CmaCh01G003370 (gene) Cucurbita maxima (Rimu)
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAAAAGCGGTACCGTACCGTACCGTTCAGCAAAAACCCCTTAAAACCCGTTTCTTCTTGCTCCACTACCTTCCAGTTCATCATTCCAGAAACCGCTCGAAGCAGACGAGGATGTACACGAGAACAGCTGCTTCCAAATGGTTGAAGCGATTGAGCTTTCGTTCTACAGCATTCAATCGCACTTCCGAAACTCCCACTTCTATCAACGTGCCGATTTTCTCCTCCCGCTGTACGTAATTCAAGCTCGTCACTTAGTTCTCAACTGAATTTGTTGATGCAAAATTGTTGGACCTGCAATTAGGTGAATTATACAAGATTAGGAATAATCTTTCACTTGGAGCTAAGTTCTATGATGTTCGAATAACTGAACTGCCATTAGTTCTTAGCTAGTTTGTGTTGCGAGGCATGTTTTGAACTATATAGGAGTAAGAAACCTTGAGACATGTTATTAATCTCCGACCACGAAATCCAGATTAAACTTGGCTTTCAAATTGTTCACGGCATTGAAAAATGATTGAACGGTTCTTTAATTGATTCACAATTCCCCGAATGGCTTTTATTTTCGCTAATCATTTTTTTTCTTGCAGGCAATGTGAAATCTTCTTCTCGCAATAATAGCAATGACTATCGCGATGGTTATCTCAATGGTTTTCCATGGGTTCTTTTCTCTGGACCTGCTGCAGGTTTGCTGTTTTCACCATTTTATGTACGCGTTTCAGTTTTTATGGTTACTTGTCCATGTATTTGGTCACAGTCAGTGGCTGCTAGCTGGGGCACCTTGTCCTTGGTGGCTAAATTTTGGACAAAATCTCACGGAAGATGAAATTCATGTGTGATATCGAATATGAGACCCTGTCAATGCTTAGATTGCATGCTTTGGATGCTGAATTTCTGTAGGATTTCTCTTGCAAATTGCTCTTAATGAACTTATCCTCGCTACATCATTTCTTGGAAAAGGCATCCATTTCAGTTGAGCTGTAAACCCAAAATAGTAAAGAAAAACAAGGTCTTCTTTAGTATTTATCCTCTCAGTCTTGTTATATTGGGTTAGAGCCTTTCTTATCGGGTCAAGTCTTTAGGAGTTGTTTTGACTCCATTTTTTGGGCGGTATTTTTGTATTCTTTCCTTTCTTCTTGATAGCAGCTTTGTTTTTTAAGGAAAAACAAAAAAATAGTGGCACTCTGCCAATATTTTGTACAAAATCCAAAGCACCTTTTCTATTTCTGGGCTGGTTTGTTTTGTATAAAAAAGAGGATCAAGGCCATATGTTCTGGTCTTGCTTGTTCAACATTATTTGTTGGCATAAGCTCTTGGAACTTGGAAGCCTTTGGGGTATATTTGGCTTACACCTCCAATTCCTTGTCCTTGCCTGAAAAGCATAATCACCATATCTAGATTTTCATAAGAGTGCTCCTAGGGGTGCCACAAGGTTTCTTAAAATTGTGTAAAGCCACCAAATGACAAAATAAGAAGTTATTTAACTACTAGATTGGAGACATTTTGTTTTTTGATTCTTCTGTTTTAGTCTTAGGGATTCTTCATCCCTAGGCCTTTAGGGCGTGTTCTTCCTCTTTTGATGTTTATTTGATTTCCTTGTTTCCCTACTAAACTTATGGTAATTTTATTTTTTTACTAAAGCTATGATGTCTCCAATTTCCTTAGAAGAAACTTTGAATAGTTAGTTTCCAGCATGAAATGAACGAGACATCTAGGAGTGCACAACCATCATTGTAACTATTTGAGGGGGAACAATAGGGATGCCAACCCCATACCTAGAGTACTTGTTAGATCCCACATCAGTTGGAGAGGGGAACATAGTATTATTTATAAGGGTGTGGAAACCTCTCTCTAACAGACGTGTTTTAAAACCATGAGGGGAAACTTGAAAGGAAAAGCCCAAAGAGGACAATATCTGCTAGCGGTGGGCTTGGGCTGTTACAAATGGTATCAGAACCAGGCACCACGCAGTGTGCCAGCGAGGACGTTGGTCTGCCTAGGGAGGTGGATTGTGAGATCCCACTTCGGTTGGAGAGGAGAACGAAACATTCCTTATAAAAGTGTGAAAACCTCTCCCTAACAAACACATTTTAAAACCTTTAGGGGTAGTCCGAAAAATAAAGCCCAAAGAGGACAATATCTGCTAGCGGTGGTGGACTTGGGCTGTTACAATATTATCCAATTTAACACCAAATTTTCAATCAATTTTAATGAGGTTCTCAAATAATTTGTTTGTTTTCCGTTATAAATAGCTGTGGTGATTACTGAATTTTTGTTGGGGTGGTGGATTTTATGTCTTTGTAGAACCTTTTTGAGGTTCTTGCCTTTTGCACTCTTTTACCAGCTATTTCTTATAGCTTTAGTATTTCTTAATAAAATTTTCTGTGAACTACAAAAAAGGGAAAAGATAAAGAATTGATGATGTTATGAAGATCGATAATTTGTTGTAATGACACCCATTAGCCTCTGTGGTGCAGCTATAATTCTTGGAATAAACTCAAATCCTGTCTTAGCTAAAGACGCACCCTCTAAGCCAAGTTCTGAAAATGGTATTGAGGAGAGTGACACTATTGGACTACGCAAAGTGGAGGATGGTTCTGTAATTTCAAATTTACATACTTCAAAGTGGAGGGTTTTTACTGATAATGCTCGGGACTTGTTTCTGCAGGCAAGCATGTTTCTTTTACCTTCACTAGCAGTTAATTTTTTTAATGATTTGCAGAAAGAAGTATCGTAATCTTTTTCTTTAATCAGGGGAAACTTGAAGAAGCTGAAAGATATTTTGTTTCTGCGATTCAAGAAGCTAAAGAAGGTTTTGGGGAGAGGGATCCTCATGTTGCTTCTGCCTTCAACAATCTGGTATTGTAGCTGCTGTATTTTCTAATCTTTTTCTTGTTTTACCTTGATAGAATCATTGAGTAGAACTTTCCTGCAGTCACTGAATAACCTAATGGAATAAGATTTCTTCCAACCAAGAGGTTAGACAAAATATTTGGAGTAGTAAAATAACCTGCCTTTAGGCTGTTGCCCTCCAAGATTGGGAGGCTGTGCTTTATTAGATTGGTTGAGTAGAGGGAACCCTCACCCCTCTACCCTTAGGCTGTTGTTCTCATTTTGTCAGTATATTTCTGTTTTAAATATTTTTTTATATTAAAAAAGCCCAGTCTTTAGATGCATCATATTATTTTGGTTATTAGTTATTATTAAACCTGGAGACTTTTTTGCTTCATCAAAGTCATCATTTAGTTTATATATTATATATCAAGATACAGACTGATCGTTAATCAAAGAACAAACAAGAAAGTAAGGATGTAAATTCCAAAATGAGGTCTTCATGTTGTTGGAAGTAGTATCTAAATTTGTTGGGCTAGATTACCTACAAGTTTTTGCCATATTTGCATTTGTGCGTTCCTATTATTTACATTAAATTGACGTAGAACCTAGGTTGTTAGAATTCAGGAATGGTTCTAATATCAAAACTTCTTTACTAAAATCAGGTATTTACCTTGCATAGAAAAATCTACAATCAAGGACTGTTATGCGATAATGCCATTTATTTTAGATTGTGAAGCATTACCAAGTAATAAATACATTTTGCTATGCTCTTTTTAGGCAGAACTGTATAGAGTCACGAAAACATTTGACAAAGCAGAGCCCATGTATCTGGAGGCCATCAACATATTGGAGGAATCCTATGGCTCTGAAGATATAAGGTTCTTGAATCTTGCTATCTTTTTCTATGTAGCAAACCTCACATTTTTTCCTTACATGAACTAGAAGCATCCTTTTTATCAGCTTTACTTCGCTTGTACATGAACTAGAAGCATCCTTTTTATCAGCTTTACTTCGCTTGTACATGAACTAGAAGCATCCTTTTTTTTTTATTGCATGAAAGCAACATGTACTTCTCTAATTTCCTATGGGATGTTAAGGAACTTCCAGCTGGAATATCATGATGAGGGCCTTGATATGGTAGAGTGTAAGGCCTAGCATGCAATGTGGCCAGGTAGGGGTGTAAGACAGAACATGGAGTGCTGGAAGGACATGGAGGGCAATCTGTGATGATAGCATGTGTTGTAGATGATTGTATGGGTGTGTAAGGATATGATTGAACAAACTTTTGATGACTGATGCCTAGGAGAAGGGTGCAAAGACGATAACTTTGGAGTATGTGGGTGGCACAAATGATTGACTAAAGACCATGACTAGTGTCACAGCCTTACTATGGAGAGAGTTATGGAGAGAGTAGGTTGTGACCCTCAGGTTGCCACAAAAGAAGCGGAGATCCTCAAGTGGCGCCCATTCGACCACGTGAGGGTCTAGACAAGTGCCCTAATGCGGCTGAGGAGGACGGTACATCATCTAACACACACAGAGTGGGTATTGAAGAGAAGATGAGGCATAAGCAAGATAAGGGTAAAGAGTAGACAAGAGTGTCAAAGATAGGCTTGTTGAAGGGCTAGATACGGTCCCGGGTCTTAACCTTGAAAGTTGGTGTTTTGAAGGGAATTTGGGCATGCGGTCGTGGAGTCAAGTCCGTCCTATGAAATATGAAAGCTTGCCGAATTTGGTGTCAATTAGACATCGGACGGATGCTCCACAACAACGTATGTCCGTTCGCCAAAATTATGTCTACACCCGCCAGTTTGAAAATGCCTCAAAATGTTCTTCAGTATGATGCATGATGTTAGCTCTCCACCACCCCTGGACCCTGTGGCCTAAGCGAGCTACCCTATGACACATGTGTATGTCACAGTGAGGGTGAACGTTTCGAGGTTATTCATGTTCATCTGTGTGGAAAGTACCCATGTGATAATCGATCTTCAATCGAACATGAATTTATCCCGTAGAAAATATAATATTTGAAAGTAGACATGTTTGCTTGATTAAATGTTGTGGTGTTTATTTGATTCACATTGCTTCAGATATTGTGCCTACTATAAAGTCAAAATTAATTTCAGTCTTGAGGTTTTAAAATCAGCTCTGCTTTGCTCTATCATTTTTCTTAACAGATCTAGTTTCATATATATATATATATATAAAGTATCTTTGATGTGATTCGAACTCTTATTGTTCAGAGTTGGTTCTGCACTTCACAACCTTGGACAGTTTTATCTAGTTCAGAGGAAGCTAAAAGAAGCCGGCAATTGCTATGAGGTATCAAAATATTCCAATTATTTTCACTTGTTCCCATTATGGTTACCATCCATATTTTTGCTAGTCGAACATCCTCATACTTTTGGGAGTTGGAGCTGATTGTGTGCGGTTGTCTCCATTGATGTGGTGCGGCTGGGAGTTGGAGGTCTAAGCTCTTGCTTCTTGGTCCCCACAGAAGTAGAACCAGAGCGAGGAGGGCCCAAACCTTAGTTATTTTATACCTTGTTGGAGAAGAGTTCAAGTACCCCTTCGGGGATTAAGTGGAACATTAGCCCGGGAATGCAACTTTAACAGCTCGGTTCAGAGAGGGATATATGGTCTCTCTAGATTCAAAAGGCAGCTTCTCCACTGAGTCTGCTTTTTTTTTTTCTTTTTCTTTTTTTTTTAAGTGGAAGAAACAATCCCAAAAATTAGTTCTGATCCTATGATGAAATTTTGCACTTATAAATACCTAAATAAAGTCAAGTTTTTTTTTTTTTTTTTGTTGTCTTCAGTTCATAGAGCCTTAAGCGCACATGAGCTGTTTCAAAGGAAGTGTAAAAATTGATCTTTATCACCCCTCTGTTTTTCTTGCCTCTGCCTGAGTTGTAAAGAGAATCTAGACCACATCTTTCTCCATTGTCATTTTGCTATCAAAGATTGCTCGTAGGTTACTTTTGGTTTGAATGCTTGCCTACCTATATCTATCTAAGAGTGGATCTTGGAGGCTCTCTGGGGGGTGGAAGATGTCTAAGAAAGCTATTATTTTGTGGAAACGTGTGGTTTGTGCCCTTTTGTGGCATATTTGGTTGGAGAGGAACCAAAGATCCTTTGAATATAAGTCGTCTTTCTTTTTATTATTATTTTTACACAAATGTACAGCTTACTGCTTTTTGGCAAGCTTTTAGTCCCAAGAAATTCTTTAGTAATTACAAACTTACTACTCTTTTCAACAATTCAACAATTGGAAAGATTTTTTGAAGTACTTTTTTCCTTGGGAGGGGTTCTCTCTACTCCCAAACCCCAAGGTTGTTCCTTCTTTTGTTTTAGTGCAATCTCGTCTCTTATTAAAACAACAATTATAAGGTGTCATTAGGTTTTAGTGAAATATAATTTACCAGTAATTTTATGGTCATACTCATGATTTGAGGGTAGAATTTCATTTTTATAGCTTTCCTACTTATAATGATTTTCCCCCTAGATTAGTAAATTTGATATGTGATAGTTTCTCGATGTTATAAACTCCTTTTATCAATGCTTACTTTAAATATTATCTACAAATTAATTCCGAAGCCTAGTTATTAATATATATTTTTTTTTTTTTTGCATTTTGTCTTTTAATGATTCTTTGATGTGCAAATTCATGCTAACATTTTTTTTCCCCTTCTGGCTGATGTTATATGATCTGGTTGACAGCGAGCATTGAAGGTAGGAGGCTTGTCATTTGTACTCGAATAAATAATTTCTGTTCTGTTTTGTCATCTCACTTATGATTTTTTGTTCTTCAGATCAAAGGTCATGTTCTCGGATATGGCCATGTTGATTATGCAGATACTATGTACCATCTTGGAACAGTATGCTCTGAGATCCTTGTTTTATCATATTAGTTTTGGCACATTGTTTTTTTTTTTTTTTTCCATCCTCAAAATATTTGACTTTCGACTGACATTTGTTTTTTTTTTAAATATACTAGATCAATAATCAGCTTATATAGTAACAGAAGCTAAATACTTGTACACGACCAAGTCTGGTTTCTTTCAATGTTGATTGTCTTGATACTTCAAATAATAATATATATTTTCCATGCAGGTGCTATACCTTTTGGGGGAGGAAAAAGATTCTGAGGCCCTGATCCAGGATTCCATAAGGATACTGGAGGTATATCAACATCAACATTGTACCATAATTCCATTGTTACATGTTTCACAACCTTGTATTGTTTCATCATGTAGGAAGGTGGCCTAGGTGAGTCATTTCTTTGCGTCAGAAGATTGCGATATCTGGCTAAGGTTAGGCTTTATCCTATACTCTTTTACTTTCCATCTTTTCTTCTCTTTTGGTGTATCAAAAAAATTGACCCTTCATCACTTCGGGAAGTCTTTTCTTTGTTAGGATAGATAATGTTAGACATGCCTAGTTATCAACAAGAATAACACACCACCAGTTTTCATAATTAATCATAATATTTTAGAGGCACCCCAAATATCGCTATGATATGATTAGTGAATGAACTAAGTTACGTGATTTGGAGGCTTTATAGATTTTTGTAAATGTATAGATTGACGATATTTTTGCAACAATGGAACTTTTATGATCAATAAAGGACGAATAGAAATTTAAGATAGAAAAAATTGGGATGTTATGGATGCTAATTCATGATCTGATTGATTTATGATAAAGAAGTAATACTACTAAAACCTTCGTTTGTTTGTTGTTGTTTTAATACTAATTTATCATTCATCAAAGTAGCAGTAGAGACCATTAAGCAACACGTTTAATCATTTTCTCTAAGTCTTATTTCTGAAAAATATAATGAGATTTGAAAATGTTATACAGTTAGAATCTCTAGAAAGCTTAGGATAGATGAAAGATTACTTGCTTTATGATCATGGGACAAAATGTAAGGAGATTGTCTAGGTTAGTTTAGTAGTTTATTTTCTTGCGGTAGATGGAGACTACCATTCAAGTCTCTAATTTTTTCTTTATAATAAGAAATAAAGTGAATCAAATAGATGAGAAGTACTAGTTGCAGTCGTTACGGTAAAAAACTGTTTATAGTCCATGGAGATGAATTACGAGCAGGAGAGTAGGATTGTTGAATATATATGATTATTGATGCATATGTGAGCATGTTAGTTTTCTCTTATACATTTTTCCTAATTCTTCCCCCTTTTTAATCATATTCTATAGTTCTACTTGAGCTATCGTTAATAATTTTGTTGTCTTCCTGATGCTCCAGATATATATGAAGTCTAATAATCTCTTTGAAGCTGAGAATGTGCAAAGAAAAGTTTTGCACATTATGGAATTATCAAAGGTTCATCTTCATCTTTTCTTTTTTACTATATTTTTATGCTTTAGTTTTTGCTCGGGATCTAGTGCTCATGTAATGTCTTTTCCTTTTTGATGTGGAGTACATGCATTTGTATTTTCTAACTTCTTGATCTCTCTCTCAATTTTATGTCATGATTTAAGAATGTCTACTTCATGATTTTAACCTATATTGACATGACGCCTACAAGGCAACATGTTAAGGGTAGATTGATCAAAATTTGGTGATGAATACTCCAGTCTTTTCCATTGTTTGGTGAACAGTGCAGAATCTAGTTATTACTGAAATACACGGTGAGAATGGGAATTTTACTGACCACAGGAGAGGATATTGTGCTCAAAGTGGCAGGCCTTTTTAGCAAAACCTACTTGATAAACAATAAATCCTTACCATCACATTTTCATGTGACCAAGCTTATGACAATGAAGACACACTCTCTATCTTGTATTTGATCGTCAAAACTAGTCCTCAAATGAACTATATCAGATCTGATTGCAGGGTTTTGTTCCACCATTCCATTAAAAAATAAAAATGACACTCACGAAAACATAGATACAAAATTTGATTTGAATGCACAAAATTAGAGTCCAGCAGTAACCTAAAAAAATTTAGTACGGAGGGAATTGGAAGCCAAAAACCCTTTTTCCTTCCTGAAATCATTCCAAATATGAGCTACTTTTGATCAAAATAAGCATACAAGCTGAATGTGGACAGTAGGATGGTTGAACCACGACAATGGTTGGAGAAATTCAAGCCAATCTGCACCCTCAGAACTGACATGTAAGACAAAGGGTGGATGCTTCCGGTTGCGCATGGAGCCTATGTGCAGTTGATCTGGCAGTGACACTTTAGGGTTTGTTAAATTAACCGACAGTCTTCCTCAAAGGTTGAAGCATTCCAAAGTAGTGCTTCCAAACTCCAAATTGTAACTCAAGAAAATCCTAACGGCCCACAAAGAGTACTATGGGAGATAAAGGGAAGGAATACTTCATATCATTCCTTTATACACACACTGGGGGTTGATACTTGTGAAGCAGAATGACTATCAAAATTAGAATTTAGTATATTGTGCAATGTAACATAGAGTTCATTATAAGTTTTGATCTTTAACTAACATTGCAAGCGATATTTAGTAATACTTAACCCCCATAGGTTTTTTGTTTCTGTTGTGTGCCTGCTTGTGTGTATGCATACTTCCTTGGTCAATTGGCGAACTCAGTATATCTCTTATGGGTGTAGGGCTGGAATTCTCTGGAAACTATAAATTCTGCTGATGGCTTGGCCTCAACGTTATATGCCAATGGATGCTTGAATGAAGCACAGGAGCTTTTTGAAAGGTAAACTGATGAGTGTTAGCAACTTACAAAAAAGAGTCTTCTAACGAAGTCATTTCTTTCAGGTGTCTTGATGCACGGAAAACCTTACTTCCTAAGGACCACATCCAGGTTTTCAATTTATAACATTCAGATTGTATTCTGAGGACGTGATTAATAAAATAACGATACTCTTATTTTCCTGTTTAATGCATTTTTGTTTTTGTATGTTAGGGAAATGATGAAGTTTTAGAAAATGCATTATTTTTTCAGTTTTGTCTGAGACATCTGCTCTTCGACTAATAATAACTCCATATCTACTAATGTGGTGCAGATTGGCGCTAACATGCTTCACATTGCTCGAGTGGTAATGCAAAGTTCCAAAGAACTAAAGGCGACTGATATTTCTAAAGCAGTTATTGGAATTGATAAAGCTAAAGAACTTTTAAGTAACTCTATAAGGTTTGTATTGGGATTTCACTTTTCTATCATAATCCAAAGGGCAGCTCTAGGGGTCATATACGCAGGCTAAATTCTAAGAAGGAAATAACTTACTAAAGAAACTAGAAAATTATGCGGGAAGAATAAATATTCAGAATAATAGTTAAATGAACCCGTATGTTCGGGACTTTACAATCCATGGGAACATGTTAGGAAATTCAAGGGCCTACAATCTTTCAAAACCATCCATATCCATAGTAGTAACCATTGCCATTGCCGAAGTTCTATCTTCTAGTGTCCAGGTTGCGATCAAAGTTTCTTAGCATTTCTGTAGAAATAGATTTGCGAAGGCCAATCTTTGAATTTGAGATCTTCAAGAAGAAAATTAAAATGATGAAAACCCTTTGCAAATTAGCTTGGTCTCCTGAACAAAAAAAATGATGATAATTGATTTGAGAAAATTTGGTTGGAAATAAGTCGAGACCATCTAGCAACATTCTGAAAGATTTACTTTGTCTAGCTATTTGTTATTGAGTTGATAAAACGTGTTCAAGTGTGGTCATATATATGTTACAAGCCACCTACCACTGCTGTAGGAGAAGCTGAAGTGTAGAAGGATAACATGGGAAGGAAAAGAGCAGCTATGCTTAAACAATTTGATGGAAACTGGAAATATTCTTTTACTTGATGTAAGGGGGGTAAACACCTTGAAATAGGTAAAATTGGAAAATCATATAATTTAAAATGCCTACTAGTATAGGAGGCCTCTAGCTTCTTGAATTTAATCTTCTGAAAGATAGAATTATATAGACCATTAATCATGTTAGCTTTACAAGTTTAATTGGATTGTCCGAAATCCTTCCCCACATTTAATAGTCATCATGAAAAATAAGGATAGTTAACCTAGATGACTTTATGACTCAAAATCACCGTAGTTAAGCTGGGTAGCCTGGGTTATGATTTTACTATAAGCTTATGTAAATATCACCCAATGGCAGGATATCACGAGGAGCATTAGATAAAATAAGCAAGCATGGTGAGAAGAAAAAAATTCATGAAGATGGAGAAACTAGAAGGGACGGGCGTACTGCACTTCTCATACTGGTCAGTTTTCCTTTCTATATAATGAAGAACGGCAGTTTCGTCATATTTAACGCTTTCCTGTTAAATTTGTTTTCTTGAAATGTATCCATAACCCAAATTTATGTATCTAATTATCAATCCGTAGAAACTCACTCAATTCATGAGCTTTTACGCATCAAGACCATTGCTTGGTACTGCCAATAGGTTTGAAGGTTTGAGCTGAACAACTATTTTAGATGTAGCTATTTAGTTAAATGTAAATTTATTCAAAGTCGACCAAAATGAAATGAGTGAGTATGTGAATAATTATTCTAAACCAAAATCAGAATAGAACAATATCTTCTTGATGTTGATTGTTTTTTTATAACCAAACAATGAACCGAAATCTTCATTTTGGGAGTTGGATTAAAGTTTTTTGTTCGTACATATCAACTCAATATGAGAGAATGTGCATCCACACTACAGAATGTTTACTCTCAATATTGGTTGTCTTGATGTTGGTCATTTATATTAAGGAATATAACAGATATAATTTAACTAATAGAGTACCTCAAATTAAGGGTTCTCTTTATTTCAAAAGAAACAAAGAATGGAGCTCATGAAATTGAAATACCAGGTGCATTAGTGTGTTTGTCCATTGTTTCATCCACGTTCTATGTTTATGTCCTTTCAATAAGATCAAGACTCATGGATGGGAATTTTCTCATGTCAATTGGAGATCTATATTGTGTTGCAGTTACAGTCGCTTGATGCTCTAGGACATTTGGAAATCACCGTGCAAGAGATGAAAGTATCAAAGGTTAGCAGTGATGGCTTATTTAAGTGATGGTGTCCTAAACTTACAATTGCTTCTGAACTGTAGTATTGGTGTCGTAAGTATATGAGTGTGCATATGTCTTAATATCTGTGAGGGTTTTGGCCGGTTTACTTAATCCCAACTGATCTTAGGTGCAACCATTTGACCCTACAAACATAAAATCCTTTTGAATTATGCGATTATATATATATATAATATGTAACAGAATTGAGATAAAGATATTTGTTTTACACTTCCTCGGATTATGTGTTGGCTAATATTGGGTCCAGTTGGTGAGTTGTACTCACCTTGAAGGCGGGCAAATACATGATGGAGTTTTGTAGAACAGTTATCCAACTGAGAGTGAACCGTTGTAGAGTCGGTCAGTTCAGTTGATCTTTCATAAAACATTTTTGGCATCAAGTTGAATCCTAGGGACAATGGAAGAACAAGTGAAGACTAAAAATCTAAGGGACTACCTTTCCAAAACTAAAAACTAGAAAAATAAGGACAGAGGGAAGAGAGAAGATGTAACAATAAACTTATTTAATTTTATTGAATTCATTTGGATCAATTGTCACATTCCAGAAGCAACGAGTCTTCCGTCTTTGTTGTGCCCTCATTCATCAATATAATTTCATTGGCTCTTCTTTGAGTAACCGGAATGTGTTATTACAGGAGGATCCTTCGCTTGTTCAGGCTGAGAATGTTCTCTTTGAATGCATTTCAGCTTATCAAAAGGTAACACGGTCTTATGATTGTTATTATTTCTGTGCCTTGAGCTTGACATCAATGGCCACATAGTGACCTGCATGGCTGCATATGCATTTTAGACAATTCGGGTGATGACAATTTTGATTTTTGTTTAAGAAATCTTGTTTACCATCTCTTTAATTTGTGATTTACTTTCTAGATGCATTTTCAAAACCTAGTTTTCTAAAACTTGATTGTTATTACTATTTTCTGTTCTTAAAATCTAGCCAACATTTTGAAATTATTATCAAACCAACCTTTATTTCTATTGCTAATCAATCCCTATACACAGGCTGGATATATAAGTGTATGTTCACAATGACAATTTTATGAAACCATTACGAAATGATACTTAAATTTTGTTCTAGGAAATGTCTAACCATTCCAGTTTTTTAGAATACTGATATAAATGCTTTACATTTCCAGTAGTTTTATTGATAGTACCATTTTCAAGTGAATTCTTTTAGCTAAAATTTTATTTTGTGACCATATTTTCTTAGAATCTGTATTGAAACATAAAAATTATTCTGTCGTCGGGCTTGGTTCTGTACTCATGTTATTAAAATGAGCCGACTTGAATATAATTCTGAAGACATTAGTTATGGAACCAAAAAGAGAAAAAAGAGACTTCGAAATATGGTTGGATGCATTTTTGTGGAATAGGTTTATCAACTATTGTATAAAATTACATTTAAAATACTCTCTACAATGCTCATGGAATTTGTGGTCTTGAAGAACAGCCTGAAGTAACTGTTACATCCCCTTTTTACCCACTCTTTAATACGTGTTAACAATTAGGGGTCTCAAAAACATTGGTACATTTGTATTTGAACTTGTTCTAAAGATCTTGAACCAAATTATGAATGATCACACAAATGCAGTTCAAAGGTACAACTTTTGAAACTCCTGAAGTCAAGGCTGAGTACTTCTCTTGTTTGAAGCGTCTCTCGATCCTGATTAGTGATGACAAGACGAGTAGGCAGAGAAGAATGAGTTCACAAGATCTACAGGATGAAATCAGTCGCCTTGAGGTCGAATTGTCTCCATACAGAAAACAAAAAAGTTAAAAATCTTGTTACTTATTCAGGCCTGGAACATTAGTATGGCTTAATGGCTTCTCTTCATCTACCGCAGCAACATGGGAAGGTTCCCTACTAACTTCATCTCTCTTCCATTTCTTAATTATTTATGTTGGTTTATTTTCCCCTTTCCTTATTCTGCATATTGGCCTAAGCCTTAAAGTGATATTTACTTGCAATGAAAGAGCTGCTTGGCAATCTTTTTTCATCTCATACCATTGGTTTTTTTT