Gene Details:

  • Gene ID: BnaA02G0133500ZS
  • Suggest Gene Name: ARABIDOPSIS THALIANA PROTEIN ARGININE METHYLTRANSFERASE 10
  • Description: putative flowering gene
  • Species: Brassica napus
  • Source: Putative flowering gene from PlantCFG

Protein Features:

Functional Descriptions:

  • 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

Sequences:

gDNA Sequence
  • >BnaA02G0133500ZS
    TGGGGAGCTCATCAAACGGCGGCGCAATGTCCGGACGTGCTCCCGGAACCTTCGGTGGCGTTAAATCGTCGCCTCCTCCAGTAGACAAAGAAGTAGACTACGCTAACTACTTCTGCACATACTCTTTCCTCTACCACCAGAAAGACATGCTCTCTGACCGTGTCCGTATGGACGCTTACTACAACTCCGTCTTCGAGAACAAACACCACTTCGCCGGAAAGGTAACACTTCTCTTGATGTCATTGGTCCTCTCTGTATATATATGTGTAATAAAACTTGCCTAATTGTTTGTGTTTTGTTTTTGAAAGACGGTGTTGGATGTTGGAACCGGGAGTGGGATTCTAGCGATTTGGTCAGCTCAAGCTGGTGCGAGGAAAGTTTATGCGGTGGAAGCTACTACTATGGCTGATCACGCTCGTGCTCTTGTCAAAGCTAACGGTCTTGAGGATGTTGTTGAAGTGATTCAAGGCTCTGTTGAAGATATTTCTTTGCCAGAGAAAGGTATTATGATTTTGAGATGTACTTAGCAGTTTTGTTGTGACCTGTTACGATATTACATTAGTAAGCTAAAATATTTATGTATTCAATTTTAAATGTGCAGTTGATGTGATTATCTCCGAGTGGATGGGATACTTTCTTCTGCGTGAGTCCATGTTTGATTCTGTCATATCTGCTCGTGACCGTTGGTTAAAGCCGACCGGTGTCATGTAAGTTGTTTCTGTTATTGTATCAAATGATTTGATTTAGATCTCATGAATAAGTTGATAACATTAATTAACAATGTGGTCAAAAGATTTGGTTTGATGTTTGTGTATGTGACTTTGAATCCAATAGGTACCCAAGTCATGCTCGCATGTGGCTTGCACCCATCAAATCCACTTTGTCAGAACGGAAGAAGAATGATTTGGATGGTGCAATGGCTGATTGGGATAACTTCTCAGATGAGATCAAAAGCTACTACGGCGTTGATATGAGCGTTTTGACTAAACCTTTTGCTCTAGAGCAAGAAAAGCATTACATACAGGTACGTGACATTAAAGGTCCCTAGGTGACTAATGAACAATTTGCTCTGTTATTTAAATGGAAAACTCATAAAAAGTTTGTCTTTTTTGGGGGCAGACTGCTGTGTGGAATGACTTGAATCCACTTCAAGTGATAGGCACACCTACACTTGTCAAAGAGATGGATTGTTTGACAGCCACTGTCAGTGAGATAGAGGAAGTCAGATCTAATGTAACCTCAGTCATCAATGGGCACACGACTCTATGTGGTTTTGGTGGTTGGTTTGATGTTCAGTTCCGGGTTAGTTCATATACAGATTCTCTGTGTTGCATTATGTTTGTGTGTAATGTTAAATAGACTTTATACTTTGTTTTTTTTTCTTCTGTAAATAGGGTAGAAAAGAAGATCCTGCGCAGCAAGATATCGAGTTAACCACAGCTCCAAGTGAACGACACTGCACACACTGGGGACAACAGGTACGTTCTCCCTCAGTTCCTGCCGTATTCTATGATTAAGGCTTCAAACTGAAAGACATGTTATGATCTGAATGTGGCAGGTTTTCATTATGTCCAATCCTATAAATGTTGAGGAAGGTGATAATCTGAATCTCGGTTTGGTGATGAGCCGGTCCAAGGAAAACCACAGACTAATGGAGGTCGAGCTTAGTTGCGAGATAAAAGAGGCTTCTGGCAACCCTAAGGAGGCATTCAAGAAAATGTATTTCATAGAATGA
