Cla97C06G113730 (gene) Watermelon (97103) v2.5
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TGCAGAATCCATGGATTACGCACTACCGCATTGAAGCCTAAATTCCTGAAGCTCATCACACCTCGATTTTCAAACCCCAAAACCCCCAAACCCAAATTCTGTCTCTCAAATCTTCTTCTTTCTACTACGTTTTCTGTTCGCAGCTCCGATTCAGGTTCATATCCTTTTTCCCTTTCTGGGTTCTTTCGTATTTTGTTAATGAATTCAACATTTTCCTTCTCTTCTTTGTGATTGTTGATTGTTGACGAATGAGTGATGGAATGAAATTTTAAGTTCCGAATGTAAATGAAGTTCTAATTACTTCGTTCTTTAATCAAATTTTGAGATTTTAGCTCATTTCTTTGAGCTTGTTATATGGAGTGAGAAGGGTTGGGGCTTTGTTTGTTACTCTCTTAGTTGATTATGTGAATTATTTGATGCTTGGCTTCTACTTAGGTTGGTATGGCAGTCTGGGGTTGTAATTGAGAATGTGACTTGGGCTTTGCATGCAACTTGTTTTCATCACTTATGAGGGTTATTTTTAGGGTTTTGATTTATTACAAATGTAGATTCTAGGGAAAGAAAGTTTTCAGATTTATGGTATGTGAACTTCATTTTTCTTTTTCTTTTCTTTTTTGAAGAAATTGAACTTTCATTGAGAAATGATGAATGAAAAGGGCATAAAGAACAGCCCTGCAAATACCTCAAACAGGGCTCCAATAGAACAAAATCACACCAGGATCATAGTTAAAAAAAGTCTATTGATAGACACCCACAAAGACGCATTAAACTGAGCTTCTCCCTAAAAATCCTACAAATACCTCAAACAGTAGAAAAGAAACAAACTTGCTTGCCACATGGTATGCGAGCTTCATGTTATATACCACCTAGCGCATGTTTGAGAGTGGTTTTATCAAAATCACTTTTTTCATGTTTGAAATCACCCCAAAATGCCTTGAGTTGTTCAAAATCAATTTCATGTTTGGTTTTATTCTTTTAAATGATTTTCTGAGGCCATCAAAATTGATTTTGAAAGAATGAAAGAATGTTTCAGAGTGATTTTGAAGGATAGAAAGCAACTCTAAAACATGTCAAAAGTGATTTATTTCAAAATCACTCCCATACATGCCCCTTATAAGAGTAACCGTTGTCAATAATGGCAATTGGTGAAAGTAAAGAAGATTGAGTAAAATGTAGGATCTTTCCAAAAGTGAATTTGACTAATTTCTACGTAGTGTTGGGGTTGAGTTTGGTTCAGGGTACCGTTGATATCCATGATAAGCTACAAAAAAATCTCTGTGGCTGTCCATCTCTCCAAACTGATGTTCTATATGCAAAAATGCTGCTGAATTACAGAGACACCTATTTATCACTTGCACCTATGTTTTGGCTTTTTTGGGAAAAAATTGGCTGTGTTTGGTTGGTCCATTGCATTGCCTGGGGACCCTCACACACTGCTTGCTGCTGTTTAAGTCGATCATCCATTCAAAGGGGAAAAAGAAATTCTTTGGTTAATCTATCAGAGCTTTTTTCTGGTTTACATTGAATGAAAAATATCTGTGTCTTCGAGGAGAGAGAAAAATGCTTTGACAATTTCTTTGAATCTTGGTCATTTTTAGCCCTCGCATGGTGTAATCTTTAGCATGCTTTCACAGCTACAGCTTATATAGTCTATCGAAAGTGTTTATCTATTTCTTTTGGAGAGGGTTATCTCCTTTTTTTCTAACTTCATTTCATCAGTGAGATGGTCCCCCCCTCCCCCCCAAAAAAAGAAGAAGAAGAAGAAGAAGAAGAACAAAAAGAAGAACAAAAAGAAAATATTTAACTTTATAATTAAAATTCTCAGGTCACGTTGAAATCTCATATTGGAATAAATGTTGATAGTGATTACTGATTATTAATGCATCTAACTGTTTTAGACCTAAAGGGCTAGAAAGTGGCAAGCCTCAAGCCAAGACTCCGAACACTTTGCATGCTGCTTTGAGGTTATAGCCTAAACTTTGTTCAATTTTTTTACCCTCGGTGATTGCTATTTTACGTGAGGTACAGAAAACTCAGTTTAGTCTCCCGAGCGAAGTTTAAAGGTGCACCTAGTCCGAGCAATCACTACTTCTAAACTTTATGGTATGTACATTAATGAGATACTATGCTGTATCATTGGAAACTTAAATGCACGTGCATCAACATAAAGGTGCTCTTACTTCTGTTCCTTAGGCCAGCAATAAGCCTATTGCACCAAAGGAAGAGGTCTTTGATTTCAGGTTGCCTCCTGATCGGATGTACTCGAGGCATGTTGGGGTACGTACATCTCTTACTTATTTCTAAATTACACTGCTAAACTATCTTTACTAGTTCTCTTCACACTTGTCTTTCCATTAGATCAAGTTTTTATTTGACATTTGCATTTCAAATGTTTTTGTCACTTTGAGCCTTCATCCATTTGAAAAAATACAGTTATCTTGAAAAGTTAGATGTTATTGCCTAGGGGGTCATGGATTAAATATTTGGAGTATTTCTATGCATTTGACATTTATTATATTTCCTAGTACAAAAAAGCTTGAAGAAACGAATTTGCTCAAATTTGCAGTTCTTATAAATTTCAGGACACTGGTGCAAGCTCATCTGGAAGTAATATAAGGGCATTCTTCATAGATATGGGATTCCTGCCATCCCTTGTTGATAAAGTGATTGAAGAAAATGGTACATGTTTCAGAACTGAAATTATTCCTTTTTAATTGTTAGGAAACAATACCTTTCTTATTCTAAATTATGTCCTTTAACTTTTCTCTTTAGAAAATTGAGAAAAGAGAACCTTATCCTTTAAGGTTGACCCCATGAATTTTCTCCAACAATCGAGGAAAAATTTCATTAACATGTAATCATGACCCCAAAATATCCAATTTGTATAGAATGTGATAGTAAGCTTTACTAAGAGTTATATCTTGTCTTAAATCCAGGTGAAGATGATGTAGAATTGTTATTAAATACCCTGACTACATTTTCGGTAAGTAGTCGAGATAATCTGTCTCATTCTAAGAACCTATTGCAGTCTTATTGAAATTGCTAGTCTTGAGAAACCAGTTTTAGTTGACAGCATTGTAATTAATTGTTCTTGTTATTTTTAACTTCTTATATTTTTCAACCTTTTGTGGTTACTGGTTTTATGTGTTAGCATTAAAGCTTCATTGGAAAAGTGAATGAGTTGCTTTATATGACTAGGCAGAACAAAAATCAACTCCTGAGTCATCAGATTCTCTTGATGGCTTACGAAGTGGTAAAAAGGGCAGTAATCCTCCACATTTTTCTAAAATCTGTCATAAGCAGGTAAACTTTTGATTGTTTCGGTGTTGTAAAGCTATATATTGACCTAGATATATATAAATCTGCTCTTGGATTACTAGACAACCAAAGTATTGAAAACAATGTTTAGTTTCATTAAGCTTTTCATCTCAATAACATATCTTGGAATTTTCATTGTTCCATGGGTTGTATTTATCAGACAAATAGATTTGTTAGGCAATGAACTTATGAATCAATTTTCAATGACTTTAAATTGGAGCAGTATTTAGTCATGGCCAAACAATTTACATCTGAAAATTTCATTATTCTTTAGTTTTGGCTCAGTTAGAAAATAACTACATTTGAATTATTTGCTTTAAAAGTTCGTGTAATTTTATTGCATGAAACAGGCTGTGGAGTCCCTACAGACGTCAAAATCTGAATCATCAGATTCTCTAGATAGCTTATTTGATGACAAGGATGCACACAATGAAATCTCTTCAGTTGTTATACCAAAGGAGGTAACCTACATACTGATGCATCTTATCTTTAATGTGTAGCATATACAGTTTTCTTGAGAGTCAAAATTGTTGAAAATGTGATATATGCAATTCCGGTTCCCACATGGAATTTAAGGGATCAAACAGGACCAGCAGCATCGCATCGTGGCTACATTGAATTTAATTTCTTCCCTCATAGTTTACTGTATTTTCTTCTTCCCTTGCATGTACATTTGTGTCTGTTTATTGATATAGAAGAATGCAAATAATCTAGAAGTTTTTTCAAGTATTTTCTTTTTACTGCTCAGCTGATTGTATCCATTGCAGGAGGCTGATGATTATTATGATGCTAATGATACCAACAAAGCATCCTTATTAATGATGAACTTTACTGTCGATGAAGTTGACTTTGCGATTGATAAGCTTGGTTAGTACACTTTTGGAATAGGCAACTTAATGCCAAATATTTATGGGGCCATGAGGATTTCTTATAATGCATTTCAGGTGGAGATGCTCCCATTAATGAATTGGTGGATTTTATCATCGCTGCACAGATTGCTGAAAATTTGGAGAAGGAAACAGATGATGTTACATTCTGTAGAAATGAATTGAAAAAGGAGGTTAGCTTCTATTCCTTGAGTTTGTGTGACTGTTATCTCAAAACTGTTGGAGGCTTAGCAATTTTACCTAAATGGGGTTTGAAACAGAACTTAGATTTTGAATTATGAGTTTAGATACTCAGACACGGCATGCGTCTACTATAATGTTTATACTCAAGGACGCTGTTTTATATTTTACAAATCAGAAGTTTCTCCCCTAATTTGTTCATGCCTCCAAAACTTTTAGGGTAAAAAAAAAATATATATGTGAAAAATTGTAGCTCCCCCCGTGTTTGTACTATGATATGCAAAACACATACGTATACACCACAATTTAGTTTGCAGGGTCCTTTTTGTACCCTTTCTGGCTCACTTGTGGCTTGTACAAAAACATAGATATTGTACATACACGGCGTTTGCATCTTATAGACCTATCCAGCTTCATTTTCATTTTTATCGATGGCCTTTTAGTTACTGAGTTGATCAACTTGATTACAATTTTCTTAGTCAGTCTAGTTTTTGCATAGTGCTTACCATATTTAGTTCTAGCATGATTCTTTAGTCTTGTATTTGCTGTTTCAACCTTTTTCCAGTAATGCTCACTTAATGAAAGGAAATTTTTTCTCAGGAAAATGATGAAACCTTGTTTGTGACGATGGAGAAAACACTTCGCTTGCTTGAAATGGGCTTCTCTGAGAATGAGGTTTCTTTGGCAATTGAAAAGTTTGGTAAGCAACGGCTCCTAATAGCATGGCACATTGCACGTGACTAGTGGAGTCATTCCATTTTCTAGTTGGTGTTATCTGTTTATTTTATTCGAGGAGACTGATTTTTCATCCAATTCACCTTTGATTTTTTTTGGGAACTGTGTTTTTCCTTTCTCATGGTTAACTTTAAGCCATTGACGAGCATCAATATTTCAGGTTCGGAAACTCCAGTTGCGGAGCTTGCCGATTCCATTGTTACAGGTCGAATTGCTGGTGACTACCCTGGGAATGTTAAGGTTCTCACACTTGAACTTTTTTTAGTCACAGTATTTGTGCTAAACCTTATTAGTGTTCTTTCTCTGTGGTTCTTATCTATATTGGCTTTGAATACATGTTAATATTCGTGCGTCTAGGATCTATGAATGTGTGAATCACCAATTATTCAAATTCTTAAACCTTCTTTTCTAAATTTGCTACTCAAAGAGGCCAAAGAAATACTAAGATTGGAAGAGCTTGCAAGAAGTAAAATATTCAACTTTATCCTAAACTTTGTTGGCCTCTTCAGTTTAGTGTTAAAAAGTTAATTTTTTTTCTTAACCATCCTGGCCTAGTGGTAAACAAGGAGGCATGACCTTGGTAAAGGGCTAAGAGGTCATAGGTTCAATTCATGGTGGGCACCTATCTAGGATTTAATATCCTACGAGTTTCCTTGACACCTAAGTGTTGTAGGGTCAGGTGGGTTGCCTTGTGAGATTAGTCGAGGTGCATGTAAGTTGGCTCGGACACTCACGGACATAAAAAAAATGTTTTTTTTTTCTTTCCCTACCCAACTCGAAGTCAACCATACATCTCCCCAGAGTTTGCTATGAGTACCAAACTTTGAAGAGTTTTACAATATTAGGGACATCCTCTCTCTCTTGTTTAATGGTCATCCGTTCACAAAGGAAAAGACTCCTTGGCTGAATTTTACGTGGATTTTCCTTGGTCTTCTTGGCTTGAACAAAACTCTCGCATCTTTAATGAAAAGGAACAAGGATATCAAGTTTTTCTCACTTCTACTTCCTTTTTACTCTTAGTTGTTGTAAAGTGAGCTCCCTTTTACTAGAAGTTTTCTGTAATCCATGGATGGGAATTCCCTTTTTGTAATTTCATCTTATCAATGAAAATTTTCTGTTTCCTTAAAAAAAAAAGTAATAAAAATAAGAAAAATGAAAAAGAATTCTACAATCCCAAATTTTGTCAGCCTCTTCACATTTTGTTCACCCCCTATCAAAAATTTCTACCTCAAGTCAATGTCTCATATTTCTTGAATAGCTTCGTTAGCTTTGTTTGATTTCAATAATTCTATTGTGCCTGCACTGCTGATAAAATATTAATTTGGAGTTAGAAATAAAGTCCTTTTATCTTCTAAAAAATTATTTATTCTTGCCCCCCTTATTTTGTGATTGGTCCTCTGCGGAAAAAAACTGAGTTGATTCTTGTATTATATAGTATCCTTTAGTAATCTAAAAATTTCTTTTGTTTTCATGGCTTTGTGTAGTGTTCCCCAAACTCGTTTGGCATTGGTGGCTTACATACTTCAGAAGATTATATGACTAAAGTTAAAGCTGAAGAATCCAGTTCCGCTGGTGTTTCTCTGCCAAGAAATGTTAACATTGAGGAAATACTGAAAGGGAAAAGGCCAAAAGAAGAAAATATGGATGACCTTCTGAATCCTATTCCTCGTTTTGATGTTAATAAACATAAAGGGAAAAGGCCAAAGCAAGAATATGCCGATGACTTGAGTTCTCTATATGGTCCTGGATGGGTGGAATCAAAAGTCAATCCAAACATCACCAGATTTGACATTCCCCCACCTTCAAAACTAAATCTCTCAAGAAGTCTTGATAAGTTGGTGGCTAAGCCTCCATCCCCACCTTTAAGATTAAATCCTTCTAGAAGTCTTGATAAGATGGTGGCTAAACCTCCATTTTTCTTGTATGGAAATGTTTTGGATATAGCTCGCGATTCTTGGGAAAAAGTTTCCAAGTTCCTATATGCCATTCAGCCTGAATTCGTGGACACTCGGTCCTTCTCAGCGTTGAGTAGAACGGAAGGCTACGTGCACAATCTTCCATGTGAGAACAGGTCTCACATCCTTCCGATGCCTCCAATGACCGTCCAAGATGCGACACGTACAAAAAAATGGTGGCCATCTTGGGATACAAGGAAGTATTTGAGCTGCATCAATTCTGAAACTAGAGGAGTATCTCAGCTGTGTGATGGGCTGACAAAGACACTGACCGATTCTCACGGCCGACTCTCATCTCAACAGCAGAGAGATATTCTTCATCATTGCATAGCTTTGAACCTTATTTGGGTCAGCCAGTCCAAACTGGCTCCTATAGAGCCTGAACAGCTAGAATGCGTGCTTGGCTACCCGGTAAATCACACCCAAGATGCTGAAAGTAGCTCAATGGAAAGGCTTCAATATCTCAAGTATTGTTTTCAGACAGACACTTTGGGTTATCATCTATCTGTTTTGAAGCCTATGTTCCCAGAAGGGTTGATTGTGTTGTCCATTTTCAGTGGAATTGGTGGGGCGGAAATTGCTTTGCACCGTCTTGGCATTCGTTTGAAAGTCGTGATCTCGGTTGAGAGTTCAGCAGCAAAGAGGAGGATTTTGAAGAAATGGTGGCATAGTAGTGGACAAACTGGGGAACTGGAGCAGATAGAGGACATACAGAAACTAACAAGCAACAAGATTCACAATTTGATTAAGAAATATGGTGGTTTTGATTTGGTCATTTGTCAGAATCCTTGTTCTCGTTGTTTGTCATCTTCAAAACTGAATCAGAGTGGAGACGCTGAGGGTATAGCAAGTTTTGATTTCTCTATATTCTATGAGTTTGTCCGTGTTTTGCAGGGTGTAAGGAATACCATGGAAAGAAAGAAGTGACAATGTCGACTTCAACTGCCTGTTCTAATAATATTAATATTTAATACACAGCCCAATATCAGACTATATTGTATTGGTTGCTTAAAGATTTTCAGTCACTTGACTCACTTGAGCATCTCAATTAACCTTCGATTGCCTGACGGACACTCTTGTCTTTTGATTGGGGAGATTTGCCTTAGATCGAGAAGATGGAGTGTTCACTTTTGAGTCCCTAACTCCACTGGGTGCTCGTTCTTTCAGTGCTTGTTGAATCTCTCTCTGACTAGTGAGTTGGTATTTCTCCTCTGTGGAGGGTGAAAATCTCAAAGAAGGTTCACCTTCTTTGTTTGGCAATTAACCCTTTGGATCGGTTTACAAGAGAGAGATCTACTTTGATCGGGTTTTTTTTGTTGCCTTCTTTGTCAGAGGGGTGGAGAAAGATCTTGATCATATTTCTATTGGATCTACGACTTTGCTATGACAGGGTGGAATCTCTTTTTTGTCAGTGTTTAGCTTTTAGTGTGCTAGACACAGGGTTACATAGAGATAACCGAGGAGTAATCGAGGAGTTTCTTCTTCATCTGCCTTTTCGACAAAAATGAGAAATTTTTGTGGCAAGTAGGCTTTGTGTTGTGGGATTGAAACGGAGGGAGGAACACTATGATCTTTATAGGGATTGGGAGTAAAATTAAGTTCTATATTTCTTTTTGGGCGTCGGTGATGAAGGCCTTTTGGAATTATTTGTTAAGTTTCACTGTAGTAGGGACTTCTTTTTTCTTTTGGGATGCACTTGTACTCTTCTCTTAAAAAAAAAAAAAAAAAAAAAAAACTCCAACATAAAGGTAAATTTAGTTGTATAAATTAGAAGATACATACTAGAAGGGGCAAAACCGAGAGCACCGCATCTCTATTCTACATTTTACAATAGGGTATCACATCACTCAATATGGGAGGACTAAAAATGAACCCAGAAAGGGATGGAGTTGGAGCCTAAGCCATAACAAGCAAAGACCCATTAACAGAAAAATGGTTCTTTGGTGATTCTGCTGTGGGTACTGTATACAGTATTATTATCCTTATTATTGCATTAGAACACTTTTAGCAGCTATATTCAGAAGTTTCTGCAACATTCTGAGGTTCTCCCTCTTGCAAGCAATCAATGGGAGGAATGGTCAAAGTCTCTTGAATCCCAAATGCATTCCAACAGAAAGGATCTTCTACCAACTCCCCCTCATGTGGCAGCAGCTCTACTTCAGACATTGTAATGTTTGTGCAGGCTACCGTGTCGCTGCAAGCGAAGTGAATTGGAGTGTTCCTCACGTCGTAAGTTCCCTTGATGTTCCTGTACAACACTTGGTTCACGAACACAGCTGACGTCTGGTTCCGACAATCCTTGGACAAGCAGTAGTATTGGTCAACTATGATGCAGTTTCTAACATTCTCCATCTGTATGTTCTCGAACAAGATGTTGCTTACTGATCCCGACCCTCCTTGCCATGTCTTTATCCTCACTCCATTGTCTGAGTCTCTAATCACTGCATTTTTTACTGTTATGTTGGAAACACATGCCTGAGAATTGTGGACTCCCAGGCTCCCAATGCTGCTCTTTTCCAAAACCAAACATACAACAACTGATTACTCTCTGTTGGACTGGAGTTAAACAAATAATTGCAGATTGCATTTTTCACATTGAAGAGGAATTGAATTGACATTGTTGGTACCTGATTCCATGACTGGGCCCACAAGTAACCCCTTCAATGGCCACATTGGCACAGCCCGGCCCAATTGAAATGCAGTCATCACCTATATTTGCAAATCATAAATCAGCAAATAGTCTCTTGTATTAGTGTAATCGTATTTATGTTATTTACAATTTTTAGTGTAATCGTATTTATGTTATTTACAATTTTAATCTTAAGACTACTCTAACTATATTGGCGTCTTTGTAATATTTAACTTGATGTTAAGTTAAACACACTTAATAGGTTAATATTTCTCTGTTAGTGAATCATGTAAGTTTCTGTGTCTATTTCTCTAATGTTCATGTTTTCTGTTTATTTAATTTTTGATTGCATAACAATTGGAAATCAGTGGGCATACCATTGGATATCATGGAGTTGTATATTTCAACCCCTTTGGTATTCTCTATGTGAATTCCATCAGTGTTGGGACTGAGCTTTGGGGAAGAAATTGACAGCTTTTCTATTAGAACTCCTTGACACCCATCAAATTTGATATGGAACTGTGGACCGTTTTGGATTCTCAAGCTATTCACTGCCAAATTACTGCTCATGAAGAATCTTATCAACTGAAAAAACCCAAATATCAAAATTCAGTCAGCATTTTTGATTCATATATAGTAGTATTAATATATGTGTTTCCTTCTTACCGCAGGGCTGTCACATGGTCCTGGGAGAGTTGTCCCATTTGGACCCTGAAAAAGTGAACAAAGGAAAAATTTAAGCCTTGCATTGAAAGTTGAAACTGAAAGAAAGAAGGATATTCAAGAACAAAGGAAATGATGAAGTGAAAATAAATACAATGTAGGTACCCTGTGTGGTTTGCATGGCAACTCCCACCATTTCTGGCCATTTCCTTCAATGGTTCCAGCTCCAGTCATTGTCATTTGATCCAGCCTGTAAAACACAAGCCATTGCCTCGGACTATCCGCTTTCGGCCACAACTCCGGTCCTTCCGGTGGCATCAAGGTCCCATCCACCTGATTTGTTATATTTTCACTTATAAGTTCCAACTGAATTTCTAATCATTTCAAATATGAAAATACTTAGTTATATCTCAGACTGCACCTATCTTTGTGCAACCTACTAAATGTTTAATCACAAGATGACACACGACAAACTTAACAAGCTCCCCAAGAGAAATTCAAAATTTAAGTAGAATTTGCTGACCTTAAACACAAGTCCTGGTTTGCAAGGTCCTGAGAAGATGGTTGAAGTAATTTTAAAGCAAAGATTAGAAGGAACCAAAAGAGTGGCAGATTCAACAGCACAAGCTGCTTTCCATGCTGCCTTAAAGGCGGCAGTATCATCAGTACAGCCATCTCCAACTGCTCCAAACTCAGTAACATCAAACACACAATCAGAAGTGGAGTTTCCAGGATCATTAGGATAAGGATCAGATGGAACTGAAGGAACTGGCTGAGCTGGACTTGAAGGAACTGCCTTTTCTGGTGGTGAATAAACAGGGGAATCTTCATCAGGCTTCTCTTCCTTTTTCCCCTTATGAAAATGGTATCTTCCATTTACATTGCTTGAATTTTCCACCAACAAAATGGCTATAATCCAAACCATTACAATGAGAAGTCCATTGAATTCCATGGAACTTATCAGCTAAACTTAAACAGAAAATGAGGCAAATGGGTTGGCTTAGCAGTGAAGATTGGGATTATGTATCAATGAAAAGTGACAAAAACTGCACTATCAGAAACAAGAAGTAATGGGAGAAAGATAGAGACTTGAGTTTTAAAGAATAAGCTTTAAGGAAGGAACTCAAATGAAGTTAGGCAAAT TGCAGAATCCATGGATTACGCACTACCGCATTGAAGCCTAAATTCCTGAAGCTCATCACACCTCGATTTTCAAACCCCAAAACCCCCAAACCCAAATTCTGTCTCTCAAATCTTCTTCTTTCTACTACGTTTTCTGTTCGCAGCTCCGATTCAGGTTCATATCCTTTTTCCCTTTCTGGGTTCTTTCGTATTTTGTTAATGAATTCAACATTTTCCTTCTCTTCTTTGTGATTGTTGATTGTTGACGAATGAGTGATGGAATGAAATTTTAAGTTCCGAATGTAAATGAAGTTCTAATTACTTCGTTCTTTAATCAAATTTTGAGATTTTAGCTCATTTCTTTGAGCTTGTTATATGGAGTGAGAAGGGTTGGGGCTTTGTTTGTTACTCTCTTAGTTGATTATGTGAATTATTTGATGCTTGGCTTCTACTTAGGTTGGTATGGCAGTCTGGGGTTGTAATTGAGAATGTGACTTGGGCTTTGCATGCAACTTGTTTTCATCACTTATGAGGGTTATTTTTAGGGTTTTGATTTATTACAAATGTAGATTCTAGGGAAAGAAAGTTTTCAGATTTATGGTATGTGAACTTCATTTTTCTTTTTCTTTTCTTTTTTGAAGAAATTGAACTTTCATTGAGAAATGATGAATGAAAAGGGCATAAAGAACAGCCCTGCAAATACCTCAAACAGGGCTCCAATAGAACAAAATCACACCAGGATCATAGTTAAAAAAAGTCTATTGATAGACACCCACAAAGACGCATTAAACTGAGCTTCTCCCTAAAAATCCTACAAATACCTCAAACAGTAGAAAAGAAACAAACTTGCTTGCCACATGGTATGCGAGCTTCATGTTATATACCACCTAGCGCATGTTTGAGAGTGGTTTTATCAAAATCACTTTTTTCATGTTTGAAATCACCCCAAAATGCCTTGAGTTGTTCAAAATCAATTTCATGTTTGGTTTTATTCTTTTAAATGATTTTCTGAGGCCATCAAAATTGATTTTGAAAGAATGAAAGAATGTTTCAGAGTGATTTTGAAGGATAGAAAGCAACTCTAAAACATGTCAAAAGTGATTTATTTCAAAATCACTCCCATACATGCCCCTTATAAGAGTAACCGTTGTCAATAATGGCAATTGGTGAAAGTAAAGAAGATTGAGTAAAATGTAGGATCTTTCCAAAAGTGAATTTGACTAATTTCTACGTAGTGTTGGGGTTGAGTTTGGTTCAGGGTACCGTTGATATCCATGATAAGCTACAAAAAAATCTCTGTGGCTGTCCATCTCTCCAAACTGATGTTCTATATGCAAAAATGCTGCTGAATTACAGAGACACCTATTTATCACTTGCACCTATGTTTTGGCTTTTTTGGGAAAAAATTGGCTGTGTTTGGTTGGTCCATTGCATTGCCTGGGGACCCTCACACACTGCTTGCTGCTGTTTAAGTCGATCATCCATTCAAAGGGGAAAAAGAAATTCTTTGGTTAATCTATCAGAGCTTTTTTCTGGTTTACATTGAATGAAAAATATCTGTGTCTTCGAGGAGAGAGAAAAATGCTTTGACAATTTCTTTGAATCTTGGTCATTTTTAGCCCTCGCATGGTGTAATCTTTAGCATGCTTTCACAGCTACAGCTTATATAGTCTATCGAAAGTGTTTATCTATTTCTTTTGGAGAGGGTTATCTCCTTTTTTTCTAACTTCATTTCATCAGTGAGATGGTCCCCCCCTCCCCCCCAAAAAAAGAAGAAGAAGAAGAAGAAGAAGAACAAAAAGAAGAACAAAAAGAAAATATTTAACTTTATAATTAAAATTCTCAGGTCACGTTGAAATCTCATATTGGAATAAATGTTGATAGTGATTACTGATTATTAATGCATCTAACTGTTTTAGACCTAAAGGGCTAGAAAGTGGCAAGCCTCAAGCCAAGACTCCGAACACTTTGCATGCTGCTTTGAGGTTATAGCCTAAACTTTGTTCAATTTTTTTACCCTCGGTGATTGCTATTTTACGTGAGGTACAGAAAACTCAGTTTAGTCTCCCGAGCGAAGTTTAAAGGTGCACCTAGTCCGAGCAATCACTACTTCTAAACTTTATGGCCAGCAATAAGCCTATTGCACCAAAGGAAGAGGTCTTTGATTTCAGGTTGCCTCCTGATCGGATGTACTCGAGGCATGTTGGGGACACTGGTGCAAGCTCATCTGGAAGTAATATAAGGGCATTCTTCATAGATATGGGATTCCTGCCATCCCTTGTTGATAAAGTGATTGAAGAAAATGGTGAAGATGATGTAGAATTGTTATTAAATACCCTGACTACATTTTCGGCAGAACAAAAATCAACTCCTGAGTCATCAGATTCTCTTGATGGCTTACGAAGTGGTAAAAAGGGCAGTAATCCTCCACATTTTTCTAAAATCTGTCATAAGCAGACAACCAAAGTATTGAAAACAATGTTTAGTTTCATTAAGCTTTTCATCTCAATAACATATCTTGGAATTTTCATTGTTCCATGGGTTGCTGTGGAGTCCCTACAGACGTCAAAATCTGAATCATCAGATTCTCTAGATAGCTTATTTGATGACAAGGATGCACACAATGAAATCTCTTCAGTTGTTATACCAAAGGAGGAGGCTGATGATTATTATGATGCTAATGATACCAACAAAGCATCCTTATTAATGATGAACTTTACTGTCGATGAAGTTGACTTTGCGATTGATAAGCTTGGTGGAGATGCTCCCATTAATGAATTGGTGGATTTTATCATCGCTGCACAGATTGCTGAAAATTTGGAGAAGGAAACAGATGATGTTACATTCTGTAGAAATGAATTGAAAAAGGAGGAAAATGATGAAACCTTGTTTGTGACGATGGAGAAAACACTTCGCTTGCTTGAAATGGGCTTCTCTGAGAATGAGGTTTCTTTGGCAATTGAAAAGTTTGGTTCGGAAACTCCAGTTGCGGAGCTTGCCGATTCCATTGTTACAGGTCGAATTGCTGGTGACTACCCTGGGAATGTTAAGTGTTCCCCAAACTCGTTTGGCATTGGTGGCTTACATACTTCAGAAGATTATATGACTAAAGTTAAAGCTGAAGAATCCAGTTCCGCTGGTGTTTCTCTGCCAAGAAATGTTAACATTGAGGAAATACTGAAAGGGAAAAGGCCAAAAGAAGAAAATATGGATGACCTTCTGAATCCTATTCCTCGTTTTGATGTTAATAAACATAAAGGGAAAAGGCCAAAGCAAGAATATGCCGATGACTTGAGTTCTCTATATGGTCCTGGATGGGTGGAATCAAAAGTCAATCCAAACATCACCAGATTTGACATTCCCCCACCTTCAAAACTAAATCTCTCAAGAAGTCTTGATAAGTTGGTGGCTAAGCCTCCATCCCCACCTTTAAGATTAAATCCTTCTAGAAGTCTTGATAAGATGGTGGCTAAACCTCCATTTTTCTTGTATGGAAATGTTTTGGATATAGCTCGCGATTCTTGGGAAAAAGTTTCCAAGTTCCTATATGCCATTCAGCCTGAATTCGTGGACACTCGGTCCTTCTCAGCGTTGAGTAGAACGGAAGGCTACGTGCACAATCTTCCATGTGAGAACAGGTCTCACATCCTTCCGATGCCTCCAATGACCGTCCAAGATGCGACACGTACAAAAAAATGGTGGCCATCTTGGGATACAAGGAAGTATTTGAGCTGCATCAATTCTGAAACTAGAGGAGTATCTCAGCTGTGTGATGGGCTGACAAAGACACTGACCGATTCTCACGGCCGACTCTCATCTCAACAGCAGAGAGATATTCTTCATCATTGCATAGCTTTGAACCTTATTTGGGTCAGCCAGTCCAAACTGGCTCCTATAGAGCCTGAACAGCTAGAATGCGTGCTTGGCTACCCGGTAAATCACACCCAAGATGCTGAAAGTAGCTCAATGGAAAGGCTTCAATATCTCAAGTATTGTTTTCAGACAGACACTTTGGGTTATCATCTATCTGTTTTGAAGCCTATGTTCCCAGAAGGGTTGATTGTGTTGTCCATTTTCAGTGGAATTGGTGGGGCGGAAATTGCTTTGCACCGTCTTGGCATTCGTTTGAAAGTCGTGATCTCGGTTGAGAGTTCAGCAGCAAAGAGGAGGATTTTGAAGAAATGGTGGCATAGTAGTGGACAAACTGGGGAACTGGAGCAGATAGAGGACATACAGAAACTAACAAGCAACAAGATTCACAATTTGATTAAGAAATATGGTGGTTTTGATTTGGTCATTTGTCAGAATCCTTGTTCTCGTTGTTTGTCATCTTCAAAACTGAATCAGAGTGGAGACGCTGAGGGTATAGCAAGTTTTGATTTCTCTATATTCTATGAGTTTGTCCGTGTTTTGCAGGGTGTAAGGAATACCATGGAAAGAAAGAAGTGACAATGTCGACTTCAACTGCCTGTTCTAATAATATTAATATTTAATACACAGCCCAATATCAGACTATATTGTATTGGTTGCTTAAAGATTTTCAGTCACTTGACTCACTTGAGCATCTCAATTAACCTTCGATTGCCTGACGGACACTCTTGTCTTTTGATTGGGGAGATTTGCCTTAGATCGAGAAGATGGAGTGTTCACTTTTGAGTCCCTAACTCCACTGGGTGCTCGTTCTTTCAGTGCTTGTTGAATCTCTCTCTGACTAGTGAGTTGGTATTTCTCCTCTGTGGAGGGTGAAAATCTCAAAGAAGGTTCACCTTCTTTGTTTGGCAATTAACCCTTTGGATCGGTTTACAAGAGAGAGATCTACTTTGATCGGGTTTTTTTTGTTGCCTTCTTTGTCAGAGGGGTGGAGAAAGATCTTGATCATATTTCTATTGGATCTACGACTTTGCTATGACAGGGTGGAATCTCTTTTTTGTCAGTGTTTAGCTTTTAGTGTGCTAGACACAGGGTTACATAGAGATAACCGAGGAGTAATCGAGGAGTTTCTTCTTCATCTGCCTTTTCGACAAAAATGAGAAATTTTTGTGGCAAGTAGGCTTTGTGTTGTGGGATTGAAACGGAGGGAGGAACACTATGATCTTTATAGGGATTGGGAGTAAAATTAAGTTCTATATTTCTTTTTGGGCGTCGGTGATGAAGGCCTTTTGGAATTATTTGTTAAGTTTCACTGTAGTAGGGACTTCTTTTTTCTTTTGGGATGCACTTGTACTCTTCTCTTAAAAAAAAAAAAAAAAAAAAAAAACTCCAACATAAAGGTAAATTTAGTTGTATAAATTAGAAGATACATACTAGAAGGGGCAAAACCGAGAGCACCGCATCTCTATTCTACATTTTACAATAGGGTATCACATCACTCAATATGGGAGGACTAAAAATGAACCCAGAAAGGGATGGAGTTGGAGCCTAAGCCATAACAAGCAAAGACCCATTAACAGAAAAATGGTTCTTTGGTGATTCTGCTGTGGGTACTGTATACAGTATTATTATCCTTATTATTGCATTAGAACACTTTTAGCAGCTATATTCAGAAGTTTCTGCAACATTCTGAGGTTCTCCCTCTTGCAAGCAATCAATGGGAGGAATGGTCAAAGTCTCTTGAATCCCAAATGCATTCCAACAGAAAGGATCTTCTACCAACTCCCCCTCATGTGGCAGCAGCTCTACTTCAGACATTGTAATGTTTGTGCAGGCTACCGTGTCGCTGCAAGCGAAGTGAATTGGAGTGTTCCTCACGTCGTAAGTTCCCTTGATGTTCCTGTACAACACTTGGTTCACGAACACAGCTGACGTCTGGTTCCGACAATCCTTGGACAAGCAGTAGTATTGGTCAACTATGATGCAGTTTCTAACATTCTCCATCTGTATGTTCTCGAACAAGATGTTGCTTACTGATCCCGACCCTCCTTGCCATGTCTTTATCCTCACTCCATTGTCTGAGTCTCTAATCACTGCATTTTTTACTGTTATGTTGGAAACACATGCCTGAGAATTGTGGACTCCCAGGCTCCCAATGCTGATTCCATGACTGGGCCCACAAGTAACCCCTTCAATGGCCACATTGGCACAGCCCGGCCCAATTGAAATGCAGTCATCACCTATATTTGCAAATCATAAATCAGCAAATAGTCTCTTGTATTAGTGTAATCGTATTTATGTTATTTACAATTTTTAGTGTAATCGTATTTATGTTATTTACAATTTTAATCTTAAGACTACTCTAACTATATTGGCGTCTTTGTAATATTTAACTTGATGTTAAGTTAAACACACTTAATAGGTTAATATTTCTCTGTTAGTGAATCATGTAAGTTTCTGTGTCTATTTCTCTAATGTTCATGTTTTCTGTTTATTTAATTTTTGATTGCATAACAATTGGAAATCAGTGGGCATACCATTGGATATCATGGAGTTGTATATTTCAACCCCTTTGGTATTCTCTATGTGAATTCCATCAGTGTTGGGACTGAGCTTTGGGGAAGAAATTGACAGCTTTTCTATTAGAACTCCTTGACACCCATCAAATTTGATATGGAACTGTGGACCGTTTTGGATTCTCAAGCTATTCACTGCCAAATTACTGCTCATGAAGAATCTTATCAACTGAAAAAACCCAAATATCAAAATTCAGTCAGCATTTTTGATTCATATATAGTAGTATTAATATATGTGTTTCCTTCTTACCGCAGGGCTGTCACATGGTCCTGGGAGAGTTGTCCCATTTGGACCCTGAAAAAGTGAACAAAGGAAAAATTTAAGCCTTGCATTGAAAGTTGAAACTGAAAGAAAGAAGGATATTCAAGAACAAAGGAAATGATGAAGTGAAAATAAATACAATGTAGGTACCCTGTGTGGTTTGCATGGCAACTCCCACCATTTCTGGCCATTTCCTTCAATGGTTCCAGCTCCAGTCATTGTCATTTGATCCAGCCTGTAAAACACAAGCCATTGCCTCGGACTATCCGCTTTCGGCCACAACTCCGGTCCTTCCGGTGGCATCAAGGTCCCATCCACCTTAAACACAAGTCCTGGTTTGCAAGGTCCTGAGAAGATGGTTGAAGTAATTTTAAAGCAAAGATTAGAAGGAACCAAAAGAGTGGCAGATTCAACAGCACAAGCTGCTTTCCATGCTGCCTTAAAGGCGGCAGTATCATCAGTACAGCCATCTCCAACTGCTCCAAACTCAGTAACATCAAACACACAATCAGAAGTGGAGTTTCCAGGATCATTAGGATAAGGATCAGATGGAACTGAAGGAACTGGCTGAGCTGGACTTGAAGGAACTGCCTTTTCTGGTGGTGAATAAACAGGGGAATCTTCATCAGGCTTCTCTTCCTTTTTCCCCTTATGAAAATGGTATCTTCCATTTACATTGCTTGAATTTTCCACCAACAAAATGGCTATAATCCAAACCATTACAATGAGAAGTCCATTGAATTCCATGGAACTTATCAGCTAAACTTAAACAGAAAATGAGGCAAATGGGTTGGCTTAGCAGTGAAGATTGGGATTATGTATCAATGAAAAGTGACAAAAACTGCACTATCAGAAACAAGAAGTAATGGGAGAAAGATAGAGACTTGAGTTTTAAAGAATAAGCTTTAAGGAAGGAACTCAAATGAAGTTAGGCAAAT ATGGCCAGCAATAAGCCTATTGCACCAAAGGAAGAGGTCTTTGATTTCAGGTTGCCTCCTGATCGGATGTACTCGAGGCATGTTGGGGACACTGGTGCAAGCTCATCTGGAAGTAATATAAGGGCATTCTTCATAGATATGGGATTCCTGCCATCCCTTGTTGATAAAGTGATTGAAGAAAATGGTGAAGATGATGTAGAATTGTTATTAAATACCCTGACTACATTTTCGGCAGAACAAAAATCAACTCCTGAGTCATCAGATTCTCTTGATGGCTTACGAAGTGGTAAAAAGGGCAGTAATCCTCCACATTTTTCTAAAATCTGTCATAAGCAGACAACCAAAGTATTGAAAACAATGTTTAGTTTCATTAAGCTTTTCATCTCAATAACATATCTTGGAATTTTCATTGTTCCATGGGTTGCTGTGGAGTCCCTACAGACGTCAAAATCTGAATCATCAGATTCTCTAGATAGCTTATTTGATGACAAGGATGCACACAATGAAATCTCTTCAGTTGTTATACCAAAGGAGGAGGCTGATGATTATTATGATGCTAATGATACCAACAAAGCATCCTTATTAATGATGAACTTTACTGTCGATGAAGTTGACTTTGCGATTGATAAGCTTGGTGGAGATGCTCCCATTAATGAATTGGTGGATTTTATCATCGCTGCACAGATTGCTGAAAATTTGGAGAAGGAAACAGATGATGTTACATTCTGTAGAAATGAATTGAAAAAGGAGGAAAATGATGAAACCTTGTTTGTGACGATGGAGAAAACACTTCGCTTGCTTGAAATGGGCTTCTCTGAGAATGAGGTTTCTTTGGCAATTGAAAAGTTTGGTTCGGAAACTCCAGTTGCGGAGCTTGCCGATTCCATTGTTACAGGTCGAATTGCTGGTGACTACCCTGGGAATGTTAAGTGTTCCCCAAACTCGTTTGGCATTGGTGGCTTACATACTTCAGAAGATTATATGACTAAAGTTAAAGCTGAAGAATCCAGTTCCGCTGGTGTTTCTCTGCCAAGAAATGTTAACATTGAGGAAATACTGAAAGGGAAAAGGCCAAAAGAAGAAAATATGGATGACCTTCTGAATCCTATTCCTCGTTTTGATGTTAATAAACATAAAGGGAAAAGGCCAAAGCAAGAATATGCCGATGACTTGAGTTCTCTATATGGTCCTGGATGGGTGGAATCAAAAGTCAATCCAAACATCACCAGATTTGACATTCCCCCACCTTCAAAACTAAATCTCTCAAGAAGTCTTGATAAGTTGGTGGCTAAGCCTCCATCCCCACCTTTAAGATTAAATCCTTCTAGAAGTCTTGATAAGATGGTGGCTAAACCTCCATTTTTCTTGTATGGAAATGTTTTGGATATAGCTCGCGATTCTTGGGAAAAAGTTTCCAAGTTCCTATATGCCATTCAGCCTGAATTCGTGGACACTCGGTCCTTCTCAGCGTTGAGTAGAACGGAAGGCTACGTGCACAATCTTCCATGTGAGAACAGGTCTCACATCCTTCCGATGCCTCCAATGACCGTCCAAGATGCGACACGTACAAAAAAATGGTGGCCATCTTGGGATACAAGGAAGTATTTGAGCTGCATCAATTCTGAAACTAGAGGAGTATCTCAGCTGTGTGATGGGCTGACAAAGACACTGACCGATTCTCACGGCCGACTCTCATCTCAACAGCAGAGAGATATTCTTCATCATTGCATAGCTTTGAACCTTATTTGGGTCAGCCAGTCCAAACTGGCTCCTATAGAGCCTGAACAGCTAGAATGCGTGCTTGGCTACCCGGTAAATCACACCCAAGATGCTGAAAGTAGCTCAATGGAAAGGCTTCAATATCTCAAGTATTGTTTTCAGACAGACACTTTGGGTTATCATCTATCTGTTTTGAAGCCTATGTTCCCAGAAGGGTTGATTGTGTTGTCCATTTTCAGTGGAATTGGTGGGGCGGAAATTGCTTTGCACCGTCTTGGCATTCGTTTGAAAGTCGTGATCTCGGTTGAGAGTTCAGCAGCAAAGAGGAGGATTTTGAAGAAATGGTGGCATAGTAGTGGACAAACTGGGGAACTGGAGCAGATAGAGGACATACAGAAACTAACAAGCAACAAGATTCACAATTTGATTAAGAAATATGGTGGTTTTGATTTGGTCATTTGTCAGAATCCTTGTTCTCGTTGTTTGTCATCTTCAAAACTGAATCAGAGTGGAGACGCTGAGGGTATAGCAAGTTTTGATTTCTCTATATTCTATGAGTTTGTCCGTGTTTTGCAGGGTGTAAGGAATACCATGGAAAGAAAGAAGTGA MASNKPIAPKEEVFDFRLPPDRMYSRHVGDTGASSSGSNIRAFFIDMGFLPSLVDKVIEENGEDDVELLLNTLTTFSAEQKSTPESSDSLDGLRSGKKGSNPPHFSKICHKQTTKVLKTMFSFIKLFISITYLGIFIVPWVAVESLQTSKSESSDSLDSLFDDKDAHNEISSVVIPKEEADDYYDANDTNKASLLMMNFTVDEVDFAIDKLGGDAPINELVDFIIAAQIAENLEKETDDVTFCRNELKKEENDETLFVTMEKTLRLLEMGFSENEVSLAIEKFGSETPVAELADSIVTGRIAGDYPGNVKCSPNSFGIGGLHTSEDYMTKVKAEESSSAGVSLPRNVNIEEILKGKRPKEENMDDLLNPIPRFDVNKHKGKRPKQEYADDLSSLYGPGWVESKVNPNITRFDIPPPSKLNLSRSLDKLVAKPPSPPLRLNPSRSLDKMVAKPPFFLYGNVLDIARDSWEKVSKFLYAIQPEFVDTRSFSALSRTEGYVHNLPCENRSHILPMPPMTVQDATRTKKWWPSWDTRKYLSCINSETRGVSQLCDGLTKTLTDSHGRLSSQQQRDILHHCIALNLIWVSQSKLAPIEPEQLECVLGYPVNHTQDAESSSMERLQYLKYCFQTDTLGYHLSVLKPMFPEGLIVLSIFSGIGGAEIALHRLGIRLKVVISVESSAAKRRILKKWWHSSGQTGELEQIEDIQKLTSNKIHNLIKKYGGFDLVICQNPCSRCLSSSKLNQSGDAEGIASFDFSIFYEFVRVLQGVRNTMERKK Homology
BLAST of Cla97C06G113730 vs. NCBI nr
Match: XP_038906642.1 (probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X1 [Benincasa hispida] >XP_038906643.1 probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X1 [Benincasa hispida] >XP_038906644.1 probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X1 [Benincasa hispida] >XP_038906645.1 probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X1 [Benincasa hispida]) HSP 1 Score: 1367.1 bits (3537), Expect = 0.0e+00 Identity = 693/775 (89.42%), Postives = 712/775 (91.87%), Query Frame = 0
BLAST of Cla97C06G113730 vs. NCBI nr
Match: XP_038906646.1 (probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X2 [Benincasa hispida]) HSP 1 Score: 1329.7 bits (3440), Expect = 0.0e+00 Identity = 678/775 (87.48%), Postives = 697/775 (89.94%), Query Frame = 0
BLAST of Cla97C06G113730 vs. NCBI nr
