CmaCh01G003970 (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.AATAATAAAAAAAAATTCCCGCGATAATCGTCCTCCACTGCCGGCGGTGGAGGAAGCACAATCCACAGCTCGAATTTGAATTGCACGCCAAAATCCCCCCGATACAGATTCTCTCTGTGTCTCGGCGGCGGCGGCGGCAGTAGCAAGTACGAAGAACTAGTGAACTCCAAATGAGGAGGATTACGGAGATTTTCAGCTTTCGCTCTGTGGCAACTCTGTGTGTTCTAACAACGGGAACTGGACTTGCGTTCCAGACCTCGAACTCTAATTCCAAATTTGTCTCATCATCTTCCGATTCTCATTCCACTTCTCTCGATTTTGGGGAGAAACTTAGGGCCGCTGTTAACGGCTTCCGTCGTTCCTCTCGCGCGATTTCCACAGTCTGATGTTTTCTATGCCCTTTTATTCTCTTTCGATTTATTTATGTTTTTTTTTTCTTTTCTTCAGATCGTTGAACTGTTTCTTAACTTCGGTATTATTGAATGGCAGATTTCTCTGGTAGTTCTTGACTATAAGTACTCTTTGCAAGGGGTGCTAGCGAACTCTGAGGAATACCGTCTTAAATTATCTGAGGTTTGTGTATATTTACCTTTTGGCTTGTAGTTTTAGCCTTGTAGTTTTAGCCTTGTGAACTGTTGATTTTGATATTAGAAATTAAACGAAATACACACACGCATTCACAATCTCTCACTTCTTGCGGCGCGTAGGGGGTTTTGTGGTCTTCAATCATCGTTCTCTAATGCTTGCTGATGGAAGTTCATGTGCTGTCCTTTTCGATCAAATAGGCTTTCTTTGAGTTAGTTTTCTTGCCTTCAGAATTTTGTATAATTTCTAGCCGAGTAGGTTCGTTTTAGATGATCCATCTTTCGTTAATATATGCTGGATTCTTGAAACTTAAACACTTCGCCTGTCTTTCAAGTTTGGTATGGGTCTTATGAACTGCAGAAGAAATGGTTTTCATTCCCTTCTTTTACCTACTTGATCTTATATAATATGCATAATTTTTTATGTCAACGAGATCGACTGGAACATTTGATAACTTGAAGGTTTACACTTAAGATGAAATAAATATAATTAATAATTCTTGAAATTTATTCTCAGGCTTTAAGATTGTTCATCTTATTCTCGGGCTTCATGGAATTTGAGTCTAATTTTGACCGGAAAGATTAGCACTATTAACTCAATTCTAATGAAGATGCTATTACTTATTTCTGATTTTAATGAAAATGAACTTGGTTAGGTTCATCGACGCTCTGCAAATAGAATTTTAAAGCTATGCCAAGTTAACAAAGGGTTTTATGTTAAAGCTGGTCAGTTTGTAGCTTCATTGCGGCAGACACCAAATGAATACTCGTCCATTCTCTCTTCACTGCAAGATCAGGTTTAGTCTAAGTTTCTTGAAAATTTAAATTTGTAGAATGAGGTTCTTTCATTCTTGTTTAATTTTGTATAGTCATTAACACCTCAGGCTGTTCCTTGTCCTTTCAAAGATATAAAAGATATTCTAATCTACAACCTCGGTTCAGATATATCAGCAATGTAAGTTTATAAATATTTAGTGGGACTAGCTACTATGCGCTTTCCACTTGTGTTTAGCACTTTTAATTTTAGATATATTTATTTTAAATTTTAATCCCATTTTGGAACTTTTAGATTTATTCATATTAGTCCCTAAACTTTTAAAATGTTTATTTAGTCCTGAACTTAAAAAAAAAACCATTTTTGTCAATGACGTTATTATATAGTTAAATTTTGTATCACCCAATGACCACTTCAGCTGATCTCCGTGTCTATAATAATTGATGAAAAAATAAACATAAAAGATCGAAATGTTTTTTTTCAATTCTGTAATTTATAAATTTATTTGGTAGGGTATTGCAGTTCAATTACAAAATTGTCTATAATAATCAAGCAGAATATCACGGCAATCTTTAGACTCCAGGCATGCTTAAACCTCTTCTAGCCACAGGTAGGATGGTCCAAAAGATTGAAATAGACATGCAAAAAATTCATAGAAATTTAAGTCTTACTATTTCTTAACTATTATTCATGGATGTGTATGATGGCATCATAGTAAGCATTAAGTCTTTTCAGGGGTCTTGTTCTTTGGTTTTTATTCTATATTTGAAAGATTATTGAACTCAAGGACGAAGTTGTACAACAACTCTCTAGTCAAGTAAGGTCATTTTTCTATATTTGAAAATAATATTAAGTTCATCAATTAGATAAATTATTGGGAGAAGCCATTCTCATACTGAGTTTGATTTCTCATGCCAATGAAAGCAATTGAAATTGGAATGTCAAGTGAGAATGATCTTATTGCTCTCATGATTTTTGAGTCAGTTATGTAATAGTTGTAGGTAACAATCAAAAAGGAAACTGCCTAACTGCAGAAAGAAAAGGAAGTTGGAGCTCTGGTTAAATGAGTAGCATACATGTTAGGTTGGTTTTTAGCTTGTTCTGAATCTTATAGGGTCGGGCTAAAATTATGTGTTTGGTGCACTGGATTACCAGATTATTTTATTTATTTATCCTGAATTATCTTCGTGAAAAGTTCTGTCCACAGTCTACGGGGTTAGAGATTGTTTTATTCCATAATTTGGGGTTTGTTTAACTTCAGATTTCTTTCATTCGATGAACAACCTATAGCTGCTGCATCAATTGCTCAGGTGCACCGTGGTATACTGAAAAATAATCAAGAAGTAGCTATCAAGGTTTGTCAATATGGACAGTATCATTTAATTTATTGTGCTGCATGCTGAGGAAACTAGAGGATGATGATTTTGTGTTTGATGACAATTCTTTAAGATAGTGGCAGCATATTTGAGCATGTGCTGAAAACACAATGAATAGGGCATTGGGTTCGACCACCTTAATTAATGTGGAGGATGATAGAGATAAGACTAAATTGGAAGATATAAAGGGCCACATGTCTTGACGGATAAAATGAAGATGAGGAGTTTTAATTTTTAGGTCACTGAATTGTGATTATACAGATTGCATTTATTGTTAAAAGATTCATTATACTTGAACTTTATTTGTTTATTATATGTTATCTTCTATTTTCTTCATTTCATTCTTTCTTCCTACATTTATTATTCCAGGCATGTTTATGTTTATCTTACATAGGCTAAATTATGTAAAATACTCCTTAACTTTGTTTCAATAATAAACTTGAGTTCTAAAAAGATTCATGATCCTTAAAAAACGTTAAAAAAAGTACTCTTTCCATTAAGTTTTGGATAAGTTTCGTTTCACTAATACCCCTAAACTTTAAGTTTTGAATGGAAAACTTAAAGTTTCATTAATATCCTTGACATTTTAGGCAATTTTTACCTTTGCCTTTCTGACTTATAGATTATTTGAATGTTAATCTTAGTTGTTTAATTAACTGAATCATTGGTTTGATTGGTGAACTCTTTATGATATCTCTCTCTAATTGTTCACCATCTTTTGTTTTATTTTGTTCTTATTCATCTTTCTATTTTATTCTCTAAATAAAATTTAGTGATGACATTTGTGATAATTAAGTGAACTAGAACACCATTCATGTGGACGATACTCTGACATCTATATTAAAACTTGACTCGTACACTTGTGGTATTGTATTGAGTAATTTTATGCAACGCCAACTTAAAGCCTTTGCACATTAGTTTCTGCCTTAAAATTTCAAGTTTAATGCTTCATTAACAATTGTTAAAAAAAGTCCCAAAGTTAAAAGAAAACACAAAGTCACAAATGAACTTCAAACACAATTGTTACTTTTGATGCAATGAAAGACAACAAACCTAGAGATGAAAGTGGCAGGTGGATCATCAAAAAATTTATTTTTTCATCCCTACATTTGACATCAAATTCAAGCATTTGGGTAGTAATATTTTAATCAAATTCAAGCAAGAAATCGATCTCAAAAACCAAAAGGACGATAAATTATCCTTCAACTTCGAAGAATTGAACAAATCCGTACTTGAATCTACCCAGTTAGGTTTCTAAATCCATCCTAACAACAATTTAGTTTTTGTTTTTCATTTTTCTTTTTTGTCTTGGGAGAGTTATGGGGAAGGGTTATAGTTATGGATTTTGGGTTTTTGGAGCTTATTTGGTCAATTGTTACTATTACCTTTCAAATGCTAATAATCTATTCATTCTCATTAATTTTCATGGATGAGGATTTCTGTAGAGTGAGGAAGGAGAAGAAACATAGTATTTTATTAACTTTTTGAATGGCCAGGAGTATTATTGAAACGAAATTTTAGCATTTTCCATTCATAACTTTATGATTAGGGGTATTTTTTAACCTTTTTGAAAGGTTGGAAATATTTTTGTGTATTTCTCAAAGTTTAAGGGTATTATTGAAACAAAAAGGGTGTCTTTGAATTTTTTTTTTTTTTTGGAAGATTAGGGGTATTTTTTAAAAAAGTTTAGGAAAACCCATAATTTAGGGGTATTTTTTTCTTTCCAAGCTTAGGATGTAGAGAATTATTGTGCTTCAATTCAATTCACGCTTTAAAAACGTGTAGTTGACCTTTTCTAGATTGTTCAAAATATTGGATTTTCATTGTATAGAATAAAAAATTACTTCTAATAAAACCAGATTTCTATGTGATTATTTTTATTATTTTTGAACATAGGTGCAGTACCCAGGATTGATGCAACACGTGAAAATAGACATAACAGTCATGTCTTTCCTATCGAGAACCATCTCATGGGTGAGAATATTGCGTACGTTTTTATTAAGTTTTTATACAATGTATAGCTTTGTGCATCTTGCTTGGCCATTTACAATAAATGTAATTTTGGTTATTTCTTTTCTAACATTTAAACATGCTAGATAAGGGCTGTTTGAATTTAAACAACTTTAGAACTTAATAAATCCATATTTTTCCTTCATGGCTCACCTATTGTTAGAATAACATTATCTTTTTCCCAACCTTGCCCTTTTTTTGTCTTCCCTGCAATGATTTGGGAACTTTTGATAGCTTGTGTAAGATTGAGGAACATAAAACAATGTTGGAATTGGGGAGTTATTGAGAGAGTAATATGGAAACAGTCTTTGAATAAAATCTCAGAAAAATATGAATATCATAAGCAATTGCGTCTTCTACCCAACTATGTTGTTCCTGTAAAATCCAAAAGAAAAACAAAGATCTGAGTTGTCTTTTGACCATCTTTTCAAAGGTCTTTGCTTTTTTCTCTTAGGAAGGGGAGCATACATGTCTTTTTCTGTGTTTTTTGTGTAAAGTCATCATAAACCATATATCCTTCTGAGTACCCAAGTTCTTCATCGGGCAGAATGATCTCCAATAGAAGGGATGCATTGTTGAGTTCTCTGGCTTCTTCATAATTCATTATTGTTGTTTCTTATAGGAAACATCCTCATAACTTTCTTTGAAAAGTTCCTAACATATATACAAAGTCAGCAACTAAATAACTGAATAATACGTATAAGACTATGGGGCATACTACAAATTGGTTAGGACATTTAGAGTTACGATCCTGGTCTGTAAACAAATTTCTCTTGAGATTTATCATTTGTGGGGTTATATAGTCTGAAAGAATAGCCTAGCTTAGGGTTATTTTCTTTTTAGCTTTTGATAGAAAACCTATTTTCGTAGAGAAACTGATTGAGAGAAACAAATAGGATAACAAATGTGGTCAATGCCACGAAGAATAGAAAGATGCTATCTAGACTCAAAGTGGTTTAACAATTGGTTTTTCATTAGGAAGCCATAGAAGGCTTTCCACATATGAGATCTGGCCATAGACGGATCAAATTATTGGCTCATTCCAAGGTGAAGAAATATGAAGAAGAGGTTGACAAATAGTTGATGTGATTATGTTTTTAGCTTTTATATCTGACTTCGTTGACTGATTCTTAATGTAAAAATCATTTTATGCAAGTCCAAGCCAACTAATCAGTCTTTCTAGTTCTACAACTCCATTGGCTCTTTAACTATTGTAATAATTGTCTCATTCTTTAATTTTCATCTCTTCATGCATATCTTTTAAAATTATTTTCTTTAAGAACTGCTTATCCCCTGCCATTGGCTGTTGACTTTTCATACAGCTATTCCCAGACTATAGGTTCCAGTGGCTGGCATCAGAATTTGAAAAGACAATTTTTATGGAGTTGGGTAAGTTTTCAAAACTTCTATGGACCATTGAGGTTTTTCCATGGTAGTTATATTTAATAATTAGCTTAAATTACAAGTTTGGTCTCCAAACTTTTACTCTTGTTTCTATTTATTCTTTATACTTCAAAACATTTCTAATGAGTCCTTGAATTGTCGAGGGTGGTATCAATCAAGCCCTTAACAGTTTTTAACAAGTCATTAGATTTTTAGTTTTATGTCTTATAGGTTCCAATCATTAATTTTATGAGTTTAATACTTATTTGGTATGGTTCTGATATTATTTAGGGATTACATGGTTGATTGATTTTAAGCACGGGTTTAAGCATTTTATGGTGTGAACACTAAACCAGTGCAATAAGTGACTGCGACTTATTGAAAAGAACCTACCTGTAGCATGAAGTTGTTCAACAGGTTTATTTAAAAAGCCAATCTCTGTGGTTTTCCACTCCAAACCATTCACTTGGTCTGTCAACAGTTAGTCCCCCTCCCACTCACTTATTGACTGGTTTCTCACTTTAGATGATATCTTGGCTAAATTTGGGGATGCTATTCTAGAAGATTGGAACGAACGGCTTTAGACCACTTTCCTTTTCTCCCAACTCTTGAAAAGCAAAAATGGGCCCCACTCCCTTTAAATTCTATATGCTTGGATGGATCAATATTCTGCTTTAGAGGCTGAATGATTTTTTTTGGTTAATGGTGGCATTCTCCTTTCGATATGTTATGGATAAACTTAAAAGTAGGTTCATGAATTTCCATTTGTAACTAAGAACCATTTTCTACGAATCAAAGACCTATTAGTTTATGGAAGGTTAAATAATCTTGGGATTAAAAATATACGGTCTCTACAAATCTGGAGAATATGCTGAATAATGATGAAACAGGCTTGTGAATTAGGCCCCTGTTCAGCAAGTTAGGCTGTAAATGTATACAATCTGTTATCGGAATAGTTTTCAATGGGATATCATGCCAAAACTTCCTGTAAATTAGTGATCAGTATACATTTTGGCGTGCAGATTTCATCCACGAAGCTAGAAATGCTGAGAGGACTGCTGAAAACTTCAAGAACAACAATTTGATCAAGATTCCTCAAGTATATTGGGTATGGAAATTGAGGCTCTTGTTTGTCATGTACAATTTTCTATTTGCCACCTGTATCATATGTTTGATTCCCGAGTGCTTTGGCAACCTACAATACAAACCAATAACTAATAGTAAAAGGATTTATAATCATGATACTGTTATCACAAGTTTGATTCCCAAGGGCCTGGGATGGTTTTTGCATTTTTTGTCTTTTGGGCTCTTTGTGATGGAGACGGATGTTTATACCGCAATGGTAATTTGATAAGCTTAAACATATTTAGGAATTTACCACGAGGCAAGTTCTGACAATGGAGTTCTGTGAAGGACACAAGGTATGACTTTTGGTCTATTGTTTCATGATATGTTATACTAGCTTTCAACTTTTAGTTTAGTACCATGTTATTGTTTCTTAGTTAGCTCTTGGGTACATAAATAACTAGCCGCTTTTTTTGTAATTTAAGAGGCTCAACTAAAGTTTGTTAATTTCAGGTTGATGATATTGAATTCATGAAGCAATCGGGCATAGAACCAGCAAAGGTTTGTTTTGCATTTACTTAATAATAACACAACTAACTTAAGTTGTCAAAATCATGTTGATTTGGTAACTTCTCGTTATGGATCCTTTTAAACGGCAACTAAAACACTTTAGTTCGCTCGCAGTCACTCCAATCATGTAGAGTATGAAAGGTATAGTGGGGTTGAGAGGATAGATGTTTATTTTATGTGCCGTGAGTTGTTCATTCAAGGATAACTGAGATGCGTTGCCAGAACAAAAAAAATCAAATAAAGGATTTTATTTTTCCAACTTCATTTCTCATCTTAACGCTTTGTTGAAAAATGCTTCTATGCTTATTTTGGTTATATTGTAGGTTGCCAAAGCACTTGTCGAAATATTTGCTGAGATGATTTTTGTCCATGGTTTCCTGCATGGTGATCCACACCCTGGTAATATATTGGTTTCTCAGGACCATTTAAATGGCTTCACTCTCGGTATGTTTGATGTTTTGATTTGTTGGACTTTAGATGTTGAATCCTTATAGTCTGCCCCATATACAATCCATTTATGAAACAAATAATGCAGTTCTTCTAGATCATGGAATCTACAAACAGTTGGATGAAGAATTTAGACTGAACTATTGTCAGCTCTGGCAGGCCATGATTACACTAGATACCAATAAAATACTTCAATTAGGAGAACGGTTTGGTGTCCCGAAGTACTGTAGATACTTCCCTCTCATTTTCACTGGGAGATCATTTGATAGGTGATTATTACTTTACTTTATTATTGATTGTGATGAATTCTGAGCACAAACATTCAATCTATATTTGGACGTATGGTGCAACAAGCGATTATGCAACTAGTATGTCTTGTGGTTTGCTTGAAGAGGTGCATTATGTGAAAATGTGATTAAATAATTGATATAATTCTAACCTGTGACTATGAGCTTGTAATGGACTTCATTCAAGTCCAATTTATTTAAATCGCTGGCATTCATAGAGTTAGCATTGATATAGAACTGACAGTTGCGTACAGTATAAATTAACGACCAAGATTTATATTGCTCTTGAAGTCAGACATTTGACTCTCTCTTAACAAGTTACTCAGATAAGACTGAAAAGAGGAGAATGTAAACACAATAAAGTAGAATGGTCGTGAAAAGATCCTGAAGAGTTGATGAACAGCATAGATATATTAAATTGAACTTCCTGTTATATTGCGCTAAAGAATTGTTATATTGTACCTGAATTCACTTTTCAATGCCAGTGTAGGCTTTGTGCTCATTCTTTTTTTACCACAGCGGATGAATATGAAGTTTAAGGAACTACAAGTTACTGGTGGTCAATGTAAATTTGTAGCCCGTAACTTTGAAAATGCATTACAACTGTGACAGTGTCTGTTTTATTGTATGAATCTAGTTTCCAAAAGTTGCAGTTAATGCTATTTACTTGTGAAATATAAAGCTGATTCCTGCCAACTTCATCACTTCATTTATAGTACATCTGCTCTTGGGATGGGAATGTCCAATGAAGAAAAAAGAAATCTTAAGCAGGAACTGAAGTTGTTAAAGATGGAGGACATTTCTTCATTCATGGAATCTTTGCCTCTGGACTTTCTCACTGTACTGCGCACAGAGTAAGACAAAAAGTGGAATTTATGCCGAGTAGTTTATTGACATGATGAATCTCTGTCTTCTCTACAATTTTCATATTTTCCACTATGCCGCAGTGGTTTATTGAGGTCCATCACGAGAAAGTTGGGTGTTTCACAACGAGTTAGAATATTAACCTATGCCAAATTTGCATTACGTGGTTCTTCTCCCAAATTAAATCCTGAAACAGGTATGAGCTTTCATACAAAAATAAGTTTTGAAAATCGTGTTACCTAGGATTAGCAGAAGCAGAACAATTGATGATACTGACTTTTCAGTTGCATTGACAAGGATTTATTTTGACCTAGGTGTTATGTGGATCTTTTACTTAAAAGTTTAAATTACCATATATAGTTTGAGCTCTACGCTTTTATAATTTAATTTGGGTTCCTATTTTTTTGTTCCCTATTGAAATTACTGTTTTCCTTCCCCTGTGCATTTAGATACTATTGTGAAAGTTGCTTACTTCAGACTGAAGACAAACTTAAGCTACCTTTATTTGAGGCTCATTCTTGGTAAGATGGCATCTAATTTATTATTTCAAATGTTCGTATATTTCAAGGGATTGAGAGTGACCTTTTGTTCTGTTCTTGTAGCTGGAATTGAGGCGCTATCAAATTTTCAAAAGTTCATGCATTATGTGTATTCATTGTGTGGCAAGTTCATTTATGCCACGAAAACTTTGCCGATGCTTTCATTCCTGTAGAGTATTCAAGGTACATGTTCTTGGCTTCTGGAAGAGTATATACGACTCGTTCCTCGACTTAAAGCTTCTAATGGGAAATCATCAGTTTCTGAAAGGATGATTTCCCAAGGTATACATTTTTGTTTGTCTTACCAAGAACAGAACAAAACAAAACAAGATAAAGCATTCAGATAGAAACAGGATAGGACTAAATGTAACCTTCTCAAATACTTTAGGGCCCTTTATTTGTCTTTTTTTTTCATTTTTTTGTATGATTGAGCGACTTTTTTGAAGATTCAAAGTTCTAATGTAAAGGTTCAGAAATTTATTCGTTGTATGCAGAAGTAAAGATGGTTATTGGTTAAGGCTCATGTTCTTTATA