CmaCh08G006670 (gene) Cucurbita maxima (Rimu) v1.1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATTACCAACTTTTACACTCATTTGAAAGTGGATGAGATCGGTCGAGTGGTATCAGTTGGAGATGGTATTGCACGTGTTTATGGATTGAAGGAGATTCAAGCTGGGGAAATGGTGGAATTTGCCAGCGGTGTCAAAGGAATAGCCTTAAATCTTGAGAATGAGAATGTAGGGATTGTTGTCTTTGGTAGTGATACCGCTATTAAAGAAGGAGATCTTGTCAAGCGCACTGGATCGATTGTGGATGTTCCTGCGGAAAAGGCTATGCTCAGGAGTGTGGTCGACGCATTGGGAGTACCTATTGATGGAAGAGGGGCTCTAAGCGATCACGAACGAAGACGTGTCGAAGTGAAAGCCCCTGGGATTATTTCACGTAAATCTGTGCACAAACCTATGCAAACAGGGTTAAAAGTGGTAGATAGCCTGGTTCCTATAGGCCGTGGCCAACGAGAACTTATAATCGGGGACCGACAAACAGGAAAAACAGCTATAGCTATCGATACCATATTAAACCAAAAGCAAATGAACTCAAGGGCCACCTCTGAGAGTGAGACATTGTATTGTGTCTATGTAGCGATGGGACAAAAACGCTCAACTGTGGCACAATTAGTTCAAATTCTTTCTTCAGGAAATGCTTTGGAATATTCCATTCTTGTAGCAGCCACCGCTTCGGATCCTGCTCCTCTTCAATTTCTGGCCCCATATTCTGGGTGTGCCATGAGGGAATATTTTCGCGATAATGGAATGCACGCATTAATAATCTATGATGATCTTAGTAAACAGGCGGTGGCATATCGACAAATGTCATTATTGTTACGCCGACCACGAGGCCGTGAGGCTTTCCCAGGCGATGTTTTCTATTTACATTCCTGTCTCTTAGAAAGAGCCGCTAAACGATCGGACCAGACAGGTGCAGGTAGCTTGACCGCCTTACCCGTCATTGAAACACAAGCTAGAGACGTATCGGCCTATATTCCCACCAATGTGATCCCTATTACTGATGGACAAATCTGTTTGTAAACAGAGCTCTTTTATCGCGGATTTAGACCCGCTATTAACGTCGGCTTATCTGTTAGTCGCGTCGGGTCTGCCGCTCAGTTGAAAGCTATGAAACAAGTCTGCGGTAGTTCAAAACTGGAATTGGCACAATATCGCGAAGTGGCCGCCTTTTCTCAATTTGGGTTAGACCTTGATGCAGCGACTCAGGCATTACTCAATAGAGGTGCAAGGCTTACAGAAGTACCGAAACAACCACAATATGCACCACTTCCAATTAAAAAACAAATTCTAGTCATTTATGCTGCTGTCAGTGGATTCTGTGATCGAATGCCACTAGACAGAATTTCTCAATATGAGAGAGCCATTCCAAGTCGTATAAAACCAGAATTACTACAATCCCTTTTCTCAAAAAGTGGGTTAAATAACGAGAGAAAGATGGAACCAGATGCATTCTTAAAAGAAAGCGCTTTGCCTTACCTATGATGTAAAATCAAACTGGATGATGCAAGCTCCTGGAGGGGGTCCCCAGTTCATGTGAAATGTAGGTTTCAGAAAAAGGAAGGAACCGAGGTTATGAGAGTAAGTGGAGTTGGGCGGGCTACTCTCCAGGCCTCATTCATTTCTCGAGGAGTGCGTTAGTCTTTCGGCTGAGGGACATATTTAAATGTGTACGTACATTCCACAATACACGACTAAATAGACACATATAATAAACCTGAAGCATTGGAGGGTGTCGAAAGACTTGTAATGGAACGCAATAGCACAATTAGCATTTTTAAGCACTCGAACAATCTTTTTCTTGCTAGGTTGGGGACAGCTAGTTTGGGAACAGTGAGATTAGCTATGACGGTAGGTGAATCAGTCACGATAGAGGGAATTTCTCTCTCATTGATGCGGCAAAGACTTTTTGTCAAGACGATAAAAGAAATAAAGGGAGAACCAAAATGCATCTTTAATAGCTTTTTCTCTTTCTTGCTTCTCGTTTCATAGAACGCGTAGTTCCTTGTATTATCGGATTTTATACCTAGGGTTGAGGTTTAAACACCAATTCCACAGGGAAAGGGTTTGGTATGTAAGTAAAAAGGCCTGATTTTCCTGGAATCCTACCAAGAGTCCGTTTATAATAAACCAAGGGAAGTTCTTTATATATATAGTCTGAAAAGATTGATTCAAAAGAGACCCAGATCCATTACTTGAAATTACGACGGAAATGGTGACTCCAATAACGATCGGTTTGCGGTGTCCGTCCTTTCTAGGCCTTTTGAATATTAAAGATTCATTCACCATTTAGCCAAAGATGCACATCCTTAAGAGTAATTGCTCAGAGCCTTCCAAACTCGATTATCCCACTGTAGAGTAGAGTAGGAGGTTGTCACCGCCTTTTGCCTAATAAATAGCGGTGAAATTACACCACAACTGAAAGAGAAGGACTTGCCATAGTACATTCTGTACAGAAGTTTCGGCTAGATTAGGCACAAAATCGTCTACGTGGACCACCAGGCCTTGCAAAAGCGGGGGTACTACTGGCCGGACATGCGAGACGACGTTGCTGAGTATGTGAAGACGTGCCTCGTGTGTCAACAGGACAAGGTCGAGCGAGACAGACTCCTGAGCCTCTTGGAGTCGTAGCCTGTACCACAAAGACCATGGGAAAGTGTCTTCATAGATTTTCTCACCGCTCTGCCAAAAAAGGGAGTATGGGTCTTGATCGTGGTGGACCGACTCACCAACAAAAAGAAAGATGCAAATCTTTTGCAATGAGACCATCCATATTCCTTATAAATGGGCAAGACTCGCTCAGATTTTTTTCGATAATATCCTCATGGCAGGAGCTCTTTCGTTTACAAGGGATAGAATTTCAGATGAGTACAACTTTCCCAGACCGAGGTGGTTAACGACTACTACTACTACTAATCCAAAATTTTCTACTTAATTTAAGATCGTTACTGTATACGTACCATAAACATTGAATGCGGAAGACTTCATTAAAATTTCATAAAACATAACCTTTATCTTAAAACACAGCCATGGACTTACGTGTTTCGAAAACATGTTTAAAATGACACAACAAAAGACTAAATAAAATGAATAAGAGTTTAAGTTAAAAACATTCTATTCTAGCTTAGTCTAAGAAAATAAATACCACTATCCTATGCATGTGTCATGGTCTCGAGTTGCGATGCCGTCGTCAGCTGTACAGGAATGTCTTGCCTTAACCTGAAAAATGTAGTAGCACATGACTTGAGTATTTAAAGAAATACTCACTAAGTGACTCCACTATTTGGGTTAAATGCAACAATCACATGCAATGAGATGATGGGATCTATCTTTCATTCCATTTTTTCTACGGTGCTGTTCTAACGGGTAATTTTGGATGTGTACCATATACTCTACACACAGCCCATACGTGCGAGTATGAGCTCACCAGCTAGTTCGCACACCGCTGGGCCACCTTCCTTATCTGGTGGGCATACTCTGGGAGCCCCTTAGGTCGGACACCCGCTAGAACTAGTAACCGTCACGGCAACGCTATGCAAAGCATAACTAGAGTTTTCCTGCCATTGGATGTACGCGCCCGTACCCTCGTGATGGGATAGGGGTATCCTCCAAATGCATGAGCACACATAATGCATGAGGTCCCAAAAATTTTTCATTTTCATTATCCTTTAATACAACCCCGCTAGCATTATGTACATATCATATCATTTTTCATATCGTTTCAGATATCGTTCATCATTCATGTCATATCGTTTCTCATTCTTCATTTCTCAAATCATACATAATTCTAACGGAATTATACTTCATGCCATTTATCGTAATTTCATGTCATTCATATCATGCTATGTACACACAATTTAAGAGACCTAACATAACGTTCTATGCTTTTAACATAACATTTCATCATATACACATCATATCATGACATATTGCATCACAATGTCTTATACCATAAACGAGTCATAACATAAACACTTCATAGTCATATCGTTCTCTAACTTATCATAGTCTTAACGTTCTTATACCTATCACAGACATATGATTACGTGAACGTACCTTAGTCATCTCATCACAAGAATTTAACCTAACGCTATCGTTCTATCAATCCCAACGCTATCGTTCTATCAATCTATCACAAACCTATCCCTTTCTACCCGTAGCCTAACTGTATTCTTCCATCAATCTCTCTTATCCATATCATTTTGGTATGTAACCTAACCTTAACGTTTCATGAACGTATTTTACTCCTATCGTTACATTTCGTTTTGTGCATCTTTCTTGTATCATATCTCAAACATATCCTTGAACACATCGTATTGTAATTATTATCATACAATTCACATATTATAACATATACATAACACATAGGAAGCATATCAATTCACACATATCAATATATATGACACGTGCAGAACCATAGGGCACGTGTCAACATCAAATATAACCATGCCGATAGTAAGGTCATTTACCTGGTTAGCTTAGGCTGATGTTTCGTCGTTATCCTTAATGAAAGTCCATTGAAATCCAAGTCAACCTATGTGAGCTCATGACATCAGTTTCAAGTTTGAACTCTATAAAATTATTTCTATAATTTAGATGAGTCATTGTTAAATTCTGATATTTACTATTAGATGAAATTTAATAGATTTTCTTGTTTTATTTTTTTAATTCGTGCAACAAATCTTTCCTAATCTTCCCTCTCCCTTTGTAATTAGATATTATTGTCTAATTTTGTTAATCTATTCTTACTCTCAAATCTTCCATTTTTATTTTTATTTCTTTTTTTTTTTTCTCAAAGAAACAAGAAAAAGCAAAGTTGCTTCAAATGTTGAGAAGAAGGACACTATGCTAATAAGTGTAGAGAAAAGATCAATGAGTTGGATATTGATCAAGAGTTGAAGAATCAATTACTACGACTAGTTCTAACCGACTCAGAACAATCCAGCGAGGGAGAAATCCTCGAACTTCAAGAAGAATCCGATTCATATTCCAGTACAGAATACGAATCAGAACAGGAGGGAAAAAGGACATGCGAAGGATGCATAAATGTCCTTACAAAAGATCAAGAGATTCTACTCGAAGTGGTAGAGAAACTTTAAGATCAAGAAATACAGCAAAAAAATTTCTCAAAGACTTAGAGATGCGATGATGGTCTCTAAGCCACCAGAAAGGGAAGAGAAAGATCACTACAGACTCCCATTAGTCCTCCAAAGGTTTGAAAAACCTAGAGAACTAACTACCCAAGACCTTCAAAGAGAGATTAATAATCTCAAACAAGAAGTACAGACATTATGATCTGAAACAAGGTTAGAATCTTATATGCTTCGCCAAGAGGTTCTCAAACTTCAAGAAAGGTTGCTCGAACAAAGGGAAACGACGCAACCAAACCTAGATGAAGATGATTTTCAAAGTTCCTTCGTTGGAGCCATCACCACTTCTCAATATCAAAAATGGTACGCTCTCGTTACCTTGAAAATTTATGATTTCAAAATCACATTAAAGGCTCTCATAGATACAGGAGCCGATCAAATCTGTGTTCAAGAAGGTCTAATACCTACAAAATATTTTGAAAAAACTAAAGAAGACTTTAGAGGTGCAAACAAGAACAGACTCAAAAGTAATTACAAATTATCAAAAGTCCATGTTTGTAATGAAAGAATTTGCTTCGTAAATTCCTTCTTTTTAGTAAACGACTTAGGGCAAGAATTAATCCTAAGTACTCCTTTCATTACTCAATTATACCTTTCAAAATAAATGTAAAGGGGTTAGAGTTAAAAGCCTTAGTAAAGAAGATAAAATTTAATTTCCTTTCCCCTATAGGATTAGTGAAATAAATAATCTTCAAAAGAATAGAAGAACAACTTCAAAGTAAGAGTGTTCCGTCTAAAATCAAAGCTTTACAAGACCAAATAGAAAGAAAAATTTGTTCAACTATCCCTAATGCCTTTGGAATATGAAGCAATAGATAGTTAATCTTCCTTGTATCAAAAACTTCGAAGAAAAAAATATTCCTATGAAAGCCCGACCTATTCAAATGAATAAAGAATTACTAACATTATGCAAAGCAGAAATTAATGATCTTTTGCAAAAGGGTCTTATTATGCCATCAAAGAGTCCCTGGTCATGTGCGGCTTTTTAAGTCAACGACCAAGCAGAAAAGGAGTGTGGAGTCCCGCAACTGGTAATAAACTACAAACCCTTAAATAAGGTTTTGAAATAGATTAGATATCCAATTCCAAATAAATCAGATATAATACAAAAAATTTCTAATGCAAAAGTATTTTCAAAATTTGATATGGAGTCACGATTTTGGCAAATCCAGATTTCAGAAAAAGACAAGTATAAAACGGCTCAACGTCCCTTTCGGACAGTACGAATGGAACGTTATGCCATTTGGGCTAAAAAACGTTTCATCCGAATTTCAAAAAATTATGAATGATATTTTCAATCATTTTCAAGTCTTTTCAATTGTTTATATTGACGATGTTCTGATTTTCTCTCAAAATATTGATCAACATTTTAAGCATCTTTAAACATTTTTTACAACAATAATTAAACTTTTTCAAACAAAAATCCGTTTTCTTGGATTCGAGATTCATTTGGGTCTAATTAAACCCATTCAAAGATCCATTGAGTTTGCCTCAAATTTTCCGGATCAAATCACGAATAAAACCTAGCTCTAAAGATTTTTGTGATGTCTCAATTATGTGTCTGATTTCCTTTCAAATACTAAACCCATTTGCGAACCATTTTTTTAAAGACTCAAAAAGAATCCAAAGTCGTGGATTGAAGAACACACCAAAATAGTAAAAAAAAAAAAAACAAATCCCTTTTCAAATCAATTCCATGTTTATCTCTAATAAACACGAGGGCTAGTTTAATAGTGGAGACCGATGCATCCGATATAGGATATGGAGGAATCCTAGAACAGACCTTTGACAAGAAAGAATCCATTGTCGGTTTAAATTTGGGAATATGGAATTTTACTTAAAAAAATTACTCAACAGTAAAGAAAGAGAATAGTACTCTGCCTACACAAATTTCAAAGTGATTTAATTAACAAAAACTTTGTTATCAAAACAGACTCTAGAGCATTCAAATTTGTTTTAGAAGAGGATGTGAAGAATCTCATATCTAAACAAATTTTTGCTAGATAGCAAGCAATTTTATCTTGCTTCAACTTTCAAATTTTGCCTATCAAAGGGGTCGAAAACCCCTTGGCAGACTACCTTTCAAGAGAGTTCTTACTCTCGAAGAAATACTCTCCCTAACCACTCTCCACCTTGAGATAACCGGAAAGAAGATGATGGAAAAAGGGAAGAAGCCTGTTGCTTCTTTGAACCCCCGTACTCCAATGACATCTAATAGTTATGCGATGGATGCTTGTTTCACACTAGTGATTAGGTCTAAAGCAAAACTTTCTAAAAAACAAGCGGAGGTTATCACTTCGACGAGGCCTTCTGCCTCTTCAACACGGTCATCTGCCGCTACTCCATCGAGACCTATTGTCTCTTCCACTTCAAAGGGACCTTCTGTCCCCTCAACCTACTCGGACGCAGTTGTTCCTGCTCGATTCTCTTCAGTTCCTGAAATCATGACTTATTTTAAAAAATATGTATCTCTACCAGAATCTTTGGTAGAACCAAAATACGACGATCCAAAAATCAGCGAGGTCGTCAAAAAATCCTATCCATTGGGATTTTCTATGTCCCCAAAGACCTTCATAAGAACAGAAGGTTTTATGAATTCATTTTGGTTGACACCAAGTCTGTCGAGATTACTCATATTTCGAGTCACGAAGATCCTTCAAAAATCGTATACTCAAAATTAAAAATTTTTAAAGTCATGAATCCAATGTACTAGAATCAAGATCTGTCTTCCTAGCCACTCAAACACATCAACGTTGGTTGGATGGAAAGTATTATTTTTAATTTCATAAATTATGTAAGGGTCAAATGGTCAATTTGACTTCGTCTTTTGTGGTGATGAAAGGGAATCGGGATTAAATCCCAACCACAAACTTTTTTGTCAGGAGACTCTAAATACCCACAATATGTTATGTAGAAATCAGATTGTAGATGAATGTAATTCAGATCTCAAATTGAGACGTTTCCTTAGAAATCTGAGGATCAATTTTGTCATTTCTAAGTTTCAAGCAATTCTTGTGGTAGAATTGTATCTGAGTCATTCAATCAAGCATTGATCAAGTTCGATTGTATACTGACTCAATTTAAAACAAGGTTTCCAAATCTTTCTTTTAGATCTTCAATCAGAAGAGTAATCTAATTCTGCCTTATCTCTTGGTTGATTTCAATTTTGTATAAGGAGATATTAATTACTTTGATTCAAGGGTTCTTTCTTCAATGAAAGCTTGGATCATTGGGCGGAAGATTTGGATTTCTTTATCAATTTGGTATCAGAGTGTAGGTTACATCTTTGTGGCCGACTCTAGAATTAATTTATCTTTCATTGCTGGTGTTGTTTATCGTTTCTTTAAATCTGTCTATTTATTATTTTTTTTTTTTTTGTTGTCATTTCCACCGTTCTTCATTATCTTTCCACTTTTTCACCTTGTTCTTATTGTCTTCTTAAAGATCTTATTTAGATCTTGGAAAAAAAATTCCTTATCATATTGTTCTTAATATTGTATTTATAAATCCTTATTATTAGACCATTTACATGTTTATTTGAAGATTAAATAAATTTGAATTCTCATTTTTTTCTTAAAGCATATAAATCTAGAATTGTTGTGTTCGATATTTTTCTTTCATCATTTAAGTACGAAGATAAATTCTAAATTTTCCATAATTCTGTAAAAAGGAAAGTTAGATCGTTCTCAAATCTTCACGACCATTCTCTTTGCAATTCATTTTTTTAAGTGTGAAATTATATCCAAAAATATCTTTGTCCCTTATTTATTTGTTCATTTTTATTTTGTTGTTACTACATAATTACCTTGTCTTGATTGTCTTGAATAGCTCGCTACTATCAAAATTGTTTTATCTATATTACCTACCTTAATCATAAATTAGTCACTAATAGCCTACCTTTGTGTGTTAAACACGAGTGTTCTTGAGTGTAAAATCAGTGAAGTGAGTGTGTGAGGTCCTAAGCATATATATCTACTGTTTGTACAATCATGAACCAAGACGAGGAAAATGGAGGGGAGATCAATGATTTAGTTGAAGAAGTCCAGAAAAATGAGGAGGAACTGAAAGATGGGATTCATTTGGCAATTATTACAAGAAGATTTCTTAAAAACTCAAGTTACGGAGAATAATGTTGATGATCAAAGAGCAAATTGTTTCACACGCGATGTTTAGTCAAGGGGACTGCTTGTAGTCTTGTCATTGATAGTGGAAGTTGCACCAATGTTGTAAGTACCATGTTGATCAAAATGTTGCAAATTTCGACTCAACACCATCCTAAACCTTACAAGCTTCAATGGCTCAATGATAGTGGCACAATGAAGGCAGTTTCCCAAGCTTTAATATCTTTGACTTTGGGAAAATATAAAAATGAAGTTTTTTGTGATGTTTTACCAATGCATGCTGGAGACATATTGCTTGGCCGACCATGACAATTTGACAGGAGGATCATGTATGATGACTATTTGAATAGGTATTCTTTAGTAAAAGATGATAGAAAAACCACTCTTGTACCTTTGAGTTCTGCAAATGTATTTGTTGATCAATTAAAGTTGGAGGAAAAAAAGAAAGAGTTTGAGGAAAAAGAGTTGAAAGAAAAACCAGAGTTAAAGTGAAAAAATAGAGAAAAAATGAAAAAGAAAAACATAGTGAAAAGAAGAATGAAAAAGAGATGAAGTTGAAGAAAGAATGAGAGAGAGTTGTTTGGCTAGAGTTGGAGAGGGCAGGAAGTTTTCACAAAAATCAATCTTTGTACTTAAAAGAACTACCTCCCATTAGAGGTACTGAACCTCAAGTAGACTTCATTCCAGGTTTTGTCATTCCTAATAAGCCAGCTTATAGAGTAAATCCAACTGAGACTAAAGAAATACGAACGCAAATGGAGGAGCTCATGGAGAAGGGCTATATACAAGTGATGGTGTTAATATAATACATCCGGAAGCAATTTGGATCTTAGGCACTCTAAGTACATCAATTATAGTAAATTAGCTAGCATGTTCAAAAGCATTACAACTCAATGAGTTTGAATACTAACCTTTTGTAGTTCAAATTTCTTTTTCCTCACGATCCGGTTTCGAACCACCATTAGTGTCTTCCCTACTATTCTCCGGCCTTAGAACGGGATTGTAGAATCTAGTGAGTGACTAAACTTGAAAGGAATTTAGTATATGTAAAGAGAGTTTGAAGAGAATTTCTCAAAGTTTTTTTTTTTTTTCAATAAAACCTTCCATGTACCTTCATCACTCTATTTATAGAGTGATATTTGTATGTTAATGCAAATTTGAGATTACCAAATTTTGAAACTCAAAATTTCACCCAAATTTGTGGGATTATGTGGCAAGTATGAGTTAACCAAATTTTGACACTCAAAATTCCACTCAAATTGATGGGGATTATTTGGCAAAATGCAAGTTTGGTTAAACCAAATTTTGACACTCAAAATTTCACTCAAATTTGTAGGATTATTGGCAACCATGCAAGTTTGTTAAACCATATATTGACACTCAATATTCCACCAACTCAAACATGGATTTTTCCATTAAGTGAAACATTTTGACTTTCTCCATTTTAATTCAACAATTAATTTAAATAATTAATTTCAAATCAAAATAATATTAAATGATTAATTAAACAATTTAATTAATATTTAACATTAAATCAAATGCCAACCGAATCAATTACGACATATATTGATTATGAATTCTTATTCATAATTAAAATATTTAGTATATATTTAGTGCATATTCCCTAATTTGAGTTCGAACACTTCAAACTCACTCGTCACACTGTTCTAAGGTTTCCAAATCTTGCTTATAGATCTTCGATCGTAAGAGGTAACCTAATTCTAGCCTTATCTGTTGGTTGATCCAAATTTTGTATAAAATAGTTACTATATATTTAGTGCATATTTCGTAATTTGAGTTAGAACACTTCAAACTCACTCGTGACACTGTTCTAAGGTTTCCAAATCTTGCTTCTAGATCTTCGATCCTAAGAGGTAACCTAATTCTAGCCTTATCTCTTGGTTGATCCAAATTTTGTATAAAGAGGTGTTAATTAGTTTGATTCAATGGTTCTTGCTTCAACAACACCTTGGATCGTTGGACTGAAGATTAGAGTTGACTTATCAGAAAGGTTCTTACAATGTTCGTTCAAATAAAGAAGCATTCTTTTTTTTGACTGAAGGAAGGCTTGATAAGAAGGGCTTGGGACCTATGAACGGAACAAAACAAAAAACATGAAAGAATGAAGCAGAATGAACGGGAGGCGTCGGAGGAAGGACTGACAAACTACTTACTTGTCTTTGGTTAACTACTTTACTTACTTGGGGTTTGTTCTCGTAAGTGGGATACCTACACCCTGCACACACACTCACTCTATCTATATACTACTACATTGATAGCCTTTCACAAACCTCTCTCTCTCTACTAATCGACATTTTTTCAGGTTGAACCAAGCCCAGATCCAACTGAGAAATTAAATGGAATACTCTAAGATGCTTCATAGCTTCAATAAGCCCATATTCTTCCAAAAAATATGAGAGTTCCAAACCTTTATTGAAGAAAGAGCACTTGCCTAAATCTCAAAACAAAAGAGAACGTTCCTTTCACAACCCAAGGACGATATCTTTCATAGCAGCCAAGGATGAGTTCGATCCATTAGGTTCTTCGATTTATACGGAAAAGAAATGAGAGACAAGAAAGCATCTTTGATTACGATTAAAAGGAACAATCTCAAATACACTAAGATCCAATTTCGGGTCATTTCTTGGTGAACATGATTTGCCATAATCTCTTCGATCCTTGAATTTATGTGACAGAATACAATAGATTTGGTAGGAAAGTAGAGGATACTTTTTGTATATAATAATTAAAGAAAGAAGTAAAGAGCTTTCAGTCTGTCAATCCTTACTATGTCTGGACCTGGTAAGTTTCCCCGTGTTAAGTCAAATTAAGCCGCAGGCTCCACTCCTGGTGGTGCCCTTCCGTCAATTCCTTCATGTTTCAGCCTTGCAACCATACTCCCCCCGGAACCCAAAGACTTTGATTTCTCATAAGGTGTTGGCGGAGTCCTTAAAGCAACATCCGCCAATTCCTAGTCGGCATCGTTTATGGTTGAGACTAGGACAATATCTGATCGTCTTCGAGCCCCCAACTTTCGTTCTTGATTAATGAAAACATCCTTGACAAATGCTTTCGCAGTTGTTCGTCTTTCATAAATCCAAGAATTTCACCTCTAACTATGAAATACGAATGCCCCTGACTGTCCCTGTTAATCATTACTCCGATCCTGAAGGCCAACTGAATAGAATCGAAATCCTATGATGTTATCCCATGCTAATGTATACAGAGCGTAGGCTTGCTTTGAGCACTCTAATTTCTTCAAAGTAACAACGCCGGAGGCACGACCCGGCCAGTTAAGGCCAGGAGCGCATCGCCGAAAGAGGGGACGAGCCAATCGATGCTCACCATAGGCGGACCGATCGACCCAACTCAAGGTCCAACTACGAGCATTTTAACTACAACT ATTACCAACTTTTACACTCATTTGAAAGTGGATGAGATCGGTCGAGTGGTATCAGTTGGAGATGGTATTGCACGTGTTTATGGATTGAAGGAGATTCAAGCTGGGGAAATGGTGGAATTTGCCAGCGGTGTCAAAGGAATAGCCTTAAATCTTGAGAATGAGAATGTAGGGATTGTTGTCTTTGGTAGTGATACCGCTATTAAAGAAGGAGATCTTGTCAAGCGCACTGGATCGATTGTGGATGTTCCTGCGGAAAAGGCTATGCTCAGGAGTGTGGTCGACGCATTGGGAGTACCTATTGATGGAAGAGGGGCTCTAAGCGATCACGAACGAAGACGTGTCGAAGTGAAAGCCCCTGGGATTATTTCACGTAAATCTGTGCACAAACCTATGCAAACAGGGTTAAAAGTGGTAGATAGCCTGGTTCCTATAGGCCGTGGCCAACGAGAACTTATAATCGGGGACCGACAAACAGGAAAAACAGCTATAGCTATCGATACCATATTAAACCAAAAGCAAATGAACTCAAGGGCCACCTCTGAGAGTGAGACATTGTATTGTGTCTATGTAGCGATGGGACAAAAACGCTCAACTGTGGCACAATTAGTTCAAATTCTTTCTTCAGGAAATGCTTTGGAATATTCCATTCTTGTAGCAGCCACCGCTTCGGATCCTGCTCCTCTTCAATTTCTGGCCCCATATTCTGGGTGTGCCATGAGGGAATATTTTCGCGATAATGGAATGCACGCATTAATAATCTATGATGATCTTAGTAAACAGGCGGTGGCATATCGACAAATGTCATTATTGTTACGCCGACCACGAGGCCGTGAGGCTTTCCCAGGCGATGTTTTCTATTTACATTCCTGTCTCTTAGAAAGAGCCGCTAAACGATCGGACCAGACAGGTGCAGGTAGCTTGACCGCCTTACCCGTCATTGAAACACAAGCTAGAGACGTATCGGCCTATATTCCCACCAATGTGATCCCTATTACTGATGGACAAATCTGTTTACCCGCTATTAACGTCGGCTTATCTGTTAGTCGCGTCGGGTCTGCCGCTCAGTTGAAAGCTATGAAACAAGTCTGCGGTAGTTCAAAACTGGAATTGGCACAATATCGCGAAGTGGCCGCCTTTTCTCAATTTGGGTTAGACCTTGATGCAGCGACTCAGGCATTACTCAATAGAGGTGCAAGGCTTACAGAAGTACCGAAACAACCACAATATGCACCACTTCCAATTAAAAAACAAATTCTAGTCATTTATGCTGCTGTCAGTGGATTCTGTGATCGAATGCCACTAGACAGAATTTCTCAATATGAGAGAGCCATTCCAAGTCGTATAAAACCAGAATTACTACAATCCCTTTTCTCAAAAAGTGGTAACAACGCCGGAGGCACGACCCGGCCAGTTAAGGCCAGGAGCGCATCGCCGAAAGAGGGGACGAGCCAATCGATGCTCACCATAGGCGGACCGATCGACCCAACTCAAGGTCCAACTACGAGCATTTTAACTACAACT ATTACCAACTTTTACACTCATTTGAAAGTGGATGAGATCGGTCGAGTGGTATCAGTTGGAGATGGTATTGCACGTGTTTATGGATTGAAGGAGATTCAAGCTGGGGAAATGGTGGAATTTGCCAGCGGTGTCAAAGGAATAGCCTTAAATCTTGAGAATGAGAATGTAGGGATTGTTGTCTTTGGTAGTGATACCGCTATTAAAGAAGGAGATCTTGTCAAGCGCACTGGATCGATTGTGGATGTTCCTGCGGAAAAGGCTATGCTCAGGAGTGTGGTCGACGCATTGGGAGTACCTATTGATGGAAGAGGGGCTCTAAGCGATCACGAACGAAGACGTGTCGAAGTGAAAGCCCCTGGGATTATTTCACGTAAATCTGTGCACAAACCTATGCAAACAGGGTTAAAAGTGGTAGATAGCCTGGTTCCTATAGGCCGTGGCCAACGAGAACTTATAATCGGGGACCGACAAACAGGAAAAACAGCTATAGCTATCGATACCATATTAAACCAAAAGCAAATGAACTCAAGGGCCACCTCTGAGAGTGAGACATTGTATTGTGTCTATGTAGCGATGGGACAAAAACGCTCAACTGTGGCACAATTAGTTCAAATTCTTTCTTCAGGAAATGCTTTGGAATATTCCATTCTTGTAGCAGCCACCGCTTCGGATCCTGCTCCTCTTCAATTTCTGGCCCCATATTCTGGGTGTGCCATGAGGGAATATTTTCGCGATAATGGAATGCACGCATTAATAATCTATGATGATCTTAGTAAACAGGCGGTGGCATATCGACAAATGTCATTATTGTTACGCCGACCACGAGGCCGTGAGGCTTTCCCAGGCGATGTTTTCTATTTACATTCCTGTCTCTTAGAAAGAGCCGCTAAACGATCGGACCAGACAGGTGCAGGTAGCTTGACCGCCTTACCCGTCATTGAAACACAAGCTAGAGACGTATCGGCCTATATTCCCACCAATGTGATCCCTATTACTGATGGACAAATCTGTTTACCCGCTATTAACGTCGGCTTATCTGTTAGTCGCGTCGGGTCTGCCGCTCAGTTGAAAGCTATGAAACAAGTCTGCGGTAGTTCAAAACTGGAATTGGCACAATATCGCGAAGTGGCCGCCTTTTCTCAATTTGGGTTAGACCTTGATGCAGCGACTCAGGCATTACTCAATAGAGGTGCAAGGCTTACAGAAGTACCGAAACAACCACAATATGCACCACTTCCAATTAAAAAACAAATTCTAGTCATTTATGCTGCTGTCAGTGGATTCTGTGATCGAATGCCACTAGACAGAATTTCTCAATATGAGAGAGCCATTCCAAGTCGTATAAAACCAGAATTACTACAATCCCTTTTCTCAAAAAGTGGTAACAACGCCGGAGGCACGACCCGGCCAGTTAAGGCCAGGAGCGCATCGCCGAAAGAGGGGACGAGCCAATCGATGCTCACCATAGGCGGACCGATCGACCCAACTCAAGGTCCAACTACGAGCATTTTAACTACAACT ITNFYTHLKVDEIGRVVSVGDGIARVYGLKEIQAGEMVEFASGVKGIALNLENENVGIVVFGSDTAIKEGDLVKRTGSIVDVPAEKAMLRSVVDALGVPIDGRGALSDHERRRVEVKAPGIISRKSVHKPMQTGLKVVDSLVPIGRGQRELIIGDRQTGKTAIAIDTILNQKQMNSRATSESETLYCVYVAMGQKRSTVAQLVQILSSGNALEYSILVAATASDPAPLQFLAPYSGCAMREYFRDNGMHALIIYDDLSKQAVAYRQMSLLLRRPRGREAFPGDVFYLHSCLLERAAKRSDQTGAGSLTALPVIETQARDVSAYIPTNVIPITDGQICLPAINVGLSVSRVGSAAQLKAMKQVCGSSKLELAQYREVAAFSQFGLDLDAATQALLNRGARLTEVPKQPQYAPLPIKKQILVIYAAVSGFCDRMPLDRISQYERAIPSRIKPELLQSLFSKSGNNAGGTTRPVKARSASPKEGTSQSMLTIGGPIDPTQGPTTSILTTT Homology
