Gene Details:
- Gene ID: A02p022820.1_BraROA
- Suggest Gene Name: APETALA1;APETALA1
- Description: putative flowering gene
- Species: Brassica rapa ro18
- Source: Putative flowering gene from PlantCFG
Protein Features:
Functional Descriptions:
- Floral homeotic gene encoding a MADS domain protein homologous to SRF transcription factors. Specifies floral meristem and sepal identity. Required for the transcriptional activation of AGAMOUS. Interacts with LEAFY.Binds to promoter and regulates the expression of flowering time genes SVP, SOC1 and AGL24.;MADS-box transcription factor;MADS-box gene
Homologous
- Arabidopsis thaliana — AT1G69120
- Glycine max — Glyma.16G091300
- Oryza sativa — LOC_Os03g54160
Sequences:
gDNA Sequence
- >A02p022820.1_BraROA
CATGAGGCAAAGCAGCCAAGGTTACAGTTGTAAACGGGTTCAAGAGACAGATCAAGGTCGTTCCTCCTCATTGCCATTGAATCTTCTTCTTGATACAGGCCACTGCATTCACGTTCATATACACATGCATGATATAACTTATTAACTACTTAAGTGCACCGAAAATTATATGTTCCGTCCTCAAATTGGTAAAAGTCCCAATTGAAATACCAAAGAGTGTTCAGTAATCTGCCTAACTTATTTTCAAAAACAACAAGAAAATGGAACTGATGATCCCAACAGTTTCGTAGGCTTTCCACAGCCATTCCAAAATCTAAATCTGTTAGTTCATCGACCATTGCATTAACCTACGTTAATGTATGAATTATCTTAGTGGAGTGTAGTCATAGTTCACAATTTAGACATCTAACCATCACCTATACACCTAGTTTCACTGGAACTATAACACCTTACTAGCTTGTATACAAGATGTATATGTCTACTATATAAATACTTGGAAGTAAGAGCAAATTAGTAAAATTTAATTACCCCATATTGAGAAAAGGAGATGGCTGATGAGAGAGCATGTATGGATCCTGGATTTGATGCTGCTGTGGGGGAGGAGGAGGAGGCATATTGTGGCCATGGTTTTGCTGGTCCCATTGCTCTTGTTGTGCCCCAAGAATCTTTTCCCTTTCCTTGATCTGACAAGTACCAATTTCACACACCAATTTGTTATCAACTTATTCCATACCATATTATAATCTACATCGTTTTTCAAAGCGTCGACTTCATAAATACTTAGATATGTGGCATCCAATGTAATTGCATTTAGATCTACGGTTACTACTAATTCCTTTCATAAACTATTGTACATGTGTTAAATATATATCTTCACACACTGTTTTTTACTTGCTTCCAAATTTTAGCCCAATATTTTTAATTAGGAGTAGTGTCTATATTCACATACTCAATATACAGATGAACAGATCTAGTAGAGGTAGATGAGACGACGTTTTGAAGTTCAAATATTTTCAATCCGAGAGACAACTCTAAAACTACACGGACAAAGACAATCTACGTACCGGCTGATGATGATTATATAAAAAATGCAAATATCTTCTATCTACGTTTTAATTATGATGACCAGAACCTAAGCGGGGATGTGAAGATCTAATCTCGTAGATAGTTATAGACTTATAGCTTGGCTTGAAATGCGGAGTAGAACAGTGTAAGCAAGCAGTAATGCGATGGAAAACATCTTCACATAATATAATTATAAAAAACAAGTGTCACCTCTTTGGAAAGCATGCTGTTTTGCTCCTGTATGGCCTTCTCCTGACATTTACAAACGGCAAGATTGTTAGCTCTCATATATCTCCACTTCTTACACGATGTTACTTCATGTAGACATACGTTTAATAGGGTTCTTACATACCTTTCTTTGGAGCTCATTGATGGAGTCGTACATAAGTTGGTTCTGCAAAGAGACACATCACATGATCTTAATTATACACAAATTCTTTTAAACTTCATACATTTGAATCGACTATTTATTTTTAATATCCAGCCATGCAGTACGACATGCATATAAATTTACATACATATGTATTCGAATAAGTAAATAATAAGATCGTATATATATGTTTAATATATCTTAAAGAAATAGGAGGATTCATACCTTTCTAGAGCGGATGTGCTTAAGGGCTGTGTCAAGCTGCTGCTCCAGATTCTGGAGCTCCTTAGAGCTCATTGCTTGCAAGTCTTCCCCAAGATAGTGTCTGCATTTCAATAGCGTCCAGGCATCATGTTCTCGTTAAGTAAATGTATCCATGTGCATTTTAACATTAATGCATGATCAATGTAAGTGTGTATATATATATATATATATATATATATGCATGATCAATGTAAGTGTGTACCTCTGGTTTCTCTCCAAAAGGTCAATCTTAGCCTTAAGCCTGTTATACTCCATCGACCAGTTCGTCTGTATTTCAAAAGTTTAACAATAGAGATATACTTCAGCAAATATTGAAATACGTAGTTACATAATGTATGTAAGGTAATGGAGTTATATTGATTTACATTGACGTCGGACTCAGGTGCAATAAGCTGTCTCTCCGCGTAAGAGTACCTCTCATAGCGTTCAAGTATCTTCTCCATACTGTTCAACTCACAGAATTAGGGCTAGCTTCATGTCTTAAACCATTTATTGTCGTATATTTAATATGTATATATGCATATTTGTCTATGTAATAGCCAAACTTAGGATACTCTCGGGTTTTCATGACATTTTAGGTAATTCTAGTTAGGTCTTAATGATGGTTTCTATGCCTTAAACCCAATATTTGCTAAATCATGTAGTTCTGTACAGATCTCTATAATTCTTCTTTTAACAAAACAGCGAATCAATAACTCTATACATCTAGCTTAGGGTTCTGAGTGCGGTTTATTTAAAATGGTTACAAATATGTACAGGAAATCTTGTTATAAATGACACATACACATTATAATAAAATATTGTAATCTGGTCAAATCACTAATCTACCGATGTTATTTGGAATATAATAGGGATAACATTTTTAAATGAAAGAAGAACAGCTGGAGCTAAGTCTGACCACTGGTAAGAAGCCGAACATAGGATTAAGTTTATTGATTTCGTGGATCCCCAGAGGTCCAAGACCCCCTACTCAGATTTGACATCCTTATTTCCAGCGTTTCAATTGGTAAAAAATCTAATAAACCAGAAGCAGCTGTACGTTTGAAATTGAAATTAATCCTTTTATATTACCAGCTTTTTTCTTCCCATCACATATTTTAGCTTATCCACTTTAATAATAGTCCATTTGCGAGATCATTGAAAGAAAACCAACACTACATTTAATAACTGAGCTCATGTTCCTAGCTACGAGCCGATTTAAATTAAACATTTTCTTTCGTACTTTGGCATTAATTCAAAATTAGATATTGCGTAATTTTGAAAGACACAGCCAGGAGAACAAAACAATGCATACAGATTTTAGGGCTTAAACCCCTAGCCAAGAAATTAAGCATTTATATTCTATATGAAGTAGTGCATACACAATGACACACACACACATATATGTGTGTATATATATCCAGATCAATAGTATAGTTAGTGCTCTAGGGTTAGATTCACTCCAGGCCCTACAGTTTTGTTTTTTAATTCATAAAAATCAAAGTATCAAACATTTTTCTGGTAGTAATTAACAGATTCAGTAAAGACATCTAACTAGTAATAATACAAAGCAAATGAAAGCCCTAAAAGATGCCTAAATCAGAACAGTATTACTAACTAGGGTAAATCAAGCAGTCAACTTAAGAGAAAAACAATAGTCAAAACGATAAATTAAAGATATTTTTGGATTTTAAATGAGAAAGTTACCAAGAATCAGTGGAGTATTCAAAGAGTTTCCCCTTATGGGAGAAGACAACAAGGGCAACTTCAGCATCACATAGAACAGAGATCTCGTGAGCTTTCTTCAGAAGACCAGCTCTTCTTTTCGAGAATGTCACTTGTCTATTGATCTTATTCTCTATCCTCTTCAATTGAACCCTACCCCTTCCCAT
CDS Sequence
- >A02p022820.1_BraROA
ATGGGAAGGGGTAGGGTTCAATTGAAGAGGATAGAGAATAAGATCAATAGACAAGTGACATTCTCGAAAAGAAGAGCTGGTCTTCTGAAGAAAGCTCACGAGATCTCTGTTCTATGTGATGCTGAAGTTGCCCTTGTTGTCTTCTCCCATAAGGGGAAACTCTTTGAATACTCCACTGATTCTTGTATGGAGAAGATACTTGAACGCTATGAGAGGTACTCTTACGCGGAGAGACAGCTTATTGCACCTGAGTCCGACGTCAATACGAACTGGTCGATGGAGTATAACAGGCTTAAGGCTAAGATTGACCTTTTGGAGAGAAACCAGAGACACTATCTTGGGGAAGACTTGCAAGCAATGAGCTCTAAGGAGCTCCAGAATCTGGAGCAGCAGCTTGACACAGCCCTTAAGCACATCCGCTCTAGAAAGAACCAACTTATGTACGACTCCATCAATGAGCTCCAAAGAAAGGAGAAGGCCATACAGGAGCAAAACAGCATGCTTTCCAAAGAGATCAAGGAAAGGGAAAAGATTCTTGGGGCACAACAAGAGCAATGGGACCAGCAAAACCATGGCCACAATATGCCTCCTCCTCCTCCCCCACAGCAGCATCAAATCCAGGATCCATACATGCTCTCTCATCAGCCATCTCCTTTTCTCAATATGGGTGGCCTGTATCAAGAAGAAGATTCAATGGCAATGAGGAGGAACGACCTTGATCTGTCTCTTGAACCCGTTTACAACTGTAACCTTGGCTGCTTTGCCTCATGA
Protein Sequence
- >A02p022820.1_BraROA
MGRGRVQLKRIENKINRQVTFSKRRAGLLKKAHEISVLCDAEVALVVFSHKGKLFEYSTDSCMEKILERYERYSYAERQLIAPESDVNTNWSMEYNRLKAKIDLLERNQRHYLGEDLQAMSSKELQNLEQQLDTALKHIRSRKNQLMYDSINELQRKEKAIQEQNSMLSKEIKEREKILGAQQEQWDQQNHGHNMPPPPPPQQHQIQDPYMLSHQPSPFLNMGGLYQEEDSMAMRRNDLDLSLEPVYNCNLGCFAS