![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
CmaCh09G010140 (gene) Cucurbita maxima (Rimu) v1.1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AGAAGCTTATGCTTGAAGTACTTGGGAGCATATCGAGGGGCGGAACAAGAGGGGTCCTGACTTTCGTGTCTGGAGCTTCTCTTTGATCATCTTAGCTTCAGCTTCTGGGGGCGAAACTAAGAGAAAGTGGGTCAGCACAGGCAGCACAGACAGCACAGACAGCACAGACACCATGTCTCTGGGTTACGCAGAGAAGCTTTCGTTCATAGAAGACGTTGGAAAAGTGGGAATGACAGAACATTTTGACCCACCTCACGTTTTAGAAGAAAAGGTTGATTATCTCCTTTTTCATTGTTCTTTGTGCTATTTCGTTTGTCGGGATTGCGATCTTCTGCAATTTCAGTGCCGATCATTGTTATTTGTGTCTGGTTTTTGAACACATACATGTTTTTTTATGGTGCATTTTCGAAGCAGGGCTGTCTTGAAGTTTTTAATTGTACGATAGCGTGTTATTCACGAGATCTTGAAGCCATGATATGCATTTTGTGTTGATTTCAAGTTGCTTTGTGGGTAATTGAACTGATGTTTGTAAATCCGTATGAAGGGAAATGCAGATTCTTCTCTAGGCAAGAACATCTATGTTTGGCTTAGTTAAAGCATGCAATGGAGTGCATATATGAATTCATTTGAAATAGAATAAGTTTCCATAGCTATCTACTTGATTGAATGATCTTGTTGTTTTGTGATGAACACTGTTAACTTTAAAGTGATCTGTGTGTTGGGGGGATGAGCAAACTTGAAGGGCAGTTCCCTTTTAATTTGTGAAATGGTGTCTCTCACATTGGTTAGATCCTTAAGAACAGGAATGTTTTACTTGCCTCCAAATGTTTATGGAGGTTTCCTCTGGAAGAGACGGTGGTTTAAAATCAGCCCAATTGAAGTGGTATTGCTCTTGCGGCTGGATTTTGGGTCAACGTAATCTTGCCACTTCAAGAGGCCCTTGGAGGTCAATTTTTCTACATTCAAGTTTAAATGGTGCCTCCCTATGAGATGTTAGAGGCCATTTTCGAGCTGCTAGGTGATGTGGAGCTTCATGGTAATGCTAGAATTCTTTGGGTTAATGTGCTGAATCTAGTGATAGCTCTTCTTTGGAGAGTTCGGTCTGAAAGAAACGAGGCTTTTCGAAGGGGAAAAAACAAATCAAGATTTTTTTTGGGGAGAGAAACAATAGATAGTAAATGGGTCGATTTGAAAATAATTGAATTGCTCTGTACCTGGTGATTTCTTCTTCCTATACTACTTGTAATTACTCTTTTATCTAGATTTATGCCAACTGGGAAGCTTTATAACCTTGAGGAGAAGCCCGAAAGAGAAATCTCAAATAGGATAATATTTGCTAGTGGTGGGCTTGAGCTATTACAAAGGGTATCAGAGCCAGACACCGGGCAGTGTGCCAGCGAGGACGTTGAGCTCCCAAGGGGGGTGGATTGTGAGGTCTCACAACGAAGCATTACTTATAAGGGTATGAAAACTTCTTCGTAGTAGACGCGTTTTAAAACCTTGAGGGGAAGCCTAAAAAGGAAAGCTCAAAGAGGACAATATTTGCTAATGGTCGGTTTCAGTTGTTACAATTGTAAAAAACAACAAAAGAAGCTTCTTTGTCTTCAAATGTCCTTTGATTCCTTCCAAATTCAAAAGCCCATAAAAGCACCCAGTTAAGCACATGAAGATGGTTTACCCTCCAAATTTGATTGATGGAATTATGATTAACTTGTTTTCGTGGTTGCTAATCGGTGAAAGCTCAATATCTCTTTTTGTACCTATACAGTCTTACACCAAGATACAACTTTGTAAACAATATTGTCGAAAATTTTTGTGTAGGTCTGTCTTTTCTGCAAATATTCTCTGATTTCATTCTTTCCACATATTCCAAGAGAAAGCCATGATGAAGATTTTCCATAACCGGGCTTTTTCGTTCTTGAAAGGACGTTACATTAAGGTCATATCAATATCTCTTTTTGTACCTATACAGTCTTACACCAAGATACAGCTTTGTAAACAATATTGTCGAAAAGTTTTGTGTAGGTCTGTCTTTTCTGCAAATATTCTCTGATTTCATTCTTTCCACATATTCCAAGAGAAAGCCATGATGAAGATTTTCCATAACCGGGCTTTTTCGTTCTTGAAAGGACGTTACATTAAGGTCATATCAATATCTCTTTTTGTACCTATACAGTCTTACACCAAGATACAGCTTTGTAAACAATATTGTCGAAAAGTTTTGTGTAGGTCTGTCTTTTCTGCAAATATTCTCTGATTTCATTCTTTCCACATATTCCAAGAGAAAGCCATGATGAAGATTTTCCATAACCGGGCTTTTTCGTTCTTGAAAGGACGTTACATTAAGGCCATATCNTCAATATCTCTTTTTGTACCTATACAGTCTTACACCAAGATACAGCTTTGTAAACAATATTGTCGAAAAGTTTTGTGTAGGTCTGTCTTTTCTGCAAATATTCTCTGATTTCATTCTTTCCACATATTCCAAGAGAAAGCCATGATGAAGATTTTCCATAACCGGGCTTTTTCGTTCTTGAAAGGACGTTACATTAAGGCCATATCCAAAAATTCCTTTACCTCCCTAGGAGATGTGAGACACCATCCGAATATATTGAGAATCGTTGTCCAGAAATTCTGAGTGTATGTAGAACAAGAATGGATAGGGGATATGAGAGAGCGAGGAGAGAGTACAACTATATGCTTTCACCTATTTGACGTTTTCTCATAAATCATTGTCCTAGGATTTCTTATTATTTGACTGTTTTTTCTGAGCTATTCTTATTAATTAAGTTCATTATATGGTTTAAATATTAGATTTTTGGTATTTTAACATCGATTTGTTTGTGGCAGATTGAGCGACTAACTATGATGATACAAAAGGTATAAATCTATTTTATTTAACTTATTTGTAGATTCTTGCTAAGCAATCTCTTGAGAAACTTTGTTTGTAATTGCAGAGCAAGCATCTAGTGGTGTTTACGGGTGCAGGAATATCGACCTCTTGTGGCATACCTGATTTTCGAGGTCCTAAAGGAATATGGACTCTTCAGGCGAGTTATATCTCTACGCTATGTCTAATAAGATACCTTTGAGGCTCGAGCAACCTTTTTTTATCTGGATTTATTAAATTATGAAAATCAAGTTGATATTTTCTAATGTTTTTTTATCATGTAATATTTTAAAGATCCTAGTCCATTGGTACTACATCTATCAAACGCATGAAGTGTTTTCGTCGAAAATTTCTTTTCTTGCCTTCATTATTTTGGCTTATAAACAAATGAATTCGTAACACGATAAAATTTTTCAGCGTGAAGGTAAAGCCTTACCAGAAGCGTCACTACCATTTCATCATGCAGCGCCGAGCATGACTCATATGGCTTTGGTTGAGTTAGAGAAGGCTGGTATATTGAAGTTCATCATTAGTCAGGTAGTGCATATTTTTTTCTCATCTATGGGTGCTATGTTAACATATTGAGACCTCTTTTTTATGTATATATTTTCTATAAAAGGACTAGCTGAGGACAGTCGTACTCAAGTCGGTATTTTCTATAAAAGGACTAGCTGGAAAGGGTGCGATTTCTGCCTCATTAGTTGAGTGATAAATATTTATAAGTTCTTTCAAAGAAATGGAGGAATATCAAAGTCAAGTTTTTTTAAGCTCGACAACAAATGGGGGTGAGATGATTTGAACTTGTGACTACTTGGTCGATAGAATATGCCTTAACGAGTTGAGGTATGTTCAGTTTGTCATAAGTGTGTATAAGACCATCCTTGGAGGTAGGGGTGCAGAGACAACCAGGAGGTTTGCCTAGAAGCAGCCACCCTTGAAAGAAGCCAATTTCTTAGAAAGTTCTTTCAATCCAGGGAAGGTTGATTGACAAAAGAGACTAAGGCCGCCTACCTGGTGGGGGCGGCTCCTAAGGTATTGTCTCTTATAAAAAACCTAGGTGTTGGCTGAAAAGATGAGAGAGGTTTCCAAGTACGATTTCTAGGTATCGAGGAGCATTGTGGTTGTAAGATAAACTCTAGATGAGGTTCTTATTGCAATCAAAGTCACTAAGGATAATAAAGAAAGGAATAAGGAGGGGTCATTTGAAAAAGAAAGGTCAAGCCATGTATTTCTTTTGATTCTTTGAAAAAGCAAGGGGGTTATGTGTTCGAACACAAGACCTTTTGGACTGATGGGTGATTAAAGTTGGTATCAGAGCATGAGGTCTTGTGTTCGTACCCCTATAATATCCAATTCTTCCCAATATTGACTTCCATTTGTTGTGCCCTAAGCTTTGAGGAGTGTCAAAGTATAGATATAATTAAATTTACCGTAGCTCTAAGAAGCATAGACATGGGATCGGAGTCAAGACACTAGGATTTAAGGTCATTTCTTCAAATGAGAGTAACCCTTAGAAGTAAGGTCAGGTTGCTTTCTTTGTGCAGCAACGGCAAGTTAAGGTACTATGGATTTGTTATAGCACCACCATTTCACAATATACATTTTGTTTGGGAAAGCTAGTCTTGGGATCAGAAAGATACGTGGTTGACTTGATTCTCTTATAGTCGGATGTTTCCGTGAACAGTAAGCAGTGATCTCCCCACGTTGTACTTCTAAGGGAGGGTATAAGATAGCGGAAGGCTTTATCATGCACTTTATCATGCACTTTATCATGCACTTCTGGGACCTGAGACCCTTCTTAAGAAGTAGGACACAAACACGTTTTTTTTTAAATATATAAAACGTATGTGTCTAACTAAACTCCAATTTTTAGCTTTTCCTGAAAAAAATAAATCCTCGAATAGAAATTTCCAATGATGCACTTCCTGAACATGTGCATCTATCCTGGGCTCAATATCTGTTGATGGTGCATATTTTGGAGCATATCCACACATGAGAGCCAAGCCTGCATTATATGGTCAGAATCTTTTTTGAAACCATCAGAGAAAAATGATAGGAAACTCCGAAAAAAACTACGCTCCACATTGTCCAGAATGTCATTCAGCTTTTCCCATACAGCATCGAAGCGGAATGATGCAACCAATCTCATTGCTTTTGCCAAACCAAGTAGTGCAGAATGTTGATCATCAGAGACATAAAGTTCATATCGATTGCTGAAAGCATTTCGAAGAGATAAACCCAATTCGTGTCCTGAATCACATCCAAAGATTCTGCAAGAAAATTGCTAGGAAGCTAACAAAAAGCTTTAAGATCACTTAGGCGAAGACGTTAGAGAGATAGCGGTAGACATTTGAGAATTACACCATTCCTGATGAAATTGACGAGCGGAAAAGTGACTTTGTCCGAGAGAGAATACCAACTTTTTAAAACCTCTAAGACGAAGACCTTGCTATCAATCCACAAGAAAAGCAACCCTCCGGATCGAACAAGTGGTACCGCAAAGCCCAAAAGATGACTTTGGAACTTGTTTCTTGAAAGAGCAGCAACATGTCAGGGCACTGGAGAAGAGGGGGAAAAAACCCTTCAGATTAATGCTATTAGAACAGACTCGCAGACCTCTAATATCCAAGATTATCGGGATACAAGATGGACAAAGAGCCTACTGTGAAACCTTTTGACCGATCACCTCGGGTTGCAAAGGAGGAATTTCACAAAAGAGGAGGCCACTGACTTCAATTAAAGAAGAGGATTGTGCGAAAGATGGAGGGACATGTATAGTGCTGTCAATTTCAACATTCTGATTTAGTTCCAATTCTTCCTTTGATTTCAAAGCTTTCTTACATGAAACAAAGAGACAAGATCGTCTACAAAGAAGTCTTCGGTAACAATATCATCCAAAAAACGAACCATTAGGCTGCTGGTCAAGCTCCTCACTACTTAAATTGACCTCATACTCTGTCATCAAAATCAATAGAACTGGGGACAATTGAGGGGATGCACCGTCTTTGGATGAATTAAACAATTCCATCCAGCCCAATAGTACAATGACTTGGTACGAAAGCCTGGGACACTTTCTTGTGTTTTGTGGGTTTGGAAGTACGGAATCATTTGTTCTTTGGCCGTTATATGCTTTGGCTTAGATTACGTTAGATTTTTACAAACGACTCGAAAAGTAATCTCCTTCATAATTTGGTTGGTCCTCCTTTGCCTTCAAGATTTCTTCTATTATGGACTAATGGAGTCGAAGTTATCATTTCAAATACTTGGTAGAAATTTTTGAATGACATCTTTATTATACAACTTTACATGCATTCTTTACATTAAGAATTTTTTTTTTCTCGCTTGCTTACCGAGATATTTCATTATAGAATATTGATGGCCTCCATCTTCGATCTGGCATTCCAAGAGAGAAACTTGCTGAATTACATGGGAACTCGTTCATGGAAACGTGCCCTTCATGTGGAGCTGAGTAAGTTTCTATTTTATGTGTTTTTGTTTATTTCAACTTCTGATGTTCTTGTTATATGGTCTCGTTTCACTCTTTCCCGTGCATATGTTTTCTCACTCGAATAACGATCATGCTATCCTTTGAGCATTGTTGCTTCTTTTCATCAATCAGTGAAAAGTTTGTATCTTGTTAAAAAAAAAAAGTGCTATTTAGTTGAAAAGAAATAGGCAAACATTTAAGGGTATTTTTATGCATTTCAACATATTCATAATCGAACCTTGGAAATTTGTTTTGATTTTTGATATTTAGAATTGAAAAAACGAAGGGAAGCACGACTCTAAGCATCTGCGAAAATGCTGCAATTTTTATCACAAAAAAACAAGAAATAGTTACAAAATAGATTTAAATTTTTAGAACAAGAAATGAACTTTTGATCAGCTAATGGAAAGGAACAGAAAAATGTTCTAGGATACAAACCCCCATTGGAGTGAAAATGAAACGATCAAAAAGAAAAACCTTAGGAGGAGAAATTAAAGCAGCCAAATTCGTAACAATGTCATCTAATTGTGTTCAAACCAAATTTTAAGTGGGAGCTTTGACACGTTAATTCGGACCAACTAAACCTGAGGCTGCAAATAAGGCCCATGAGGTAGTTGAGTGAAGTAGTCTTTAGAATCACTATAAGTCGAAGAAGCCGAAAAGAAAATGGCCAATGATCCATTGAAGAACCAAAAATTCTTGGATTTGGAGCTTCCACGTAGAAGACAAGAAAGAACAAAGGAGAGTGTAAGATCCCACATTGGTTGAGGAGGAGAACGAAACACCCTTTTAAGAGTGTGGAAACCTCTCCTTAGCAGACACATTTTAAAAACCTTGAGGGGAAGCCCAAAGAGGACAATATCTGCTAGCTATGGACCTGGGCTTGGGCTGTTACAAATGGTATCAGAGCCAAACATCGGGCGATGTGCCAGCGAGGAGGTTGTTCCCCAAAGGGGGTAGACACGAGGGGGGTAGATTTGGTGGGGTCCCACATCAATTGGACAAAGGAACGAGTGCCAACGAGGACGCTGGACTCTGAAGGAGGGTGGATTGTAAGATCTTCCACATTGGTTGGGGAGGAGAACGAAACACTCTTTATAAGAGTCTAGCAGATGAGTTTTAAAAACCTTGAGGGGAAGCCCGAAAGGGAAGGCCCAAAGAGGACAATATTTGCTAGCGGTGGGCCTGGGTCATTCCGAAATGAATGGTTAATGATTTCTTCTAAAAGAAAATAATTCCTTTCTTTTGCTGTCGGTTGACAAATTATTCTGTAGTGCTCCCTTTTCTCAAAAATAGATAATATATTTTTTTTATAAATCTGGAATACTATTCTGTTAACTAAAAAATGAATATTGTTATCTTTGGCCACTGCTGTTTTGTTGCTTCCATATTTGTGAATGAGTGGTTTTTTCCCCTTACCCGTTGGTTATCTGACTCTAAAATATTCTTAAGGTATTTGAGGGATTTTGAAGTAGAAACTATCGGATTGAAAGATACTTCTCGGAGATGTTCGGATGCCAATTGTGGAGCTAAACTAAGGGATACAGTTCTCGACTGGGAGGTACTTTTCTTATTGGCTGTCTTGCATTTTTTAAATATAAAGAACGAGTCTAGGTAGTAAATATTTTTAGCGTACTCACGGTTCTTTCGTATTTTATATATTTTCAAGGTTTGTTTCAGTTAGTTGACAAATTTAGTATTCTCAGTCTTTAGAATTCTTATCTCTTTGGTGGTTTGTTTCAATTTTTGTGTTCTGTTCTGTTTATAGCTTCCACATCAATGTGGATCATAGTACAAATGGAAGATTACTTGAAACTTTGGCTTTCCATGGAATTCTAATTTGGAAGTCGAGGAAGTGTTTGGTTCTTTTTCAAAATCTTTATACTTCTGATGTTGGTCAAGACTCGCTTTTCTAGGGGCTCCATTGGAACCTCTTCCAACTTTTTTGGGAGTTTGGATTGAGAGACCTTTTGAAGAGGAGGCCGCGTGCAAAGTAGCTAAACAGCTTGGTAATTGAAAGTCTCTGAATCCTTATGGTGTGACGAAAGAATTTTTGTAACGGCCCAAGCCCACCACTAGTAGATATTATCCTCTTTGGGTTTTCCCTTGCTTCCCCTCAAGGTTTTAAAACGCGTCTATTGGGGAGAGGTTTCCACATCCTTATAAAGAATGCTTCGTTCTCGTCCCCAACCAATGTGGGATCTCGCAATCTACCCTGCTTTAGAGCCCAGCGTCCTTGCTGGCACTCGTTCCTTCTCCAATCGATGTGTGACCCCCCTAATCCACCCCCTTTGGGGCCTAGTGTCCTTGCTGGCACACCGCCTCATGTCCACCCTTTTCGGGGCTTAACCTTCTCGCTGGCACATCGCCCGGTGTCTGGCTCTGATACCTATTTGTAACGGCCCAAGCCCACCGCTAGCAAATATTGTCCTTTTTGGGCTTTCTCTTTCGAGTTTCTCCTCAAGGCTTTAAAACGCGTCTACTAGGGAGAGGTTTCCACACCCTTATATAGAATGCTTTGTTCTCCTCCCCAACCGATGTGGGATCTCATAATATTTGTAATGGCCCAAGCCCACCGCTAGCAGATATTGTCCTCTTTGAGCTTTCCCTTTCGAGCTTCCCCTCAAGGCTTTAAAACTCGTCTACTAGGGAGAGGTTTCCACACTCTTATAAAGAATGCTTCGTTCTCCTCCCCAACCGATGTGGAATCTCACCATTCTTGAAAACATGTAACATTTTGATACCAAATGTAATTTAGTTATTCCACGAGTTTTCCAAAACTGATTTGTTGCAGTCATGCGAACAAGATTTATATCCGTCTTATTCCAAAGATCACTAGAGCTTCTGAGATAAATAACTTAAAACCTATCAGCTTGGCCACTTCCTTCTGCAAGATTATAGCAAAGATTTTAGTCGACTGTCTTAAGGAAGTACTATCTCTTATATAGCTAACCATGATTGTCTGTTTATGACATCTGAGCCCTGTATAAATGCAGGATGCATTGCCTCCGAAGGAGATGAATCCAGCTGAGAGACACTGCAAGATGGCTGATATTGTATTGTGTCTAGGGACAAGGTAAGTAGAGCATCTCTTGCTATGCGATGACATTTTTTAACTTGTGAATGTGGTCGTTTCGAGTTTTAAACAAAAAAAATCTGGTTTTAACTACTTTGTTAGCTGAAATAAGCACGTTTCTATGTCCTTTTCATGTGATGAAACTAAACTATTGTGCTCGTATAGTTCTATCATACGGTTGTCTGTAAAGCATCTTTCGTGCATACGATGAAAATTTATATTTGTGGGATCTTTTTGGATGGTCATAGGTATGATTACTATGTGCAGTTTGCAGATCACTCCAGCATGCAACCTTCCTCTAAAAGCACTTCGTGGCGGGGGGAAAATTGTCATCGTTAATCTTCAGGTATTCGATCTCTTATTTCAAGCGAATATAGGGCTTGCCCTCTATTTTTGTTTTTTTTTTCCTGATGAATTTTATTAATATTATTATTAGGAAAATTGCACAAACTACCCCTGAATTATGGGATTTGTTACAATTGCACGAAGAATCCCTGTATTTTAAAGGTGGTTTGTGCAATTTCCCTTATTATTATTATTATCTTTATCTTGGTAGATAGAAAGTCAATAAATGATAAGCTTTAAGACAGATTTGTGTCCAAGCCCACCGTTAGTAGATATTGTCCTTTTTGGCTTTCCTTTTCGGGTTTTCCCTCAAGGTTTTAAAACGCGTCTGTCAGGGAGAAGTTTTCACACTCTTATAAAGAATGTTTAGTTCTCTTCCCCAACCAATGTGGGATCTCACAATCCACCTCATTCAGGGCCTAGCGTCTTTGCTGGCACTCGTTCCCTTCTCCAATTGATGTGGGACCTCCCAATCCACCCATCTTCGGGACCTAACGTTCTTGCTGGCACATCGCCTCGTGTTCGCTCCCCTTCAAGGCTCATTCTTCTCGCTGGCACATCGTCCAGTGTCTAGCTTTGATGTCATTTGTAACAACCCAAATCCACCACTAGCAGATATTGTCCTCTTTTTTCTTTCCCTTCCGGGCTTCCCTTAAAGGTTTTAAAACGCGTCTGCTAGAGAGAGGTTTCTACACCCTTCTATAGAATATTTCGTTCTCCTCCCCAACCGTTGTGAGATCTCACAAATTTGAGGCATACCTCCTTTAGTTGTTCGATGAGAGAACACGTGTACTACCATAAAGAAAAAACAAGATCACTTGGGTGGTCTTTGAACTTCATAACCTTTGGCTCTTTCTTGGGGTAAATTTTATGCCCCTTTCGTTACTTACAGTTAAAGTTCTCTTTGTTACTTCCTCGTTTTGGTGCTTGACCTTCTTCCTTGTCCCATCTATATTGTATTGTCGTGCATATCATTCGGGTAAACCTGCGATAAACAATAACGTACGGATATCGTCTTGTAATTAGGCATAAACTGAAGTATTATGATCATAATGAAATTGTTGTTTGCCTTTTCTGACAGAAAACACCAAAGGACAAGAAAGCAAGTTTGGTTATCCATGGTCGTGTCGATAAGGTATTGTTTTTTCTAAGCCCAATGAAGACAAGAACTACATTTTGGTAATAATATCATTTATCTTCAATACCAAGCAAAATAAAGTTGTATTCATGCCATTTATCTCATTTGAATTTGACCATCATACTTTAAACACTATATCATAAATTTATTTTATTTAATATCTTTCTTGTTCGATCGAACTGTCATAGGTCATTTCGGGCGTAATGGAGATCCTAAAGATGCAAATTCCCCCGTTTGTTCGAATTGATCTTTTCCAGATTATACTTTCTCAAGCCTTGAGTCTTGGTAATTCCTCTTAAATTTGTTCTTATTGTATTGCATTGCATGTCTGTAACGACCCATACCCACATTGGTTGGGGAGGAGAACAAAACATCTTTTATAATGGTGTGGAAACCTTCCCCTAGCAAACGCGTTTTAAAGCCTTGAGGGGAAGCCCGAAAGGGAAAGCCTAAAGAGGACAATATTTGCTAGCGGTGGGCTTGGGTCGTTACAATGTCAGTTAAAAATGCATTAGTAGGCTTGAAAAGGGAATGCCGTTAGTCTACTAGATCTCTGCCTTAAGTTACGTTAGTCTACTGTTTATATTTATAGAGTAAGCATTCGCATATGATACTTCTTCCTTATCTATGAGCAAAAATCCTTATGCAAAGAAAGAAATCTGGTAGCTACCATCTTTTTGTTGCTTTCTAGCTTTCCATGTGTAATAGCCTATGCCCACCGCTAGTAGATATTGTCAGCTTTGGTCCGTTACGTATTTCCGTGAGCCTCACGGTTTTAAAATGTGTCCGTTAGGGGGAGGTTTCCACACCCTTATAAAAAATGCATCATTCTCTTCCCCAACCGATGTGGAATCTCACAATTCACCCCCTTCGGGGTCCAGCGTTCTCCCTGGCACACAGCCCGGTGCCTGGCTTTGATATCATTTGTGATATCCCAATCCACCCGCTAGTGGATATTGTCCGCTTTGGCCCGTTACTTATCGCCGTTAGTCTCACGGTTTTAAAACGCGTTCACTAGAGGGGGGTTTCCACACCCTTATAAAGAATGCTTTGTTCTCTTCCCCAACCGATGTGGGATCTCACACCATGTCTTTTTCCGACCATGCTTTAGAATGTTAATTTTTTATTATTAGACTGAGAAAAGGAGCCATCGTCTAATATACATATTGTTTCCTATAAGAAGAAGAAGAAAAAAAAAGAAAAAAAAGAGGCATGTCTCTTCCCTTTGAATTGAGATTTGCTAGTGTCACACAACACACCTGAGCTACTGGATTTAAGGTTTCATAGATGCGTGAGAATAAGGTTGTTGTGTTTGGTTGTGCATGAGAATGTCATCAAAACATTACGGAAACAAGTTATGTTTGTATTATTTTATGAAGTTAATGATAATAACCTTATATATAATTTTAATAGGCTCTAATTAATAGAAACAATAGAAAATAAAATAGACTAAAAGACAATTCATACTTTTGTTAGGGAATAGAATACATTATTCCCATGGCCATCCTCATGAACCTCGAACCAAACAAAGATATCACAAACCCTTGCCTATCCCCATTCCCAAATCCGTGACATCAAACGGGCCTTAATGACCAAAATCTTTTATCATTCATATGTTCATATTGTTCTTGTTGTGTAGTTCTGTGGGATCCCACATTGGTTGGGGAGGAGAACGAAATATTCTTTATAAGGGTGGGGAAACCTCTCCCTAGCAGACGCGTTTTAAAAACCTTGAGTGAAAGCCTGAAAGGGAAAGTCCAAAGAGAATAATATCTGCTAATGGTGGGCTTGGGTCGTTACAAATTGTATTAGAGCTAGACATCGGGAGATGTGCCAGCGAGAAGGCTGAACCTCAAAGGGGTGTGGACATGAGGTGGTGTGCTAACAAGGACGTTGGGCCCGAAGGGAGGTGGATTGGGGGGGTCCCACATCGATAGGAGAAGGGAACGAGTGCCAACAAAGACGCTGGGCCCCGAAGGAGGGTAGATTGTGAGATCCCACATCGGTTGGAGAAGAGAACGAAACATTATTTATAAGAGTGTGGAAACCACTCCCTCGCAGACACATTTTAAAAACCTTGAGGGAAAACTCGAAAGAAAAAGTCCAAAGAGGACAATATTTGCTAGCGGTGAGCTTGGGCGGTTACAAGTTCAATTACGCTGGTTTCTCCCTGTGACATGAAAGGTCAATTCTCTTGTGCTACAAATAGGAATTATGTTACTTGAATCATTTGATTGTCTATTCTGCGAGGACAAATCCCTTTTGATTCTTTCATTCACTTTTGAAATGTTGGAATGATGTTTTCTTATATTCTTTTCACATCTATTGGAAGCAGTGATACCCATGGGTTAGAATGCCTTATAATATATACTTTATAATCACAAATTCAACCCTTTTTTTCTCTTTTGCAGACAAGAAATTTGTCAACTGGACACTTCGAATATTAAGTGTGCATGGACAGAAAGCTACATTGCCATTTATCAAATCTGTTGAGGTGATTTATCTAAAATCATTGCGCGTATTTTCCTTTATATTGGCACTTGAATTCCAATCGTGATAGTTGAGTACTCGTGATCTAGAAATTTGGTCACGGTTATAGTTGTCACGCACTTCTTTTTGTACGACTGACCTCTGATTAGCCAAGGTGTGGGTTTCAAGCCTCTAGGTGGGTGCTTACTGCTTAATTAGAGGAGATCCTTTTGTGTCCTGAAGCTAATGTCGGAGTGTTCGAAGTCGGATTGTAAAATAATGGAGTGGGACGTATTGCCATGAATAAACATAAAAAAGCCTAGACATTCTAGACACTTTGGTGTTATTGAAGGCTTGTTTGTTAGTCGTGTCTAATTCTTTTTTTTCTATTTTTAAACGTACCAAGAATTTTGTTAGGCTAGACATATGAAGGAAGAAGAATCTTGCAAGTTGCTCTTGTGGCAAGATTGAGATCCTACGTTTGTTGGAGAGGGAACGAAGCATTTCTTATAAGAGTGTGAAAACCTCTTCCTAGCAAACGCGTTTTAAAAACTTGAGGAGAAGCTCAGAAGGGAAAACTCAAAGAGGACAATACCTGCTAGCGGTGGGCTTGGGCAGTTACAAATAGTATTAGAGCTAGACACTGTGGTGTGCTAGCGAGGACGCTGGGCTCCAAGCAGGGTGGATTGTGAGATCCCACATTGGTTGGAGAGGGGAACAAAACATTCCTTATAAGGGTGTGAAAACATCTTCCTAGCAGACGCCTTTTAAAACCTTGAAGGGAAGCCCAGAAGGGAAAGCCCAATGAGGACAATATCTGCTAGCGGTGAGCTCGGGTAGTTACAAATGGTATCAGAGCTAGACATCGGGCGGTGTGCCAGCGAGGACGCTGGGCCCCCAAGGAGGGTGGATTGTGAGATCCCACATTGGTTGGAGAGGGGAACAAAGCATTCCTTATAAGGGTGTGGAAACATTTCCCTAGCATACGCGTTTTAAAACCTTGAGGGGAAACCCATAAAGGAAAAGCCTAAAGAGGACAATATTTGCTAGCACAGTTACAAAAGGTATTAGTTAGAGCTAGACACCGGACGGTGTGCCAGCGAGGATGCTAGGTCCCCAAAGAGGATGGATTATGAGATCCCACACTGGTTGGAGAGGGGAACGAAGACCCTCAAAAGGCTTAATGTGTGTTAAGTCATGAGCATAATGCAAGTAGATTCTAACAAACTGTCCTATCCACTCATCTCTATCGATCATTTTGGGATAATCGTAACCGACGTAGTATCACTCGACCGCATTCTCCCAGGTTTCGTTCTTGGATAATCAAGATTTCAAATCAGCCACTTTAGAGAGCCAACCGTTTCTCCTTAAAAGGTACTTTTACGTTCTTCGTTCTTCGTTCTTCAAGGTATAACATGAAACTATTTAGAACGTTATTACTTTCGGGTATGTTAAATGCTATTTAATCTCACGGGGAAACAACACGACTCATTTGGCACGTCAAATGGTTTATCAATGGGTTGGTTTTTTTGGTTGAATGTTCCACTCTGGTTTCAATGATGTTTAACTCATTCCTTTTACATTTGGTATTTATCAGAAGAACAGTAAAGGAAAAATCATTTGAATTGGTTTTGAGGCTCAACTTCAGCGAAGGGTGTGGTAGCTCGCATGTTGAAGTTAATATCCCTGTTGATTTTAAGGTAAGAAATAAAAAACCTTAGTCTATCATTAACAACTCTGTTCTTTGTGTTTTTTAACTTTTATTGAGAAAAAGCTTAAGAATAAAAGGTGTGAGATCTTGCATTGGTTGGAGAGGGGAACGGAACATTCCTTAAAAGGGTGTGGAAACCTCTCCCTAATAGATACGTTTTAAAATCGTGAGACTCACGACGATACGTAACAGGCTAAAGCGGACAATATATGCTAACAGTGGGTTTGAGCTGTTGCAAATGGTATTAGAGCCAGACATTGGGCGGTGTGCCAGTGAGGATGTTGGACCCTTTAGGGGGGTGGATTGTGAGATCCCACATTGGTTAGAGAGGGGAACGAAGCATTTCTTATAAGGGTGTGGAAATCTCTCCTTAGTAGACACGTTTTAAAACCATGAGGCTGATGGCGATATGTAACGGGCCAAAGTGTACAATATATGCTAGTGCTGGGTTTGAGCTGTTGCATATGGTATCAGAGCCACACACCGAGCAGTGTGCCAGCAAAGACGGTGGACCATTAAGGGGGGTGGATTGTGAGATCCCACTTTGGTTGGAGAGGGGAACGAAACATTCCTTATAAGGGTGTGGAAATCTCTCCCTAGTAAACACGTTTTAAAAACGTGAGGCTGACGGCGATGTAACGGGCCAAAACGATCAAATATTTGCTAGCGGTGGGTTTGGGAAGTTGCAAATGATAGTAGAGTCAGACACTAGGCGATGTGCCAGCGAGGACGCTAGAACCCCAAGGAGGTGGATTGTGAGATCCCATATCGGTTGGAGAGGGGAACGAAACATTCCTTATAAGGGTGTAGAAACCTCTCCCTAGTCAATGCGTTTTAAAACCGTGATAAACTGCTCGAGTCTAATCTTCCCTCCAAAATAGCTTTCTAAGGATATTACACGTCAACTAGTAAACCATAATCCTTGATTAGTGGCATTAACTATGATTAAAGATCATGATGCAACATTCTTTACTGTTCTTCAAATTGCTTTGAATAATTACAAGATTTTGAAACAAAGTTACGATCAATCACTGTTACTCTTATTGCTGTGCAGGTCTCTGCAGATTCTTTGAATCTCGATAAGGAGGTCGTTTTTCGGAGACTAAGAGACGAGGCAGTTCAAGACTTCTTCTGTGGAAAAAATGCAGTTATCGAGCGAAAATCCATCCCGTTCCCAAAGAGCGAGGTCACGGTATATGCCACTGTTACCAATGTTATTAGGTACACCCAAGACTTGAAAACGTTAGCTATAGATTCACTTAGTAACGGCAATATGAAACGACAACTAGCAAGTGTAAATGGTTCTGCAATATCTAGGAAGCGGTCGAGACGACCGAAGCGAAAATCTAGATATTAGCATGAACGCTGTACATATTTCGTCGTTTGATGAATCGCTGAAAAAAAAAATGATATCACATCGGGATTGGGTGGATTTTGTTAGATATGACACTCGGGTCTCGGGACGTGACATAGTTAGAACCGTTATTGATAGGAATCAACTAACCGTTCTAAGTTGAAAGACTTTGGAAGCCATATATGGTATATAGGTCATGTGTGAAGTATATTGGTGGCTGCTGGTAAATCATGTTCATAGCTTTGGGATTATTGGTACCTCGAGCTAGTACGTTTTGGGGCTCGGTTGGATACTCGATGATTTCGGATACTAATTCGTGTAGTTATTCGGATTCGTGTAGTTACTGGCAAATGCTTATCGATACTTGATACTAGAAATTGATATGAAACTTTGAAACGTTAATAGGCTCTCTGTCGAGATGATTCTTGTTCGGTTTCGT AGAAGCTTATGCTTGAAGTACTTGGGAGCATATCGAGGGGCGGAACAAGAGGGGTCCTGACTTTCGTGTCTGGAGCTTCTCTTTGATCATCTTAGCTTCAGCTTCTGGGGGCGAAACTAAGAGAAAGTGGGTCAGCACAGGCAGCACAGACAGCACAGACAGCACAGACACCATGTCTCTGGGTTACGCAGAGAAGCTTTCGTTCATAGAAGACGTTGGAAAAGTGGGAATGACAGAACATTTTGACCCACCTCACGTTTTAGAAGAAAAGATTGAGCGACTAACTATGATGATACAAAAGAGCAAGCATCTAGTGGTGTTTACGGGTGCAGGAATATCGACCTCTTGTGGCATACCTGATTTTCGAGGTCCTAAAGGAATATGGACTCTTCAGGCGAGTTATATCTCTACGCTATATCCTAGTCCATTGCGTGAAGGTAAAGCCTTACCAGAAGCGTCACTACCATTTCATCATGCAGCGCCGAGCATGACTCATATGGCTTTGGTTGAGTTAGAGAAGGCTGGTATATTGAAGTTCATCATTAGTCAGAATATTGATGGCCTCCATCTTCGATCTGGCATTCCAAGAGAGAAACTTGCTGAATTACATGGGAACTCGTTCATGGAAACGTGCCCTTCATGTGGAGCTGAGTATTTGAGGGATTTTGAAGTAGAAACTATCGGATTGAAAGATACTTCTCGGAGATGTTCGGATGCCAATTGTGGAGCTAAACTAAGGGATACAGTTCTCGACTGGGAGGATGCATTGCCTCCGAAGGAGATGAATCCAGCTGAGAGACACTGCAAGATGGCTGATATTGTATTGTGTCTAGGGACAAGTTTGCAGATCACTCCAGCATGCAACCTTCCTCTAAAAGCACTTCGTGGCGGGGGGAAAATTGTCATCGTTAATCTTCAGAAAACACCAAAGGACAAGAAAGCAAGTTTGGTTATCCATGGTCGTGTCGATAAGGTCATTTCGGGCGTAATGGAGATCCTAAAGATGCAAATTCCCCCGTTTGTTCGAATTGATCTTTTCCAGATTATACTTTCTCAAGCCTTGAGTCTTGACAAGAAATTTGTCAACTGGACACTTCGAATATTAAGTGTGCATGGACAGAAAGCTACATTGCCATTTATCAAATCTGTTGAGGTTTCGTTCTTGGATAATCAAGATTTCAAATCAGCCACTTTAGAGAGCCAACCGTTTCTCCTTAAAAGAAGAACAGTAAAGGAAAAATCATTTGAATTGGTTTTGAGGCTCAACTTCAGCGAAGGGTGTGGTAGCTCGCATGTTGAAGTTAATATCCCTGTTGATTTTAAGGTCTCTGCAGATTCTTTGAATCTCGATAAGGAGGTCGTTTTTCGGAGACTAAGAGACGAGGCAGTTCAAGACTTCTTCTGTGGAAAAAATGCAGTTATCGAGCGAAAATCCATCCCGTTCCCAAAGAGCGAGGTCACGGTATATGCCACTGTTACCAATGTTATTAGGTACACCCAAGACTTGAAAACGTTAGCTATAGATTCACTTAGTAACGGCAATATGAAACGACAACTAGCAAGTGTAAATGGTTCTGCAATATCTAGGAAGCGGTCGAGACGACCGAAGCGAAAATCTAGATATTAGCATGAACGCTGTACATATTTCGTCGTTTGATGAATCGCTGAAAAAAAAAATGATATCACATCGGGATTGGGTGGATTTTGTTAGATATGACACTCGGGTCTCGGGACGTGACATAGTTAGAACCGTTATTGATAGGAATCAACTAACCGTTCTAAGTTGAAAGACTTTGGAAGCCATATATGGTATATAGGTCATGTGTGAAGTATATTGGTGGCTGCTGGTAAATCATGTTCATAGCTTTGGGATTATTGGTACCTCGAGCTAGTACGTTTTGGGGCTCGGTTGGATACTCGATGATTTCGGATACTAATTCGTGTAGTTATTCGGATTCGTGTAGTTACTGGCAAATGCTTATCGATACTTGATACTAGAAATTGATATGAAACTTTGAAACGTTAATAGGCTCTCTGTCGAGATGATTCTTGTTCGGTTTCGT ATGTCTCTGGGTTACGCAGAGAAGCTTTCGTTCATAGAAGACGTTGGAAAAGTGGGAATGACAGAACATTTTGACCCACCTCACGTTTTAGAAGAAAAGATTGAGCGACTAACTATGATGATACAAAAGAGCAAGCATCTAGTGGTGTTTACGGGTGCAGGAATATCGACCTCTTGTGGCATACCTGATTTTCGAGGTCCTAAAGGAATATGGACTCTTCAGGCGAGTTATATCTCTACGCTATATCCTAGTCCATTGCGTGAAGGTAAAGCCTTACCAGAAGCGTCACTACCATTTCATCATGCAGCGCCGAGCATGACTCATATGGCTTTGGTTGAGTTAGAGAAGGCTGGTATATTGAAGTTCATCATTAGTCAGAATATTGATGGCCTCCATCTTCGATCTGGCATTCCAAGAGAGAAACTTGCTGAATTACATGGGAACTCGTTCATGGAAACGTGCCCTTCATGTGGAGCTGAGTATTTGAGGGATTTTGAAGTAGAAACTATCGGATTGAAAGATACTTCTCGGAGATGTTCGGATGCCAATTGTGGAGCTAAACTAAGGGATACAGTTCTCGACTGGGAGGATGCATTGCCTCCGAAGGAGATGAATCCAGCTGAGAGACACTGCAAGATGGCTGATATTGTATTGTGTCTAGGGACAAGTTTGCAGATCACTCCAGCATGCAACCTTCCTCTAAAAGCACTTCGTGGCGGGGGGAAAATTGTCATCGTTAATCTTCAGAAAACACCAAAGGACAAGAAAGCAAGTTTGGTTATCCATGGTCGTGTCGATAAGGTCATTTCGGGCGTAATGGAGATCCTAAAGATGCAAATTCCCCCGTTTGTTCGAATTGATCTTTTCCAGATTATACTTTCTCAAGCCTTGAGTCTTGACAAGAAATTTGTCAACTGGACACTTCGAATATTAAGTGTGCATGGACAGAAAGCTACATTGCCATTTATCAAATCTGTTGAGGTTTCGTTCTTGGATAATCAAGATTTCAAATCAGCCACTTTAGAGAGCCAACCGTTTCTCCTTAAAAGAAGAACAGTAAAGGAAAAATCATTTGAATTGGTTTTGAGGCTCAACTTCAGCGAAGGGTGTGGTAGCTCGCATGTTGAAGTTAATATCCCTGTTGATTTTAAGGTCTCTGCAGATTCTTTGAATCTCGATAAGGAGGTCGTTTTTCGGAGACTAAGAGACGAGGCAGTTCAAGACTTCTTCTGTGGAAAAAATGCAGTTATCGAGCGAAAATCCATCCCGTTCCCAAAGAGCGAGGTCACGGTATATGCCACTGTTACCAATGTTATTAGGTACACCCAAGACTTGAAAACGTTAGCTATAGATTCACTTAGTAACGGCAATATGAAACGACAACTAGCAAGTGTAAATGGTTCTGCAATATCTAGGAAGCGGTCGAGACGACCGAAGCGAAAATCTAGATATTAG MSLGYAEKLSFIEDVGKVGMTEHFDPPHVLEEKIERLTMMIQKSKHLVVFTGAGISTSCGIPDFRGPKGIWTLQASYISTLYPSPLREGKALPEASLPFHHAAPSMTHMALVELEKAGILKFIISQNIDGLHLRSGIPREKLAELHGNSFMETCPSCGAEYLRDFEVETIGLKDTSRRCSDANCGAKLRDTVLDWEDALPPKEMNPAERHCKMADIVLCLGTSLQITPACNLPLKALRGGGKIVIVNLQKTPKDKKASLVIHGRVDKVISGVMEILKMQIPPFVRIDLFQIILSQALSLDKKFVNWTLRILSVHGQKATLPFIKSVEVSFLDNQDFKSATLESQPFLLKRRTVKEKSFELVLRLNFSEGCGSSHVEVNIPVDFKVSADSLNLDKEVVFRRLRDEAVQDFFCGKNAVIERKSIPFPKSEVTVYATVTNVIRYTQDLKTLAIDSLSNGNMKRQLASVNGSAISRKRSRRPKRKSRY Homology
BLAST of CmaCh09G010140 vs. ExPASy Swiss-Prot
Match: Q9FE17 (NAD-dependent protein deacetylase SRT1 OS=Arabidopsis thaliana OX=3702 GN=SRT1 PE=2 SV=1) HSP 1 Score: 652.9 bits (1683), Expect = 2.8e-186 Identity = 324/485 (66.80%), Postives = 395/485 (81.44%), Query Frame = 0
BLAST of CmaCh09G010140 vs. ExPASy Swiss-Prot
Match: B8ARK7 (NAD-dependent protein deacetylase SRT1 OS=Oryza sativa subsp. indica OX=39946 GN=SRT1 PE=2 SV=1) HSP 1 Score: 555.8 bits (1431), Expect = 4.7e-157 Identity = 280/481 (58.21%), Postives = 356/481 (74.01%), Query Frame = 0
BLAST of CmaCh09G010140 vs. ExPASy Swiss-Prot
Match: P59941 (NAD-dependent protein deacetylase sirtuin-6 OS=Mus musculus OX=10090 GN=Sirt6 PE=1 SV=1) HSP 1 Score: 282.3 bits (721), Expect = 1.0e-74 Identity = 143/287 (49.83%), Postives = 189/287 (65.85%), Query Frame = 0
BLAST of CmaCh09G010140 vs. ExPASy Swiss-Prot
Match: Q8N6T7 (NAD-dependent protein deacetylase sirtuin-6 OS=Homo sapiens OX=9606 GN=SIRT6 PE=1 SV=2) HSP 1 Score: 280.4 bits (716), Expect = 3.8e-74 Identity = 141/287 (49.13%), Postives = 189/287 (65.85%), Query Frame = 0
BLAST of CmaCh09G010140 vs. ExPASy Swiss-Prot
Match: Q9VH08 (NAD-dependent protein deacetylase Sirt6 OS=Drosophila melanogaster OX=7227 GN=Sirt6 PE=2 SV=1) HSP 1 Score: 249.2 bits (635), Expect = 9.4e-65 Identity = 129/290 (44.48%), Postives = 182/290 (62.76%), Query Frame = 0
BLAST of CmaCh09G010140 vs. ExPASy TrEMBL
Match: A0A6J1IE68 (NAD-dependent protein deacetylase SRT1 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111476427 PE=4 SV=1) HSP 1 Score: 926.4 bits (2393), Expect = 4.9e-266 Identity = 472/484 (97.52%), Postives = 472/484 (97.52%), Query Frame = 0
BLAST of CmaCh09G010140 vs. ExPASy TrEMBL
Match: A0A6J1FDE4 (NAD-dependent protein deacetylase SRT1 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111443095 PE=4 SV=1) HSP 1 Score: 915.2 bits (2364), Expect = 1.1e-262 Identity = 467/484 (96.49%), Postives = 469/484 (96.90%), Query Frame = 0
