Information report for g28812
Gene Details
Functional Annotation
- Encodes a deSUMOylating enzyme. In vitro it has both peptidase activity and isopeptidase activity: it can cleave C-terminal residues from SUMO to activate it for attachment to a target protein and it can also act on the isopeptide bond between SUMO and another protein. sGFP:OTS1 protein accumulates in the nucleus. Double mutant analysis with ULP1C/OTS2 indicates that these genes are involved in salt stress responses and flowering time regulation. Over-expression of 35S:OTS1 increases salt tolerance and reduces the level of SUMO-conjugated proteins. OTS1 transcript levels do not appear to change in response to salt, but, salt stress reduces the level of OTS1 protein in a proteasome-dependent manner.
Homologous
- Brassica napus: BnaA09G0168500ZS, BnaC09G0188000ZS, BnaA06G0067900ZS, BnaC05G0084200ZS, BnaA02G0274100ZS
- Brassica oleracea: Bo9g044180, Bo5g012030
- Brassica rapa: Bra027164, Bra019923
- Cucumis sativus: CsGy5G022240
- Musa acuminata: Ma06_g04850
- Nicotiana attenuata: A4A49_06464
- Solanum lycopersicum: Solyc04g026200.3
Gene Resources
- Pfam: PF02902
Sequences
gDNA Sequence
- >g28812
TATGTACCCATTTTTTAATTTAACTTTTGGCCCAAATATTACTTCTGCCTTAAAGTCTATACAAGAACAAAAACTTGAACTCTGTTAGAGCGGTGAGCAATGTCTTGATTTGGATGCTGCATAATCTGTACTGGTTTAGTCTGTCTGGTCACTGACACGGAATAGCTCGATGAGTGTGTTTCGGATTTTGATTCTCAGAGCAGAAGCTTCATCGGGTCTAAACCACTTCTTGTCGAACTGGATACATTGAAAACACAAGTTTAGACGAGTAAGAAGAAGATATGTGATTTGGTATCAGGAAAAGAGTTTGAGATTACTCACCATTCTCAGATCTTTCCTTTTCAACCTTTGAGGTGCCTCTTCGATGAACCGTTGAATGAAGAAGAGCACAAACGGACCACAATCAAAATCGTTTTTCTGCTGCGGAACCTGGTTGCACAAAGAGAATAATATCATAAGACGAATTGATCTTCCTGTGTGGTTCTAGTGTCTGAATGTAATCATATTTCAGAAGAAACCGTATAAAAAAAGTTCCTTAAATCATGGGATTAAGAAGGTAAAAGACTGACCTGTATATCAGCTTCGCTGATCCTACGAGGGAGGTTTTTCCATACTTTTTCTGAGATAGGTAGATCCAAGGAATAATCATCTTGATTCAAATAATTCCATTCGTCTTTCAGAAACCTGAAATAAGTTGCATAGAATCTAGTGAATGTGGTATCTGTATTTTATGAATTTACACCATATGCATACAACGCCAAGCATGTGAAAAGATAAAGTCGCGTGTAAAGCTCCTAGCATCTCACCTTTTTACGTTTTCAACAATTGATTTTCTCGAGTGAAGTCCTAAAGAATCAAGGTGAAGTATAGTCAACCCCGATTCATCTTTCTTATCAGGGATGCAAACTATCACAAGGCTCCAATGAAGACTGAAACATGGTACAAGAATCTGAAGAAATAAGTTCTTGAAAAATCTTGTAAGAAGAGAAATCTAAAAGTACAGTGCTAAAAGGAAAAGTACTCACTCTTCATGTATTGGTATGAAAATATAAGCTTTACGAAATAGATCAATACCCTTCCACCACCGCCTGAACTTCACAAAAAAGGCATCCTTGTCATTCCCCTATTTCATTGAAAGGACAAGACAAATAGACCAGTCGACATAAATACCAATGAGAAAAAATGCAAGAATGCCAGCAGATAATTATTTTACAAGGATCACATTTTTCTAATCACCTTGTACGTAACAGCGTCACTGAGCTTCTTGTAGAAATATGTATTGAAGAAATGACAATCAGCAGAGATTCGATTCGATGATGATATCTGCTGCTGCAAGAACCTAACCAAAGAAAAGAGGACAATAATCATATAAAAAAACATGCAAATAGTGCTAGCATAATAAAAGATAACATATATGGCATGTCTATCACTCCAAAAATACCTGATGTAGAAATTCATAACCGGTGATGTTAGAAATTCTCGAGGCGCAAGGCATTCAAGATCTTTAAGACAAACTTGAACAAAGTGAGGATCATCCCTGGATCACCAAGCATTAATATTTTGAGGGTTACAAATTTACAGTAAGTTAGCCTAGATCAGTCTTGACTCTTGAGATAGATTTACCTTGATGGGTAGCATATATCTTCCTGTAAGCTGCATGTTTCATCAACTATTAGTTTATATAAAGCCAGTTGTAACTTAATGAGGCTAAAAAGAAAATAGGTCACTTTTACCCTTCAGGCAGTTCAACCGCTTGCTCCGCCACTGTTGAAGGCTGAGGTTCTTCTTCATCCACATTTATCACTGTATCCTCTGATTTCTGTAGTTTTTTTATAAGGAATATCATCAGTAAGTTAAAAAGAACAACATAGCAAATGAGTTGGAGTAAGGAGTAAGGACAATATTAAAGAAGCCAAATAAATGATACAGCCAAATAGGAAGCTTTTCCTGGCAAGTATAAATCCTTTTAATAGCACAGGTGTGCAGTTTATCTAGCGAGGAATTAACTGTTCAAAAATTGAAGTCTTTCCTAAGGAATTTATAAAATTTTCTGTTGGAAAATAACCTAAGTTTTTAGAAAATGAGTCATGCTTCTGCTGGTGTAAATTTCTTGAGGTCTATAATAATTGAGTAAAAGATGCAAATGTGAGATATATGGTAACAGGAGTAAGCAATAATACCTTACGGCGCTTTGAACTTTCTGATGGAGATTCTTGCCACGACCACTCCCTATGAGAGAAAGAAGTTGAGCGATTACAACACAACTCAATCTCTTATGTATCAGAACGGCATGTCACAACAAAATTGCAGTAACCAGCAGTGGTAAACTTGAGACCCTCAGAAAAAACAACAAACCAGTAACAGAAACAGCTGGAAAAGGAAAAAGGAAACGAACCTAGGAGTTTCATGACCAATGGGGTCGTTGTCATCATCATCATCATCAAGCAGAGAATAGATCGAAGTTTCCTTGCGCTTTTTCTTTCCATAAGATTCCTTGGATTTCTGATTCCCATTTGACCCTTTAAATCCAGAATCAAACTGCTTTTCACTGTGCTCAGCGTTCCCTATATCTGACAACAACCGCCACCCGCTGCTCAGCCTTGTTACGGGCTTTCTATCAGCCTTGTGTTTCTTACTTTCATATCCCAAATCTTCAAATTCTTTACCAAATGCTTTCTTTGACTGAGAATCTGTCTGTTGAACACAGATAACAAAGTTGTATCATGATGAAGTACCCATCTAAAACAGTTTAAATGTTAAAAGGTAGATGTTCCATACTTTTGGTTTACTGAAAAAGGCAGAAAATGTTGACCGTGAGACTTCTTTGGAGTCTGTATTCCCTTGTCTAGAGGTATCTTTTGAGTCTGTATTCCCTTGTCTAGAGGTGTCTTTTGAGGCTGCATTCCCTTGTCTAGAGGTGTCTGTTGAGTCTGTATTCCCTTGCCTAGAGGTGTCTTTTGAGGCTACATTTCCTTGTGTTAAGACATCTGAACCTACATGAAGCGTGGCTCATTAAACTTAAGTCCAAAAATTGGGACACTGAGCTAAGCTATTAAGAAAGCATATTGCATATCATAGTTACTTGAGCTTAAACAACATGTTAGAAGCAACCAACTTTAACATTATCCTTTAAGAATACCTGAGCTCGTCGAAGACATGACCTTCGAACTTCTGTCCACCTCCTGCCAAAAAGGAAAGAGTCTTTGTAGCATCATATTCATAAACATCAATCCCATTCCTTTATCAGATAACAATCTCTATCACAAACACCCCTTGATATACATAAATTTCACATGTTCAATGCCTAGTAGTTACCATGACTAAGGATCATACACATAAATGAGCTCGAATCTAGCTTGGAAGATACACGGAAATGTACTCAACAAAATCGAAACTTTAGCATAAACTTAAAAACCCCAAAACACTATCTAAGATTGGAAAAAAAAATCAAACCAGCATGCAATTGAATGAGAATGCGAACCATTTTCGAGCGGTCTAAAACCCTACGCTGCTTCTCTTCTTCAAGGTAGACGATTCTGAGTCGGATTCTCTCACCCTTGTCGGGTAAACCCGGACCTAATGTCACAAGATTCGTTTTGCTACGCTCCAGCTGCTCGTCAAGGGCACGATCGGTTAGAGATATCTGAGAATCCGTCTGATCGTCGGAGAGAAACGTTGGCGTTTGCGGCGGCGGAGGTTTGGTGGTATTAACAATCTCCAGCTCGGGAACTTCTTCTTCCTTATCCATGGCTGAAGACCAATCAATCACAAAATCTTTCTTCTCGGAACAATCGACATCTACAACTTCCTTCTTCCTCTTCGTCATTTCCCGAGGCTAAAGGTTTCTTCTTCCTTCTCTCAATC