BLAST of CmaCh08G006670 vs. ExPASy Swiss-Prot
Match: P05495 (ATP synthase subunit alpha, mitochondrial OS=Nicotiana plumbaginifolia OX=4092 GN=ATPA PE=3 SV=1) HSP 1 Score: 815.5 bits (2105), Expect = 3.5e-235 Identity = 428/471 (90.87%), Postives = 439/471 (93.21%), Query Frame = 0
BLAST of CmaCh08G006670 vs. ExPASy Swiss-Prot
Match: Q06735 (ATP synthase subunit alpha, mitochondrial OS=Beta vulgaris OX=161934 GN=ATPA PE=3 SV=1) HSP 1 Score: 811.2 bits (2094), Expect = 6.5e-234 Identity = 426/466 (91.42%), Postives = 438/466 (93.99%), Query Frame = 0
BLAST of CmaCh08G006670 vs. ExPASy Swiss-Prot
Match: P18260 (ATP synthase subunit alpha, mitochondrial OS=Helianthus annuus OX=4232 GN=ATPA PE=3 SV=1) HSP 1 Score: 808.5 bits (2087), Expect = 4.2e-233 Identity = 427/471 (90.66%), Postives = 437/471 (92.78%), Query Frame = 0
BLAST of CmaCh08G006670 vs. ExPASy Swiss-Prot
Match: P05492 (ATP synthase subunit alpha, mitochondrial OS=Oenothera biennis OX=3942 GN=ATPA PE=3 SV=1) HSP 1 Score: 808.5 bits (2087), Expect = 4.2e-233 Identity = 425/473 (89.85%), Postives = 438/473 (92.60%), Query Frame = 0
BLAST of CmaCh08G006670 vs. ExPASy Swiss-Prot
Match: Q01915 (ATP synthase subunit alpha, mitochondrial OS=Glycine max OX=3847 GN=ATPA PE=3 SV=1) HSP 1 Score: 803.1 bits (2073), Expect = 1.8e-231 Identity = 426/466 (91.42%), Postives = 435/466 (93.35%), Query Frame = 0
BLAST of CmaCh08G006670 vs. ExPASy TrEMBL
Match: D5I3E1 (ATP synthase subunit alpha OS=Cucurbita pepo OX=3663 GN=atp1 PE=3 SV=1) HSP 1 Score: 836.6 bits (2160), Expect = 5.3e-239 Identity = 443/471 (94.06%), Postives = 448/471 (95.12%), Query Frame = 0
BLAST of CmaCh08G006670 vs. ExPASy TrEMBL
Match: A0A7D5Y002 (ATP synthase subunit alpha OS=Luffa acutangula OX=56866 GN=atp1-1 PE=3 SV=1) HSP 1 Score: 835.1 bits (2156), Expect = 1.6e-238 Identity = 440/471 (93.42%), Postives = 447/471 (94.90%), Query Frame = 0
BLAST of CmaCh08G006670 vs. ExPASy TrEMBL
Match: A0A5C2I788 (ATP synthase subunit alpha OS=Ilex pubescens OX=185543 GN=atp1 PE=3 SV=1) HSP 1 Score: 824.3 bits (2128), Expect = 2.7e-235 Identity = 434/471 (92.14%), Postives = 443/471 (94.06%), Query Frame = 0
BLAST of CmaCh08G006670 vs. ExPASy TrEMBL
Match: W6JLN6 (ATP synthase subunit alpha OS=Hevea brasiliensis OX=3981 GN=atp1 PE=3 SV=1) HSP 1 Score: 823.2 bits (2125), Expect = 6.1e-235 Identity = 434/471 (92.14%), Postives = 442/471 (93.84%), Query Frame = 0
BLAST of CmaCh08G006670 vs. ExPASy TrEMBL
Match: A0A0C5ARM1 (ATP synthase subunit alpha OS=Hyoscyamus niger OX=4079 GN=atp1 PE=3 SV=1) HSP 1 Score: 823.2 bits (2125), Expect = 6.1e-235 Identity = 432/471 (91.72%), Postives = 442/471 (93.84%), Query Frame = 0