BLAST of CmaCh09G010140 vs. ExPASy TrEMBL
Match: A0A6J1IKF7 (NAD-dependent protein deacetylase SRT1 isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111476427 PE=4 SV=1) HSP 1 Score: 849.7 bits (2194), Expect = 5.8e-243 Identity = 434/446 (97.31%), Postives = 434/446 (97.31%), Query Frame = 0
BLAST of CmaCh09G010140 vs. ExPASy TrEMBL
Match: A0A1S3CI81 (NAD-dependent protein deacetylase SRT1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501252 PE=4 SV=1) HSP 1 Score: 845.5 bits (2183), Expect = 1.1e-241 Identity = 423/484 (87.40%), Postives = 450/484 (92.98%), Query Frame = 0
BLAST of CmaCh09G010140 vs. ExPASy TrEMBL
Match: A0A6J1CGI6 (NAD-dependent protein deacetylase SRT1 OS=Momordica charantia OX=3673 GN=LOC111010606 PE=4 SV=1) HSP 1 Score: 839.7 bits (2168), Expect = 6.0e-240 Identity = 423/484 (87.40%), Postives = 447/484 (92.36%), Query Frame = 0
BLAST of CmaCh09G010140 vs. NCBI nr
Match: XP_022975852.1 (NAD-dependent protein deacetylase SRT1 isoform X1 [Cucurbita maxima]) HSP 1 Score: 926.4 bits (2393), Expect = 1.0e-265 Identity = 472/484 (97.52%), Postives = 472/484 (97.52%), Query Frame = 0
BLAST of CmaCh09G010140 vs. NCBI nr
Match: KAG6592099.1 (NAD-dependent protein deacetylase SRT1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 919.8 bits (2376), Expect = 9.5e-264 Identity = 469/484 (96.90%), Postives = 470/484 (97.11%), Query Frame = 0
BLAST of CmaCh09G010140 vs. NCBI nr
Match: KAG7030271.1 (NAD-dependent protein deacetylase SRT1 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 919.8 bits (2376), Expect = 9.5e-264 Identity = 469/484 (96.90%), Postives = 470/484 (97.11%), Query Frame = 0
BLAST of CmaCh09G010140 vs. NCBI nr
Match: XP_023536490.1 (NAD-dependent protein deacetylase SRT1 isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 917.1 bits (2369), Expect = 6.1e-263 Identity = 468/484 (96.69%), Postives = 469/484 (96.90%), Query Frame = 0
BLAST of CmaCh09G010140 vs. NCBI nr
Match: XP_022936498.1 (NAD-dependent protein deacetylase SRT1 isoform X1 [Cucurbita moschata]) HSP 1 Score: 915.2 bits (2364), Expect = 2.3e-262 Identity = 467/484 (96.49%), Postives = 469/484 (96.90%), Query Frame = 0
BLAST of CmaCh09G010140 vs. TAIR 10
Match: AT5G55760.1 (sirtuin 1 ) HSP 1 Score: 652.9 bits (1683), Expect = 2.0e-187 Identity = 324/485 (66.80%), Postives = 395/485 (81.44%), Query Frame = 0
BLAST of CmaCh09G010140 vs. TAIR 10
Match: AT5G09230.2 (sirtuin 2 ) HSP 1 Score: 114.8 bits (286), Expect = 2.0e-25 Identity = 85/304 (27.96%), Postives = 127/304 (41.78%), Query Frame = 0
BLAST of CmaCh09G010140 vs. TAIR 10
Match: AT5G09230.1 (sirtuin 2 ) HSP 1 Score: 114.8 bits (286), Expect = 2.0e-25 Identity = 85/304 (27.96%), Postives = 127/304 (41.78%), Query Frame = 0
BLAST of CmaCh09G010140 vs. TAIR 10
Match: AT5G09230.5 (sirtuin 2 ) HSP 1 Score: 114.8 bits (286), Expect = 2.0e-25 Identity = 85/304 (27.96%), Postives = 127/304 (41.78%), Query Frame = 0
BLAST of CmaCh09G010140 vs. TAIR 10
Match: AT5G09230.7 (sirtuin 2 ) HSP 1 Score: 114.8 bits (286), Expect = 2.0e-25 Identity = 85/304 (27.96%), Postives = 127/304 (41.78%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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