Gene Details:

  • Gene ID: AT1G04870
  • Gene Symbol: ATPRMT10, PRMT10
  • Gene Name: protein arginine methyltransferase 10
  • Description: protein arginine methyltransferase 10;(source:Araport11)
  • TAIR Accession: locus:2010607
  • Genome: Araport11_genome_release
  • Species: Arabidopsis thaliana

Transcripts:

Plant Ontology Annotations:

  • PO:0000013  — cauline leaf — hoja caulinar (Spanish, exact), 茎生葉、茎葉 (Japanese, exact)
  • PO:0000230  — inflorescence meristem — meristema de la inflorescencia (Spanish, exact), 花序分裂組織 (Japanese, exact)
  • PO:0009010  — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (broad)
  • PO:0009030  — carpel — carpelo (Spanish, exact), 心皮 (Japanese, exact), Poaceae carpel (narrow), Zea carpel (narrow), pistil (broad)
  • PO:0009032  — petal — pétalo (Spanish, exact), 花弁 (Japanese, exact)
  • PO:0009047  — stem — caña (Spanish, exact), culm (exact), eje primario (Spanish, exact), primary axis (exact), primary stem (exact), tallo (Spanish, exact), tronco (Spanish, exact), 茎 (Japanese, exact), bole (narrow), cane (narrow), caudex (narrow), caudices (narrow), core (narrow), primocane (narrow), scape (narrow), stalk (narrow), trunk (narrow)
  • PO:0025281  — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
  • PO:0000084  — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
  • PO:0000293  — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)

Gene Ontology:

  • GO:0035242  — enables — protein-arginine omega-N asymmetric methyltransferase activity
  • GO:0010228  — acts upstream of or within — vegetative to reproductive phase transition of meristem
  • GO:0035241  — enables — protein-arginine omega-N monomethyltransferase activity
  • GO:0005634  — located in — nucleus
  • GO:0044020  — enables — histone H4R3 methyltransferase activity
  • GO:0019919  — acts upstream of or within — peptidyl-arginine methylation, to asymmetrical-dimethyl arginine
  • GO:0016274  — enables — protein-arginine N-methyltransferase activity
  • GO:0005634  — is active in — nucleus

Germplasm Phenotype:

  • SALK_047046c  — This mutant has delayed flowering compared to wild type plants when grown under long day conditions. Analysis of growth under short day conditions indicates that these mutants are not disrupted in the photoperiod pathway. They also seem to be able to respond to vernalization signals and to gibberellin. But they have an impaired autonomous pathway to flowering. FLC transcripts are up-regulated and SOC1 transcripts are down-regulated in these mutants through an unknown mechanism. There are no discernible changes in several types of histone modifications examined at the FLC locus in this mutant background nor are there changes in transcript levels for several autonomous pathway genes.
  • atprmt10-2  — This mutant has delayed flowering compared to wild type plants when grown under long day conditions. Analysis of growth under short day conditions indicates that these mutants are not disrupted in the photoperiod pathway. They also seem to be able to respond to vernalization signals and to gibberellin. But they have an impaired autonomous pathway to flowering. FLC transcripts are up-regulated and SOC1 transcripts are down-regulated in these mutants through an unknown mechanism. There are no discernible changes in several types of histone modifications examined at the FLC locus in this mutant background nor are there changes in transcript levels for several autonomous pathway genes.
  • atprmt10-3  — This mutant has delayed flowering compared to wild type plants when grown under long day conditions.