BLAST of CmaCh08G006670 vs. NCBI nr
Match: YP_003587355.1 (ATPase subunit 1 [Cucurbita pepo] >ACV96662.1 ATPase subunit 1 [Cucurbita pepo]) HSP 1 Score: 836.6 bits (2160), Expect = 1.1e-238 Identity = 443/471 (94.06%), Postives = 448/471 (95.12%), Query Frame = 0
BLAST of CmaCh08G006670 vs. NCBI nr
Match: YP_009913606.1 (ATPase subunit 1 [Luffa acutangula] >YP_009913634.1 ATPase subunit 1 [Luffa acutangula] >QLJ92999.1 ATPase subunit 1 [Luffa acutangula] >QLJ93000.1 ATPase subunit 1 [Luffa acutangula]) HSP 1 Score: 835.1 bits (2156), Expect = 3.2e-238 Identity = 440/471 (93.42%), Postives = 447/471 (94.90%), Query Frame = 0
BLAST of CmaCh08G006670 vs. NCBI nr
Match: WP_131796658.1 (F0F1 ATP synthase subunit alpha [Candidatus Frankia datiscae]) HSP 1 Score: 825.9 bits (2132), Expect = 1.9e-235 Identity = 435/471 (92.36%), Postives = 443/471 (94.06%), Query Frame = 0
BLAST of CmaCh08G006670 vs. NCBI nr
Match: YP_009706797.1 (ATP synthase F1 subunit 1 [Ilex pubescens] >QEP49797.1 ATP synthase F1 subunit 1 [Ilex pubescens]) HSP 1 Score: 824.3 bits (2128), Expect = 5.7e-235 Identity = 434/471 (92.14%), Postives = 443/471 (94.06%), Query Frame = 0
BLAST of CmaCh08G006670 vs. NCBI nr
Match: BAO50884.1 (ATP synthase F1 subunit 1 [Hevea brasiliensis] >BAO50925.1 ATP synthase F1 subunit 1 [Hevea brasiliensis]) HSP 1 Score: 823.2 bits (2125), Expect = 1.3e-234 Identity = 434/471 (92.14%), Postives = 442/471 (93.84%), Query Frame = 0
BLAST of CmaCh08G006670 vs. TAIR 10
Match: AT2G07698.1 (ATPase, F1 complex, alpha subunit protein ) HSP 1 Score: 788.9 bits (2036), Expect = 2.5e-228 Identity = 410/466 (87.98%), Postives = 432/466 (92.70%), Query Frame = 0
BLAST of CmaCh08G006670 vs. TAIR 10
Match: ATMG01190.1 (ATP synthase subunit 1 ) HSP 1 Score: 786.2 bits (2029), Expect = 1.6e-227 Identity = 409/466 (87.77%), Postives = 431/466 (92.49%), Query Frame = 0
BLAST of CmaCh08G006670 vs. TAIR 10
Match: ATCG00120.1 (ATP synthase subunit alpha ) HSP 1 Score: 506.5 bits (1303), Expect = 2.4e-143 Identity = 269/450 (59.78%), Postives = 327/450 (72.67%), Query Frame = 0
BLAST of CmaCh08G006670 vs. TAIR 10
Match: AT5G08670.1 (ATP synthase alpha/beta family protein ) HSP 1 Score: 79.0 bits (193), Expect = 1.3e-14 Identity = 72/303 (23.76%), Postives = 125/303 (41.25%), Query Frame = 0
BLAST of CmaCh08G006670 vs. TAIR 10
Match: AT5G08680.1 (ATP synthase alpha/beta family protein ) HSP 1 Score: 79.0 bits (193), Expect = 1.3e-14 Identity = 72/303 (23.76%), Postives = 125/303 (41.25%), 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
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.
|