AATAATAAAAAAAAATTCCCGCGATAATCGTCCTCCACTGCCGGCGGTGGAGGAAGCACAATCCACAGCTCGAATTTGAATTGCACGCCAAAATCCCCCCGATACAGATTCTCTCTGTGTCTCGGCGGCGGCGGCGGCAGTAGCAAGTACGAAGAACTAGTGAACTCCAAATGAGGAGGATTACGGAGATTTTCAGCTTTCGCTCTGTGGCAACTCTGTGTGTTCTAACAACGGGAACTGGACTTGCGTTCCAGACCTCGAACTCTAATTCCAAATTTGTCTCATCATCTTCCGATTCTCATTCCACTTCTCTCGATTTTGGGGAGAAACTTAGGGCCGCTGTTAACGGCTTCCGTCGTTCCTCTCGCGCGATTTCCACAATTTCTCTGGTAGTTCTTGACTATAAGTACTCTTTGCAAGGGGTGCTAGCGAACTCTGAGGAATACCGTCTTAAATTATCTGAGGTTCATCGACGCTCTGCAAATAGAATTTTAAAGCTATGCCAAGTTAACAAAGGGTTTTATGTTAAAGCTGGTCAGTTTGTAGCTTCATTGCGGCAGACACCAAATGAATACTCGTCCATTCTCTCTTCACTGCAAGATCAGGCTGTTCCTTGTCCTTTCAAAGATATAAAAGATATTCTAATCTACAACCTCGGTTCAGATATATCAGCAATATTTCTTTCATTCGATGAACAACCTATAGCTGCTGCATCAATTGCTCAGGTGCACCGTGGTATACTGAAAAATAATCAAGAAGTAGCTATCAAGGTGCAGTACCCAGGATTGATGCAACACGTGAAAATAGACATAACAGTCATGTCTTTCCTATCGAGAACCATCTCATGGCTATTCCCAGACTATAGGTTCCAGTGGCTGGCATCAGAATTTGAAAAGACAATTTTTATGGAGTTGGATTTCATCCACGAAGCTAGAAATGCTGAGAGGACTGCTGAAAACTTCAAGAACAACAATTTGATCAAGATTCCTCAAGTATATTGGGAATTTACCACGAGGCAAGTTCTGACAATGGAGTTCTGTGAAGGACACAAGGTTGATGATATTGAATTCATGAAGCAATCGGGCATAGAACCAGCAAAGGTTGCCAAAGCACTTGTCGAAATATTTGCTGAGATGATTTTTGTCCATGGTTTCCTGCATGGTGATCCACACCCTGGTAATATATTGGTTTCTCAGGACCATTTAAATGGCTTCACTCTCGTTCTTCTAGATCATGGAATCTACAAACAGTTGGATGAAGAATTTAGACTGAACTATTGTCAGCTCTGGCAGGCCATGATTACACTAGATACCAATAAAATACTTCAATTAGGAGAACGGTTTGGTGTCCCGAAGTACTGTAGATACTTCCCTCTCATTTTCACTGGGAGATCATTTGATAGTACATCTGCTCTTGGGATGGGAATGTCCAATGAAGAAAAAAGAAATCTTAAGCAGGAACTGAAGTTGTTAAAGATGGAGGACATTTCTTCATTCATGGAATCTTTGCCTCTGGACTTTCTCACTGTACTGCGCACAGATGGTTTATTGAGGTCCATCACGAGAAAGTTGGGTGTTTCACAACGAGTTAGAATATTAACCTATGCCAAATTTGCATTACGTGGTTCTTCTCCCAAATTAAATCCTGAAACAGATACTATTGTGAAAGTTGCTTACTTCAGACTGAAGACAAACTTAAGCTACCTTTATTTGAGGCTCATTCTTGCTGGAATTGAGGCGCTATCAAATTTTCAAAAGTTCATGCATTATGTGTATTCATTGTGTGGCAAGTTCATTTATGCCACGAAAACTTTGCCGATGCTTTCATTCCTGTAGAGTATTCAAGGTACATGTTCTTGGCTTCTGGAAGAGTATATACGACTCGTTCCTCGACTTAAAGCTTCTAATGGGAAATCATCAGTTTCTGAAAGGATGATTTCCCAAGGTATACATTTTTGTTTGTCTTACCAAGAACAGAACAAAACAAAACAAGATAAAGCATTCAGATAGAAACAGGATAGGACTAAATGTAACCTTCTCAAATACTTTAGGGCCCTTTATTTGTCTTTTTTTTTCATTTTTTTGTATGATTGAGCGACTTTTTTGAAGATTCAAAGTTCTAATGTAAAGGTTCAGAAATTTATTCGTTGTATGCAGAAGTAAAGATGGTTATTGGTTAAGGCTCATGTTCTTTATA