Information report for g02118
Gene Details
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.
- Encodes a protein with several WD40 repeats at the C-terminus and predicted protein-protein interaction domains at the N-terminus. Together with the TOPLESS-RELATED PROTEINS (TPRs), it is thought to be involved in transcriptional repression of root-promoting genes in the top half of the embryo during the transition stage of embryogenesis. It can also interact with IAA12 through the EAR domain of IAA12 and the CTLH domain of TPL. The ability of IAA12 to repress transcription is diminished in a tpl-1 mutant background.
- CDF4 is member of the group II DOF transcription factor family is involved in regulation of differentiation root columella cells. It is a direct target of the transcriptional repressor WOX5. CDF4 itself is a transcriptional repressor that appears to repress root columella stem cell identity. Ectopic expression of CDF leads to premature differentiation of root columella cells.
Homologous
- Arabidopsis thaliana: AT1G04870
- Brassica napus: BnaC02G0167500ZS, BnaA02G0133500ZS, BnaC09G0368000ZS
- Brassica oleracea: Bo2g041830
- Brassica rapa: Bra022716
- Glycine max: Glyma.06G215400, Glyma.04G149600
- Juglans regia: Jr01_29410, Jr10_21750
- Manihot esculenta: MANES_14G129300
- Medicago truncatula: Medtr2g054880
- Prunus avium: Pav_sc0000704.1_g340.1.mk
- Prunus persica: PRUPE_7G238300
- Rosa chinensis: RchiOBHm_Chr2g0089261
Sequences
gDNA Sequence
- >Bo5g021180
AACCCATATAAAATCTATTGAAAATTGGTATCAATCTCGTGTATGTTCAGAAGCAATAAAACATTACAAATAGGTTCATGCATGGGGATACAAGAACCAGCAATCCCCAAGGAAAGCTTCTGTATAAATCAATCACTCTATGAAGTAAGTCTTCTTGAAAGATTCTTTGGGGTTACCAGATGCCTCTTTTATTTCACATTTAAGCTCAATCTCCATTAGTCTGTGATTTTCCTTGGACCGGCTCATTACCAAACCAAGATTCAGATTATCACCTTCCTCAACATTTATAGGATTCGACATAATGAATACCTGCCAGATTCAGAATCATAACATGGAAATTAGCGTTTGAAACAATCGAAGCCTTAATCATCATAGACCAGAGACTGGGGAGTAACATACCTGTTGTCCCCAGTGCGTGCAGTGCTGCTCACTTGGAGCTGTGGTCAACTCGATTTCTTGCTGTGCGGGGTCTTCTTTTCTCCCCTAAACAGTTACAAAAACAAACAAGCAACGAGTAAGTAAAAGAGTTTCTTCAACATAAACACAACATGATGCAACAATGTAATCTGTACAAACTAACCAAGAACTGAACATCGAACCATCCACCAAAACCACATAGCCTTGTGTGCTCCACATTGATGACTGACGATACATTTGATCTGACTTCCTCAATTTCACTGACGGAGGCTGTCAAACAATCCATCTCTTTTACAATTGTAGGGGTGCCGATGATTTGTTGTGGATTCAAGTCATTCCACATAGCCGTCTGTGCACAAACGACAAATTTTATGAGTTTCCATGAAATGACAGAGCAAAGGTTTTGTAAGTCAATTAGTTACTTGTTCAACTGTCAGCTAAGGAACTTCTCTAAAGATAAAATTAAATTGCAGGAAAAAGAGCTTTGAAATCACCTGTATGTAATACTTTTCTTGCTCTTCAGCAAAAGGTTTTGTTAAAACTCCCATATCAACCCCATAGTAACTTTTGATCTCATCCGAAAAGTTATGCCAGTCTGCCATTGCCCCATCGAAATCATTCCTCTTCCGATCTGCCATATTGGATTTGATGGGTGCAAGCCACATGCGAGCATGACTAGGGTACCTATTGGATACAAAGGTTATTTGTAATGCTTAGATACACACACTACCAACATCAATATTATTAGCAACATGACCTCACAACTTATGCATAAAATTTGATAAGAAATTCTATAACTGGCATTGGAGGAAAATATTATGCCATTAAGATGTTTAATGGTAAAGCTACACAACATGAAGCTCTCAAGTGTCATAGGTTCACAAGTAACAATCATGCATCATCAAATTTTCATGTTCAGTAAAGAATAGACATAAAATAACATAAAACCACTTACATGACACCTGTCGGCTTTAACCATCGGTCACGAGCACTAATCACAGAATCAAACATGGACTCCCGCAGAAGGAAGTATCCCATCCACTCCGAGATAATTACGTCAACTGCCCATTAAATTGAATATGTAGATATTAGCGCAGTGTTGAGTAGAGTATCAGAAGAAACATGTTCAAGTCAACCAAATTGTAATGTCTCAGTCTATAGCCACTAACTTAAAAATCGGTAGTTTGAATACCCACCACTCTTACAATGTCATATTTTAGGATTCTGAATATCAAACAACAATATGGCATATCAAAGGACTTTCTTATCTCCTTATTCTTTCTACTTGCAAATAAGCATGATACACTAATCTTTTCTAATTGCAGTGAAAGAGAAAAAAAAGGAAAGTGAATAATACCTTTCTCAGGTAATGAAATATCCTCGACAGACCCTTCAATGACTTCAACAATATGGTCAAGGTTATTGGCTTTGACAAGGGCACGAGCATGATCAGCCATTTTAGTAGCTTCAACGGCATAAACCTTCCTGGCACCAGCTTGAGCTGACCAAATTGCAAGAATTCCACTCCCGGTGCCCACGTCTAAGACAGTCTTCATCACATTACAAAAACAAAAATTCAAACTATTAATACCACAAGAAAGACAGAGAGACCAATGGGTACAACTTAGCAATAGATAATCTTTAGACCAAAATCATCGACTACAAACAAATAGAAAGTGGTCCAGCACTTATGAAGCTCAAAGATGTGAACTTTATTATACCTTGCCCTCAAAGTGATGTTTGTTCTGGAAGACGGCATTGAAGTAAGCATCCATACGGACACGGTCGGAGAGCATATCCTTCTGGTGGTAGAGGAAGGAGTAAGTACAGAAGTACTGAGCGTAGTCAACTTCTTTGTCAACTGGAGCCGACGGTCCTCCTCCGCCGGTTCCGGCAGCTCGTCCACCCATTGCGCCGCCGTTTTGGGAGCTTCTCATCTTTTGCTTACACACTTGTTCTTGCAAAGTAATGCTTTTTACTGCGGCAAGAATCAAAACTTTGTTCCCTTTAATTGGAAAGCTGAAGTGAGAGCTGCTTGAGTTTTTCAGACGGCG
CDS Sequence
- >Csa05g021180
ATGAGAAGCTCCCAAAACGGCGGCGCAATGGGTGGACGAGCTGCCGGAACCGGCGGAGGAGGACCGTCGGCTCCAGTTGACAAAGAAGTTGACTACGCTCAGTACTTCTGTACTTACTCCTTCCTCTACCACCAGAAGGATATGCTCTCCGACCGTGTCCGTATGGATGCTTACTTCAATGCCGTCTTCCAGAACAAACATCACTTTGAGGGCAAGACTGTCTTAGACGTGGGCACCGGGAGTGGAATTCTTGCAATTTGGTCAGCTCAAGCTGGTGCCAGGAAGGTTTATGCCGTTGAAGCTACTAAAATGGCTGATCATGCTCGTGCCCTTGTCAAAGCCAATAACCTTGACCATATTGTTGAAGTCATTGAAGGGTCTGTCGAGGATATTTCATTACCTGAGAAAGTTGACGTAATTATCTCGGAGTGGATGGGATACTTCCTTCTGCGGGAGTCCATGTTTGATTCTGTGATTAGTGCTCGTGACCGATGGTTAAAGCCGACAGGTGTCATGTACCCTAGTCATGCTCGCATGTGGCTTGCACCCATCAAATCCAATATGGCAGATCGGAAGAGGAATGATTTCGATGGGGCAATGGCAGACTGGCATAACTTTTCGGATGAGATCAAAAGTTACTATGGGGTTGATATGGGAGTTTTAACAAAACCTTTTGCTGAAGAGCAAGAAAAGTATTACATACAGACGGCTATGTGGAATGACTTGAATCCACAACAAATCATCGGCACCCCTACAATTGTAAAAGAGATGGATTGTTTGACAGCCTCCGTCAGTGAAATTGAGGAAGTCAGATCAAATGTATCGTCAGTCATCAATGTGGAGCACACAAGGCTATGTGGTTTTGGTGGATGGTTCGATGTTCAGTTCTTGGGGAGAAAAGAAGACCCCGCACAGCAAGAAATCGAGTTGACCACAGCTCCAAGTGAGCAGCACTGCACGCACTGGGGACAACAGGTATTCATTATGTCGAATCCTATAAATGTTGAGGAAGGTGATAATCTGAATCTTGGTTTGGTAATGAGCCGGTCCAAGGAAAATCACAGACTAATGGAGATTGAGCTTAAATGTGAAATAAAAGAGGCATCTGGTAACCCCAAAGAATCTTTCAAGAAGACTTACTTCATAGAGTGA
Protein Sequence
- >Csa05g021180
MRSSQNGGAMGGRAAGTGGGGPSAPVDKEVDYAQYFCTYSFLYHQKDMLSDRVRMDAYFNAVFQNKHHFEGKTVLDVGTGSGILAIWSAQAGARKVYAVEATKMADHARALVKANNLDHIVEVIEGSVEDISLPEKVDVIISEWMGYFLLRESMFDSVISARDRWLKPTGVMYPSHARMWLAPIKSNMADRKRNDFDGAMADWHNFSDEIKSYYGVDMGVLTKPFAEEQEKYYIQTAMWNDLNPQQIIGTPTIVKEMDCLTASVSEIEEVRSNVSSVINVEHTRLCGFGGWFDVQFLGRKEDPAQQEIELTTAPSEQHCTHWGQQVFIMSNPINVEEGDNLNLGLVMSRSKENHRLMEIELKCEIKEASGNPKESFKKTYFIE