CmoCh07G014120 (gene) Cucurbita moschata (Rifu)
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.TGATCGTCGGCATTAGGAAATTGCCTTCAATACTTGGAGCTGCTCCATTGCAAAGCCATCGACGTTTGCCAACGAAATTGAGGATGGGCCAACATAATGCAGAACATAACGCTTCGAAATCCAATCATCAATCGCGCGTCGATAAGTTTTCGAAAGTTATCCGCGACGACCACACTGGTAATGGTGAATTTCAACTCATTTCCTATTCTACTTGTACCTGTTCAGTCATGTTTTGGCCCTGAAGATTCATCTATGTGATATACTGCCGTTTGTGGGATGAATAATGTAACTCAGGGACAAGCACATAATTTGAATCGGATTTTTTTCGGTTTCATTTCAGGAATTTTCGTTGATTGGTTTTGGAATTGGATGAAACGATTGATAATATTTGCTTGACTTTAGAACTCTTTTGAATAGCTTAAGCAGTCAATAATTGTTATAGAATTGTTCGACTTTAGAACTCTTCAAACCAAACATCTTTTGGAAGCTCAACCCAAAGCAAAGAAACAACATTGATTGATCTTCAACCAAACCAGCTCTTCAAACCAAACACCTTTTCAAAGCTCAACCTAAAACATAGAAACAACATTAATTGAAATCTTCAACCACCCCCAACTCTTCGTGCAAAGCGTCAGGGTCGTACATTTTCAACCTTGCAGTTTCGTGATCTTGACACGCTCACGACTAACCTAGAGAGGAACCCAACCCTATATACATTTTTCGCTTGCCTTTATGGCTTGGTTGGACCTTAGGAGAGGTTTTTCTTCACCAACTAAATATAACTTGTGTGGAATTCAAGCTTGTTCAGCCACACATGCTGCCGTGTGACACAATCGCGCTTTCGAAGGCAGCGGACTAGCGATTGTGCGGCACTCACTTTCCAACGACAAGTGAGTTGAGCCTATTTGTTCTTGCGTCGCCTACGGCCAAGCGACGTACGGTCAAGCCTCTAGCCTCGGTTTTAAAAGAAGGTTTTAGAAAACGAGGAGAGAGAGATTTGAGAAAGAGAGATTTTAGAAGGAGACGTTATATAAGCAAGCAAGAGAAAGATAACAACGGCTTAGCATATATAACCTTGGGTAGGGAGAAGTTGACGACTAGTCATATCCCCCTATAGTACATTCTGGGCCATTTTAGTTCTGGCAGGCGTAGACATGATATTTTTGAGGTGTCATACGCTTTAGAATTACAAAGGGAAAAACACTAGAATGAAAAGACAAGAACAAGGGTTTGGCTTGTCATGGGCATGCGGCCATGGGCACATGCCCTGGACAAGCATGACCGTGACATCCTCCCCCACCTAATTGGTTGACGTCCCTGTCAACCGACTACTTTCATACCTTGCGATGTGGGTGGCGGCGGAGTTCAGATCTTCGGCGCGTTCCCAGCTTGTTTCCTCTGTAGGGAGATTCTTCCATTTGACAAGGAATTCACGAATCGTCCGTACAGGTCTTCCTATCTTCCTAACCCTGTCAGCTAGGATCTCTTCCACTTCCTTTGTTTCTTTTTGCTTCAGATCGATGTTCGGTCTTGTGGTTGCATTTCGTTGGTCGTCGTCTGGATCAGGGTGATAGGGCTTCAAGTTGCTCACATGAATGACGGGGTGGATTTTCATCCATGCGGGTAGTGCAACTCGGTAGGAGGTAGCCCCGATCTTTTTAAGGACTTCAACCGGGCCTTCATATTTACGAACTAGTCTCTGGTCCTTTCGGCTACGAAATCTGATTTGTTCTGGTCTCAGCTTGATAAGGACTTGATCTCCTGCACGAAAATGAAGGGGGCGACGCTTCTTGTCCGCCCATTTCTTCATATGCTTGGAAGCCTTCTCTAAATATGCCCGGGCTATATCTGTTGTCTGCTTCCATTCCCTTGTAAAGTTGTGAGCTTGAGGGTTTTTTCCTGCATAAGGATGATCAATAATATGGGGTAAGGCCGGTTGTCGTCCACTTACAATTTCGAAGGGACTCTTCCCTGTAGATGAGCTGGTTTGGCAATTGAAGCAAAATTGGGCGACATCTAACAATTGTATCCAGTTCTTTTGGCGAGCGTCGACGAAGTGACGTAAGTATTCTTCGAGCAAGCAATTGAACCGTTCTGTCTGCCCATCGGTTTGAGGGTGATAACTCGAGGAGATGTTCAAGGTTGTTCCCAAGAAAGCGAATAACTCAGTCCAGAACGTCCCAATGAATCTGCCATCCCTATCACTGATGATGCTCGACGGAATGCCCCATAACTTTACAACGTGTTTGAAAAACAGTTGGGCTGTGAGTTCCGCCGAGCATAATTTGGGAGTGGGGATGAATGTCGCATATTTGGAGAATCGGTCTACAATAACCAAGATGGCGTCATATTCCCCGACCTTTGGGAGGTGCGTTATGAAGTCCAGAGATACACTTTCCCAGGGTCTTGTTGGCACAGGTAGAGGTTCCAAGAGTCCAGAGACTTTGGCTTTCTCGACCTTATCCTGTTGGCAGATGAGGCACGTCTTGGTGTATTGCATGATGTCGTCTCGCATGTTTGGCCAGAAGTACCCCTTCTTTATTAGGGCGTAGGTTCTTTGCCACCCAGGATGTCCGGCCCACAAGGTATCATGACATTCCTGAATGAGTTTCTTCCTCAGTTCCCCCGTTCTTGGGACGTACAATCTGTTTCCTTTGGTTATCAGGAGGTCCCCCTCAACCCAAAACTGCCGTGTCTTTCCAGCCTTAGCTAGTTCGACAACAGCTTTGGCCGATGGGTCTTTGTGTAAATGTTCCTTGATGATGTCGCGCATCGATCCATCGATCTTACTTGAGTGAATGTGGGCTAACATGCACAGGGCCGCATGTTCGCCCTTCCGACTCAGCGCGTCGGTTGCTTGATTACTCTTCCCTGCTTTGTGTTCGAACTTGAAGTCGAATTCGGCCAACGACTCCTGCCACCGGGCTTGTTTTGCTGTTAATTTTGGTTGATCAAAGAAGTGGCAAGTGGCGCTGTTATCCGTCTTCNTCGTGGTCAATGCCTCGACGAGGTGGTAGTGTTTGTGGTAGACTCTCTGGCATGATGTCGGTATAGCAGTCTAGTACTTCCTTGATTTCCTCTGGGACAGTCTCTTCGGTGGTTACTTCTTCTATCAGTGGTATGGCCATAAATGTAGGTTCCTCTCGAGCGAGTCCCCTTTTCAGTTGTATGGCCGAGATCATTCGAAGATTACCTGGTTGCTTAATGCTTGCAGGTATTACTGTGGGATTACGGTCGGTGATCACCAAGCATTTTGCCAATGGCATTGGGATGACCTTGTGTTCTAGGAGGAACTCCATCCCAAGTACCACGTCGAAGTCATCCATGCGAACCACGACAAGGTCTAGCTCTCCAGTCCAATCCCCTATTTTGAAGGGGACTCTCTTGGAAACTCCCACAATAGGCAAGGCCTCGGAATTGACAGCTTTCATTTTCCCCGGGTCTTTTCCTATGGTGAGTCCCAATCTTCTGGCTTCTTGATCGGCAATGAAGTTGTGGGTTGCTCCAGAGTCTATCAAAGTGCTCTTGCTCGGTTGAGAGTTTATTGTGGCATCTACGAACATGAGCCCTTTCTCTAGTACCTCCTTCGGTTCGACTTTCCGTTGGAGGGCTGACAAGAATTTGAGTGCGCCCATTCGGGGGTTGTCGTGATCTTTCTTCTTGTCTAGCAAAGTCTCGACCCTTGCTTCATTGCTCTCTTGAATGGACACTTGAAGTGCAGTGAGAGAGGCCCGATGAGGACAGTATGATACTTTGTGGGGGCCTTTACACAGCATGCATTGCAAAGGTGTCGTCGGGTGGTTCTTTTGATGATAATGCCCTCGAGAAGTCCCCGCTTGATTGTTCTGAGGAGGTCTATCCGTCCATCCATTCGGTCTGTTGGGACTTCCATTTCGCTGGCCTGGTGGTCTGTATGGTTTGCCCCCATTGTTTGGGGCTGGTGTCGCTCTTCTTTGTGATCCTGCTTCGTTCCCACAGTCTACGAGTCTCTCGGCACAGGCCATTGCGGCAGCTAGGGTTTGGACCCTGTTCTCATGTATCTTTGTTTTGGCCCACGGCTGTAGACCATTTATAAAGAAGAACACCTTGTCCTTCTCTGCTGTGCCCCTGATATCTAGCATCAGGGTTGAGAACTGTCTGACGTAGTCCCGTATGTTTCCAGTGTGTTTCAGGGCTACTATTTTCTCCATTGCTATATGCCCTGCGTTTTCGGGGAGGAATTGTTCCCTCAACTCTCTCTTGAGGTCCTCCCATGAGTCGATGGTGCACAATCCATCCTCGATGTCTTGCACCTTCGTACGCCACCACAGTTTGGCGTCGTCTATGAGATACATCGCGGCTACAGTCACCTTCTTGTCGTCGGTACAAGCCGTTGTGGCTTTGAAGTACTGTTCGACGTCAAAGATGAAGTTCTCCAACTCTTTGGCGTTCCGATTCCCTTTGAAGGCTCTAGGGTCTGGGAACCTTAGTTTGTTGGATCCTGTATTAGTCTGTCCAGCCGCGACACCTTCCACGGCTTTCATGGTAATTTCAATTCGAGTGCTCATGGCGGCCATCCTTTCTTGGAGGTCGTCGACTGTTGATCTGAATTCATCAGCCAATCCATTGAACAAACTCATCATTGTGTTTTGTAGTACGTCGAACTCTTCGCCACATCCCTCTTTGTGTGCGACAGAGCTATCCGGACTATCAGACGGTTTTGGGCTGCTCGTAGGAGCAACTCTTTCTTCGAGCGAGGTCACTCGAAACAATAGTTCTGCGATTGGCAACCCATCCAGGCGGTTGCCCATTGCGTCGACTTGGACGACTTTCTCACTCAGTTCGGTCACCCGTGTTTCCAGGAAACGGAGGGTGTCAGGGACTTCTTTGAGGAACAGCATTTCCTCCTCTATTAGCGTAAGCCGGTCAGCTTGTGCTTTGGGTGTCGACTTTGTCGTCGACATGATCACGGTCTATATGACGTTACGGAGCTAACAAAGCTCTGATACCACTTGACACAATCGCGCTTTCGAAGGCAGCGGACTAGCGATTGTGCGGCACTCACTTTCCAACGACAAGTGAGTTGAGCCTATTTGTTCTTGCGTCGCCTACGGCCAAGCGACGTACGGTCAAGCCTCTAGCCTCGGTTTTAAAAGAAGGTTTTAGAAAACGAGGAGAGAGAGATTTGAGAAAGAGAGATTTTAGAAAGAGACGTTATATAAGCAAGCAAGAGAAAGATAACAACGGCTTAGCATATATAACCTTGGGTAGGGAGAAGTTGACGACTAGTCATATCCCCCTATAGTACATTCTGGGCCATTTTAGTTCTGGCAGGCGTAGACATGATATTTTTGAGGTGTCATACGCTTTAGAATTACAAAGGGAAAAACACTAGAATGAAAAGACAAGACAAGGGTTTGGCTTGTCATGGGCATGCGGCCATGGGCACATGCCCTGGACAAGCATGACCGTGACACCGTGCATGCATGCTCAATCTTTTGCTACCCCACTGACTTGCTTCTACACTAGGCCAAATCATCTGGCTTGACGTTGCCTCTACTTGAGGCCAAGGTCTCTCATATGCAACGTTACATCTCAATTCTCATCTTAGTTCCCGATGACATTGCCTTCATGTCATAATGCCATCCCAAGTCCCGGGATGTCATCGGCCATCATAGCTCACTCGGTCTTATCATAGCTCACTCGGTCTTGCCTATCAAGAACAGGCCCATGTGTCATTCATATTATCAGGACCTCCCGAACGTCCATCCATCCGGACTCTATTGGGGCATTGGACCCTCCCGTGTCCATTCATATCATTTATGGACTCTGTACTAGATAGCGAGTACATATACCAACCTCCAACAAATGCTTGGGGTGCATGTCAGCTCACTTGTGCCGTCCGACACTATCCTTGAAAGACCTATTTCAAAGAAAGTCGTCTGAGACACTCGTCTCGCAATGCTCGCCCTCATTGTGATACACGTATGTGCTACAGGGTAGCTCGCTTAGGCCACAATGCCTAGGGGAGGTGGTGAACTAACACCATGCCTCCCCTTAAGGTACATTTTGAGGCATTTCTAATCTGGCAGATGTAGACATGATTTTGGCGAACGGTCATACGGTATCGTGGAGCATCCGTCCGGTGTCCAATTGACACCATATTTGGTGAGCTTTCATATTTCATATGGACGGAGTTAACTCTAGAGCCACATGCCCAAACTCCTTATGGAACCCCGACTTTCGAGGTTAAGGCCCGGAGTCCTACCCGACCCTTTATCAAGCCTATTTTTGTCCCTCATGTTGACATCGTTGCCTCTGTCTTACTTATGCCTCGGCTTGACTTCAATGCACATCTCTTTGGTGTATTAGATGATGCACCGTCCTCCTCGGTTGCATCATGGCACTCGTCTGTCTTAGCCTTCACGTGGCCGGATGGGCGCCACTTGAGGGTCGTTGATTTGCTTGTCTCGATGCGAGAGTCACAACCTACTATCTTCATAGTATGGTTGTGATATTCTTCCACACTTAACCAGTCGTCGTCCTTGATGACTTTCTTGGGGCATAATCGCTCCATGGATTTAATAGTGACACAAAGCACCGTAGTAAAAATTCTGCCATAACCAACTAAACAAAATTAAAAGAATCAACTTGCACCAACGGCACTTTAAGCAAAATACCCATTAAATTTGAAGATACATGCAAGAGATAACCTTTTAATGACTCTTTAACCACCACAAACACTTCATGCAAAACATCTATTAATATCTCTATGGAGGGTAAATTACTTAATTATTAATCTAAAGGCACTTTATAATTTTATAGGGAGTGTAAAGAACCTATTAATATCTCCATTTGGCTCTTGCACTTTTGCTTTACAAGATTGGACTTTTGTTTGGGTGGTTTTGGTTGAAATACGATTATGGCTTGAAGCATTCAAGATTTATTATCCTTGTTTTCATGGGACATCCATTCAAAGCAGTTGCGAAAGTTTTGTGGCTGTCCTTCAACTGTTTTCTTTTAGTCTTTATGGTGTGAAAGGAATGGAAGGGTCTTTGGTGATACTCAATCATCTTTTGAAGTCTTCATGGATTTAGTTTATTTAATGCTGTTTATTGGGTGTTTGGGGTTTTCCCCTTAATCATTTCATTTATCAATAAAATTTGGCTGTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCATATATACATATGTACTGGTTTACTAGAATATTTGTCAATATTGATATTTTATTGATATATCCATAAATTGAAATCTCGATATCGACTTTGATATTTTCATTCTTGCATCCATTGTGCTCATGCTCTGAAGGTTTACTAATTAGGTGGTTGGGAGACATGCTGGGAGCAAGGGCTGACACCATGGGACCTGGGACAACCAACTCCTGTAATTAGTCATCTCTGTGCAATGGGAGATCTTCCAAATGGTCGTGCCCTTGTGCCTGGATGTGGAAGTGTATGTCATTTCGTATTTTTATAATTTTATTTTATTTATTTATTATTATTATTATTATTTTGTAACAAACGAAAAGTTTTTGTTGAAATAATGAGACTAATGCTTAAAAGACACAAAACTCCGCAGAAGAGTGGAAAAGAACAACTAAGAGGGATTACAAATAAGTGTATAAAAAACAATTCAAGTAATACTAAATCCTCTTCAATAAAGAGCCTAAAATAATTATCCAATCGAAGTATTGAAATAAACGCTAAAAACACTTAGCTCCGAGCAAAAGAGACTGACGGGGAAGGAAGATATATTGCAACGAACATTTATTTATGCACATTTGTTCCAAAAGGAGAAAAGACATCTAATAACTCAAAACCAACTCAAATACACCCAAGAGTACAAAAATCCAAACCACCAAATAAACATCCCTATAATCTCTCAGAAAAAGGGTTTACAAAAATGACCCACCTCCGAACTCCAAAATTAATAAAGAATTGAAATTGAAAACGGTCTTCAAGGCAACAAGAAAAAACACTAGATTACCAAGAAGTAATTCTCGTTGTTGAACAATAAAAACGGATGATGCTAGTGATTGTGAAACTTCAAGTGTATTGCTTTTATCAAAACCAAAGAAGGACTTTTAAATGCTTCTACAAAAGAGTCTTCGACCTAAAATTCATCATTTTGTATGTCAACTAAATGTGCTTCAGATTCCTCACTACTGAGACTAATTTCAAATGCTTCATTAGATTTAATAACATTAACAATTGGAAAGGAGATAGAATCCTTAGTGGGGAGAGAGCTAATACTACCTTTGGTTAAAGTGACATGTGAACATGAAGGAGTGATCAGTGAAAGAGTAAAAAAGTTAGTAGGTCATGAAGGGGGTTGATATAACTTTACAGAGGAAGTGAGGGGCTGAGTATCACGGTCATGCTTGTTCAAGGTGTGTTGTATGTGGTTGCATGCCCATGCCACACCGAACCCTTTATTTAATTTCATGTTGTATTGTCTTACTATTGTATTTTCTATTTTATGACTACTTGCGAAATCATGTCTAGGCATGCTTGACCTGAATCGCCTCACAATGTATTATATGGGGGTGTGACTAGTTGTCAACTCCTCCCCCTGATTTTGTTTGACTGTTTGGCAAAATCACATCTAAGTCTGCCAGACCTAAATCGCCTCAAAATGTACTATAGGGGGATGCGACTTTGCTCTTGGGATGTCCTTATCCAAGGTCACCCCATTGCCTATGAAAGTTGGGAGTTCAACGATGCAGAAATGAGATACACTGTCTCTGAAAATGAAATATTTGCCGTCGTCCATTGCCTTAAAGTCTGGAGACAATATCTTTTGGGATCCCACTTCGTGGTGAAGACGGATAACGGTGTCATTTGCCACTTCTTCGATCAACCCTGGTGGCAAGAATTGTTAGCCAACTCTACAAAAGTAGAAACTTACTCTTAACTTCAAAAAAGTAGCAACTTCAATTGACAACTAAACATATCAGCAAATTCCCTAAAAAGTAGGATCCTCGGCTGATTCAAAACCAAAACAAACTTGTAGCTTGAGCCAATTAACAAGTAGAAACTGAAACGAGGCATTCAAACGTATTAAGCTTTCTTTTCAAGAGATTAACAGAGGAATATATTTTGGAAAGATTTCATTACACGGAAACTTAAAATTATTTACATTCTATAATTCATTCCTTATCTCTGAACCTAGCCTGAGGATAAGGGCGATTTTTCCCTTTGTGCATAGCAATTAGCTAGAATCTTACTATTTCTTTTATAGAAAACATCAAAGTTTTTAATATGACAGGGCTATGATGTTGTACAAATGGCAAGCTCTGAACGCTATGTTATTGGATTGGACATATCAAACAATGCCATACAAAAGGCAAGAGAGGTAATAATATTATATTTCTGCATTTAGCTTCTTTCCAGAGCCAACATAATGAAAAAACAAAGGGAAATTTAGGACTTTTGGGAACTTTTGTACGAGAACTATATTGTGAATGTAGTTTTGGAACCTTAGCTGATATTTCTTCTCATCTGTTCTATTAATTATTCGAGGTTTATTTTATTCTAACTTTTATTATACTTAAATGTTAGTTATAGTATATTTGTTTAGTTAGCATTTCCCTGGTAGCTTCTGCTACCTTATTTGTCTTCAATCTTTTCCCCAAGTCACCTGTATTCATAATTGCATCTCTGAATTGAAGAACTTAGGTTTAGTGGGAATTTTTCGTTCATGATTATTCTCCAATTGTTATATTGGATTTTTGCGGATTTCGCTATACTAAATTGGTTACCTTTTCTCTAATATTCCAATATTGATATCAGATCCAAGTTGAAGGGGCATTTAGTTTTGTTTATGATTTATTCTTTAAAATTAAACTTCGAATGTTTAGAATTATTTAATGAAATCCTTTTCATATCCTTCGTAATGCTATGAAACTTTGCTTGTATTTTAGGTATAATACGAATGAAGTCTCTGCAAAATTTCGTGCAAATTGGTCAAGTATATTGAGTTATTTTCCTGAAACGTGAACCATTGTGCTACAATTTTTTTTACTTGCAAATTACTTTTCATTAACTTGCCTCTTGCATATGAAGCTTACGTGTAAAGCATGTTTGAAAACTTTTTCAACAATATATCATATGCTTAATTTGGTTTGGAATGGAAAAGGTTATGGCGGGTTGAAATTGTGGCATAAGCTATTGAAATTGTGGCATAAGCTATTGAAATTGAGTAATTTTCATCTCCCACCCGCACATTATGGACTTTCATTATGGCGTATAAAACACAACTTCTCATCTTTATTGGGGTTTATCATATTTCTCAAAACAAGGAGTACATTCCCGTTTAATTGTATCAGATTTCATGTAAGAAAATAGGCCGCCATCCGTCATACTTTAATCTCGTGAGCTTATCACTTTACAATGGTTAAGTACTTAGGCTACCTTAAAATTGAGTTTAGGGTTGGCATGAGTGTCCAAGAGTCATTTAGTCACATTTATCTTAATTCAACTCCAAGCATGCTTTGTATTCCTACCACATATCCGTTCAGGAGGCTTTTCAAGTATGCTATGTATGCGGGATATATAACAATTTTCAAAAGTTCAATCGAATGGGTATATATAATCAAGATGTGGTGATAGTTTTTCACTTTACTTAGATCTTTGGGTAATTCATTTCGTCCATGTGAAAAATGATGTTATAAGAATACTGAGAGTGTGCATCAAATATTTCCTTTCATGAATGGATATCAAATAATGGAGATTACACACTTGCATTCTGCTTATATTATCTGAAATGAGGTGTTCCCTCCTGACTCGCTGTTACACTTGAAAGTAATCTCATTTCTACTTTTTCTTTTTTTCTTTTTTCTTTTTCCCTTACAAACTGCAGCTATCTTCCTCATCGCCAAAGATTAGATACTTTAGCTTCTTAAAGGAAGATTTTTTCAGTTGGAGACCTAAGGAATTGTTTGATCTCATTTTTGATTATACGTAAGTTAGAGTTAGTGACAAACTTATTTTCTCTTGGAAGAATCCTACATGATGATTATTGGAAGCCGTGCAGGTTTTTTTCTGCTATTGAACCTGCCATGAGAGTAGCTTGGGGACAACAGATGCAGATGCTATTAAAACCAAATGGAGAGCTTATAACACTAATGTTTCCTGTAATCCTCTTTACTTAAACACAAATATTCTCTTACATTGTTTCCTTTTAAGTTTTATGGATTATTTTTACAAGCCTAGAATGCAAATTTTCACCCAAATTTTCACCTCATATTTCACTGGAAGTTTCCCTTCTTAAGTTGAATTTTCTTTTCTATGACATTTTGCAACTTTAGGGCACTTTTGTCTTCTCTTTCTTTCTGTATAATTATTTTTCATGGACTGCCTTGTCATTTCTGTTACAATAATTTTCTTTTAACAAAATTGTACAAATGTTACGACACGTTTTCTCGTCATTAAGTAAACAGTCGTTTGTTTGATTTTATTTTGTATATCTTTTCATGATTCTTTCCTTTATTTCATGCTTTAAATACAATTTTTTGGCTGGCAGATTGATAACCATATTGGTGGACCACCTTACAAAGTTTCAGTTTCAGAGTAATCCTCAACCTTCACTTGGAATTTCTTTTCCTACTTGTTTAATTGTTCCTTTCAGTTCAAATATTTATCTAGATGTTTTCCTTTTTTTCCATTTAGAATCTCACTCCTTTGTCTTTGAAAAAGAATTCATGGTTATAAATACTAGAGATCAGACTCCTTATCTTTCCTTGTTTTGTACCTATTTTTAACCATTATTAAAATGAAGATGAGTTAGTTGTAGGTGGCCGATGGAAGCATCCTTATCCATGGGGATGATACTGAAGATGAGAAATATTTTTTGTGAAAGAAGGGTCTTAAGTGGGTTTGCGGTGCGAGATCAATTGGTGGAAACGATTGTTTTTTCCTATCCTGCTTTCTGCTTCTTTTAGAGCCCGATGGGGGACAAGTTTAAAGCCAAGTTTGACAAATAGAGGAACCTCCTTTTCTCATAAGCGGTACATTGGCTTTGGGTCAGTCTATCCCAACAGTACGCTCGTTTACCGTTTCTCCCTTCTTAGGGCACCAATTAAAGTTGTTTACTCAATGGAGATACTTGAGAGATTTCATTGGGAACGGAGGGGTTTATTGTCTCGTTAGCCATTTGGTAAATTGGAGTTGTACCCCTCTCTCCATTCAGTAGGAGTGGAGTCTTGGGGTTGGTTCTAATTCAAACAGAGAAATAATTCCTTATGGTCTGGAGCTACTTGGTGGTGTGACCAAAGCCATCGAAGGCAGGATGGGGGAAGGTCGTGGTCGAACATTGCCAAGATATCAACATTTTCTTCAAAAAATTGAATTTTAATGTTATGAATGGTCAAAGGATACACTGCTAGGAGGACATTTCAACCCTTTCATTACGGATGTTTTATGAAATTTATAAGCTTTCCTCAAGAAAGGGTGCCTCCATTTCAAATTGCTGGGGTGAAGAACATCAAGATTGGGATTTAGAGGGGAATTGAGGCTTGTTGAAATAAACAAAATACTTTACTGAAATAGAATTCAATACTAAACCAAAGATAGACGAGTATGGTCGTCAATAATGGTAACAAACCAAAGACTAAATAGTTTTCAAATGGAACCTTAGTTGTCGAGAAATCAAATGTCGTTTAGGGATTTGTTAGGAACTTCTTGATTAAGTTTTGTTGCATCTTCTTGGCATGTCCTAAATATCTACTCTTGGTCGTTCAATGCACAACTTGAAGTGTGTTCTTGTAATCTTCATTGTCTTTCTGTTCAGGAGTGTATCTTATCTTCCCTTTTTCATTTATAAATGGTTCCTCTGAAATGATATTATCTCAAGTTTCCCTGAAAAAAAGTAATATATGTTCCTTACCCTTGTATGTCTGTGTGGCTCTTCCATAAACCTGGCTCATAATTACATGTCTATTGAATATTGATAGTTACGAGGACGTACTACTTCCATTGGGCTTCAAGGCTGTACTTATCAAGGACAATGAACATGCCATCCCACCTCGCAAGGTAAAAAAAAAAAAAGGTTTTATTTGGCATCTCAACTTTAAAAATTGTCTAATTAATATACAAATATTACATCTAGGAAGGAAGTCAGGTGCACAATGAGCTCTATTTGAGATTATTTGAGTGTTGTGGCTAAACTTGGGAATATGCAACATTATCCATGTTCTGCAATTGCTGAATGTTGAGTATGATTAACGGAAATTTCATGACAGGGACGAGAGATGATCGGAAGGTGGAAGAGGAGTTTGGCCCACGCTTCACTCTAAATTGAAAGACAATTACAAAATTTTATGTTAAACTGTGGTAAGTGGCTAAATATGCCAAGCGGCCCCTGGTCTTTAAGTTTGTTTTCAAGTAGTCTTTAAGGACCCTTAAAGATACAAATCTAGTGACTATACGTATAATTTAGTGTAATAAAGTAATAAAGTATAAAAGTATTTTTATGCCATTAATTTCTCTACGTAGAAGATCTTTAGTAAATGGATAAGATTGTATATCTTATATTCGCAAG TGATCGTCGGCATTAGGAAATTGCCTTCAATACTTGGAGCTGCTCCATTGCAAAGCCATCGACGTTTGCCAACGAAATTGAGGATGGGCCAACATAATGCAGAACATAACGCTTCGAAATCCAATCATCAATCGCGCGTCGATAAGTTTTCGAAAGTTATCCGCGACGACCACACTGGTGGTTGGGAGACATGCTGGGAGCAAGGGCTGACACCATGGGACCTGGGACAACCAACTCCTGTAATTAGTCATCTCTGTGCAATGGGAGATCTTCCAAATGGTCGTGCCCTTGTGCCTGGATGTGGAAGTGGCTATGATGTTGTACAAATGGCAAGCTCTGAACGCTATGTTATTGGATTGGACATATCAAACAATGCCATACAAAAGGCAAGAGAGCTATCTTCCTCATCGCCAAAGATTAGATACTTTAGCTTCTTAAAGGAAGATTTTTTCAGTTGGAGACCTAAGGAATTGTTTGATCTCATTTTTGATTATACGTTTTTTTCTGCTATTGAACCTGCCATGAGAGTAGCTTGGGGACAACAGATGCAGATGCTATTAAAACCAAATGGAGAGCTTATAACACTAATGTTTCCTATTGATAACCATATTGGTGGACCACCTTACAAAGTTTCAGTTTCAGATTACGAGGACGTACTACTTCCATTGGGCTTCAAGGCTGTACTTATCAAGGACAATGAACATGCCATCCCACCTCGCAAGGGACGAGAGATGATCGGAAGGTGGAAGAGGAGTTTGGCCCACGCTTCACTCTAAATTGAAAGACAATTACAAAATTTTATGTTAAACTGTGGTAAGTGGCTAAATATGCCAAGCGGCCCCTGGTCTTTAAGTTTGTTTTCAAGTAGTCTTTAAGGACCCTTAAAGATACAAATCTAGTGACTATACGTATAATTTAGTGTAATAAAGTAATAAAGTATAAAAGTATTTTTATGCCATTAATTTCTCTACGTAGAAGATCTTTAGTAAATGGATAAGATTGTATATCTTATATTCGCAAG ATGGGCCAACATAATGCAGAACATAACGCTTCGAAATCCAATCATCAATCGCGCGTCGATAAGTTTTCGAAAGTTATCCGCGACGACCACACTGGTGGTTGGGAGACATGCTGGGAGCAAGGGCTGACACCATGGGACCTGGGACAACCAACTCCTGTAATTAGTCATCTCTGTGCAATGGGAGATCTTCCAAATGGTCGTGCCCTTGTGCCTGGATGTGGAAGTGGCTATGATGTTGTACAAATGGCAAGCTCTGAACGCTATGTTATTGGATTGGACATATCAAACAATGCCATACAAAAGGCAAGAGAGCTATCTTCCTCATCGCCAAAGATTAGATACTTTAGCTTCTTAAAGGAAGATTTTTTCAGTTGGAGACCTAAGGAATTGTTTGATCTCATTTTTGATTATACGTTTTTTTCTGCTATTGAACCTGCCATGAGAGTAGCTTGGGGACAACAGATGCAGATGCTATTAAAACCAAATGGAGAGCTTATAACACTAATGTTTCCTATTGATAACCATATTGGTGGACCACCTTACAAAGTTTCAGTTTCAGATTACGAGGACGTACTACTTCCATTGGGCTTCAAGGCTGTACTTATCAAGGACAATGAACATGCCATCCCACCTCGCAAGGGACGAGAGATGATCGGAAGGTGGAAGAGGAGTTTGGCCCACGCTTCACTCTAA