ATGAGGAGGATTACGGAGATTTTCAGCTTTCGCTCTGTGGCAACTCTGTGTGTTCTAACAACGGGAACTGGACTTGCGTTCCAGACCTCGAACTCTAATTCCAAATTTGTCTCATCATCTTCCGATTCTCATTCCACTTCTCTCGATTTTGGGGAGAAACTTAGGGCCGCTGTTAACGGCTTCCGTCGTTCCTCTCGCGCGATTTCCACAATTTCTCTGGTAGTTCTTGACTATAAGTACTCTTTGCAAGGGGTGCTAGCGAACTCTGAGGAATACCGTCTTAAATTATCTGAGGTTCATCGACGCTCTGCAAATAGAATTTTAAAGCTATGCCAAGTTAACAAAGGGTTTTATGTTAAAGCTGGTCAGTTTGTAGCTTCATTGCGGCAGACACCAAATGAATACTCGTCCATTCTCTCTTCACTGCAAGATCAGGCTGTTCCTTGTCCTTTCAAAGATATAAAAGATATTCTAATCTACAACCTCGGTTCAGATATATCAGCAATATTTCTTTCATTCGATGAACAACCTATAGCTGCTGCATCAATTGCTCAGGTGCACCGTGGTATACTGAAAAATAATCAAGAAGTAGCTATCAAGGTGCAGTACCCAGGATTGATGCAACACGTGAAAATAGACATAACAGTCATGTCTTTCCTATCGAGAACCATCTCATGGCTATTCCCAGACTATAGGTTCCAGTGGCTGGCATCAGAATTTGAAAAGACAATTTTTATGGAGTTGGATTTCATCCACGAAGCTAGAAATGCTGAGAGGACTGCTGAAAACTTCAAGAACAACAATTTGATCAAGATTCCTCAAGTATATTGGGAATTTACCACGAGGCAAGTTCTGACAATGGAGTTCTGTGAAGGACACAAGGTTGATGATATTGAATTCATGAAGCAATCGGGCATAGAACCAGCAAAGGTTGCCAAAGCACTTGTCGAAATATTTGCTGAGATGATTTTTGTCCATGGTTTCCTGCATGGTGATCCACACCCTGGTAATATATTGGTTTCTCAGGACCATTTAAATGGCTTCACTCTCGTTCTTCTAGATCATGGAATCTACAAACAGTTGGATGAAGAATTTAGACTGAACTATTGTCAGCTCTGGCAGGCCATGATTACACTAGATACCAATAAAATACTTCAATTAGGAGAACGGTTTGGTGTCCCGAAGTACTGTAGATACTTCCCTCTCATTTTCACTGGGAGATCATTTGATAGTACATCTGCTCTTGGGATGGGAATGTCCAATGAAGAAAAAAGAAATCTTAAGCAGGAACTGAAGTTGTTAAAGATGGAGGACATTTCTTCATTCATGGAATCTTTGCCTCTGGACTTTCTCACTGTACTGCGCACAGATGGTTTATTGAGGTCCATCACGAGAAAGTTGGGTGTTTCACAACGAGTTAGAATATTAACCTATGCCAAATTTGCATTACGTGGTTCTTCTCCCAAATTAAATCCTGAAACAGATACTATTGTGAAAGTTGCTTACTTCAGACTGAAGACAAACTTAAGCTACCTTTATTTGAGGCTCATTCTTGCTGGAATTGAGGCGCTATCAAATTTTCAAAAGTTCATGCATTATGTGTATTCATTGTGTGGCAAGTTCATTTATGCCACGAAAACTTTGCCGATGCTTTCATTCCTGTAG MRRITEIFSFRSVATLCVLTTGTGLAFQTSNSNSKFVSSSSDSHSTSLDFGEKLRAAVNGFRRSSRAISTISLVVLDYKYSLQGVLANSEEYRLKLSEVHRRSANRILKLCQVNKGFYVKAGQFVASLRQTPNEYSSILSSLQDQAVPCPFKDIKDILIYNLGSDISAIFLSFDEQPIAAASIAQVHRGILKNNQEVAIKVQYPGLMQHVKIDITVMSFLSRTISWLFPDYRFQWLASEFEKTIFMELDFIHEARNAERTAENFKNNNLIKIPQVYWEFTTRQVLTMEFCEGHKVDDIEFMKQSGIEPAKVAKALVEIFAEMIFVHGFLHGDPHPGNILVSQDHLNGFTLVLLDHGIYKQLDEEFRLNYCQLWQAMITLDTNKILQLGERFGVPKYCRYFPLIFTGRSFDSTSALGMGMSNEEKRNLKQELKLLKMEDISSFMESLPLDFLTVLRTDGLLRSITRKLGVSQRVRILTYAKFALRGSSPKLNPETDTIVKVAYFRLKTNLSYLYLRLILAGIEALSNFQKFMHYVYSLCGKFIYATKTLPMLSFL
BLAST of CmaCh01G003970 vs. Swiss-Prot
Match: ADCK1_XENTR (Uncharacterized aarF domain-containing protein kinase 1 OS=Xenopus tropicalis GN=adck1 PE=2 SV=1) HSP 1 Score: 318.9 bits (816), Expect = 1.1e-85 Identity = 177/465 (38.06%), Postives = 276/465 (59.35%), Query Frame = 1
BLAST of CmaCh01G003970 vs. Swiss-Prot
