Difference between revisions of "BGIOSGA036370"
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The rice Pita gene participate in the resistance to strains of the rice blast fungus, Magnaporthe grisea. | The rice Pita gene participate in the resistance to strains of the rice blast fungus, Magnaporthe grisea. | ||
===Function=== | ===Function=== | ||
| − | Pi-ta in rice encodes a putative cytoplasmic receptor with a centrally localized nucleotide-binding site and leucine-rich domain (LRD) at the C-terminus.It interacts with AVR-Pita protein secreted by rice blast fungus during infection. AVR-Pita protein is predicted to encode a metalloprotease with an N-terminal secretory signal and pro-protein sequences. It binds directly to the Pi-ta LRD region inside the plant cell to initiate a Pi-ta-mediated defense responses[1]. | + | Pi-ta in rice encodes a putative cytoplasmic receptor with a centrally localized nucleotide-binding site and leucine-rich domain (LRD) at the C-terminus.It interacts with AVR-Pita protein secreted by rice blast fungus during infection. AVR-Pita protein is predicted to encode a metalloprotease with an N-terminal secretory signal and pro-protein sequences. It binds directly to the Pi-ta LRD region inside the plant cell to initiate a Pi-ta-mediated defense responses which include a rapid, localized cell death termed the hypersensitive response (HR), production of antimicrobial compounds, lignin formation, an oxidative burst and increased expression of pathogenesis-related genes[1]. |
===Expression=== | ===Expression=== | ||
Revision as of 04:24, 20 May 2014
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Contents
Annotated Information
The rice Pita gene participate in the resistance to strains of the rice blast fungus, Magnaporthe grisea.
Function
Pi-ta in rice encodes a putative cytoplasmic receptor with a centrally localized nucleotide-binding site and leucine-rich domain (LRD) at the C-terminus.It interacts with AVR-Pita protein secreted by rice blast fungus during infection. AVR-Pita protein is predicted to encode a metalloprotease with an N-terminal secretory signal and pro-protein sequences. It binds directly to the Pi-ta LRD region inside the plant cell to initiate a Pi-ta-mediated defense responses which include a rapid, localized cell death termed the hypersensitive response (HR), production of antimicrobial compounds, lignin formation, an oxidative burst and increased expression of pathogenesis-related genes[1].
Expression
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Evolution
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Labs working on this gene
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References
[1] Yulin Jia;Sean A. McAdams;Gregory T. Bryan;Howard P. Hershey;Barbara Valent. Direct interaction of resistance gene and avirulence gene products confers rice blast resistance. The EMBO Journal, 2000, 19(15): 4004-4014
Structured Information
| Gene Name |
BGIOSGA036370 |
|---|---|
| Description |
Pi-ta protein |
| Definition |
Oryza sativa Indica Group BGIOSGA036370, complete gene. |
| LocusTag |
PI-TA |
| Ensembl Transcript ID |
BGIOSGA036370-TA |
| Ensembl Protein ID |
BGIOSGA036370-PA |
| Length |
5210 |
| Source |
Oryza sativa Indica Group ORGANISM Oryza sativa Indica Group
Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;
Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP
clade; Ehrhartoideae; Oryzeae; Oryza.