BLAST of CmoCh07G014120 vs. Swiss-Prot
Match: HOL3_ARATH (Probable thiol methyltransferase 2 OS=Arabidopsis thaliana GN=HOL3 PE=1 SV=1) HSP 1 Score: 292.4 bits (747), Expect = 4.5e-78 Identity = 135/217 (62.21%), Postives = 167/217 (76.96%), Query Frame = 1
BLAST of CmoCh07G014120 vs. Swiss-Prot
Match: TMT1_BRAOL (Thiocyanate methyltransferase 1 OS=Brassica oleracea GN=TMT1 PE=1 SV=1) HSP 1 Score: 281.2 bits (718), Expect = 1.0e-74 Identity = 126/192 (65.62%), Postives = 154/192 (80.21%), Query Frame = 1
BLAST of CmoCh07G014120 vs. Swiss-Prot
Match: HOL2_ARATH (Probable thiol methyltransferase 1 OS=Arabidopsis thaliana GN=HOL2 PE=1 SV=1) HSP 1 Score: 274.6 bits (701), Expect = 9.6e-73 Identity = 123/192 (64.06%), Postives = 150/192 (78.12%), Query Frame = 1
BLAST of CmoCh07G014120 vs. Swiss-Prot
Match: TMT2_BRAOL (Probable thiocyanate methyltransferase 2 OS=Brassica oleracea GN=TMT2 PE=2 SV=1) HSP 1 Score: 274.2 bits (700), Expect = 1.3e-72 Identity = 130/221 (58.82%), Postives = 160/221 (72.40%), Query Frame = 1
BLAST of CmoCh07G014120 vs. Swiss-Prot
Match: HOL1_ARATH (Thiocyanate methyltransferase 1 OS=Arabidopsis thaliana GN=HOL1 PE=1 SV=1) HSP 1 Score: 265.8 bits (678), Expect = 4.5e-70 Identity = 120/182 (65.93%), Postives = 144/182 (79.12%), Query Frame = 1
BLAST of CmoCh07G014120 vs. TrEMBL
Match: A0A0A0KYY5_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G439050 PE=4 SV=1) HSP 1 Score: 391.7 bits (1005), Expect = 6.0e-106 Identity = 187/231 (80.95%), Postives = 204/231 (88.31%), Query Frame = 1
BLAST of CmoCh07G014120 vs. TrEMBL
Match: M5VRQ1_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa010661mg PE=4 SV=1) HSP 1 Score: 314.7 bits (805), Expect = 9.3e-83 Identity = 150/227 (66.08%), Postives = 181/227 (79.74%), Query Frame = 1
BLAST of CmoCh07G014120 vs. TrEMBL
Match: A0A067ECJ3_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g024021mg PE=4 SV=1) HSP 1 Score: 311.6 bits (797), Expect = 7.9e-82 Identity = 147/231 (63.64%), Postives = 181/231 (78.35%), Query Frame = 1
BLAST of CmoCh07G014120 vs. TrEMBL
Match: V4TU76_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10024361mg PE=4 SV=1) HSP 1 Score: 310.1 bits (793), Expect = 2.3e-81 Identity = 147/231 (63.64%), Postives = 180/231 (77.92%), Query Frame = 1