CDS Sequence
  • >BnaA02G0133500ZS
    ATGGGGAGCTCATCAAACGGCGGCGCAATGTCCGGACGTGCTCCCGGAACCTTCGGTGGCGTTAAATCGTCGCCTCCTCCAGTAGACAAAGAAGTAGACTACGCTAACTACTTCTGCACATACTCTTTCCTCTACCACCAGAAAGACATGCTCTCTGACCGTGTCCGTATGGACGCTTACTACAACTCCGTCTTCGAGAACAAACACCACTTCGCCGGAAAGACGGTGTTGGATGTTGGAACCGGGAGTGGGATTCTAGCGATTTGGTCAGCTCAAGCTGGTGCGAGGAAAGTTTATGCGGTGGAAGCTACTACTATGGCTGATCACGCTCGTGCTCTTGTCAAAGCTAACGGTCTTGAGGATGTTGTTGAAGTGATTCAAGGCTCTGTTGAAGATATTTCTTTGCCAGAGAAAGTTGATGTGATTATCTCCGAGTGGATGGGATACTTTCTTCTGCGTGAGTCCATGTTTGATTCTGTCATATCTGCTCGTGACCGTTGGTTAAAGCCGACCGGTGTCATGTACCCAAGTCATGCTCGCATGTGGCTTGCACCCATCAAATCCACTTTGTCAGAACGGAAGAAGAATGATTTGGATGGTGCAATGGCTGATTGGGATAACTTCTCAGATGAGATCAAAAGCTACTACGGCGTTGATATGAGCGTTTTGACTAAACCTTTTGCTCTAGAGCAAGAAAAGCATTACATACAGACTGCTGTGTGGAATGACTTGAATCCACTTCAAGTGATAGGCACACCTACACTTGTCAAAGAGATGGATTGTTTGACAGCCACTGTCAGTGAGATAGAGGAAGTCAGATCTAATGTAACCTCAGTCATCAATGGGCACACGACTCTATGTGGTTTTGGTGGTTGGTTTGATGTTCAGTTCCGGGGTAGAAAAGAAGATCCTGCGCAGCAAGATATCGAGTTAACCACAGCTCCAAGTGAACGACACTGCACACACTGGGGACAACAGGTTTTCATTATGTCCAATCCTATAAATGTTGAGGAAGGTGATAATCTGAATCTCGGTTTGGTGATGAGCCGGTCCAAGGAAAACCACAGACTAATGGAGGTCGAGCTTAGTTGCGAGATAAAAGAGGCTTCTGGCAACCCTAAGGAGGCATTCAAGAAAATGTATTTCATAGAATGA
Protein Sequence
  • >BnaA02G0133500ZS
    MGSSSNGGAMSGRAPGTFGGVKSSPPPVDKEVDYANYFCTYSFLYHQKDMLSDRVRMDAYYNSVFENKHHFAGKTVLDVGTGSGILAIWSAQAGARKVYAVEATTMADHARALVKANGLEDVVEVIQGSVEDISLPEKVDVIISEWMGYFLLRESMFDSVISARDRWLKPTGVMYPSHARMWLAPIKSTLSERKKNDLDGAMADWDNFSDEIKSYYGVDMSVLTKPFALEQEKHYIQTAVWNDLNPLQVIGTPTLVKEMDCLTATVSEIEEVRSNVTSVINGHTTLCGFGGWFDVQFRGRKEDPAQQDIELTTAPSERHCTHWGQQVFIMSNPINVEEGDNLNLGLVMSRSKENHRLMEVELSCEIKEASGNPKEAFKKMYFIE