Information report for GhCDPK28-A10
Gene Details
|
|
Functional Descriptions
- GhCDPK28-A10 negatively regulates the resistance of cotton to verticillium wilt by regulating the expression of defense-related genes, and is a candidate gene for improving the resistance of cotton to verticillium wilt.
- Tissue-specific expression analysis showed that GhCDPK28-A10 was expressed in root, stem and true leaves. And the highest expression level was found in true leaves.
- The expression of disease resistance-related genes PR1, NPR1, and PR4 was enhanced and the negative regulator of JA synthesis gene JAZ1 was decreased in GhCDPK28-A10 silenced cotton plants.
- The role of GhCDPK28-A10 in cotton resistance to Verticillium wilt was verified by virus-induced gene silencing (VIGS) technique.
Functional Keywords
- stem , root , resistance , disease , disease-resistance , ja , defense , virus
Literature and News
Sequences
cDNA Sequence
CDS Sequence
- >GH_A10G0985
ATGGGGATCTGCCTCTCCACCACCAAGGTCTTTGGCGCAAGCAGCAACCCCTCCCCCGACCACCACGAAGAAAAGCAACCCGCCTCCTCCACAACAACGACCAATGCCAAAAAGGAGTCTCATAAGCCAACTGTTAAACATCAACAGCAGCAACAGTTCAAAGCCAAGCCTAGTTCGAGGAAACACGGTGGGAACGTGCCTTGTGGTAAGCGTACAGATTTTGGGTACCGTAAGGATTTTGAGAAGCGATACACAACTGGGAAATTGTTGGGGCACGGTCAATTTGGATACACCTACGTTGCCGTAGACAATGAAAATGGCGATCGCGTTGCCGTTAAGAAAATTGAGAAAATGAAGATGGTTCTTCCAATTGCTGTTGAGGATGTCAAGCGAGAAGTCAAGATATTAGAGGCCCTGAAAGGCCATGGGAATGTGGTTCAATTTTATAATGCATTTGAGGATGATTCCTATGTATACATTGTTATGGAGTTGTGTGAGGGTGGAGAGTTGCTGGACCGGATATTGGCCAAAAAGGACAGCCGCTATAGTGAAAAAGATGCAGCATTTGTTGTACGGCAGATGCTCAAAGTTGCTGCCGAATGTCATTTACATGGCTTGGTTCATCGTGACATGAAACCTGAGAATTTCCTATTTAAGTCAACCAAAGAGGACTCACCTCTGAAGGCTACAGATTTTGGTTTGTCAGACTTTATCAGACCTGGGAAGAGGTTTCAAGATATTGTTGGCAGTGCCTACTATGTTGCTCCTGAAGTATTGAAAAGAAAGTCAGGGCCGGAATCAGATGTATGGAATATTGGTGTAATTACCTACATTTTGCTTTGTGGGAAGCGGCCTTTTTGGGATAAGACCGAGGACGGTATATTTAGGGAGGTTTTGAAGAACAAGCCTGATTTTCGTCGTAAACCATGGCCAACAATTAGTGACAGTGCTAAAGACTTTGTGAAGAAGTTATTGGTGAAGGATCCCCGGGCTAGACTGACTGCTGCTCAGGCCCTATCACACCCATGGGTTAGAGAAGGGGGAGATGCATCTGAGATTCCTATTGATATATCTGTTCTGAGCAACATGCGGCAATTTGTGAAGTACAGTCGATTGAAGCAGTTTGCTCTGAGGGCATTGGCTAGCACACTTAATGAAGAGGAGATAGCTGATCTTCGGGATCAGTTTCATGCAATCGATGTGGATAAGAATGGTGTTATTAGTCTTGAAGAGATGAGACAGGCCCTTGCTAAAGATCTTCCTTGGAAGTTGAAGGAGTCACGTGTCATTGAGATTCTTCAAGCGATTGATATCAACACAGATGGGCTTGTTGATTTCACCGAGTTCATTGCAGCAGCTCTACATGTGAATCAAATGGAAGAACATGATTCTGAAAAATGGCAGATGCGATCAGAGGCAGCTTTTCAGAAATTTGACGTGGATAGAGATGGGTTTATAACTCCAGATGAGCTTAGAATGCACACGGGCTTAAAAGGCTCCATTGACCCTTTGCTCGAGGAGGCTGACATCGATAGAGATGGAAAAATAAGTCTTGAAGAGTTTCGCCGACTTTTACGAACTGCAAGCATCAGTGCACGGCCTATTCCTAGTCACCGTATTACTTGGAAGTTATAA
Protein Sequence
- >GH_A10G0985
ATGGGGATCTGCCTCTCCACCACCAAGGTCTTTGGCGCAAGCAGCAACCCCTCCCCCGACCACCACGAAGAAAAGCAACCCGCCTCCTCCACAACAACGACCAATGCCAAAAAGGAGTCTCATAAGCCAACTGTTAAACATCAACAGCAGCAACAGTTCAAAGCCAAGCCTAGTTCGAGGAAACACGGTGGGAACGTGCCTTGTGGTAAGCGTACAGATTTTGGGTACCGTAAGGATTTTGAGAAGCGATACACAACTGGGAAATTGTTGGGGCACGGTCAATTTGGATACACCTACGTTGCCGTAGACAATGAAAATGGCGATCGCGTTGCCGTTAAGAAAATTGAGAAAATGAAGATGGTTCTTCCAATTGCTGTTGAGGATGTCAAGCGAGAAGTCAAGATATTAGAGGCCCTGAAAGGCCATGGGAATGTGGTTCAATTTTATAATGCATTTGAGGATGATTCCTATGTATACATTGTTATGGAGTTGTGTGAGGGTGGAGAGTTGCTGGACCGGATATTGGCCAAAAAGGACAGCCGCTATAGTGAAAAAGATGCAGCATTTGTTGTACGGCAGATGCTCAAAGTTGCTGCCGAATGTCATTTACATGGCTTGGTTCATCGTGACATGAAACCTGAGAATTTCCTATTTAAGTCAACCAAAGAGGACTCACCTCTGAAGGCTACAGATTTTGGTTTGTCAGACTTTATCAGACCTGGGAAGAGGTTTCAAGATATTGTTGGCAGTGCCTACTATGTTGCTCCTGAAGTATTGAAAAGAAAGTCAGGGCCGGAATCAGATGTATGGAATATTGGTGTAATTACCTACATTTTGCTTTGTGGGAAGCGGCCTTTTTGGGATAAGACCGAGGACGGTATATTTAGGGAGGTTTTGAAGAACAAGCCTGATTTTCGTCGTAAACCATGGCCAACAATTAGTGACAGTGCTAAAGACTTTGTGAAGAAGTTATTGGTGAAGGATCCCCGGGCTAGACTGACTGCTGCTCAGGCCCTATCACACCCATGGGTTAGAGAAGGGGGAGATGCATCTGAGATTCCTATTGATATATCTGTTCTGAGCAACATGCGGCAATTTGTGAAGTACAGTCGATTGAAGCAGTTTGCTCTGAGGGCATTGGCTAGCACACTTAATGAAGAGGAGATAGCTGATCTTCGGGATCAGTTTCATGCAATCGATGTGGATAAGAATGGTGTTATTAGTCTTGAAGAGATGAGACAGGCCCTTGCTAAAGATCTTCCTTGGAAGTTGAAGGAGTCACGTGTCATTGAGATTCTTCAAGCGATTGATATCAACACAGATGGGCTTGTTGATTTCACCGAGTTCATTGCAGCAGCTCTACATGTGAATCAAATGGAAGAACATGATTCTGAAAAATGGCAGATGCGATCAGAGGCAGCTTTTCAGAAATTTGACGTGGATAGAGATGGGTTTATAACTCCAGATGAGCTTAGAATGCACACGGGCTTAAAAGGCTCCATTGACCCTTTGCTCGAGGAGGCTGACATCGATAGAGATGGAAAAATAAGTCTTGAAGAGTTTCGCCGACTTTTACGAACTGCAAGCATCAGTGCACGGCCTATTCCTAGTCACCGTATTACTTGGAAGTTATAA