Difference between revisions of "Os06g0217300"

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(Created page with "{{JaponicaGene| GeneName = Os06g0217300| Description = Similar to Transcription factor MADS55| Version = NM_001063684.1 GI:115467099 GeneID:4340495| Length = 10711 bp| De...")
 
 
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{{JaponicaGene|
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The rice '''''Os06g0217300''''' was reported as '''''OsMADS55''''' in 2007 <ref name="ref1" /> by researchers from India.  
GeneName = Os06g0217300|
 
Description = Similar to Transcription factor MADS55|
 
Version = NM_001063684.1 GI:115467099 GeneID:4340495|
 
Length = 10711 bp|
 
Definition = Oryza sativa Japonica Group Os06g0217300, complete gene.|
 
Source = Oryza sativa Japonica Group
 
  
  ORGANISM  Oryza sativa Japonica Group
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==Annotated Information==
            Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;
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===Gene Symbol===
            Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP
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*'''''Os06g0217300''''' '''''<=>''''' '''''OsMADS55'''''
            clade; Ehrhartoideae; Oryzeae; Oryza.
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|
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===Function===
Chromosome = [[:category:Japonica Chromosome 6|Chromosome 6]]|
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* The MADS-box family members, identified initially as floral homeotic genes, are one of the most extensively studied transcription factor genes in plants.
AP = Chromosome 6:5951600..5962310|
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* MADS-box genes have a variety of functions. In animals, MADS-box genes are involved in muscle development and cell proliferation and differentiation. Functions in fungi range from pheromone response to arginine metabolism.
CDS = 5952020..5952029,5952598..5952749,5952893..5952934,5956946..5956987,5957087..5957186<br>,5957300..5957361,5958733..5958814,5962004..5962185|
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* MADS-box transcription factors, besides being involved in floral organ specification, have also been implicated in several aspects of plant growth and development.<ref name="ref1" /> <ref name="ref2" /> <ref name="ref3" />  
GCID = <gbrowseImage1>
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name=NC_008399:5951600..5962310
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===Evolution===
source=RiceChromosome06
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* The MADS domain binds to DNA sequences of high similarity to the motif CC[A/T]6GG termed the CArG-box.
preset=GeneLocation
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* The MADS-box family has been divided into two main groups. The type I consists of ARG80/SRF-like genes of animals and fungi, also designated as M-type genes in plants, and type II contains MEF2-like genes of animals and yeast as well as MIKC-type genes of plants.  
</gbrowseImage1>|
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* It is proposed that an ancestral duplication before the divergence of plants and animals gave rise to these groups
GSID = <gbrowseImage2>
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* The length of the MADS-box reported by various researchers varies somewhat, but typical lengths are in the range of 168 to 180 base pairs, i.e. the encoded MADS domain has a length of 56 to 60 amino acids.
name=NC_008399:5951600..5962310
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* MADS-box genes seem to have evolved mainly through gene duplication events followed by neofunctionalization, subfunctionalization or in some cases pseudogenization of the duplicated gene.
source=RiceChromosome06
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* However, redundancy being one of the fates of duplication is also common in MADS-box family.<ref name="ref1" /> <ref name="ref2" /> <ref name="ref3" />
preset=GeneLocation
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</gbrowseImage2>|