AAAAAGCGGTACCGTACCGTACCGTTCAGCAAAAACCCCTTAAAACCCGTTTCTTCTTGCTCCACTACCTTCCAGTTCATCATTCCAGAAACCGCTCGAAGCAGACGAGGATGTACACGAGAACAGCTGCTTCCAAATGGTTGAAGCGATTGAGCTTTCGTTCTACAGCATTCAATCGCACTTCCGAAACTCCCACTTCTATCAACGTGCCGATTTTCTCCTCCCGCTGCAATGTGAAATCTTCTTCTCGCAATAATAGCAATGACTATCGCGATGGTTATCTCAATGGTTTTCCATGGGTTCTTTTCTCTGGACCTGCTGCAGCTATAATTCTTGGAATAAACTCAAATCCTGTCTTAGCTAAAGACGCACCCTCTAAGCCAAGTTCTGAAAATGGTATTGAGGAGAGTGACACTATTGGACTACGCAAAGTGGAGGATGGTTCTGTAATTTCAAATTTACATACTTCAAAGTGGAGGGTTTTTACTGATAATGCTCGGGACTTGTTTCTGCAGGGGAAACTTGAAGAAGCTGAAAGATATTTTGTTTCTGCGATTCAAGAAGCTAAAGAAGGTTTTGGGGAGAGGGATCCTCATGTTGCTTCTGCCTTCAACAATCTGGCAGAACTGTATAGAGTCACGAAAACATTTGACAAAGCAGAGCCCATGTATCTGGAGGCCATCAACATATTGGAGGAATCCTATGGCTCTGAAGATATAAGAGTTGGTTCTGCACTTCACAACCTTGGACAGTTTTATCTAGTTCAGAGGAAGCTAAAAGAAGCCGGCAATTGCTATGAGATCAAAGGTCATGTTCTCGGATATGGCCATGTTGATTATGCAGATACTATGTACCATCTTGGAACAGTGCTATACCTTTTGGGGGAGGAAAAAGATTCTGAGGCCCTGATCCAGGATTCCATAAGGATACTGGAGGAAGGTGGCCTAGGTGAGTCATTTCTTTGCGTCAGAAGATTGCGATATCTGGCTAAGATATATATGAAGTCTAATAATCTCTTTGAAGCTGAGAATGTGCAAAGAAAAGTTTTGCACATTATGGAATTATCAAAGGGCTGGAATTCTCTGGAAACTATAAATTCTGCTGATGGCTTGGCCTCAACGTTATATGCCAATGGATGCTTGAATGAAGCACAGGAGCTTTTTGAAAGGTGTCTTGATGCACGGAAAACCTTACTTCCTAAGGACCACATCCAGATTGGCGCTAACATGCTTCACATTGCTCGAGTGGTAATGCAAAGTTCCAAAGAACTAAAGGCGACTGATATTTCTAAAGCAGTTATTGGAATTGATAAAGCTAAAGAACTTTTAAGTAACTCTATAAGGATATCACGAGGAGCATTAGATAAAATAAGCAAGCATGGTGAGAAGAAAAAAATTCATGAAGATGGAGAAACTAGAAGGGACGGGCGTACTGCACTTCTCATACTGTTACAGTCGCTTGATGCTCTAGGACATTTGGAAATCACCGTGCAAGAGATGAAAGTATCAAAGGAGGATCCTTCGCTTGTTCAGGCTGAGAATGTTCTCTTTGAATGCATTTCAGCTTATCAAAAGTTCAAAGGTACAACTTTTGAAACTCCTGAAGTCAAGGCTGAGTACTTCTCTTGTTTGAAGCGTCTCTCGATCCTGATTAGTGATGACAAGACGAGTAGGCAGAGAAGAATGAGTTCACAAGATCTACAGGATGAAATCAGTCGCCTTGAGGTCGAATTGTCTCCATACAGAAAACAAAAAAGTTAAAAATCTTGTTACTTATTCAGGCCTGGAACATTAGTATGGCTTAATGGCTTCTCTTCATCTACCGCAGCAACATGGGAAGGTTCCCTACTAACTTCATCTCTCTTCCATTTCTTAATTATTTATGTTGGTTTATTTTCCCCTTTCCTTATTCTGCATATTGGCCTAAGCCTTAAAGTGATATTTACTTGCAATGAAAGAGCTGCTTGGCAATCTTTTTTCATCTCATACCATTGGTTTTTTTT ATGTACACGAGAACAGCTGCTTCCAAATGGTTGAAGCGATTGAGCTTTCGTTCTACAGCATTCAATCGCACTTCCGAAACTCCCACTTCTATCAACGTGCCGATTTTCTCCTCCCGCTGCAATGTGAAATCTTCTTCTCGCAATAATAGCAATGACTATCGCGATGGTTATCTCAATGGTTTTCCATGGGTTCTTTTCTCTGGACCTGCTGCAGCTATAATTCTTGGAATAAACTCAAATCCTGTCTTAGCTAAAGACGCACCCTCTAAGCCAAGTTCTGAAAATGGTATTGAGGAGAGTGACACTATTGGACTACGCAAAGTGGAGGATGGTTCTGTAATTTCAAATTTACATACTTCAAAGTGGAGGGTTTTTACTGATAATGCTCGGGACTTGTTTCTGCAGGGGAAACTTGAAGAAGCTGAAAGATATTTTGTTTCTGCGATTCAAGAAGCTAAAGAAGGTTTTGGGGAGAGGGATCCTCATGTTGCTTCTGCCTTCAACAATCTGGCAGAACTGTATAGAGTCACGAAAACATTTGACAAAGCAGAGCCCATGTATCTGGAGGCCATCAACATATTGGAGGAATCCTATGGCTCTGAAGATATAAGAGTTGGTTCTGCACTTCACAACCTTGGACAGTTTTATCTAGTTCAGAGGAAGCTAAAAGAAGCCGGCAATTGCTATGAGATCAAAGGTCATGTTCTCGGATATGGCCATGTTGATTATGCAGATACTATGTACCATCTTGGAACAGTGCTATACCTTTTGGGGGAGGAAAAAGATTCTGAGGCCCTGATCCAGGATTCCATAAGGATACTGGAGGAAGGTGGCCTAGGTGAGTCATTTCTTTGCGTCAGAAGATTGCGATATCTGGCTAAGATATATATGAAGTCTAATAATCTCTTTGAAGCTGAGAATGTGCAAAGAAAAGTTTTGCACATTATGGAATTATCAAAGGGCTGGAATTCTCTGGAAACTATAAATTCTGCTGATGGCTTGGCCTCAACGTTATATGCCAATGGATGCTTGAATGAAGCACAGGAGCTTTTTGAAAGGTGTCTTGATGCACGGAAAACCTTACTTCCTAAGGACCACATCCAGATTGGCGCTAACATGCTTCACATTGCTCGAGTGGTAATGCAAAGTTCCAAAGAACTAAAGGCGACTGATATTTCTAAAGCAGTTATTGGAATTGATAAAGCTAAAGAACTTTTAAGTAACTCTATAAGGATATCACGAGGAGCATTAGATAAAATAAGCAAGCATGGTGAGAAGAAAAAAATTCATGAAGATGGAGAAACTAGAAGGGACGGGCGTACTGCACTTCTCATACTGTTACAGTCGCTTGATGCTCTAGGACATTTGGAAATCACCGTGCAAGAGATGAAAGTATCAAAGGAGGATCCTTCGCTTGTTCAGGCTGAGAATGTTCTCTTTGAATGCATTTCAGCTTATCAAAAGTTCAAAGGTACAACTTTTGAAACTCCTGAAGTCAAGGCTGAGTACTTCTCTTGTTTGAAGCGTCTCTCGATCCTGATTAGTGATGACAAGACGAGTAGGCAGAGAAGAATGAGTTCACAAGATCTACAGGATGAAATCAGTCGCCTTGAGGTCGAATTGTCTCCATACAGAAAACAAAAAAGTTAA MYTRTAASKWLKRLSFRSTAFNRTSETPTSINVPIFSSRCNVKSSSRNNSNDYRDGYLNGFPWVLFSGPAAAIILGINSNPVLAKDAPSKPSSENGIEESDTIGLRKVEDGSVISNLHTSKWRVFTDNARDLFLQGKLEEAERYFVSAIQEAKEGFGERDPHVASAFNNLAELYRVTKTFDKAEPMYLEAINILEESYGSEDIRVGSALHNLGQFYLVQRKLKEAGNCYEIKGHVLGYGHVDYADTMYHLGTVLYLLGEEKDSEALIQDSIRILEEGGLGESFLCVRRLRYLAKIYMKSNNLFEAENVQRKVLHIMELSKGWNSLETINSADGLASTLYANGCLNEAQELFERCLDARKTLLPKDHIQIGANMLHIARVVMQSSKELKATDISKAVIGIDKAKELLSNSIRISRGALDKISKHGEKKKIHEDGETRRDGRTALLILLQSLDALGHLEITVQEMKVSKEDPSLVQAENVLFECISAYQKFKGTTFETPEVKAEYFSCLKRLSILISDDKTSRQRRMSSQDLQDEISRLEVELSPYRKQKS
BLAST of CmaCh01G003370 vs. Swiss-Prot
Match: NPHP3_XENLA (Nephrocystin-3 OS=Xenopus laevis GN=nphp3 PE=2 SV=1) HSP 1 Score: 82.4 bits (202), Expect = 1.7e-14 Identity = 71/265 (26.79%), Postives = 115/265 (43.40%), Query Frame = 1
BLAST of CmaCh01G003370 vs. Swiss-Prot
Match: NPHP3_XENTR (Nephrocystin-3 OS=Xenopus tropicalis GN=nphp3 PE=2 SV=2) HSP 1 Score: 80.9 bits (198), Expect = 4.9e-14 Identity = 71/265 (26.79%), Postives = 115/265 (43.40%), Query Frame = 1
BLAST of CmaCh01G003370 vs. Swiss-Prot
Match: NPHP3_MOUSE (Nephrocystin-3 OS=Mus musculus GN=Nphp3 PE=1 SV=2) HSP 1 Score: 72.4 bits (176), Expect = 1.7e-11 Identity = 68/272 (25.00%), Postives = 115/272 (42.28%), Query Frame = 1
BLAST of CmaCh01G003370 vs. Swiss-Prot
Match: NPHP3_HUMAN (Nephrocystin-3 OS=Homo sapiens GN=NPHP3 PE=1 SV=1) HSP 1 Score: 72.4 bits (176), Expect = 1.7e-11 Identity = 62/240 (25.83%), Postives = 103/240 (42.92%), Query Frame = 1
BLAST of CmaCh01G003370 vs. Swiss-Prot
Match: KLC4_HUMAN (Kinesin light chain 4 OS=Homo sapiens GN=KLC4 PE=1 SV=3) HSP 1 Score: 69.3 bits (168), Expect = 1.5e-10 Identity = 57/191 (29.84%), Postives = 90/191 (47.12%), Query Frame = 1
BLAST of CmaCh01G003370 vs. TrEMBL
Match: B9T2R5_RICCO (Kinesin light chain, putative OS=Ricinus communis GN=RCOM_0593640 PE=4 SV=1) HSP 1 Score: 610.1 bits (1572), Expect = 2.6e-171 Identity = 319/503 (63.42%), Postives = 402/503 (79.92%), Query Frame = 1
BLAST of CmaCh01G003370 vs. TrEMBL
Match: A0A0D2N740_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_001G082800 PE=4 SV=1) HSP 1 Score: 578.2 bits (1489), Expect = 1.1e-161 Identity = 322/561 (57.40%), Postives = 403/561 (71.84%), Query Frame = 1