CDS Sequence
- >g28812
ATGACGAAGAGGAAGAAGGAAGTTGTAGATGTCGATTGTTCCGAGAAGAAAGATTTTGTGATTGATTGGTCTTCAGCCATGGATAAGGAAGAAGAAGTTCCCGAGCTGGAGATTGTTAATACCACCAAACCTCCGCCGCCGCAAACGCCAACGTTTCTCTCCGACGATCAGACGGATTCTCAGATATCTCTAACCGATCGTGCCCTTGACGAGCAGCTGGAGCGTAGCAAAACGAATCTTGTGACATTAGGTCCGGGTTTACCCGACAAGGGTGAGAGAATCCGACTCAGAATCGTCTACCTTGAAGAAGAGAAGCAGCGTAGGGTTTTAGACCGCTCGAAAATGGAGGTGGACAGAAGTTCGAAGGTCATGTCTTCGACGAGCTCAGGTTCAGATGTCTTAACACAAGGAAATGTAGCCTCAAAAGACACCTCTAGGCAAGGGAATACAGACTCAACAGACACCTCTAGACAAGGGAATGCAGCCTCAAAAGACACCTCTAGACAAGGGAATACAGACTCAAAAGATACCTCTAGACAAGGGAATACAGACTCCAAAGAAGTCTCACGGTCAACATTTTCTGCCTTTTTCAGTAAACCAAAAACAGATTCTCAGTCAAAGAAAGCATTTGGTAAAGAATTTGAAGATTTGGGATATGAAAGTAAGAAACACAAGGCTGATAGAAAGCCCGTAACAAGGCTGAGCAGCGGGTGGCGGTTGTTGTCAGATATAGGGAACGCTGAGCACAGTGAAAAGCAGTTTGATTCTGGATTTAAAGGGTCAAATGGGAATCAGAAATCCAAGGAATCTTATGGAAAGAAAAAGCGCAAGGAAACTTCGATCTATTCTCTGCTTGATGATGATGATGATGACAACGACCCCATTGGTCATGAAACTCCTAGGGAGTGGTCGTGGCAAGAATCTCCATCAGAAAGTTCAAAGCGCCGTAAGAAATCAGAGGATACAGTGATAAATGTGGATGAAGAAGAACCTCAGCCTTCAACAGTGGCGGAGCAAGCGGTTGAACTGCCTGAAGGCTTACAGGAAGATATATGCTACCCATCAAGGGATGATCCTCACTTTGTTCAAGTTTGTCTTAAAGATCTTGAATGCCTTGCGCCTCGAGAATTTCTAACATCACCGGTTATGAATTTCTACATCAGGTTCTTGCAGCAGCAGATATCATCATCGAATCGAATCTCTGCTGATTGTCATTTCTTCAATACATATTTCTACAAGAAGCTCAGTGACGCTGTTACGTACAAGGGGAATGACAAGGATGCCTTTTTTGTGAAGTTCAGGCGGTGGTGGAAGGGTATTGATCTATTTCGTAAAGCTTATATTTTCATACCAATACATGAAGATCTTCATTGGAGCCTTGTGATAGTTTGCATCCCTGATAAGAAAGATGAATCGGGGTTGACTATACTTCACCTTGATTCTTTAGGACTTCACTCGAGAAAATCAATTGTTGAAAACGTAAAAAGGTTTCTGAAAGACGAATGGAATTATTTGAATCAAGATGATTATTCCTTGGATCTACCTATCTCAGAAAAAGTATGGAAAAACCTCCCTCGTAGGATCAGCGAAGCTGATATACAGGTTCCGCAGCAGAAAAACGATTTTGATTGTGGTCCGTTTGTGCTCTTCTTCATTCAACGGTTCATCGAAGAGGCACCTCAAAGGTTGAAAAGGAAAGATCTGAGAATGTTCGACAAGAAGTGGTTTAGACCCGATGAAGCTTCTGCTCTGAGAATCAAAATCCGAAACACACTCATCGAGCTATTCCGTGTCAGTGACCAGACAGACTAA
Protein Sequence
- >g28812
MTKRKKEVVDVDCSEKKDFVIDWSSAMDKEEEVPELEIVNTTKPPPPQTPTFLSDDQTDSQISLTDRALDEQLERSKTNLVTLGPGLPDKGERIRLRIVYLEEEKQRRVLDRSKMEVDRSSKVMSSTSSGSDVLTQGNVASKDTSRQGNTDSTDTSRQGNAASKDTSRQGNTDSKDTSRQGNTDSKEVSRSTFSAFFSKPKTDSQSKKAFGKEFEDLGYESKKHKADRKPVTRLSSGWRLLSDIGNAEHSEKQFDSGFKGSNGNQKSKESYGKKKRKETSIYSLLDDDDDDNDPIGHETPREWSWQESPSESSKRRKKSEDTVINVDEEEPQPSTVAEQAVELPEGLQEDICYPSRDDPHFVQVCLKDLECLAPREFLTSPVMNFYIRFLQQQISSSNRISADCHFFNTYFYKKLSDAVTYKGNDKDAFFVKFRRWWKGIDLFRKAYIFIPIHEDLHWSLVIVCIPDKKDESGLTILHLDSLGLHSRKSIVENVKRFLKDEWNYLNQDDYSLDLPISEKVWKNLPRRISEADIQVPQQKNDFDCGPFVLFFIQRFIEEAPQRLKRKDLRMFDKKWFRPDEASALRIKIRNTLIELFRVSDQTD