Match: ADCK1_XENLA (Uncharacterized aarF domain-containing protein kinase 1 OS=Xenopus laevis GN=adck1 PE=2 SV=1) HSP 1 Score: 316.6 bits (810), Expect = 5.3e-85 Identity = 167/413 (40.44%), Postives = 256/413 (61.99%), Query Frame = 1
BLAST of CmaCh01G003970 vs. Swiss-Prot
Match: ADCK1_MOUSE (Uncharacterized aarF domain-containing protein kinase 1 OS=Mus musculus GN=Adck1 PE=1 SV=1) HSP 1 Score: 312.0 bits (798), Expect = 1.3e-83 Identity = 164/414 (39.61%), Postives = 258/414 (62.32%), Query Frame = 1
BLAST of CmaCh01G003970 vs. Swiss-Prot
Match: ADCK1_CHICK (Uncharacterized aarF domain-containing protein kinase 1 OS=Gallus gallus GN=ADCK1 PE=2 SV=1) HSP 1 Score: 303.1 bits (775), Expect = 6.1e-81 Identity = 163/463 (35.21%), Postives = 274/463 (59.18%), Query Frame = 1
BLAST of CmaCh01G003970 vs. Swiss-Prot
Match: ADCK1_HUMAN (Uncharacterized aarF domain-containing protein kinase 1 OS=Homo sapiens GN=ADCK1 PE=2 SV=2) HSP 1 Score: 293.9 bits (751), Expect = 3.7e-78 Identity = 156/423 (36.88%), Postives = 257/423 (60.76%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TrEMBL
Match: B9SR97_RICCO (Ubiquinone biosynthesis protein coq-8, putative OS=Ricinus communis GN=RCOM_0113190 PE=4 SV=1) HSP 1 Score: 672.9 bits (1735), Expect = 3.3e-190 Identity = 343/531 (64.60%), Postives = 415/531 (78.15%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TrEMBL
Match: V4TWH9_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10019576mg PE=4 SV=1) HSP 1 Score: 633.3 bits (1632), Expect = 2.9e-178 Identity = 320/537 (59.59%), Postives = 403/537 (75.05%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TrEMBL
Match: A0A067EBD9_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g008999mg PE=4 SV=1) HSP 1 Score: 620.9 bits (1600), Expect = 1.5e-174 Identity = 314/537 (58.47%), Postives = 400/537 (74.49%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TrEMBL
Match: A0A022RNP4_ERYGU (Uncharacterized protein (Fragment) OS=Erythranthe guttata GN=MIMGU_mgv1a019525mg PE=4 SV=1) HSP 1 Score: 615.5 bits (1586), Expect = 6.2e-173 Identity = 306/479 (63.88%), Postives = 377/479 (78.71%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TrEMBL
Match: A0A061EB92_THECC (Kinase superfamily protein, putative OS=Theobroma cacao GN=TCM_016781 PE=4 SV=1) HSP 1 Score: 609.4 bits (1570), Expect = 4.4e-171 Identity = 320/552 (57.97%), Postives = 402/552 (72.83%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TAIR10
Match: AT1G65950.1 (AT1G65950.1 Protein kinase superfamily protein) HSP 1 Score: 595.9 bits (1535), Expect = 2.6e-170 Identity = 305/532 (57.33%), Postives = 396/532 (74.44%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TAIR10
