Information report for BRADI_1g51130v3
Gene Details
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Functional Annotation
- Encodes a type I protein arginine methyltransferase based on the At1g04870.2 gene model. PRMT10 can catalyze the asymmetric dimethylation of arginine 3 on histone 4 and can also methylate myelin basic protein in vitro. Mutants lacking PRMT10 flower late due to defects in the autonomous pathway and they have elevated levels of FLC transcripts.
Homologous
- Arabidopsis thaliana — AT1G04870
Gene Resources
- Pfam: PF06325 PF05185
- UniProt: I1H1N6
- EMBL: CM000880
- KEGG: bdi:100826165
- OMA: NSEPTHW
- InterPro: IPR025799 , IPR029063 , IPR055135
- PANTHER: PTHR11006 , PTHR11006:SF68
- SUPFAM: SSF53335
- PROSITE: PS51678
- Gene3D: 2.70.160.11 , 3.40.50.150
- OrthoDB: I1H1N6
- CDD: cd02440
- eggNOG: KOG1499
- STRING: 15368.I1H1N6
- HOGENOM: CLU_017375_1_2_1
Sequences
gDNA Sequence
- >BRADI_1g51130v3
CAGCCGTCCTCCCAAACCACAAGAAAAACCCCTCTCCGGCTGCTCTCTCCCTCCCGCGTTCTCCCCATGGCGTCCCTTCCCAACGGCGCCGCCGCCGCCGCCGCCTCCTCGGCCGCCGGGGGCGCGCCCCCCGTGGACAAGGAGGTGGACTTCGCCAACTACTTCTGCACCTACGCCTACCTCTACCACCAGAAGGAGATGCTCTGCGACCGCGTCCGCATGGACGCCTACCACTCCGCCGTCTTCCGCAACCCTCACCACTTCCGCGGCAAGGTTCGGAAAATTTTCCCCCTCTCCGTCCTCACAAACCGCTAGGAGTTCGATTGGTCGCTGCAATTTTGGGCTGGCTGATTTTTGGTGGATCTGTCAGGTGGTTCTTGATGTGGGCACCGGGAGCGGCATCCTTGCCATCTGGAGCGCTCAGGCCGGCGCCAGGAAGGTGTACGCCGTCGAGGCGACCAACGTGGCGGAGCACGCCCGCGAGCTCGTGCGCGCCAACGGCGTCGCTGACATCGTCGAGGTCATACAGGGGACCATGGAGGACATTGTGCTACCGGAGAAAGGCGAGTCTCCATTTCTTGATTTCTTCTTACTGCTATAGTTCGTTCCCGAGTCGATGGTAAACATCTTTTAGACGGGAGAAAGGCGTGTCCCCATTTCTTGATTTCTTCTTGTACCATAGTTCGTTCCTGAGCCGATGGTTAACACCTTTTTAGTATTGGTGAGACCAGCGGTGAATAGCGACAAGCCTAAGTCCTTCTCATCTTAAAAGGGGAAAATGTTCAAGTTTATCAGAACACTGAGTTTTTGGTGTATTGAGTATTGATTAGTTTGTTATGTCTATTGTTTTTGGAACTGCAGTGGATGTCATCATATCAGAGTGGATGGGCTACTATCTCTTGAGAGAGTCGATGTTCGATTCCGTCATTTGTGCACGCGACCGTTGGTTGAATCCAGGTGGTGTGATGTAAGTAAAGTGACGGATGTTTCTACACATCTGAATACGCGAACATAGAGTGTCATAGTTTTTGAATTTTGGATTCACTCCTTTCCAGGACTTCTCTCAAACTGAACTAGGATGGCTAGTATTGTCTTTATTAAAGATTATGTAAAACAAGTTAAATTAACAAACATGATCATAAATTGATTTGTTTCTGAAATATGGCAATACCCTTTTGCTAATGTTTGCACAATGATCTGAAATAGTTTGCACACTCAACACAGTCACACCTAATGCAAGATCAACCTTTTGCAGGTACCCTAGTCATGCTCGAATGTGGTTAGCACCGATAAGAAGTGGTTTGGGTGACAAAAAGATGGAAGATTTTGAAATTGCTATGAATGACTGGAATCTATTTGTCGAGGACACTGATGCTTATTATGGAGTCAACATGAATGCTTTGACGAAGGCATACCGTGCAGAACATGAAAAGTTCTATCTCAAGGTATTTGTGTTTGTTTAAAAGCCAGTATGTTTTAGTCATTCTTGTAGATTGCACATGTTCGGTGCGAAAAATGCAACACAAACAGCAATCTTCCCATTGTATCTGTTAGTAATGTGTAGCTACTAAGAATTTCTTCAACATAAAGGTCAAGGTTCTAAAATTATGTTTTGTTGAGAGCTTGTGCACTTCTTTGTTTCTGATAACTGCGGTCTTGGGATGGCAACCTTAGGACTCTTTGGAGCTTATAAATGACTTAAACCTATTTAAAGTGATGCATCTCGATGAATCTAAGATACTATTTTGTAAATGGTTATGATTAACATGCACTTAAAAATTGCCTTGCATTGTATTTTCTTGCAATTCTGCTGATGAGACATCCTTATATCCATAATCTGCAATTCTGCATAACATGTTAGACTTATTATTATAGTTATTTGTTACTTTCTGTGGCATACCTTAGGAGTCTGTCCTAACTTTCTGCATCTATTGGAATTAAAGATGCACTATATGATAGTCTTGTATATCGAGTCTGATACTTTGTTTTCTGGATGCACTATGTGATCAATGGGTTATCATCTTTCAAGGACTCTTTCCTAGTTCTCAGAATTCTATAGTGAATTGCAATTATTTCTGCTTTATGTGTTTCATGTCACAAGCTTTATTTACATACTGTTATTACTCTTCTGCAGTCTTCAATATGGAACAATCTTCATCCAAATCAACTTATAGGGCAACCTGCTGTCATTAAGGAAATCGATTGCTTGACAGCAACTGTTGATGAGATTCGAGAAGTTAGAGCACAAGTTATGTTGCCAATCAGCCAGGAGAGAACAAGATTAGCAGCATTGGCTGGCTGGTTTGATGTTCATTTTAGAGTATGTCAAGCTGAGTTATTACACAATTCACCTCATATCAGCATTACATTTTATTCAACAGGAGACATTCATATTTTCTCTCTTGACACTTTTTAGGGTAGTAATCAAAATCCTGCAGTTCAGGAAGTTGAGTTAAGTACAGCTCCAGATGAGAATGGTGGGACACACTGGGGCCAGCAGGTAGGTTTTCTAGAGTATATATCAACTCTTACTTTTTGTTGCAGAATCCAGAATTTTATACCAGCTATATAGCCTGTAATATCTACCACGTAGATGCTAAATCCTTTTATTCTTCAACTTTGAGTTCTTCAACATAAAAGATTCAACATGTAAAGCTGCAGCATCTTTTGTGAATTGATTATAAGTAGGGCTGCTGAGCATACCTTTTCTTGAAAATTTGAGACTTCCAAGTAACAGAAAATGTATTTAATGACACTGTATTACATATGAATGTTTTTTATTTGAAACAGTATATTCCCTTTGATTGTATGATTATGGATATGCATATCATCCATTTATTGCCTGGCACAATTTAACAGTCGTTTGTTTTTTCCACAGGTATTCTTGCTGACTCCATCTCTGAGAGTAAATGAAGGGGACAATGTTAAAGTTTCTTTCTCGATGGTTCGCTCAAAAGAGAATCATCGGCTTATGGATATGGATTTCACCTATGAATTACATGAGTCATCTGGCAAGAAGCTACCAGCAGTCACCACCAAGATTTACTTAGAGTAGAGCAAGGTCTGGCTTGCAGAACTGTGATACTTTTCTTGAATTTGACTTCATTCAATTGTTTATATGCAAAGTGCACAAGCTATCATGGGTATAGACACCATCCTGATATTTGTCTATGAAGCCTTCTGTATTGCTTTATGGTACGACACTGGGATTCAACCTAATCTAATCCACCTTTTCTTTAACAGATGGCTGATTAGATCTGACTCAGTTGATGAGATGTCGGGGGTACCGTATTACCATGTGTCACTATATTGCTGTGTCTAAAACCTTGCTCGTAATTGGAGAAACAGCAGTTGGTGGTTTGTTTGTTTGCCATGGTATGGCCTAATGGCCACCTTGTGTAACCTATTGAGGATCTGTAAACATTGAGAGACCATGAGGCATGATGAAGTGCTAGAGATTTTGTTGTATCAGTACTTTATCATTTTGTTGAAGGGCCAGAGATCACAAGTTTGGTTTCCATGCTTGTGGCTTGACTTGAGTGTACCTGGTGTGTGTTTGTGGTCACCAAATTTAAAAAGGAAATAGAACTTATTAATAAATTTTAGCTGCTGGGTAGTTCTAGTTT
CDS Sequence
- >BRADI_1g51130v3
ATGGCGTCCCTTCCCAACGGCGCCGCCGCCGCCGCCGCCTCCTCGGCCGCCGGGGGCGCGCCCCCCGTGGACAAGGAGGTGGACTTCGCCAACTACTTCTGCACCTACGCCTACCTCTACCACCAGAAGGAGATGCTCTGCGACCGCGTCCGCATGGACGCCTACCACTCCGCCGTCTTCCGCAACCCTCACCACTTCCGCGGCAAGGTGGTTCTTGATGTGGGCACCGGGAGCGGCATCCTTGCCATCTGGAGCGCTCAGGCCGGCGCCAGGAAGGTGTACGCCGTCGAGGCGACCAACGTGGCGGAGCACGCCCGCGAGCTCGTGCGCGCCAACGGCGTCGCTGACATCGTCGAGGTCATACAGGGGACCATGGAGGACATTGTGCTACCGGAGAAAGTGGATGTCATCATATCAGAGTGGATGGGCTACTATCTCTTGAGAGAGTCGATGTTCGATTCCGTCATTTGTGCACGCGACCGTTGGTTGAATCCAGGTGGTGTGATGTACCCTAGTCATGCTCGAATGTGGTTAGCACCGATAAGAAGTGGTTTGGGTGACAAAAAGATGGAAGATTTTGAAATTGCTATGAATGACTGGAATCTATTTGTCGAGGACACTGATGCTTATTATGGAGTCAACATGAATGCTTTGACGAAGGCATACCGTGCAGAACATGAAAAGTTCTATCTCAAGTCTTCAATATGGAACAATCTTCATCCAAATCAACTTATAGGGCAACCTGCTGTCATTAAGGAAATCGATTGCTTGACAGCAACTGTTGATGAGATTCGAGAAGTTAGAGCACAAGTTATGTTGCCAATCAGCCAGGAGAGAACAAGATTAGCAGCATTGGCTGGCTGGTTTGATGTTCATTTTAGAGGTAGTAATCAAAATCCTGCAGTTCAGGAAGTTGAGTTAAGTACAGCTCCAGATGAGAATGGTGGGACACACTGGGGCCAGCAGGTATTCTTGCTGACTCCATCTCTGAGAGTAAATGAAGGGGACAATGTTAAAGTTTCTTTCTCGATGGTTCGCTCAAAAGAGAATCATCGGCTTATGGATATGGATTTCACCTATGAATTACATGAGTCATCTGGCAAGAAGCTACCAGCAGTCACCACCAAGATTTACTTAGAGTAG
Protein Sequence
- >BRADI_1g51130v3
MASLPNGAAAAAASSAAGGAPPVDKEVDFANYFCTYAYLYHQKEMLCDRVRMDAYHSAVFRNPHHFRGKVVLDVGTGSGILAIWSAQAGARKVYAVEATNVAEHARELVRANGVADIVEVIQGTMEDIVLPEKVDVIISEWMGYYLLRESMFDSVICARDRWLNPGGVMYPSHARMWLAPIRSGLGDKKMEDFEIAMNDWNLFVEDTDAYYGVNMNALTKAYRAEHEKFYLKSSIWNNLHPNQLIGQPAVIKEIDCLTATVDEIREVRAQVMLPISQERTRLAALAGWFDVHFRGSNQNPAVQEVELSTAPDENGGTHWGQQVFLLTPSLRVNEGDNVKVSFSMVRSKENHRLMDMDFTYELHESSGKKLPAVTTKIYLE