BLAST of CmaCh01G003370 vs. TrEMBL
Match: V4SXR6_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10011395mg PE=4 SV=1) HSP 1 Score: 572.8 bits (1475), Expect = 4.5e-160 Identity = 314/538 (58.36%), Postives = 389/538 (72.30%), Query Frame = 1
BLAST of CmaCh01G003370 vs. TrEMBL
Match: A9PFT7_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0004s08360g PE=2 SV=1) HSP 1 Score: 554.3 bits (1427), Expect = 1.7e-154 Identity = 311/563 (55.24%), Postives = 408/563 (72.47%), Query Frame = 1
BLAST of CmaCh01G003370 vs. TrEMBL
Match: A0A068TZG8_COFCA (Uncharacterized protein OS=Coffea canephora GN=GSCOC_T00036763001 PE=4 SV=1) HSP 1 Score: 540.0 bits (1390), Expect = 3.3e-150 Identity = 303/524 (57.82%), Postives = 391/524 (74.62%), Query Frame = 1
BLAST of CmaCh01G003370 vs. TAIR10
Match: AT5G37590.1 (AT5G37590.1 Tetratricopeptide repeat (TPR)-like superfamily protein) HSP 1 Score: 520.4 bits (1339), Expect = 1.4e-147 Identity = 279/494 (56.48%), Postives = 364/494 (73.68%), Query Frame = 1
BLAST of CmaCh01G003370 vs. TAIR10
Match: AT5G53080.1 (AT5G53080.1 Tetratricopeptide repeat (TPR)-like superfamily protein) HSP 1 Score: 54.3 bits (129), Expect = 2.8e-07 Identity = 56/248 (22.58%), Postives = 98/248 (39.52%), Query Frame = 1
BLAST of CmaCh01G003370 vs. NCBI nr
Match: gi|778679900|ref|XP_011651210.1| (PREDICTED: uncharacterized protein LOC101207905 isoform X1 [Cucumis sativus]) HSP 1 Score: 896.0 bits (2314), Expect = 3.4e-257 Identity = 459/554 (82.85%), Postives = 502/554 (90.61%), Query Frame = 1
BLAST of CmaCh01G003370 vs. NCBI nr
Match: gi|659114567|ref|XP_008457118.1| (PREDICTED: kinesin light chain 1-like isoform X1 [Cucumis melo]) HSP 1 Score: 752.7 bits (1942), Expect = 4.6e-214 Identity = 382/451 (84.70%), Postives = 412/451 (91.35%), Query Frame = 1
BLAST of CmaCh01G003370 vs. NCBI nr
Match: gi|778679902|ref|XP_011651211.1| (PREDICTED: uncharacterized protein LOC101207905 isoform X2 [Cucumis sativus]) HSP 1 Score: 681.4 bits (1757), Expect = 1.3e-192 Identity = 349/418 (83.49%), Postives = 384/418 (91.87%), Query Frame = 1
BLAST of CmaCh01G003370 vs. NCBI nr
Match: gi|659114571|ref|XP_008457120.1| (PREDICTED: kinesin light chain 3-like isoform X3 [Cucumis melo]) HSP 1 Score: 651.0 bits (1678), Expect = 1.9e-183 Identity = 325/373 (87.13%), Postives = 346/373 (92.76%), Query Frame = 1
BLAST of CmaCh01G003370 vs. NCBI nr
Match: gi|659114569|ref|XP_008457119.1| (PREDICTED: kinesin light chain 3-like isoform X2 [Cucumis melo]) HSP 1 Score: 649.8 bits (1675), Expect = 4.2e-183 Identity = 325/372 (87.37%), Postives = 345/372 (92.74%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of Cucurbita maxima
Date Performed: 2017-05-20
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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