQFGSQVADLRKSLNTIDSSCDEIRSSLKLKEIM KKILLLGNTLNQGTARGAAVGFRLDSLLKLTDTRATNNKMTLMHYLCKVLAAKSSQLL DFYMDLVSLEATSKIQLKMLAEEMQAVSKGLEKVQLEYNASESDGPVSEIFREKLKEF TDNAGADVQSLSSLFSEVGKKADALIKYFGEDPVRCPFEQVISTLLTFVTMFRKAHEE NRKQAELDKKRAEKEAEAEKSKAQLASKNDSKPSNPSRQVKQTPDTKTRAASRRGKDV G</aaseq>

Gene Sequence

<dnaseqindica>6165..6257#5940..6079#5543..5609#5384..5452#4813..4929#4642..4713#4153..4247#3336..3417#3101..3232#1986..2027#1815..1913#1664..1735#1324..1450#42..1060#gcttgtcaagcattcctcctcctccccctccacctccacttatgtcttttggagcacaaacacgaacttttgtccctcctcctccaccccctcctccacctcctaggtcaggtgttggtgggaatactccacctgcacctcctcccccgcctctaaggtcaactgttcctgctatttctccacctccgccaccacctcctccaccactgaaaccaagttctggtgctccatgcccacccccacctccaccgccaccgccacctccccctccctcagccccatcctctcgagcattttcaagtgctcctccaccgccaccaccaccgcccttgttacgatccgttccacctcctcctccaccaccgccaatctcacactctaatgctccaccaccacctccacttccagctgcacgctttaatgctccgccaccgcccccaccacctccaacaacacattttaatgcccctcctccaccgccaccaccgcctatcacacgttcaggagcaccaccttccccacctccaccccctagccctccacctccaccaccacctccaggtgcacgtccaggtcctccacctcctccaccacctccaggtgctcgcccaggtcctccaccacctccaccccctccaggtggtcgtccaagtgctccacctcttcctcctccaggtggccgtgcaagtgctccacctcctccaccccctccaagcacacgtcttggagctccacctcccccgccaccacctggagctggtgggcgagcacctccaccaccgcctgcccctgggggaaggctcggtggtcctcccccacctccacctcctggtggacgtgcaccacctcctcctagaggaccaggagcaccaccacctccaggaggcaatcctagtagtttaataggtagagggcgtggggtggtacgtgcttcaggatcaggttttggggctgcagctgcacgtaaatcaactttaaagccattacattggatcaaggtgactagagctttgcaaggaagtctatgggaagaattacagcgaaatgatgactcacagaggtatatccttttgattaaaattcttcctccatttgaccatgcttattgatatatgcacataaatttcaatgatgtgattggctgattgctgtaaggcttcatccaggatttgtaaataatttggtgtcatgattgtagcattgaattttctacaattcagttgctaataatctcgtacaatctactccacaaagactggctcaatatttgtgatgcttttttactaggttttgccttaatgtttgtcaatttcttttctgcagtgtttcggagtttgatttgtcagagctggaaagcctttttccagcagctgttccaaaaccgaatgacagctctaaatctgattcacgtagaaaatcgcttggttcaaagccagaaaaagttcacctagtaagtacatgctaattttaatttcctttctaatttgtatcagtgatcaaggtcagaaagacactagatttgttggacatttaagttatgacaaatgtgttacatgatctcattatcatatcacaaaactatgcaaacagtctcaagaacctgtatttattagactttgtaaatgaccatgttacaatagtcttaacacttttatgtgattagattgagttgaggagggcaaacaacacagagatcatgctgacaaaagtgaagatgccactgccagatttggtggtaattatcttataaaacaagcaaagataatggtaacatgattgattttttatatcttaatggcttaaattttctctagagtgcggctttggcactggaccaatctaccttggatgttgatcaagtggagaatctcataaagttctgtcctacaaaagaagaaatggaacttctcaaggtaatacaatgtttggccttgttgtgatctcatctgaaaactatgttggcttactgtctcgtttttttccagaattacactggagataaggaaaatctgggtaaatgcgaacaggtaatggttatttgccatctagtcatctagtggaattagaatatttgcccattgttactggaattagaatatttgcccattgtgctttattatatattagtcctgtcagcacacataaaaacacattttttgggtcttaattggagattttggcaattttagaatgaaacacaatggtcagagtttaaatgtacataaaacagtcttctggttcctctgcttgataactaatatccctgtttttaacatcaactcaaaacagggtggatactgtgtagaagaggccgtatgatatggctcgataataaactggcaatttggcataggagaaaaatggcactatagctagagaaaagctgaacacagcagatatagatggcatagtgagcagaggctaaatttttgttaagagtgtaggaaatagggtggggggaaactttgtttagctcttacttctaaaatgaatgggcatggtttaaggataactggcacgagagtataaaggtgcacaatagaagaatggaacatctacagagatagatggaaggagcagaggctaaattcatgaacgaatctcctacctcttaaatagataagcctaagaaatagtgctttggataagacgacaactaaataacttctactctctccgtttcatattataagtcgctttgacttttttcctagtcaaacttctttaggtttgatcaagtttatagaaaaatttagcaacatctctaacaccaaattagtttcattaaatgtaacattgaatatattttgataatattttttttgtgttgaagatgttgctatatttttctataaacttagtcaaactaaagtcaaatcgacttataatatgaaacggagggagtaccaatcaaccaattagttatttgtttattttcgttgcttggccttgcaagtatttgatggcctggtcagtccacattcactaaagacattaccttttacattttgagtttttaaagcaaaatggtctcaggtgttatacgtttatgccagcttggtagatccgtatgcattaaacaattattttcctgctgcagttcttcctagaattgatgaaagtgccacgaatggagtcaaaactgcgggtgttctccttcaagatccagtttggttcgcaagtcgcagatcttcgaaaaagtttgaacaccatagactcttcatgtgatgaggttcatttataatcgggattagttttttagcaatcaatattgcttcttatgtaatttatactaagtcgaattcctgttttctaaaaaatatctgcatcatcagattcgaagttctctcaagttaaaagaaatcatgaagaaaattctcctccttgggaatacattgaaccagggtactgctagaggtacaacaactgcattttctctgttacactcaatttagttggtcacattatctttagttattcgttggcatatgaaatgcagctgcatttatgtctaccagctctgcaattttactggcttcttgctaggcagaaatgaagagattgacattgaagttttcctgcaacatgtttaatctctaaaataggaatctttcccacaagttcttttttctttttcttttgttgtttgtttgtggtgtatttttaaaatcattgtgaggaagtgggggcatgtgtgttgagtcttgtaaatattctctccttaatgcaatgatatgcagttctcctgcatatttgagaaaaaaaaataggcacggtgtttttgttggaacaaaaagattgtgcatcctaggaagaatgaataatcaatttaggctgataattcctccctttcttttggagtataggcaacatcctagtttctgaaaaacccatagtaatgcgaccgatgtttctaatttaaatcaattatcaccaccacaaatacaggagtatgtagggctactgatggcttttctcgttcttctagagttcataatgataggttacacatttggtaacattcaaattgtttgttagttcagttgtttctttacactggggcatccttttgattttctttagttaattggttatatattagactattagtactgttcttggatagtttcacatttgttggtttgcttacaggtgctgcagttggcttccggttggacagtcttctaaaactaacagatacccgagcaacaaataataaaatgacacttatgcactacctctgcaaggtacgccttaaacaattcctgttccgctaggttgtcgaaagtgaacatggtagcttttcaccaatagtttacctgcttaactgtaaatcaagtttggactgcatcaaataattttattcaaatcaggaccctgaagtcaatttatttgatggtggaaactgtgagttcatgatttgcatgtcatgttgtaagcaaatatatatacaatgatgcacttccacttaatttattctgtaacaaggttatattactatattctacgatgacttatagtttgagtatctggccataacttctttatagtcctggttaagttcacatttgcttgagttgaaatgattttacatcagtatctatcttgcgtacaccctaacaaaagaaaatgtaatatcaggtacttgctgcaaaatcatcacagcttctggacttctacatggatcttgttagtttagaagctacatcaaaggtttgagttttcttttactattctatcaatcttgtagcatatataatttatttactttcgatatgtatatgctgttctaatcggtgttttcctgaacagatacaactaaaaatgctggcagaagaaatgcaagcggttagtaaagggctggaaaaggttcagctcgagtataatgcttcagaaagtgatggtccagtatcagagatttttcgtgaggtcaaggatctaccccattttgacttatttctgacgtatttaaatattaagttggttccttttagtggattacactacctgctatgtggactaaaattagtaatttcttccccagaaattctacaaaaacgttatccaggcttgttaacagttttttcatgtgcttgttttatgattgtcatctggatgtgcttctcagacagcattacatcaattttactgggacatgcccaaatgagaatctaatatacaatagtaaaagagcctctattggtgatacacctgttactcaagacagatgtacacgtctgatatatatacatgggttactgataaacccgttgtttcaatcaatctgacatgtgaacctgatttaaaagttactttctatttgtgtaaagctgaagagtaaaaatcccgttagttctaaatcggtattgtttgcactgttcagaaactgaaagaattcactgacaatgctggagctgatgtgcaatctttgtcttcattattttctgaagtggtatgtttttgttttcttatatgaagaggaatgcatgctattaacccacattccttctggccttgattatttgttgcattattttgtcagggaaaaaaggctgatgcactgattaaatatttcggcgaagatcctgtacgctgcccttttgagcaaggtaagaatttttatgatcaatgtgacttatttctaaggttgtgcattcagcattttctttttccgagtacctgtcaaggatcaagatactgtcagtcgtgtgagcaccccccactataagcacaaacacattatcatgaaaatcattcttatttaaaatatttcaacccataaatatgtaataccttgcaaagaaacaatttaggataaatcattttctgtagtttgcagctgattgagcatatcttatttctgcattttttatcatcaacatatgtgtttgcttgttttggtatgttgcttaactcttatgttgatcatgatgttgcagttatctccaccctcttaacatttgtaacaatgtttcggaaagcacatgaagagaaccgcaagcaagctgagctcgataagaaaagggctgaaaaagaggcagaagcagaaaagtctaaagcacagttggctagtaaaaatgtattgatccttgacctgtatctttggcaacttcagccaacctcttatatccatcgtatttataaaattcaaaatctgctcacaggactctaaaccatcaaatccaagccggcaagtgaaacaaacgccagatactaaaacaagagctgcaagcagacgaggaaaagatgtaggttgatctccacgaccaactctgttgttgcgcttatgatctgcatgctgggcgaatgcatgacctgctcgatgcacggggagggcaagaaaagttgtgtaaatgatgcagccatcaatggaaacagcatggctgcaccatagcaactgtacatgacgccctttacggtaatgccacatgtgtctgttgcttaacaatacattgataaatgaatcgtataattttctgacaagtttttttttttcttattgcagttcgcactagcgatggccggtttttttctcttcggccagcagggccgcccagtggcaacttctgactgctgtaaagaactaacactaacagcaaagctaacatcattcgttttttcctttgttttttatgttacttgtccattctttctaaccccagtggccaagtgcagccaatgcttcaggagtagagcctcgtagtatcgtagtaggtaggtagaaattgtacaaataggaacagggaaagggtagggaaaccatgtggggcggagaaattgtagctgggatctatacgagatgtaaacatgcgtgtgcttcacgaatatttttttttgtagtgaatgtaccaaggttttcataattagtgaatgcagcagcttttccatgatc</dnaseqindica>

External Link(s)

NCBI Gene:Os07g0596300, RefSeq:Os07g0596300

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