Literature:

Sequences:

cDNA Sequence
  • >AT1G04870.1
    GAACCCTAAGTTTCCGAACTTTGTCCGTCGCCGTCTGAAAACTCTGTAGCTCTCTCACTTCAGCTTTCCAATTAAAGGGAACAAAGCTTTGATTTTTGCCGCAGTCAGAAGCATTACTTTGCAAGAACAAGTGTGTAAACAAAGATGAGGAGCTCCCAAAACGGCGGCGCAATGGGTGGACGAGCTGCCGGAACCGGCGGAGGAGGACCGTCGGCTCCAGTTGACAAAGAAGTTGACTACGCTCAGTACTTCTGTACTTACTCCTTCCTATACCACCAGAAGGATATGCTCTCCGACCGTGTCCGTATGGATGCTTACTTCAACGCCGTCTTCCAGAACAAACATCACTTTGAGGGCAAGACGTGGGCACCGGGAGTGGAATTCTTGCAATTTGGTCAGCTCAAGCTGGTGCCAGGAAGGTTTATGCCGTTGAAGCTACTAAGATGGCTGATCATGCTCGTGCCCTTGTCAAAGCCAATAACCTTGACCATATTGTAGAAGTCATTGAAGGATCTGTCGAGGATATTTCATTGCCTGAGAAAGTTGATGTAATTATCTCGGAGTGGATGGGATACTTCCTTCTGCGGGAGTCCATGTTTGATTCTGTGATTAGTGCTCGTGACCGATGGTTAAAGCCAACAGGTGTCATGTACCCTAGTCATGCTCGCATGTGGCTTGCACCCATCAAGTCCAATATAGCAGATCGGAAGAGGAATGATTTCGATGGGGCAATGGCAGACTGGCATAACTTTTCGGATGAGATCAAAAGTTACTATGGGGTTGATATGGGAGTTTTAACAAAACCTTTTGCTGAAGAGCAAGAAAAGTATTACATACAGACTGCTATGTGGAATGACTTGAATCCACAACAAATCATAGGCACTCCCACAATTGTCAAGGAGATGGATTGTTTGACAGCATCTGTCAGTGAAATCGAGGAAGTCAGATCAAATGTAACGTCAGTTATCAATATGGAGCATACAAGGCTATGTGGTTTTGGTGGATGGTTCGATGTTCAGTTCTCGGGGAGAAAAGAAGACCCCGCACAGCAAGAAATCGAGTTGACCACAGCTCCAAGTGAGCAGCACTGCACGCACTGGGGACAACAGGTTTTCATTATGTCGAATCCTATAAATGTTGAGGAAGGTGATAATCTGAATCTTGGTTTGTTAATGAGCCGGTCCAAGGAAAATCACCGACTAATGGAGATTGAGCTTAACTGTGAAATAAAAGAAGCATCTGGTAACCCCAAAGAATCTTTCAAGAAGACTTACTTCATAGAGTGATTGATTGATTATAGAGAAGCTTTCCTTGGGGCTTGCTGGTTCTTGTATCCCATGTATGAACCCCAAATGTAATGTTTTATTGCTTCTTGCCTTTTTTTTCTATGTAAACGAGATTGTTATACCAATTTTCAATAGATTTTTATATGGGTGATATAATTTATTATTTTTGGTATTTGATTAAACATCCAAAAATTTCTTCGGTATTAATTTTGAAGAGATTTTTTTTCTGTGAAGATTGTTTAACTTTTTTG
  • >AT1G04870.2