Match: AT2G40090.1 (AT2G40090.1 ABC2 homolog 9) HSP 1 Score: 229.9 bits (585), Expect = 3.7e-60 Identity = 149/470 (31.70%), Postives = 245/470 (52.13%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TAIR10
Match: AT5G64940.1 (AT5G64940.1 ABC2 homolog 13) HSP 1 Score: 185.7 bits (470), Expect = 8.0e-47 Identity = 106/282 (37.59%), Postives = 153/282 (54.26%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TAIR10
Match: AT5G24810.2 (AT5G24810.2 ABC1 family protein) HSP 1 Score: 164.1 bits (414), Expect = 2.5e-40 Identity = 130/473 (27.48%), Postives = 220/473 (46.51%), Query Frame = 1
BLAST of CmaCh01G003970 vs. TAIR10
Match: AT3G07700.3 (AT3G07700.3 Protein kinase superfamily protein) HSP 1 Score: 162.2 bits (409), Expect = 9.5e-40 Identity = 84/272 (30.88%), Postives = 150/272 (55.15%), Query Frame = 1
BLAST of CmaCh01G003970 vs. NCBI nr
Match: gi|449455830|ref|XP_004145653.1| (PREDICTED: uncharacterized aarF domain-containing protein kinase 1 [Cucumis sativus]) HSP 1 Score: 917.1 bits (2369), Expect = 1.4e-263 Identity = 465/548 (84.85%), Postives = 503/548 (91.79%), Query Frame = 1
BLAST of CmaCh01G003970 vs. NCBI nr
Match: gi|659123251|ref|XP_008461566.1| (PREDICTED: uncharacterized aarF domain-containing protein kinase 1 [Cucumis melo]) HSP 1 Score: 904.8 bits (2337), Expect = 7.3e-260 Identity = 459/542 (84.69%), Postives = 493/542 (90.96%), Query Frame = 1
BLAST of CmaCh01G003970 vs. NCBI nr
Match: gi|225466255|ref|XP_002268353.1| (PREDICTED: uncharacterized aarF domain-containing protein kinase 1 isoform X1 [Vitis vinifera]) HSP 1 Score: 680.2 bits (1754), Expect = 2.9e-192 Identity = 346/531 (65.16%), Postives = 411/531 (77.40%), Query Frame = 1
BLAST of CmaCh01G003970 vs. NCBI nr
Match: gi|645243304|ref|XP_008227913.1| (PREDICTED: uncharacterized aarF domain-containing protein kinase 1 isoform X1 [Prunus mume]) HSP 1 Score: 672.9 bits (1735), Expect = 4.7e-190 Identity = 343/530 (64.72%), Postives = 415/530 (78.30%), Query Frame = 1
BLAST of CmaCh01G003970 vs. NCBI nr
Match: gi|1000947907|ref|XP_002528516.2| (PREDICTED: uncharacterized aarF domain-containing protein kinase 1 [Ricinus communis]) HSP 1 Score: 672.9 bits (1735), Expect = 4.7e-190 Identity = 343/531 (64.60%), Postives = 415/531 (78.15%), Query Frame = 1
The following BLAST results are available for this feature:
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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