Information report for GhUBP15
Gene Details
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Functional Descriptions
- GhUBP15 and GhCUL1 were identified to influence PH in further analysis. We obtained a time series of PH values for three field conditions based on remote sensing with UAV. The key genes identified in this study are of great value for the breeding of ideal plant architecture in cotton.
- GhUBP15 encodes a ubiquitin carboxyl-terminal hydrolase15 (UBP15), which is correlated with some biological pathways involved in plant growth.
- GhUBP15 could be a possible candidate gene for PH in cotton.
Functional Keywords
Literature and News
Sequences
cDNA Sequence
CDS Sequence
- >GH_A01G0374
ATGCTTGAGCCAAGAGAAGCTGATATACCTGCATTGTTTCTAGTCTTGGTGGTGCTTCCTCTGGTTACATATTTCTTGCTTGGGAAATGGAGTGAGGTTTCAAAGAAACGAGATAAGGTAAGTTTACTTGCTCATCTTGCCGCTGAAGAAGCTCTTAGAGCAGAAACAATGGCTGCTGCCAGTGTTATTCCAGTTGTTCCTGTTCCGAAGAAGGGATTGCATGTGTGCGCTAGGTGCTTTGGTCCATCTACAACTCGCTGCTCGAGATGCAAGGCTGTTAGATATTGTTCTGGGAGGTGCCAGATTATTCATTGGAGGCAAGTTCATAAGGAAGAATGCCTGCAGTTGGAGAGTGGAAGTGTTGCCTCATTTGAAGAATCTGTGCTACACAGTGACAACATGGATTCACGGTTCTTAGAGTACATTAATAAGCAGGCTGCTAAGGAAAAGACATCTTCGGATAATATAAATCATTGTCCCACAACCACCAGTTTATTTGCTAATGGGGATTGTTCTACTATTGATACCTCTCAAGGCTGTGCACCAGAGAGAAGTGCTGAGAAAAGAGTTTCTCGTAAATCCAATGGAGAAGTGCTAAGAAGAGAGGATGTAGCTATAGTTGATTCTTGTGAGGAGACCTTGAGAACTAGAACAACTAGTTTGACAATTAATAGTATTTCTTCTAAAGAAGCTTTTAGAAGGCATAAGTCAAGAACTAGTGGCTTTGTTGTATCCGAAGATGGAATGTTAAAACAGCAAAATCCCAATGGCTCTAACATGCTTATTCATGGACAAAATGTAAGTACCGCCATGCATGACGGGCATAAACGTCAAAGCCAACGTGGCAACATGTCTGAACCAAAAAGCAACTATGAATTTGCTGGCCCACCGTATTCCGCAAAAGGTGGGACAAGTGCGCACGAAGCTGAAAATGCCTTTGTCTGGAGCTCTGAGAATATAGTCAATGGGGAAAATGCTTTCAGTGGTAAATCGGTAGAATTAGAATGTTCTGGGATGGCAACAGCAAAAGAATGCACGAAAAGTAGAAGTTCATCGCAGTCTGTAGGGCCCAAAATCTCTAAATCACCTAAATCAACAGTGAAAGTGTCTGGGGAACGATTGCATCCTGAAATGGAGAGAAAAGGACAAATTCCTGTTGAATTAAATGACATACCGGCACCAGGAATCAATGGAGCTGCTAACACTGGCATTATGGAGATGATGGGTTTAAGGAAGTCATCAAAGCTTGCTAGGCAGGATTTTCCTGCACTCTATGGCAATAGACATAAGAAGATAAAGATGCTGTTTCCTTATGAAGAATTTGTAAATTTCTTCCAGTGTGAAGTCTTTGACTTATCACCAAGGGGCCTTCTAAATTGTGGGAACAGTTGCTATGCAAATGCTGTTCTGCAGTGTTTAACCTGCACAAAGCCTCTCAGCATCTATTTGCTACATGGATCCCATTCGAGAATCTGTTACAGGAAAGATCGGTGTCTTATGTGTGAGCTTGAACAACATGTTATGTTGTTAAGAGAGTGTGGTGGCCCCTTGTCACCAAGTAGGATCCTTTCACACATTCGAACTATTAATTGCCAAATGGGCGATGGAAGTCAGGAAGATGCACATGAGTTCTTGAGACTCTTGGTTGCTTCTATGCAATCTATATGCTTGGAGAGATTAGGTGGGGAACAAAAGGTTGACCCCAGGTTGCAAGAGACAACATTTATTCAACATACTTTTGGAGGGCGCCTTTGGTCAAAGGTAAAGTGTTTACGATGTTCTCACGAGTCAGAACGATTTGAAAATATTTTGGATCTTACTTTGGAGATATATGGTTGGGTTGAGTCACTGGAAGATGCATTGACTCAGTTTACAACACCCGAAGATTTGGATGGAGAAAACATGTACAGATGTGGAAGGTGTGCTGGTTATGCACGGGCTAGGAAGCAGTTGCGCATACACGAGGCTCCTAACATCCTGACAATTGTCTTAAAGAGGTTTCAGGAGGGAAAATATGGGAAAATAAACAAGTGTATCACTTTTCCTGACATGTTGGATATGGTTCCTTTTATGACTGGAACGGGTGACATCCCTCCGCTTTACATGCTTTATGCTGTTGTGGTGCATTTGGATACACTGAATGCATCTTTTTCGGGACACTACGTGTCATATGTAAAAGATTTGCGAGGTAACTGGTTCAGGATAGATGATACTGAGGTACATCCAGTCTCAATGAGCCAAGTGATGTCCGAGGATGCATACATCTTATTTTACACGAGGTCATACCCTCGCCCTCAAAGAGCAATATCTGAAAAGATCAAGCAAGTTCCTGCTAGGCACCTCGCATCGAAAATGGAGAAGCCTACACGACCAGCACAAAGTAAATCCAGCAGCCATTCTGTTGGCCCCAAGCTTTACCCAGATACCAGGTCCGGAACTGCTGCAGGCTATATCAACCGTGACTCTAATGGCATTCTTAGGCAGAGTGCAAATAGTAACATTCACCGAGTGGTAGAGATGTATGCTGAGCCATCCAACGTGGAGTTCTCTGATGCTACGTCAAGTGATTGGTCCCTTTTTACAAGCTCAGATGAAGCTTCTTTTACAACAGAGAGTACTCGAGACTCTTTCAGTACTGTTGATTATACTGATACAAGCAATGGTGGAGATCCTTTCTCAATCTTCAATAACTTGTATACCCCAGAATCATCCTCTTGCAACACGGTTTCGTGCAGTATGTTTTCAACTAGTAGACCCCATACGAGGTACGTCTTAGAGGAGAAGGGTTATGTTCTGGATTCCTACTCTTCGGCACAACTTGTGAACCAAGACCAAGTAAACTTCAACCAGGTCTGTGAGTCTTTGACCGATTTTTCTTTAGATACCGAACATGGCATGTTTGTAAAATATGGGAGTAACCCGAAAAATGCTTTCAATAGAACTTCTTCAGCTCATTGTGAATGGTAG
Protein Sequence
- >GH_A01G0374
ATGCTTGAGCCAAGAGAAGCTGATATACCTGCATTGTTTCTAGTCTTGGTGGTGCTTCCTCTGGTTACATATTTCTTGCTTGGGAAATGGAGTGAGGTTTCAAAGAAACGAGATAAGGTAAGTTTACTTGCTCATCTTGCCGCTGAAGAAGCTCTTAGAGCAGAAACAATGGCTGCTGCCAGTGTTATTCCAGTTGTTCCTGTTCCGAAGAAGGGATTGCATGTGTGCGCTAGGTGCTTTGGTCCATCTACAACTCGCTGCTCGAGATGCAAGGCTGTTAGATATTGTTCTGGGAGGTGCCAGATTATTCATTGGAGGCAAGTTCATAAGGAAGAATGCCTGCAGTTGGAGAGTGGAAGTGTTGCCTCATTTGAAGAATCTGTGCTACACAGTGACAACATGGATTCACGGTTCTTAGAGTACATTAATAAGCAGGCTGCTAAGGAAAAGACATCTTCGGATAATATAAATCATTGTCCCACAACCACCAGTTTATTTGCTAATGGGGATTGTTCTACTATTGATACCTCTCAAGGCTGTGCACCAGAGAGAAGTGCTGAGAAAAGAGTTTCTCGTAAATCCAATGGAGAAGTGCTAAGAAGAGAGGATGTAGCTATAGTTGATTCTTGTGAGGAGACCTTGAGAACTAGAACAACTAGTTTGACAATTAATAGTATTTCTTCTAAAGAAGCTTTTAGAAGGCATAAGTCAAGAACTAGTGGCTTTGTTGTATCCGAAGATGGAATGTTAAAACAGCAAAATCCCAATGGCTCTAACATGCTTATTCATGGACAAAATGTAAGTACCGCCATGCATGACGGGCATAAACGTCAAAGCCAACGTGGCAACATGTCTGAACCAAAAAGCAACTATGAATTTGCTGGCCCACCGTATTCCGCAAAAGGTGGGACAAGTGCGCACGAAGCTGAAAATGCCTTTGTCTGGAGCTCTGAGAATATAGTCAATGGGGAAAATGCTTTCAGTGGTAAATCGGTAGAATTAGAATGTTCTGGGATGGCAACAGCAAAAGAATGCACGAAAAGTAGAAGTTCATCGCAGTCTGTAGGGCCCAAAATCTCTAAATCACCTAAATCAACAGTGAAAGTGTCTGGGGAACGATTGCATCCTGAAATGGAGAGAAAAGGACAAATTCCTGTTGAATTAAATGACATACCGGCACCAGGAATCAATGGAGCTGCTAACACTGGCATTATGGAGATGATGGGTTTAAGGAAGTCATCAAAGCTTGCTAGGCAGGATTTTCCTGCACTCTATGGCAATAGACATAAGAAGATAAAGATGCTGTTTCCTTATGAAGAATTTGTAAATTTCTTCCAGTGTGAAGTCTTTGACTTATCACCAAGGGGCCTTCTAAATTGTGGGAACAGTTGCTATGCAAATGCTGTTCTGCAGTGTTTAACCTGCACAAAGCCTCTCAGCATCTATTTGCTACATGGATCCCATTCGAGAATCTGTTACAGGAAAGATCGGTGTCTTATGTGTGAGCTTGAACAACATGTTATGTTGTTAAGAGAGTGTGGTGGCCCCTTGTCACCAAGTAGGATCCTTTCACACATTCGAACTATTAATTGCCAAATGGGCGATGGAAGTCAGGAAGATGCACATGAGTTCTTGAGACTCTTGGTTGCTTCTATGCAATCTATATGCTTGGAGAGATTAGGTGGGGAACAAAAGGTTGACCCCAGGTTGCAAGAGACAACATTTATTCAACATACTTTTGGAGGGCGCCTTTGGTCAAAGGTAAAGTGTTTACGATGTTCTCACGAGTCAGAACGATTTGAAAATATTTTGGATCTTACTTTGGAGATATATGGTTGGGTTGAGTCACTGGAAGATGCATTGACTCAGTTTACAACACCCGAAGATTTGGATGGAGAAAACATGTACAGATGTGGAAGGTGTGCTGGTTATGCACGGGCTAGGAAGCAGTTGCGCATACACGAGGCTCCTAACATCCTGACAATTGTCTTAAAGAGGTTTCAGGAGGGAAAATATGGGAAAATAAACAAGTGTATCACTTTTCCTGACATGTTGGATATGGTTCCTTTTATGACTGGAACGGGTGACATCCCTCCGCTTTACATGCTTTATGCTGTTGTGGTGCATTTGGATACACTGAATGCATCTTTTTCGGGACACTACGTGTCATATGTAAAAGATTTGCGAGGTAACTGGTTCAGGATAGATGATACTGAGGTACATCCAGTCTCAATGAGCCAAGTGATGTCCGAGGATGCATACATCTTATTTTACACGAGGTCATACCCTCGCCCTCAAAGAGCAATATCTGAAAAGATCAAGCAAGTTCCTGCTAGGCACCTCGCATCGAAAATGGAGAAGCCTACACGACCAGCACAAAGTAAATCCAGCAGCCATTCTGTTGGCCCCAAGCTTTACCCAGATACCAGGTCCGGAACTGCTGCAGGCTATATCAACCGTGACTCTAATGGCATTCTTAGGCAGAGTGCAAATAGTAACATTCACCGAGTGGTAGAGATGTATGCTGAGCCATCCAACGTGGAGTTCTCTGATGCTACGTCAAGTGATTGGTCCCTTTTTACAAGCTCAGATGAAGCTTCTTTTACAACAGAGAGTACTCGAGACTCTTTCAGTACTGTTGATTATACTGATACAAGCAATGGTGGAGATCCTTTCTCAATCTTCAATAACTTGTATACCCCAGAATCATCCTCTTGCAACACGGTTTCGTGCAGTATGTTTTCAACTAGTAGACCCCATACGAGGTACGTCTTAGAGGAGAAGGGTTATGTTCTGGATTCCTACTCTTCGGCACAACTTGTGAACCAAGACCAAGTAAACTTCAACCAGGTCTGTGAGTCTTTGACCGATTTTTCTTTAGATACCGAACATGGCATGTTTGTAAAATATGGGAGTAACCCGAAAAATGCTTTCAATAGAACTTCTTCAGCTCATTGTGAATGGTAG