|
| Chromosome | |
| Location |
Chromosome 12:8402766..8407975 |
| Sequence Coding Region |
8407032..8407975,8403849..8405567),complement(8403633..8403676,8402766..8403160 |
| Genome Context |
<gbrowseImage1> name=IndicaChromosome12:8402766..8407975 source=RiceIndica12 preset=GeneLocation </gbrowseImage1> |
| Gene Structure |
<gbrowseImage2> name=IndicaChromosome12:8402766..8407975 source=RiceIndica12 preset=GeneLocation </gbrowseImage2> |
| Coding Sequence |
<cdnaseq>ATGGCGCCGGCGGTCAGTGCATCGCAGGGTGTCATCATGCGGTCCCTGACGAGCAAGCTCGACTCGCTGCTGCTGCAGCCGCCGGAGCCGCCGCCGCCTGCGCAACCGTCGTCGCTGCGGAAGGGGGAGAGGAAGAAGATCCTCCTCCTCAGAGGCGATCTCCGACACCTGCTAGATGACTACTACCTCCTCGTGGAGCCGCCGTCAGACACCGCGCCACCGCCAGACTCGACGGCGGCGTGCTGGGCTAAGGAGGTTCGCGAGCTCTCCTACGACGTCGACGACTTCCTCGACGAGCTAACGACCCAGCTCCTCCACCACCGCGGCGGCGGCGATGGCAGTAGCACTGCTGGTGCCAAGAAGATGATCAGCAGCATGATCGCCCGGCTTCGAGGGGAGCTTAACCGGCGGCGGTGGATCGCCGACGAGGTCACCCTGTTCAGGGCCCGCGTGAAGGAGGCCATTCGCCGCCACGAGAGCTACCATCTTGGCAGGCGCACCTCGAGCTCGAGGCCGAGAGAAGAAGACGACGACGACGATCGCGAGGACTCCGCCGGCAACGAACGCCGCCGGTTTCTGTCGCTGACGTTCGGGATGGACGACGCTGCTGTGCACGGCCAGCTCGTTGGTAGGGATATTTCGATGCAAAAGCTCGTCCGGTGGCTGGCCGACGGCGAGCCGAAGCTCAAGGTGGCTTCCATTGTTGGATCCGGAGGTGTTGGCAAGACGACGCTGGCCACAGAATTCTATCGTCTGCATGGCCGGCGGTTGGATGCGCCGTTCGACTGCCGGGCTTTCGTGCGGACGCCCCGGAAGCCTGACATGACGAAGATCCTCACCGACATGCTGTCACAGCTGCGGCCACAACATCAGCATCAGTCTTCGGATGTTTGGGAGGTTGATCGACTCCTTGAAACTATCCGGACGCATTTGCAAGATAAAAGGTACTTCATCATAATTGAAGATTTATGGGCTTCATCAATGTGGGATATTGTTAGCCGTGGTTTGCCTGATAATAATAGTTGCAGTAGAATACTAATAACAACAGAAATTGAACCTGTAGCTTTGGCATGCTGTGGATATAACTCAGAGCACATTATTAAGATTGATCCACTGGGTGATGATGTCTCAAGTCAATTGTTTTTCAGTGGAGTTGTTGGCCAAGGAAATGAATTTCCTGGACATCTTACTGAAGTTTCTCATGACATGATAAAAAAATGTGGTGGCTTGCCACTAGCAATAACTATAACAGCCAGACATTTTAAAAGCCAGCTGTTAGATGGAATGCAGCAATGGAATCACATACAAAAATCATTGACTACTTCCAATTTGAAGAAAAATCCTACTTTGCAGGGGATGAGGCAAGTACTCAACCTTATTTACAATAATCTTCCTCATTGTTTGAAAGCATGTCTGTTATACCTTAGCATCTACAAAGAGGACTACATAATTAGGAAGGCCAACTTGGTGAGGCAATGGATGGCTGAAGGTTTCATCAATTCCATAGAAAATAAAGTCATGGAAGAAGTTGCAGGGAACTATTTTGATGAACTTGTTGGTAGGGGCCTGGTCCAACCAGTAGATGTTAACTGCAAAAATGAGGTATTGTCATGTGTAGTGCACCACATGGTATTAAATTTCATCAGGTGTAAGTCAATAGAGGAGAATTTCAGCATTACATTGGATCATTCTCAGACGACAGTAAGACATGCTGACAAGGTTCGCCGACTCTCGCTTCACTTCAGCAATGCACATGATACAACACCACTAGCAGGTTTGAGACTCTCACAAGTTCGATCGATGGCATTTTTCGGACAAGTCAAGTGTATGCCTTCCATTGCAGATTATAGGCTTCTTCGAGTTCTGATTCTTTGTTTTTGGGCTGATCAAGAGAAAACAAGCTATGACCTCACAAGCATTTCTGAACTGTTACAACTGAGATATCTGAAGATAACAGGTAATATCACAGTTAAACTTCCAGAGAAGATCCAAGGACTACAACACTTGCAGACACTGGAAGCAGATGCAAGAGCAACTGCTGTCCTATTGGATATTGTTCATACACAGTGTTTGTTGCACCTTCGTCTTGTACTACTTGATCTGCTCCCTCACTGTCACAGGTACATCTTCACCAGCATCCCCAAATGGACTGGAAAGCTCAACAATCTCCGCATTTTAAACATTGCAGTCATGCAAATTTCCCAGGATGACCTTGACACTCTCAAAGGACTGGGATCTCTCACTGCTCTTTCGCTGCTTGTTCGAACAGCGCCTGCGCAAAGAATCGTCGCTGCGAATGAGGGGTTCGGGTCTCTCAAGTACTTCATGTTTGTCTGTACAGCACCATGCATGACTTTTGTGGAAGGAGCAATGCCGAGTGTGCAAAGGTTAAATCTAAGGTTCAATGCCAACGAGTTCAAGCAGTATGACTCTAAGGAGACAGGGTTGGAACACTTGGTCGCCCTTGCAGAGATCTCTGCAAGAATTGGGGGCACTGATGATGATGAATCAAACAAAACTGAAGTGGAGTCTGCCTTGAGGACTGCAATTCGCAAGCATCCGACGCCGAGCACTCTTATGGTTGATATACAATGGGTGGATTGGATCTTTGGTGCTGAAGGGAGAGACTTGGATGAAGATTTGGCACAACAAGATGATCACGGGTTTTGTATGCTACCGGAATCCTCTTCACGTCTTCAGAGTAGAGAGATAAGTATCGAAGAAGACATGCCCACCGGTGCGGAAGGGACGGTGATTGTGCCCCACACAATGGAGCAGTTCGCCCTCCACATGAGCCAAGCCAAGCAATCCCACAAGCTCGTAGTCATCCAGTTCACTACTTCCCGGTGCCCTGCTTCACGCTACATCGCGCCAGCTTTCACCGAGTATGCGAAGGAGTTCGCTGGTGCGGTTTTCATTAAGGTCAATGTCGACAGCGATGAGCTGGAGAGTGTTACGGACTGGTATGACATCGAAGGGATAGTGCCAACATTTTTCTTCGTCAAGGATGGGGAGAAGATTGACAAGATTCCTGGTGCTAACAAGGAGTTGCTCCGAGCCAAAATTCGAAGGCACACAGCTTCTCCTTACTTCCTCCGTTGA</cdnaseq> |
| Protein Sequence |
<aaseq>MAPAVSASQGVIMRSLTSKLDSLLLQPPEPPPPAQPSSLRKGERKKILLLRGDLRHLLDDYYLLVEPPSDTAPPPDSTAACWAKEVRELSYDVDDFLDELTTQLLHHRGGGDGSSTAGAKKMISSMIARLRGELNRRRWIADEVTLFRARVKEAIRRHESYHLGRRTSSSRPREEDDDDDREDSAGNERRRFLSLTFGMDDAAVHGQLVGRDISMQKLVRWLADGEPKLKVASIVGSGGVGKTTLATEFYRLHGRRLDAPFDCRAFVRTPRKPDMTKILTDMLSQLRPQHQHQSSDVWEVDRLLETIRTHLQDKRYFIIIEDLWASSMWDIVSRGLPDNNSCSRILITTEIEPVALACCGYNSEHIIKIDPLGDDVSSQLFFSGVVGQGNEFPGHLTEVSHDMIKKCGGLPLAITITARHFKSQLLDGMQQWNHIQKSLTTSNLKKNPTLQGMRQVLNLIYNNLPHCLKACLLYLSIYKEDYIIRKANLVRQWMAEGFINSIENKVMEEVAGNYFDELVGRGLVQPVDVNCKNEVLSCVVHHMVLNFIRCKSIEENFSITLDHSQTTVRHADKVRRLSLHFSNAHDTTPLAGLRLSQVRSMAFFGQVKCMPSIADYRLLRVLILCFWADQEKTSYDLTSISELLQLRYLKITGNITVKLPEKIQGLQHLQTLEADARATAVLLDIVHTQCLLHLRLVLLDLLPHCHRYIFTSIPKWTGKLNNLRILNIAVMQISQDDLDTLKGLGSLTALSLLVRTAPAQRIVAANEGFGSLKYFMFVCTAPCMTFVEGAMPSVQRLNLRFNANEFKQYDSKETGLEHLVALAEISARIGGTDDDESNKTEVESALRTAIRKHPTPSTLMVDIQWVDWIFGAEGRDLDEDLAQQDDHGFCMLPESSSRLQSREISIEEDMPTGAEGTVIVPHTMEQFALHMSQAKQSHKLVVIQFTTSRCPASRYIAPAFTEYAKEFAGAVFIKVNVDSDELESVTDWYDIEGIVPTFFFVKDGEKIDKIPGANKELLRAKIRRHTASPYFLR</aaseq> |
| Gene Sequence |
<dnaseqindica>1..944#2409..4127#4300..4343#4816..5210#ATGGCGCCGGCGGTCAGTGCATCGCAGGGTGTCATCATGCGGTCCCTGACGAGCAAGCTCGACTCGCTGCTGCTGCAGCCGCCGGAGCCGCCGCCGCCTGCGCAACCGTCGTCGCTGCGGAAGGGGGAGAGGAAGAAGATCCTCCTCCTCAGAGGCGATCTCCGACACCTGCTAGATGACTACTACCTCCTCGTGGAGCCGCCGTCAGACACCGCGCCACCGCCAGACTCGACGGCGGCGTGCTGGGCTAAGGAGGTTCGCGAGCTCTCCTACGACGTCGACGACTTCCTCGACGAGCTAACGACCCAGCTCCTCCACCACCGCGGCGGCGGCGATGGCAGTAGCACTGCTGGTGCCAAGAAGATGATCAGCAGCATGATCGCCCGGCTTCGAGGGGAGCTTAACCGGCGGCGGTGGATCGCCGACGAGGTCACCCTGTTCAGGGCCCGCGTGAAGGAGGCCATTCGCCGCCACGAGAGCTACCATCTTGGCAGGCGCACCTCGAGCTCGAGGCCGAGAGAAGAAGACGACGACGACGATCGCGAGGACTCCGCCGGCAACGAACGCCGCCGGTTTCTGTCGCTGACGTTCGGGATGGACGACGCTGCTGTGCACGGCCAGCTCGTTGGTAGGGATATTTCGATGCAAAAGCTCGTCCGGTGGCTGGCCGACGGCGAGCCGAAGCTCAAGGTGGCTTCCATTGTTGGATCCGGAGGTGTTGGCAAGACGACGCTGGCCACAGAATTCTATCGTCTGCATGGCCGGCGGTTGGATGCGCCGTTCGACTGCCGGGCTTTCGTGCGGACGCCCCGGAAGCCTGACATGACGAAGATCCTCACCGACATGCTGTCACAGCTGCGGCCACAACATCAGCATCAGTCTTCGGATGTTTGGGAGGTTGATCGACTCCTTGAAACTATCCGGACGCATTTGCAAGATAAAAGGTAATTCATGTCTATATCTATCTCTAGTATTTTTTTCATGAATTTACAAACTATTTTCTCAAATTTCCCCTTTTTTATCCTTCATATAGTAATTAAGTTAGTAACTATACATATGAATTTAATTTACTCGACAATGCCAATAATATTTTAAATTACTTTTATAGTGTCCTCTATTAGTAGATACGATTCGATCGAGCCATGAATTATACTGGTAATCTAAACAATTATTATACCCACCTCATTCTACTAACAGCAATTGAGTTGTTAATATAAATAGATATGGTCTATTGCATGAAAAAATAAAGGTAAAGTGTTTACATTATTTCTACTACTAGTAGCAGAACTACAAAGTTGTTTGTATTTTTAATTATTAAATGTAAATGAAAGTACATGTTTCATACCCTTGTTATTTTTTTAGGCGACTAAACTACTAGTACATTATTTCTACTACTAGTAGAACAACTACAAAGTTGTTTGTATTTTTAATTACTAAATGTAAATGAAAGTACATGCTTCATACCCTTGTTATAATATTTTAGACTAAACTACCACAATGGCATGTTAACTTATAGCAGTAAGTTGTAATTTATTTTCTTTTCATTTTCTCAGTTGTTACAAGAACTTTTTTTTACTTAATAAAAAATAGTCGTAAGGGCCTCCCTTGTTCGGTCAAAAAAGAATTAGACTAAACTCAATCGTATTTGTACATAAACAAAATTTAAAATATAACTAAAACGAAACAGTGATAAAAATGGTGCAATTTAACTGCTGCCTCTTGTTTTAATGTCTGACAATGTTGATTTTGTATATATGTTTGGCCATTTATTTTATTCAAATTTTTTACAAATATGAAAAATATAATATATGCTTAAATTACTTTTAATGATAAAATAAATTTAAAAAAATGATAATTATATTTTTAATAAGATGGATGATCTAACATATATATGTCCAAAAGTTTGACATCAAACATTAAAAACAAGAGAGAGTATTTGCTTAGGAGTACGTGTCTTTTTCCATGCCTTAGAACAGGTACAATAGCAGGTTATAAGCTAGCTATAAACATATTTTAAAGAGATATAGGAAGAGAGAGAAGAGCAGCAGCCTACAGATCTGTAGCCAGCTGCAGCACGGACTCTAAGACGTAATGTGTGTATGACAGGTAGGACCAAGTATTAATAGTATAGTAAGCAACTATTGTATGAATTGGCTATTTGGCTCTAGATGATTTGGAGCTAGTAGTCGGCTATACTATTAAACTTGCTCTTAGATATGTGGTTAAATTTAATTTCTGAAATTTACAAGATATAGAACATGTCTTCACCATGTTTGCAAAGTTGATAAAATGAAATTGCACTCAACTTTTTAAATTCAGCATGCTATCCCACGTATAGCTTTTTAAATATGATTTATTTTTTCGTACATTACAAGTTTAATGTTTACGAAGTACTAAATGTTCTGCAGGTACTTCATCATAATTGAAGATTTATGGGCTTCATCAATGTGGGATATTGTTAGCCGTGGTTTGCCTGATAATAATAGTTGCAGTAGAATACTAATAACAACAGAAATTGAACCTGTAGCTTTGGCATGCTGTGGATATAACTCAGAGCACATTATTAAGATTGATCCACTGGGTGATGATGTCTCAAGTCAATTGTTTTTCAGTGGAGTTGTTGGCCAAGGAAATGAATTTCCTGGACATCTTACTGAAGTTTCTCATGACATGATAAAAAAATGTGGTGGCTTGCCACTAGCAATAACTATAACAGCCAGACATTTTAAAAGCCAGCTGTTAGATGGAATGCAGCAATGGAATCACATACAAAAATCATTGACTACTTCCAATTTGAAGAAAAATCCTACTTTGCAGGGGATGAGGCAAGTACTCAACCTTATTTACAATAATCTTCCTCATTGTTTGAAAGCATGTCTGTTATACCTTAGCATCTACAAAGAGGACTACATAATTAGGAAGGCCAACTTGGTGAGGCAATGGATGGCTGAAGGTTTCATCAATTCCATAGAAAATAAAGTCATGGAAGAAGTTGCAGGGAACTATTTTGATGAACTTGTTGGTAGGGGCCTGGTCCAACCAGTAGATGTTAACTGCAAAAATGAGGTATTGTCATGTGTAGTGCACCACATGGTATTAAATTTCATCAGGTGTAAGTCAATAGAGGAGAATTTCAGCATTACATTGGATCATTCTCAGACGACAGTAAGACATGCTGACAAGGTTCGCCGACTCTCGCTTCACTTCAGCAATGCACATGATACAACACCACTAGCAGGTTTGAGACTCTCACAAGTTCGATCGATGGCATTTTTCGGACAAGTCAAGTGTATGCCTTCCATTGCAGATTATAGGCTTCTTCGAGTTCTGATTCTTTGTTTTTGGGCTGATCAAGAGAAAACAAGCTATGACCTCACAAGCATTTCTGAACTGTTACAACTGAGATATCTGAAGATAACAGGTAATATCACAGTTAAACTTCCAGAGAAGATCCAAGGACTACAACACTTGCAGACACTGGAAGCAGATGCAAGAGCAACTGCTGTCCTATTGGATATTGTTCATACACAGTGTTTGTTGCACCTTCGTCTTGTACTACTTGATCTGCTCCCTCACTGTCACAGGTACATCTTCACCAGCATCCCCAAATGGACTGGAAAGCTCAACAATCTCCGCATTTTAAACATTGCAGTCATGCAAATTTCCCAGGATGACCTTGACACTCTCAAAGGACTGGGATCTCTCACTGCTCTTTCGCTGCTTGTTCGAACAGCGCCTGCGCAAAGAATCGTCGCTGCGAATGAGGGGTTCGGGTCTCTCAAGTACTTCATGTTTGTCTGTACAGCACCATGCATGACTTTTGTGGAAGGAGCAATGCCGAGTGTGCAAAGGTTAAATCTAAGGTTCAATGCCAACGAGTTCAAGCAGTATGACTCTAAGGAGACAGGGTTGGAACACTTGGTCGCCCTTGCAGAGATCTCTGCAAGAATTGGGGGCACTGATGATGATGAATCAAACAAAACTGAAGTGGAGTCTGCCTTGAGGACTGCAATTCGCAAGCATCCGACGCCGAGCACTCTTATGGTTGATATACAATGGGTGGATTGGATCTTTGGTGCTGAAGGGAGAGACTTGGATGAAGATTTGGCACAACAAGATGATCACGGGTATGGATTTTTCATTCTATTCCCAGGTTACAACTTACAAGGATTATTGAGCTTCTTTCTTTCTCTGCCGTGGCTTCTATCTTTACCTTCTATGCATCTTCAACCTGACTTGATGATTGTTTGAAACCAATTTTAATGGAAGTTAAATGTTATTGTTGTGACCCTGAATCAGGTTTTGTATGCTACCGGAATCCTCTTCACGTCTTCAGAGTAGAGGTAATTTTGTTTCTTGTCATTTTACAGTTACAGTTCATCTACTTAAGGAATTAATGGGAGGTCCTATATTTTCTCGGGTACCTAGAAGGTGTGGTTCCTAGTCTTACCTCCTTAAGAACCGTAGAATGTTGGCCCTAACACTTGGATCAAAGAACGAAAGGTGTATGCACTATAGTATCCTTTATATATTGCACAAGTCAAGGCATTTGTTAAAACACACCCAGTGCTAGTAATTTGTTTACTGAGATATGAATCATCGCCAAATACCCATACTGAGCCTATTAGTAAAATATTTACGAGGTGTTTGAGGACAGCATAACTTTCAGTAAAGAATTTACTACGTGAGGTGTGTGTTTTAGGTATTGCGCATCTTGGGTGCATTTTAGCGCAAACGTGTATAATATATATCCCATGGTACTAACTCATGTCTTAACCATAATTGCACACCAACACAAAACATACACTACTACAGAGATAAGTATCGAAGAAGACATGCCCACCGGTGCGGAAGGGACGGTGATTGTGCCCCACACAATGGAGCAGTTCGCCCTCCACATGAGCCAAGCCAAGCAATCCCACAAGCTCGTAGTCATCCAGTTCACTACTTCCCGGTGCCCTGCTTCACGCTACATCGCGCCAGCTTTCACCGAGTATGCGAAGGAGTTCGCTGGTGCGGTTTTCATTAAGGTCAATGTCGACAGCGATGAGCTGGAGAGTGTTACGGACTGGTATGACATCGAAGGGATAGTGCCAACATTTTTCTTCGTCAAGGATGGGGAGAAGATTGACAAGATTCCTGGTGCTAACAAGGAGTTGCTCCGAGCCAAAATTCGAAGGCACACAGCTTCTCCTTACTTCCTCCGTTGA</dnaseqindica> 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