Information report for Ms6
Gene Details
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Functional Descriptions
- Identified the Ms5 and Ms6 loci through map-based cloning and confirmed their function in male sterility through CRISPR/Cas9 gene editing.
- Ms5 and Ms6 are highly expressed in stages 7–9 anthers and encode the cytochrome P450 mono-oxygenases CYP703A2-A and CYP703A2-D.
- Cytochrome P450 mono-oxygenase CYP703A2 plays a central role in sporopollenin formation and ms5Ms6 fertility in cotton.
- Ms5 and Ms6 encode GhCYP703A2 and function in fatty acid hydroxylation.
Functional Keywords
Literature and News
Homologs
- Arabidopsis thaliana: AT1G01280, AT3G48310, AT2G40890, AT3G48320, AT3G48280, AT3G26330, AT3G26320, AT3G26300, AT3G48270, AT3G26310
- Brassica napus: BnaTT7.A10
- Citrullus lanatus: Cla97C01G016310
- Oryza sativa: CYP703A3, EP, OsCYP84A, OsCYP75B4;CYP75B4, OsSL;LLM1, OsC3H1, OsCAld5H1;CYP84A5
- Raphanus raphanistrum: RrC1570_p1
Sequences
cDNA Sequence
CDS Sequence
- >GH_D12G1309
ATGGAATTATTCACCTTTGCTTTGGCCCTTCTAGTCGGAGCTCTTGTTGTCAACGCCTTATGGCGATGGCGGCTCGACTGGAAATCGTTGTTTAAGACTAGAAAACTTCCTCCAGGTCCACCAAGGTGGCCTATAGTTGGCAATCTTCTTCAATTAAGCTCACTCCCACATAGGGACTTAGCTTCCTTATGTGACAAATACGGTCCACTAGTGTACCTCCGGCTCGGTAAGGTAGATGCCATCACCACGAATGACCCAGATATCATACGTGAAATACTTCTTCGCCAAGACGATGTCTTTGCTTCTAGGCCACGAACCCTAGCTGCCGTCCACCTTGCCTATGGGTGTGGTGATGTTGCCTTGGCTCCCTTAGGCCCGCATTGGAAACGTATGAGAAGAATATGTATGGAGCATTTACTAACAACAAAAAGGCTTGAATCATTCGCGAAACACCGAGCCGATGAAGCTCAACATTTGGTGCGAGATGTATCGGCCCGAGCCGAGAACGGGCAGCTCGTGAACCTAAGGGAAGTATTGGGTGCGTTTTCGATGAACAACGTGACTAGGATGTTACTAGGGAGGCAATATTTCGGGGCCGTATCCGCCGGCCCAAGTGAAGCCATGGAGTTCATGCACATAACACATGAATTGTTTTGGCTCTTAGGTGTGATCTATTTGGGGGATTATTTGCCCATTTGGAGGTGGGTGGATCCTTATGGATGTGAGAAAAGGATGAGGGAAGTGGAGAAAAGAGTGGATGATTTTCATAAAAGGATCATTGAAGAACATAGGAGGGCAAGGGAATTGAAAAACAAAGAATATGGAAAGGATGATGATTATGGTGAAGAAATGGATTTTGTTGATGTTTTATTGTCATTACCTGGTGAAGACGGAAATCCTCATATGGATGATACTGATATCAAAGCTCTAATTCAGGATATGATAGCTGCGGCAACAGATACATCGGCTGTGACCAACGAATGGGCAATGGCGGAAGTAATAAAGCATCCGCGTGTCCTCCGCAAAATCCAAGATGAGCTCGATTCAGTCGTGGGTCCCAACCGAATGGTCAACGAATCCGATCTACCTCACCTTAACTACCTACGCTGCGTAATACGTGAAACATTCCGCATGCACCCGGCCGGACCGTTTTTAATCCCACACGAGTCCCTTCGGGCCACGACCATCAACGGCTTTTACATCCCGGCTAAGACACGTGTCTTCATCAACACCCATGGGTTGGGCCGAAACACTAAATTATGGGACGATGTTGAATCGTTCAGGCCCGAGAGGCATTGGCTGGCTGATGGCGCTCGAGTCGAGATCAGCCACGGAGCTGATTTCAAAATCCTGCCTTTCAGCGCCGGGAAAAGGAAATGTCCCGGCGCGCCACTTGGAGTGACACTGGTGCTCATGGCTTTGGCTCGGCTCTTTCATTGCTTTGATTGGGCTCCCCGGAATGGTATGAGGCCCGAAGATATAAATACGATGGAAGTTTATGGGATGACTATGCCCAAAGCCGAGCCGTTAATGGCTATGGCTAAGCCGCGCTTGGCGGACCACGTCATGTTTTAG
Protein Sequence
- >GH_D12G1309
ATGGAATTATTCACCTTTGCTTTGGCCCTTCTAGTCGGAGCTCTTGTTGTCAACGCCTTATGGCGATGGCGGCTCGACTGGAAATCGTTGTTTAAGACTAGAAAACTTCCTCCAGGTCCACCAAGGTGGCCTATAGTTGGCAATCTTCTTCAATTAAGCTCACTCCCACATAGGGACTTAGCTTCCTTATGTGACAAATACGGTCCACTAGTGTACCTCCGGCTCGGTAAGGTAGATGCCATCACCACGAATGACCCAGATATCATACGTGAAATACTTCTTCGCCAAGACGATGTCTTTGCTTCTAGGCCACGAACCCTAGCTGCCGTCCACCTTGCCTATGGGTGTGGTGATGTTGCCTTGGCTCCCTTAGGCCCGCATTGGAAACGTATGAGAAGAATATGTATGGAGCATTTACTAACAACAAAAAGGCTTGAATCATTCGCGAAACACCGAGCCGATGAAGCTCAACATTTGGTGCGAGATGTATCGGCCCGAGCCGAGAACGGGCAGCTCGTGAACCTAAGGGAAGTATTGGGTGCGTTTTCGATGAACAACGTGACTAGGATGTTACTAGGGAGGCAATATTTCGGGGCCGTATCCGCCGGCCCAAGTGAAGCCATGGAGTTCATGCACATAACACATGAATTGTTTTGGCTCTTAGGTGTGATCTATTTGGGGGATTATTTGCCCATTTGGAGGTGGGTGGATCCTTATGGATGTGAGAAAAGGATGAGGGAAGTGGAGAAAAGAGTGGATGATTTTCATAAAAGGATCATTGAAGAACATAGGAGGGCAAGGGAATTGAAAAACAAAGAATATGGAAAGGATGATGATTATGGTGAAGAAATGGATTTTGTTGATGTTTTATTGTCATTACCTGGTGAAGACGGAAATCCTCATATGGATGATACTGATATCAAAGCTCTAATTCAGGATATGATAGCTGCGGCAACAGATACATCGGCTGTGACCAACGAATGGGCAATGGCGGAAGTAATAAAGCATCCGCGTGTCCTCCGCAAAATCCAAGATGAGCTCGATTCAGTCGTGGGTCCCAACCGAATGGTCAACGAATCCGATCTACCTCACCTTAACTACCTACGCTGCGTAATACGTGAAACATTCCGCATGCACCCGGCCGGACCGTTTTTAATCCCACACGAGTCCCTTCGGGCCACGACCATCAACGGCTTTTACATCCCGGCTAAGACACGTGTCTTCATCAACACCCATGGGTTGGGCCGAAACACTAAATTATGGGACGATGTTGAATCGTTCAGGCCCGAGAGGCATTGGCTGGCTGATGGCGCTCGAGTCGAGATCAGCCACGGAGCTGATTTCAAAATCCTGCCTTTCAGCGCCGGGAAAAGGAAATGTCCCGGCGCGCCACTTGGAGTGACACTGGTGCTCATGGCTTTGGCTCGGCTCTTTCATTGCTTTGATTGGGCTCCCCGGAATGGTATGAGGCCCGAAGATATAAATACGATGGAAGTTTATGGGATGACTATGCCCAAAGCCGAGCCGTTAATGGCTATGGCTAAGCCGCGCTTGGCGGACCACGTCATGTTTTAG