Information report for GoSPGF
Gene Details
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Functional Descriptions
- The discovery of the novel stem pigment gland-forming gene GoSPGF by map-based cloning.
- Virus-induced gene silencing of GoSPGF resulted in glandless stems and dramatically reduced gossypol content. Comparative transcriptomic data showed that loss of GoSPGF significantly suppressed expression of many genes involved in gossypol biosynthesis and altered expression of genes involved in gibberellic acid signaling/biosynthesis.
- Comparative transcriptomic data showed that loss of GoSPGF significantly suppressed expression of many genes involved in gossypol biosynthesis and altered expression of genes involved in gibberellic acid signaling/biosynthesis.
Functional Keywords
- stem , stems , map-based-cloning , pigment-biosynthesis , virus , gossypol , gland
Literature and News
Sequences
cDNA Sequence
CDS Sequence
- >GH_D08G1984
ATGCAGTTTCAATTACAGGTTAATGGGGCGGTAGAACTCCCGGGTTTTGGTTCGATTTGTCAACAAGACAAGTGGATAAAGCAACAAGAAGGTGTTGCAAACGGCTTCTACTACAACAACGAACAAGAACCAACTTCTGTTCTTCATATGAGAAGAAGCCAAAGCCCACCCACATCAGCATCCACTCTCACATCGTCTTTCAACGGTGGAGCCGGTGGAGGTAATTCCACTGAAAACACCACCAACACGGCGGCCACCATAGCACCGCCTAACGACAAAGAAGAATGGGCCACGGAGCTTCGGCAGATCCCGAGTGAAATAGACCTTGTTCCAGAGCATGAAGGTACTCAAAGATGCAACATCGGATTGGGAGATTGGGAGACTCTGCTGTCTGAATCAGCCGTTTCACCTAGTCAAGACCACTCGCTTCTGCGCTGGATTGCTGGTGACGCAGATGACCATTCCTTTGGCATCAAACAGCTGCTCCAGAGTGGGAGTACTGGTCCTAATCAGGGTCATGATTTTGAAGGCAATGCAGGGTCGTGGGTTGTTGACCCAAGTCCAGGGTTTGACCCAATTGGTAGCCTTGCTACTTCCGGTAATGTGTTATCAAGCGCTGCTCCTATTTTGGGTGGTTTTCCTGATTCTGGGTTTGTGCCAAATCCCAACAATAATGAGAATGGGAAGGTTGGTGTAGCGACGCCAAGTTGTTCTTCAGTTGAGGGGGTTAATAATCACGAAGTTCTTGGTGCTACTGTTGGGTTGGATATTAATATTCAAGATATAATGTCTACTTCTCCAGCTAACAATATTGGTCTTCCTGTTAATTTGCCTACGCTTTATCAACTGCAGCAGCAGGACCTTGAGAAGCCTCAGATTTTGATGGGCCAGCAACGGCATCAACAGCGTCCTCAAAATCCAAACTTTTCCTTTCCATTACCTCGAGAACAGGACCTCCTTGAGCCCTTGCCAAAGCGTCTCAATGCGGGTAACTTGGAATTTTCTTCTCAGATCCCAAAACTCGCCGGGCATGAGTTGTTTACCAGAAAGCAGCTGCAACAGCATATGGTGGCAGAAGAGGAAGTGTTGGAACTGCTTCACAAGGCTGCAGAGTTGGTAGGGACTGGGAATTTTGCACACGCGCGTGGGATATTGGCGCGGCTCAATCACCAACTATCTCCAGTTGGTAAGCCCTTTCAAAGGGCTGCTTTCTACATCAGGAAGGCTTTACAATTACTTATCACGAATAACTCAGTCTCTCCCCCACCTCCGAAAAGCCCCACCCGTTTTGACGTTATCTTCAAACTGGTAGCTTACAAGGTCTTCTCTGAAGTCTCTCCGTTTATCCAATTTGTAAATTTTACCTCCAACCAGGCTCTGCTTGAAGCCCTTGATGATGCTGAACGAATTCACATTATGGACTTCGATATTGGATGTGGTGCTCAGTGGGCATCCTTTATGCAGGAGCTTCCCATGAGGATTAGAGGAGTTCGTTCATTGAGAATTACTGCCTTTGTCTCACCCTTGACCCACCATCCTATTGAGCTTGGGCTTATGCGTGAAAGTCTTATGCTATTTGCTAATGAGATTGGTTTGAGTTTTGAGCTTGTGGTGCTTAACTTTGATTCTTTAGATCAAGCCCCTTACTCTTTGCCCTTGTTTCGAACAAACCAAAATGAGGCAGTGGCTGTGAATTTCCCAGTTTGGTCTTCTTCGAATCAGCCATCTGCTTTGCCCAATCTTCTGCGCTTTGTGAAGCAGCTTTCCCCAAAAATTGTGGTGTCTTTAGACGGAGGGTGGGATAGAAATGATCTGCCATTCCCAGAGCTTGTAACCTGTGCTTTTCAGTCATATAAAAACATATTTGAATCACTTGATGCTGGTAATGTGACTTCTGATGTTGTAAACAAGATTGAAAGGTTCCTTATTGTGCCAAGAATTGAAAGCACTGTGTTGGGGCGACTGCGAGCACCTGAGAATATGCCTCTTTGGAAGACACTTCTATGCTCGTCTGGGTTCACCCCTGTAACATTCAGCAACTTCACCATAACTCAGGCAGATTGTGTTGTAAACAGAGCTCAAGTAAGAGGGTTTCATGTGGAGAAGCGTCAGCCTTCACTTGTGCTTTGCTGGCAGCAGAGGGAACTTATCTCAGCTTCAGCTTGGAGGTGCTGA
Protein Sequence
- >GH_D08G1984
ATGCAGTTTCAATTACAGGTTAATGGGGCGGTAGAACTCCCGGGTTTTGGTTCGATTTGTCAACAAGACAAGTGGATAAAGCAACAAGAAGGTGTTGCAAACGGCTTCTACTACAACAACGAACAAGAACCAACTTCTGTTCTTCATATGAGAAGAAGCCAAAGCCCACCCACATCAGCATCCACTCTCACATCGTCTTTCAACGGTGGAGCCGGTGGAGGTAATTCCACTGAAAACACCACCAACACGGCGGCCACCATAGCACCGCCTAACGACAAAGAAGAATGGGCCACGGAGCTTCGGCAGATCCCGAGTGAAATAGACCTTGTTCCAGAGCATGAAGGTACTCAAAGATGCAACATCGGATTGGGAGATTGGGAGACTCTGCTGTCTGAATCAGCCGTTTCACCTAGTCAAGACCACTCGCTTCTGCGCTGGATTGCTGGTGACGCAGATGACCATTCCTTTGGCATCAAACAGCTGCTCCAGAGTGGGAGTACTGGTCCTAATCAGGGTCATGATTTTGAAGGCAATGCAGGGTCGTGGGTTGTTGACCCAAGTCCAGGGTTTGACCCAATTGGTAGCCTTGCTACTTCCGGTAATGTGTTATCAAGCGCTGCTCCTATTTTGGGTGGTTTTCCTGATTCTGGGTTTGTGCCAAATCCCAACAATAATGAGAATGGGAAGGTTGGTGTAGCGACGCCAAGTTGTTCTTCAGTTGAGGGGGTTAATAATCACGAAGTTCTTGGTGCTACTGTTGGGTTGGATATTAATATTCAAGATATAATGTCTACTTCTCCAGCTAACAATATTGGTCTTCCTGTTAATTTGCCTACGCTTTATCAACTGCAGCAGCAGGACCTTGAGAAGCCTCAGATTTTGATGGGCCAGCAACGGCATCAACAGCGTCCTCAAAATCCAAACTTTTCCTTTCCATTACCTCGAGAACAGGACCTCCTTGAGCCCTTGCCAAAGCGTCTCAATGCGGGTAACTTGGAATTTTCTTCTCAGATCCCAAAACTCGCCGGGCATGAGTTGTTTACCAGAAAGCAGCTGCAACAGCATATGGTGGCAGAAGAGGAAGTGTTGGAACTGCTTCACAAGGCTGCAGAGTTGGTAGGGACTGGGAATTTTGCACACGCGCGTGGGATATTGGCGCGGCTCAATCACCAACTATCTCCAGTTGGTAAGCCCTTTCAAAGGGCTGCTTTCTACATCAGGAAGGCTTTACAATTACTTATCACGAATAACTCAGTCTCTCCCCCACCTCCGAAAAGCCCCACCCGTTTTGACGTTATCTTCAAACTGGTAGCTTACAAGGTCTTCTCTGAAGTCTCTCCGTTTATCCAATTTGTAAATTTTACCTCCAACCAGGCTCTGCTTGAAGCCCTTGATGATGCTGAACGAATTCACATTATGGACTTCGATATTGGATGTGGTGCTCAGTGGGCATCCTTTATGCAGGAGCTTCCCATGAGGATTAGAGGAGTTCGTTCATTGAGAATTACTGCCTTTGTCTCACCCTTGACCCACCATCCTATTGAGCTTGGGCTTATGCGTGAAAGTCTTATGCTATTTGCTAATGAGATTGGTTTGAGTTTTGAGCTTGTGGTGCTTAACTTTGATTCTTTAGATCAAGCCCCTTACTCTTTGCCCTTGTTTCGAACAAACCAAAATGAGGCAGTGGCTGTGAATTTCCCAGTTTGGTCTTCTTCGAATCAGCCATCTGCTTTGCCCAATCTTCTGCGCTTTGTGAAGCAGCTTTCCCCAAAAATTGTGGTGTCTTTAGACGGAGGGTGGGATAGAAATGATCTGCCATTCCCAGAGCTTGTAACCTGTGCTTTTCAGTCATATAAAAACATATTTGAATCACTTGATGCTGGTAATGTGACTTCTGATGTTGTAAACAAGATTGAAAGGTTCCTTATTGTGCCAAGAATTGAAAGCACTGTGTTGGGGCGACTGCGAGCACCTGAGAATATGCCTCTTTGGAAGACACTTCTATGCTCGTCTGGGTTCACCCCTGTAACATTCAGCAACTTCACCATAACTCAGGCAGATTGTGTTGTAAACAGAGCTCAAGTAAGAGGGTTTCATGTGGAGAAGCGTCAGCCTTCACTTGTGCTTTGCTGGCAGCAGAGGGAACTTATCTCAGCTTCAGCTTGGAGGTGCTGA