Gene Details:
- Gene ID: BnaA09G0073100ZS
- Suggest Gene Name: AGAMOUS-LIKE 32, ARABIDOPSIS BSISTER, TRANSPARENT TESTA16
- Description: putative flowering gene
- Species: Brassica napus
- Source: Putative flowering gene from PlantCFG
Protein Features:
Functional Descriptions:
- Encodes a MADS box protein. Regulates proanthocyanidin biosynthesis in the inner-most cell layer of the seed coat. Also controls cell shape of the inner-most cell layer of the seed coat. Also shown to be necessary for determining the identity of the endothelial layer within the ovule. Paralogous to GOA. Plays a maternal role in fertilization and seed development.
Homologous
- Arabidopsis thaliana — AT5G23260
Sequences:
gDNA Sequence
- >BnaA09G0073100ZS
TAATCAACCTTGGTCGTTGGATCGTTTTGAAGATTAGGCTGAGCAAGCTGGAGATGGTAACTAAGATCAATCTCTGAAGGAAGCGTAGGGAGCTGAAGAACACTGCTTTGTTGCTGATGATGATCATTATAGTACTGAACCTGCTCTAGAAACTGTTGATACTCCATTGGTTTGGTCTCTATCCCAGCTTGCTGAAACTCAACCCCCGTACGATGCTCATCATGAAGCTGCAGTATAGCCACACCGGCATGGATAGTAAAATATGTGATTTAATCCAAAATGTGCAAACAAATAAACATTCTCTAGCTAGTAACCAAGCTTACCCAACGGTACATATTGTTGTTATCGTCTTCTAGCATCCGCTTCTACAATATGCATAAACATGATATTAATTATTAATTAAACCCGCCATGTGACTATCATTTATAGAAGAAATATGAGGAAAAAAAAAGTGAATCGAGAAGAGACCTTTCTGCTAAGATTCCCCAACTGTTGCTGCAGCAACTCCTTCTTCAATAAATTAGCATTAGAGATAGAAAAAGGGAGAAATCAAACAAAGTTGTAACGATATATAGTTTAAAGAGAATACATTGATATAAGCATATATGACGTTACCTTACGCTCACGGACTTTACGGACAGAATGTTCGAGCTGTTGCTCTAGCCCCTCGAGCTCGTGTGGAGGAATGGAGGCTAAGTCATGTCCATGGTATGGACGCAGACGGAGCTCAAGCTTACATGTCTCCCTTCTTAATATTTCAATCTCATGGCGCAGGTCATCCTATATATATAAACGAAACTATTTTGTTGTTGTTTTGAATTGGTAAGACCAAAGTATTAAGTATGCGTATATATATTGTACCCGGTCGTCATTAAGGTCAGGAAGTTGCAATCCTTCTTTTGTCAAATATCTGTCAATGAGCTGAGGCATACTGTTCAATATTGGTAATAATGAAATGTGATCAAATTAGTATCCTCAACCTCACAACGTCAAGACTAATTCGATAATCAATGGAGGAAAACAAAATTCAAAAAAAAAACGAATCTAGTTCTCTAGATTATGATCTATATAAACTTTGACAAATAACAGGATGTCCAAAAGAACTGATACCAAACAAAAAATGAAAAGGTGGTTTTCCCTTCTTTGTTTGTTAGAAAACTTAGAACTAATAATATAGCATACCTTTATTCTCATATTATAAGGATGTATGTGAATAATTTTGTCTTCTCGTTTGACTTAGATCTACAACGATCTAATTAACACAGCATTAAAATTTAATGTTCTTAAATCGAATAATTAAAAAAGACTTATATATTGCTAAAGAAAAGACATATATAGGTTGTAAAGGACCTAAAGGTTATACGCCGTGTTCTACAAACACAACTTGTGATCTTTTTATGAGAAAGTTGTTCAACAAATGTCAAATCTTTGTAGATCTCTTTGCTCACTGGTGTGGAAAATATAGATTATAACCCATATATAGTTATAACCCAATAATAATTATATTATATATACAAATAAAATAAAGAATAAAATTCAGAAACTTCAGAAACTAATGATGAAAACTAAATTCTTAAAACATATTCATGGTACCTGCTACTTCAGAAACTAATGATGAAAACTGTTTGTTCACTTCACAAGCACGAGGAGCTATATATGTGTCTCCCGTGCTCATTTAATTAGTTCAGTACAGTTGACAGAAAAAGATATTAATAGATACACATGTATGTATAGATCTCTGAAGCCCTAATTTGAGAGAGAAGAGAGAGAGAGAGAGAAGGGAAGGGAAGGGAAGGAGAAGGAGCTAACTTAGAGTGTTCGGAGCAGTACTGGGTAAGCTTTCCGGTGGTGGAGAAGACGATGAGACCGATGTGAGCATCACAAAGAACAGAGAGCTCACGAGTCTTCTTGATAAGACCATTTCTTCTCTTGGAGAAGGTCACTTGCCTCGATGTCTTATTCTCTATCTTCTTTATCTCGATCTTCCCCCTTCCCATCTCTTTCCTCTTCCTCCTGATTCAAAATATATATGTGATGTGGAAGTTAGATCAACTAAGAAGAAATCTCTAGTCAACTACAAATTAAACTAAGTGTTTGCAACAAAAAAAAACTACAAAACTAACAAAAATAAGAATCTAAAGCCCTAGAGGTAATCACAGGATTCATTTCAAAAATAGTTTGAATCTTGATGTGTGATTAGAGAGAAGCGAGAGTACGTGTGAGTGAGTTAGTGGTAGATATATATAGATCTAGAGAAAGAGAAAAGAAAGAAACAGGAGAAGAGAGAGTCTTTTTTAAAGTACTTGTTGAGCTGTGTTCTTGGGGATGATCTGGAAACGCAGATCAGTAGGATGACACAAAGTGGAGAGAGGGTTAATGGGGAATAATATGCTTAATCAGACTTTCTCGTTTCTCTTTATATAAATTCTGTGTGTAGCGTATGGTTTCAGCTCACCATTTTCTAATTTCATTTCTCTCTCTTTTCTCCATTCTTAGTACATAAGTTTTTCTAATTTGAGAGTGCAATTAATGTTTATATATAAAGCTTACGTATTTCAACATCAACAATTTCTTAGGGCCAATTAGTGTTGTTGCGTTATGCAGTAACCATTTATGCTCAGCATTATGCTCGTCTCGTGATATATCTTAATTTGTACCTTCAAACTAATGTGTGCGCGCTAATATCGTAAACATGAATGAAAACCTTTGTTCCAAAAAAATATATATCCTAAACATAAACTTTATATATGTACAGCAAAGTGAATTAACCAAGCTATATACCCAGCACTTAACTAGCAAGTAATATAGAAAATAAGTTAAGCTATAAAAAATTAAACAAGTTAAGTATTAAATTGTAATTAGACATGTAATGACACTTTTGGTAATTTCTTTAGCAGAGAAATCCCTTTATAATTAAATTTGGACCACTATATTATTTGATCTGCCATGCATGACGCAACACGTATAATGAATCCAAAATGGAAATTTCATGAAAATATGTTATAAGGAAAACAAAGTTACCACAAATGGCAAAAGGCAAAGAGAGAGAGTAAGCCAAAGGACAAAGTGTAACAATACTTGAAAGTGACTTTTTATATTTTTCTTACCTACCTCCTAAGCGCCCTGTTGATATCTTCTTATTTCGATAAGCTAGATTATCTAATACATTTTGGCTTCTATTCATAGCAATAGACACTAACTTGGTAATTGAATATATATATACGATAGTATCACAATATCAATCCATTTAAATTGTGAAGTAGTCTTTTCCTTTGAATTTTGTGTCACAGATTTTAAGGAGGTCGAGAGAGAATTTTGTTCTCTCAGAGGACTCACAGGAAACATGTTATGGTTTTCTAAATTAGGTAACTAATTATTAGAGAGGAACAGTTGGGTCCAAGGCTGTTTTCATCATTCCAGCTATCCCACTCTTCTGCACCCTGTTGACTACATACAAATACGTATATAAGAGATGTATGTAAGTAACTATTGAGTTTTTATCAAGTAATTAACATGCCTAATTAAATGATAAATGTTATGGTTATTGCATATTAGAAGCGCTAATCGATTTTCTCACCCTGGCCACAGGAGCATCCATCAAACTCTTTGGTAGGGGATTAGAATTACAGGTCTCTCTGTACCTGCTGACAGGTTAGTTCTGCTCGCTGCTTTTGGTCTCAGTGCTAAACCTTTCCCGGCTACATGATGAGCATACCTGCTACTGCTGTTTCTGTTCTCCCTCAAACTGAAATCCAGCTTAAGATTATTGGCGTCTCTCATTGGCTTATCACATCTCACTTCCTTGGACGGTTTGGATGATTGGTTGAACCCGGAGATAACTGCATCTACCAAGCTTCTGGATTCTATGCAGGTTTAAGCGAGTATTGGTGGATGGGAAGGGTGTGAGGTACTGATGCATTGTAAGCTGTCATCTCTAAACCTTTAGAAGCTCTTCTGTTTGTTGGTTTCAGTCCATAGTAGCCTTGCAAGGAGTTCAT
CDS Sequence
- >BnaA09G0073100ZS
ATGAACTCCTTGCAAGGCTACTATGGACTGAAACCAACAAACAGAAGAGCTTCTAAAGAATCCAGAAGCTTGGTAGATGCAGTTATCTCCGGGTTCAACCAATCATCCAAACCGTCCAAGGAAGTGAGATGTGATAAGCCAATGAGAGACGCCAATAATCTTAAGCTGGATTTCAGTTTGAGGGAGAACAGAAACAGCAGTAGCAGGAGGAAGAGGAAAGAGATGGGAAGGGGGAAGATCGAGATAAAGAAGATAGAGAATAAGACATCGAGGCAAGTGACCTTCTCCAAGAGAAGAAATGGTCTTATCAAGAAGACTCGTGAGCTCTCTGTTCTTTGTGATGCTCACATCGGTCTCATCGTCTTCTCCACCACCGGAAAGCTTACCCAGTACTGCTCCGAACACTCTAATATGCCTCAGCTCATTGACAGATATTTGACAAAAGAAGGATTGCAACTTCCTGACCTTAATGACGACCGGGATGACCTGCGCCATGAGATTGAAATATTAAGAAGGGAGACATGTAAGCTTGAGCTCCGTCTGCGTCCATACCATGGACATGACTTAGCCTCCATTCCTCCACACGAGCTCGAGGGGCTAGAGCAACAGCTCGAACATTCTGTCCGTAAAGTCCGTGAGCGTAAGCAACAGTTGGGGAATCTTAGCAGAAAGAAGCGGATGCTAGAAGACGATAACAACAATATGTACCGTTGGCTTCATGATGAGCATCGTACGGGGGTTGAGTTTCAGCAAGCTGGGATAGAGACCAAACCAATGGAGTATCAACAGTTTCTAGAGCAGGTTCAGTACTATAATGATCATCATCAGCAACAAAGCAGTGTTCTTCAGCTCCCTACGCTTCCTTCAGAGATTGATCTTAGTTACCATCTCCAGCTTGCTCAGCCTAATCTTCAAAACGATCCAACGACCAAGGTTGATTAA
Protein Sequence
- >BnaA09G0073100ZS
MNSLQGYYGLKPTNRRASKESRSLVDAVISGFNQSSKPSKEVRCDKPMRDANNLKLDFSLRENRNSSSRRKRKEMGRGKIEIKKIENKTSRQVTFSKRRNGLIKKTRELSVLCDAHIGLIVFSTTGKLTQYCSEHSNMPQLIDRYLTKEGLQLPDLNDDRDDLRHEIEILRRETCKLELRLRPYHGHDLASIPPHELEGLEQQLEHSVRKVRERKQQLGNLSRKKRMLEDDNNNMYRWLHDEHRTGVEFQQAGIETKPMEYQQFLEQVQYYNDHHQQQSSVLQLPTLPSEIDLSYHLQLAQPNLQNDPTTKVD