BLAST of CmoCh07G014120 vs. TrEMBL
Match: A0A067K092_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_19270 PE=4 SV=1) HSP 1 Score: 308.5 bits (789), Expect = 6.7e-81 Identity = 146/222 (65.77%), Postives = 170/222 (76.58%), Query Frame = 1
BLAST of CmoCh07G014120 vs. TAIR10
Match: AT2G43940.1 (AT2G43940.1 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 292.4 bits (747), Expect = 2.5e-79 Identity = 135/217 (62.21%), Postives = 167/217 (76.96%), Query Frame = 1
BLAST of CmoCh07G014120 vs. TAIR10
Match: AT2G43920.1 (AT2G43920.1 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 274.6 bits (701), Expect = 5.4e-74 Identity = 123/192 (64.06%), Postives = 150/192 (78.12%), Query Frame = 1
BLAST of CmoCh07G014120 vs. TAIR10
Match: AT2G43910.2 (AT2G43910.2 HARMLESS TO OZONE LAYER 1) HSP 1 Score: 265.8 bits (678), Expect = 2.5e-71 Identity = 120/182 (65.93%), Postives = 144/182 (79.12%), Query Frame = 1
BLAST of CmoCh07G014120 vs. NCBI nr
Match: gi|449453195|ref|XP_004144344.1| (PREDICTED: probable thiol methyltransferase 2 [Cucumis sativus]) HSP 1 Score: 391.7 bits (1005), Expect = 8.6e-106 Identity = 187/231 (80.95%), Postives = 204/231 (88.31%), Query Frame = 1
BLAST of CmoCh07G014120 vs. NCBI nr
Match: gi|659069382|ref|XP_008449545.1| (PREDICTED: probable thiol methyltransferase 2 isoform X1 [Cucumis melo]) HSP 1 Score: 388.7 bits (997), Expect = 7.3e-105 Identity = 186/231 (80.52%), Postives = 203/231 (87.88%), Query Frame = 1
BLAST of CmoCh07G014120 vs. NCBI nr
Match: gi|659069384|ref|XP_008449554.1| (PREDICTED: probable thiol methyltransferase 2 isoform X2 [Cucumis melo]) HSP 1 Score: 360.1 bits (923), Expect = 2.8e-96 Identity = 172/214 (80.37%), Postives = 188/214 (87.85%), Query Frame = 1
BLAST of CmoCh07G014120 vs. NCBI nr
Match: gi|694432672|ref|XP_009343676.1| (PREDICTED: probable thiol methyltransferase 2 isoform X1 [Pyrus x bretschneideri]) HSP 1 Score: 320.5 bits (820), Expect = 2.4e-84 Identity = 149/212 (70.28%), Postives = 171/212 (80.66%), Query Frame = 1
BLAST of CmoCh07G014120 vs. NCBI nr
Match: gi|658063621|ref|XP_008367730.1| (PREDICTED: probable thiol methyltransferase 2 [Malus domestica]) HSP 1 Score: 317.8 bits (813), Expect = 1.6e-83 Identity = 148/212 (69.81%), Postives = 171/212 (80.66%), 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 moschata
Date Performed: 2017-05-19
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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