    GAACCCTAAGTTTCCGAACTTTGTCCGTCGCCGTCTGAAAACTCTGTAGCTCTCTCACTTCAGCTTTCCAATTAAAGGGAACAAAGCTTTGATTTTTGCCGCAGTCAGAAGCATTACTTTGCAAGAACAAGTGTGTAAACAAAGATGAGGAGCTCCCAAAACGGCGGCGCAATGGGTGGACGAGCTGCCGGAACCGGCGGAGGAGGACCGTCGGCTCCAGTTGACAAAGAAGTTGACTACGCTCAGTACTTCTGTACTTACTCCTTCCTATACCACCAGAAGGATATGCTCTCCGACCGTGTCCGTATGGATGCTTACTTCAACGCCGTCTTCCAGAACAAACATCACTTTGAGGGCAAGACGTGGGCACCGGGAGTGGAATTCTTGCAATTTGGTCAGCTCAAGCTGGTGCCAGGAAGGTTTATGCCGTTGAAGCTACTAAGATGGCTGATCATGCTCGTGCCCTTGTCAAAGCCAATAACCTTGACCATATTGTAGAAGTCATTGAAGGATCTGTCGAGGATATTTCATTGCCTGAGAAAGTTGATGTAATTATCTCGGAGTGGATGGGATACTTCCTTCTGCGGGAGTCCATGTTTGATTCTGTGATTAGTGCTCGTGACCGATGGTTAAAGCCAACAGGTGTCATGTACCCTAGTCATGCTCGCATGTGGCTTGCACCCATCAAGTCCAATATAGCAGATCGGAAGAGGAATGATTTCGATGGGGCAATGGCAGACTGGCATAACTTTTCGGATGAGATCAAAAGTTACTATGGGGTTGATATGGGAGTTTTAACAAAACCTTTTGCTGAAGAGCAAGAAAAGTATTACATACAGACTGCTATGTGGAATGACTTGAATCCACAACAAATCATAGGCACTCCCACAATTGTCAAGGAGATGGATTGTTTGACAGCATCTGTCAGTGAAATCGAGGAAGTCAGATCAAATGTAACGTCAGTTATCAATATGGAGCATACAAGGCTATGTGGTTTTGGTGGATGGTTCGATGTTCAGTTCTCGGGGAGAAAAGAAGACCCCGCACAGCAAGAAATCGAGTTGACCACAGCTCCAAGTGAGCAGCACTGCACGCACTGGGGACAACAGGTTTTCATTATGTCGAATCCTATAAATGTTGAGGAAGGTGATAATCTGAATCTTGGTTTGTTAATGAGCCGGTCCAAGGAAAATCACCGACTAATGGAGATTGAGCTTAACTGTGAAATAAAAGAAGCATCTGGTAACCCCAAAGAATCTTTCAAGAAGACTTACTTCATAGAGTGATTGATTGATTATAGAGAAGCTTTCCTTGGGGCTTGCTGGTTCTTGTATCCCATGTATGAACCCCAAATGTAATGTTTTATTGCTTCTTGCCTTTTTTTTCTATGTAAACGAGATTGTTATACCAATTTTCAATAGATTTTTATATGGGTGATATAATTTATTATTTTTGGTATTTGATTAAACATCCAAAAATTTCTTCGGTATTAATTTTGAAGAGATTTTTTTTCTGTGAAGATTGTTTAACTTTTTTG
CDS Sequence
  • >AT1G04870.1
    ATGGCTGATCATGCTCGTGCCCTTGTCAAAGCCAATAACCTTGACCATATTGTAGAAGTCATTGAAGGATCTGTCGAGGATATTTCATTGCCTGAGAAAGTTGATGTAATTATCTCGGAGTGGATGGGATACTTCCTTCTGCGGGAGTCCATGTTTGATTCTGTGATTAGTGCTCGTGACCGATGGTTAAAGCCAACAGGTGTCATGTACCCTAGTCATGCTCGCATGTGGCTTGCACCCATCAAGTCCAATATAGCAGATCGGAAGAGGAATGATTTCGATGGGGCAATGGCAGACTGGCATAACTTTTCGGATGAGATCAAAAGTTACTATGGGGTTGATATGGGAGTTTTAACAAAACCTTTTGCTGAAGAGCAAGAAAAGTATTACATACAGACTGCTATGTGGAATGACTTGAATCCACAACAAATCATAGGCACTCCCACAATTGTCAAGGAGATGGATTGTTTGACAGCATCTGTCAGTGAAATCGAGGAAGTCAGATCAAATGTAACGTCAGTTATCAATATGGAGCATACAAGGCTATGTGGTTTTGGTGGATGGTTCGATGTTCAGTTCTCGGGGAGAAAAGAAGACCCCGCACAGCAAGAAATCGAGTTGACCACAGCTCCAAGTGAGCAGCACTGCACGCACTGGGGACAACAGGTTTTCATTATGTCGAATCCTATAAATGTTGAGGAAGGTGATAATCTGAATCTTGGTTTGTTAATGAGCCGGTCCAAGGAAAATCACCGACTAATGGAGATTGAGCTTAACTGTGAAATAAAAGAAGCATCTGGTAACCCCAAAGAATCTTTCAAGAAGACTTACTTCATAGAGTGA
  • >AT1G04870.2
    ATGGCTGATCATGCTCGTGCCCTTGTCAAAGCCAATAACCTTGACCATATTGTAGAAGTCATTGAAGGATCTGTCGAGGATATTTCATTGCCTGAGAAAGTTGATGTAATTATCTCGGAGTGGATGGGATACTTCCTTCTGCGGGAGTCCATGTTTGATTCTGTGATTAGTGCTCGTGACCGATGGTTAAAGCCAACAGGTGTCATGTACCCTAGTCATGCTCGCATGTGGCTTGCACCCATCAAGTCCAATATAGCAGATCGGAAGAGGAATGATTTCGATGGGGCAATGGCAGACTGGCATAACTTTTCGGATGAGATCAAAAGTTACTATGGGGTTGATATGGGAGTTTTAACAAAACCTTTTGCTGAAGAGCAAGAAAAGTATTACATACAGACTGCTATGTGGAATGACTTGAATCCACAACAAATCATAGGCACTCCCACAATTGTCAAGGAGATGGATTGTTTGACAGCATCTGTCAGTGAAATCGAGGAAGTCAGATCAAATGTAACGTCAGTTATCAATATGGAGCATACAAGGCTATGTGGTTTTGGTGGATGGTTCGATGTTCAGTTCTCGGGGAGAAAAGAAGACCCCGCACAGCAAGAAATCGAGTTGACCACAGCTCCAAGTGAGCAGCACTGCACGCACTGGGGACAACAGGTTTTCATTATGTCGAATCCTATAAATGTTGAGGAAGGTGATAATCTGAATCTTGGTTTGTTAATGAGCCGGTCCAAGGAAAATCACCGACTAATGGAGATTGAGCTTAACTGTGAAATAAAAGAAGCATCTGGTAACCCCAAAGAATCTTTCAAGAAGACTTACTTCATAGAGTGA
Protein Sequence
  • >AT1G04870.1
    MADHARALVKANNLDHIVEVIEGSVEDISLPEKVDVIISEWMGYFLLRESMFDSVISARDRWLKPTGVMYPSHARMWLAPIKSNIADRKRNDFDGAMADWHNFSDEIKSYYGVDMGVLTKPFAEEQEKYYIQTAMWNDLNPQQIIGTPTIVKEMDCLTASVSEIEEVRSNVTSVINMEHTRLCGFGGWFDVQFSGRKEDPAQQEIELTTAPSEQHCTHWGQQVFIMSNPINVEEGDNLNLGLLMSRSKENHRLMEIELNCEIKEASGNPKESFKKTYFIE
  • >AT1G04870.2
    MADHARALVKANNLDHIVEVIEGSVEDISLPEKVDVIISEWMGYFLLRESMFDSVISARDRWLKPTGVMYPSHARMWLAPIKSNIADRKRNDFDGAMADWHNFSDEIKSYYGVDMGVLTKPFAEEQEKYYIQTAMWNDLNPQQIIGTPTIVKEMDCLTASVSEIEEVRSNVTSVINMEHTRLCGFGGWFDVQFSGRKEDPAQQEIELTTAPSEQHCTHWGQQVFIMSNPINVEEGDNLNLGLLMSRSKENHRLMEIELNCEIKEASGNPKESFKKTYFIE