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CDNA = <cdnaseq>atggcgagggagaggagggagatacggaggatagagagcgcggcggcgcggcaggtgacgttctcgaagcggcggcgggggctgttcaagaaggcggaggagctggcggtgctgtgcgacgccgacgtcgcgctcgtcgtcttctcctccaccggcaagctctcccagttcgccagctccaatatgaacgagatcattgacaagtatactacacattcaaagaacctggggaaaacagataagcagccttctattgatctgaatttagagcacagcaagtgtagcagtttgaatgaacaactggcagaagcaagtcttcaacttagacagatgagaggtgaggagcttgagggattgagtgtggaagagctgcagcagatggaaaagaacctcgaggcaggactgcagcgggtgctctgtacaaaggaccagcaattcatgcaagaaatcagtgagctccaacgaaagggcattcagctggcagaagagaatatgcgcctcagagaccaaatgcctcaggtgcctactgctggcttggcggttcctgatactgaaaatgttcttactgaagatggacaatcatctgaatctgtgatgactgcattaaattcgggaagctcgcaggataatgatgatggttctgatatatccctgaaactagggttgccttga</cdnaseq>|
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You can also add sub-section(s) at will.
AA = <aaseq>MARERREIRRIESAAARQVTFSKRRRGLFKKAEELAVLCDADVA                    LVVFSSTGKLSQFASSNMNEIIDKYTTHSKNLGKTDKQPSIDLNLEHSKCSSLNEQLA                    EASLQLRQMRGEELEGLSVEELQQMEKNLEAGLQRVLCTKDQQFMQEISELQRKGIQL                    AEENMRLRDQMPQVPTAGLAVPDTENVLTEDGQSSESVMTALNSGSSQDNDDGSDISL                    KLGLP</aaseq>|
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DNA = <dnaseqindica>10282..10291#9562..9713#9377..9418#5324..5365#5125..5224#4950..5011#3497..3578#126..307#gtttctctctctccttgtctctctgtgctgttgttgttgcgggtgaatctgcttggatttcgtcggagttttctgtcgcggaggaggagggggtggtggttgatcggaggggaggggggagggagatggcgagggagaggagggagatacggaggatagagagcgcggcggcgcggcaggtgacgttctcgaagcggcggcgggggctgttcaagaaggcggaggagctggcggtgctgtgcgacgccgacgtcgcgctcgtcgtcttctcctccaccggcaagctctcccagttcgccagctccaagtaagcgcgttctctgatcccctctctctctctactgttgatgctgctactgctcacccgatgatctcaccctttttttagttttcgatccgctcgagatttttttggggggtttagatctagctacctgctgctgtgttcctctctcgtttgaaagggctccagatcctcccggtcgctagggcttcctccctcttctacagttttacttcttcggttttagggtttgtgtttggttgatgcgatgcttctcgcgaaacgccacttcgggatcgagccttcttttctacttccagaacaatcatccttgcggtttttggggctgattcctgggtcgattccggtggattctaccacccgggatggtcctccgaaaatggggaatttttctactgtagtttcaatcacaatctccacagctaagtacggggaaaattcgatcgcttgctttttgcagatgagagatatgcatatttctcgtgtattccatttgctttcatgtggagaggaacactctaaaatccggttaattttgcttacgtacgctgctcgataaaaaataaatcccaaaaccgatcggcgcggcgcgcggccttgggcgcctccgctaatcgcggcgccgccgtacctgtgattttatgtgtggtgtggcatggcatgccgtatgcatgagccgtcaaccaaccaaccaacgaaccagctgccgatcagttcatcctctcctactgcctctctctctctcgtggtctgcgcaggtggccggctggtactttgctgtagctatagctatatatgggatcactcttgtagcctttgggtatttgggcttgctagcttaccattattggtgttctccaagagagaaaaataaacatttcaagtaccaagagggtacgtggcctttgcatgttccatatataagtatgtcgtccaagaaaaaaaagggttaatttagtatagtaggactatacgcatataagcatgcccaaagagaagggggttaattaattaatataatgatgagtagtacggtactccattttaagagtgtgatcgatcttgatcagtttctttttggcagtcgaagctatttaagaatataattgcatcatttagggattgagcgcatgcatcagagaacataattgtatgcacgttttctgaagctcctttgtttaatttctgtgtgatttttttatgtgcctatatagttgactgcatatgggtgcttctttcccaaaaataatggaactgtgcgttcttcttttggaacgtactgtccttgggtgtaacttaatatttgatgcttgtaatttacaacttgatatatagttcatgataacttgtttcgttcttataattagaaccatgccatgaactttataatagaataatctcgtgtcatttatgtgttttgtgtaactaacaatgaaggtgagaagatcaaggtcgtagtacctcataaactttacactattcctccactattccttttttagggtcctcattttatatacttttttctacttatcatttggaacatctacacagttctacaatacacctaagacgctaagaccattatctttcacaatcttatgtcccaagccgctaagtataattgtttatctattatatgcccaatatcatgctctctagtttttcttccctacaatttgtcatctcgttatttctccatcaacgtacaactccattatgtacgaggaaaagatcattccgctatgatactatttgagtgaacaattatcagacaacaattaaataggagtaacatagcatttattgaggtgaagttaattttcagaagggcaaatgttaacgaagacctggtaattaaactggtcttttcgatctccatgcccaattgcactgatcgagaacgtaaagaccttggcatagttttttttatggcacctatatattcagtatgtatttcagtaggaattattgtacaagagggacaattcatatcatcaaaacctactggtggcatttctaattttcttacatgactgaactttacacttttgtgcacatattactagattagtgccatagtttttgtaagttcaagtgcgtgctgctaaactgtatcctagttgagaacggtgggagttatattatataacttaatttttttctacaaaacgttgaacagaaatcactggacaaccttaagtcagataagaaactatgcacactgttataatttaagatcagtgattctgctgacattattactaagagcatatatgatgaagacatcaaaatgtactttaaacatgggcatgcgtattacgagtagcacataactctagcagaaatgtatgaattctacacaagctcagcatatccttggctggctggctacatcttcttggagaacatccaaagctatctttttccacccctttgaaaggatataaaatattgtgcaagtgttagtccaacgcagtttatattatgattacacaacaatcccaattcccagggtttcaaattgaagtttacttctagaattaggttccaaccattaagcaatacgtacgtagtatattctttatatatgcttatgtttttttcctgagaaaaatatgcattgtagtttagaccaatgggccagaattcatctgacaacaataaacaatatgtacttgagtggtgtctgactggtttccttcatgttaccctcttttgaatatgggattcctatagacaataacagaagaaacaaaaaaaatgcattatattagattaaattcagagtgctttagacaatcatatatagagtttaattttccattgatatatatgaacatgatatgatatgataattgaatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatatgatgctcgcagaatctcttaccaattttcagcgtaactagtaacaaataattaagatttattctcttattaaagaggctgtacttgaaggtgttagactatagatggttttgtatattagatatacattattattatatcttcagagttcaaacccctttgaagtcaatttacaaaaccttgcttgaagacatgtattttatagataccgcatgtataggcagcttggtgcaaatactgattattggtatttttctttggtcaagcagtatgaacgagatcattgacaagtatactacacattcaaagaacctggggaaaacagataagcagccttctattgatctgaatgtatgtaaagcaatctctgtgttttgtagttcataatcataagtggatttgtactaactagtattagatcatatgtggtgtaatgtttcatatatttatatacatgcataagtcaacatgcaatgataacagcactttttttttctgcaaacagttctgctgactatgtttagttctttagagcaaatttaatagtatagcccactactagctccaattcatctatagtcaatctaatagccaattcatacaatagttgcttactatactactaatatgtggtcccacctatcatacacacattgcgtcttggagtccgtgctgcagctggctacagatctgtagcctgctgctcttctctctcatcttttatctcattaaaatatgtttacagctggctaatagcctgctattgtacctgctcttatagctagttgcttatgcttaattaagaaattagttacacatgtaaaggtataactttacccactcatataatgaaaatattcttaaattaattaactaggacagtagtggagggtgcagaaatcttctcacttattttttgtcttcccaaacagggattttttttaaagaaaatggttagattaagaaaaaaaatcatgctaggttattactcgatctacagttgtaacggattgcagccttagttgtaccaacttataaacgattggatcagtagcatgttgttttttttacattatatatatatatatatatatgtgtgctagtttcatttttgagtattttataggttccccatattaactcaaaagcatgatctctgcaccattaaatttttcatgagtttagagcacaacaacgatgtccacaaacttgtagaagtgcgcgcttcatatgatgatgcaagcttagagcaagtttaatagtatagcccgctactatctctaattcatatataatcaatctaatagccaattcatacaataattgcttactatattattaatatatggtcccacctgtcatgcacacattacgtcttggagtctgcgctgcagctggctatagatctgtagcccgctgctattctctctcatcttttatctcattaaaatatgtttacagctagctaatagcctgctattgtacctgctcttaatgaaaataagaccatgtaattaatgtaaatgtgagacactatttaatatcctggatctgcaaagaaaagtgacataaagtactaactccacacatttatatgtcctctaacctaggaatataaatgcaagaatctcatagaaattgtctttgtaactagccttcttcttaattata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ggatttgatcttttactagctagttggtcccggcaggtaagctttccctgcagatggtatccattttcacactaaatccaaatgaaaactgcactaagggataaacgacaaagaaaatcaacttaagaactatgaattattgattgaaataatgccctttttattacttgattcgtgcccccctaaacctgagatcgatcagaactatgtactctgaatgtgttgtgttctccttcaagggtgttaagttaccaagcgaatttattttcctcatgtaacttatttctttgtgctgttcaacataagcgcaaatattggatggctgtgtttggatgtagagaccggtttaatccattctctcttaaaaaaattgatatcttcaggttgccttgaaataaaaggaccagctagagagctgagaaatgggatgacgaccaccatgaattatttgtctgtgtgcatgagtggatgaagttggaagttaaatgcatcttaagaagatcaagaagatgtcatgctatgagattaccaacaaggctgcaataatcctatcctatgttaaaaaggagatcgattgacttgtcatcctatgcctgctgatgcaatggtccggttgcttggatctttttttctcaacttgtactagtgtaccatactaccttcgtcgcacttaatttaaatgcgacatgtacgtatgtatcgttcgcttaattcgtgcaagttatgtacgtacctgtatgggaactgtatggaaacttgtgacctcggctgagacttattattggcacaattattaagctagtcattctcatc</dnaseqindica>|
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==Labs working on this gene==
Link = [http://www.ncbi.nlm.nih.gov/nuccore/NM_001063684.1 RefSeq:Os06g0217300]|
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* Interdisciplinary Centre for Plant Genomics and Department of Plant Molecular Biology, University of Delhi South Campus, Benito Juarez Road, New Delhi 110 021, India
}}
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* Division of Genetics, Indian Agricultural Research Institute, New Delhi-110 012, India
[[Category:Genes]]
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[[Category:Japonica mRNA]]
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==References==
[[Category:Oryza Sativa Japonica Group]]
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<references>
[[Category:Japonica Genes]]
+
* <ref name="ref1">
[[Category:Japonica Chromosome 6]]
+
Arora R, Agarwal P, Ray S, Singh AK, Singh VP, Tyagi AK, Kapoor S. MADS-box
[[Category:Chromosome 6]]
+
gene family in rice: genome-wide identification, organization and expression
 +
profiling during reproductive development and stress. BMC Genomics. 2007 Jul
 +
18;8:242. PubMed PMID: 17640358; PubMed Central PMCID: PMC1947970.
 +
 
 +
</ref>
 +
* <ref name="ref2">
 +
Shore P, Sharrocks AD. The MADS-box family of transcription factors. Eur J
 +
Biochem. 1995 Apr 1;229(1):1-13. Review. PubMed PMID: 7744019.
 +
</ref>
 +
 
 +
* <ref name="ref3">
 +
Winter KU, Becker A, M��nster T, Kim JT, Saedler H, Theissen G. MADS-box genes
 +
reveal that gnetophytes are more closely related to conifers than to flowering
 +
plants. Proc Natl Acad Sci U S A. 1999 Jun 22;96(13):7342-7. PubMed PMID:
 +
10377416; PubMed Central PMCID: PMC22087.
 +
 
 +
</ref>
 +
</references>
 +
 
 +
 
 +
==Structured Information==
 +
    [[Category:Genes]][[Category:Oryza Sativa Japonica Group]][[Category:Japonica Chromosome 6]]

Latest revision as of 02:15, 27 March 2017

The rice Os06g0217300 was reported as OsMADS55 in 2007 [1] by researchers from India.

Annotated Information

Gene Symbol

  • Os06g0217300 <=> OsMADS55

Function

  • The MADS-box family members, identified initially as floral homeotic genes, are one of the most extensively studied transcription factor genes in plants.
  • MADS-box genes have a variety of functions. In animals, MADS-box genes are involved in muscle development and cell proliferation and differentiation. Functions in fungi range from pheromone response to arginine metabolism.
  • MADS-box transcription factors, besides being involved in floral organ specification, have also been implicated in several aspects of plant growth and development.[1] [2] [3]

Evolution

  • The MADS domain binds to DNA sequences of high similarity to the motif CC[A/T]6GG termed the CArG-box.
  • The MADS-box family has been divided into two main groups. The type I consists of ARG80/SRF-like genes of animals and fungi, also designated as M-type genes in plants, and type II contains MEF2-like genes of animals and yeast as well as MIKC-type genes of plants.
  • It is proposed that an ancestral duplication before the divergence of plants and animals gave rise to these groups
  • The length of the MADS-box reported by various researchers varies somewhat, but typical lengths are in the range of 168 to 180 base pairs, i.e. the encoded MADS domain has a length of 56 to 60 amino acids.
  • MADS-box genes seem to have evolved mainly through gene duplication events followed by neofunctionalization, subfunctionalization or in some cases pseudogenization of the duplicated gene.
  • However, redundancy being one of the fates of duplication is also common in MADS-box family.[1] [2] [3]


You can also add sub-section(s) at will.

Labs working on this gene

  • Interdisciplinary Centre for Plant Genomics and Department of Plant Molecular Biology, University of Delhi South Campus, Benito Juarez Road, New Delhi 110 021, India
  • Division of Genetics, Indian Agricultural Research Institute, New Delhi-110 012, India

References

  1. 1.0 1.1 1.2 Arora R, Agarwal P, Ray S, Singh AK, Singh VP, Tyagi AK, Kapoor S. MADS-box gene family in rice: genome-wide identification, organization and expression profiling during reproductive development and stress. BMC Genomics. 2007 Jul 18;8:242. PubMed PMID: 17640358; PubMed Central PMCID: PMC1947970.
  2. 2.0 2.1 Shore P, Sharrocks AD. The MADS-box family of transcription factors. Eur J Biochem. 1995 Apr 1;229(1):1-13. Review. PubMed PMID: 7744019.
  3. 3.0 3.1 Winter KU, Becker A, M��nster T, Kim JT, Saedler H, Theissen G. MADS-box genes reveal that gnetophytes are more closely related to conifers than to flowering plants. Proc Natl Acad Sci U S A. 1999 Jun 22;96(13):7342-7. PubMed PMID: 10377416; PubMed Central PMCID: PMC22087.


Structured Information

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