Match: XP_008458306.1 (PREDICTED: uncharacterized protein LOC103497762 isoform X1 [Cucumis melo] >TYK02979.1 DNA (cytosine-5)-methyltransferase DRM2 isoform X2 [Cucumis melo var. makuwa]) HSP 1 Score: 1297.3 bits (3356), Expect = 0.0e+00 Identity = 658/775 (84.90%), Postives = 694/775 (89.55%), Query Frame = 0
BLAST of Cla97C06G113730 vs. NCBI nr
Match: XP_011656312.1 (probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X1 [Cucumis sativus] >XP_011656313.1 probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X1 [Cucumis sativus] >XP_011656314.1 probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X1 [Cucumis sativus] >KGN45613.2 hypothetical protein Csa_004816 [Cucumis sativus]) HSP 1 Score: 1293.9 bits (3347), Expect = 0.0e+00 Identity = 655/775 (84.52%), Postives = 694/775 (89.55%), Query Frame = 0
BLAST of Cla97C06G113730 vs. NCBI nr
Match: XP_011656315.1 (probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X2 [Cucumis sativus] >XP_011656316.1 probable inactive DNA (cytosine-5)-methyltransferase DRM3 isoform X2 [Cucumis sativus]) HSP 1 Score: 1290.8 bits (3339), Expect = 0.0e+00 Identity = 654/775 (84.39%), Postives = 692/775 (89.29%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy Swiss-Prot
Match: Q8H1E8 (Probable inactive DNA (cytosine-5)-methyltransferase DRM3 OS=Arabidopsis thaliana OX=3702 GN=DRM3 PE=1 SV=1) HSP 1 Score: 491.1 bits (1263), Expect = 2.3e-137 Identity = 310/801 (38.70%), Postives = 425/801 (53.06%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy Swiss-Prot
Match: Q6AUQ7 (Probable inactive DNA (cytosine-5)-methyltransferase DRM3 OS=Oryza sativa subsp. japonica OX=39947 GN=DRM3 PE=2 SV=1) HSP 1 Score: 408.3 bits (1048), Expect = 1.9e-112 Identity = 269/743 (36.20%), Postives = 401/743 (53.97%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy Swiss-Prot
Match: Q10SU5 (DNA (cytosine-5)-methyltransferase DRM2 OS=Oryza sativa subsp. japonica OX=39947 GN=DRM2 PE=1 SV=1) HSP 1 Score: 318.5 bits (815), Expect = 2.0e-85 Identity = 221/606 (36.47%), Postives = 311/606 (51.32%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy Swiss-Prot
Match: Q9M548 (DNA (cytosine-5)-methyltransferase DRM2 OS=Arabidopsis thaliana OX=3702 GN=DRM2 PE=1 SV=1) HSP 1 Score: 298.5 bits (763), Expect = 2.2e-79 Identity = 203/595 (34.12%), Postives = 291/595 (48.91%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy Swiss-Prot
Match: Q9LXE5 (DNA (cytosine-5)-methyltransferase DRM1 OS=Arabidopsis thaliana OX=3702 GN=DRM1 PE=3 SV=2) HSP 1 Score: 277.7 bits (709), Expect = 4.0e-73 Identity = 139/338 (41.12%), Postives = 209/338 (61.83%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy TrEMBL
Match: A0A5D3BY15 (DNA (Cytosine-5)-methyltransferase DRM2 isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold46G00650 PE=4 SV=1) HSP 1 Score: 1297.3 bits (3356), Expect = 0.0e+00 Identity = 658/775 (84.90%), Postives = 694/775 (89.55%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy TrEMBL
Match: A0A1S3C858 (uncharacterized protein LOC103497762 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103497762 PE=4 SV=1) HSP 1 Score: 1297.3 bits (3356), Expect = 0.0e+00 Identity = 658/775 (84.90%), Postives = 694/775 (89.55%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy TrEMBL
Match: A0A0A0K816 (SAM-dependent MTase DRM-type domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G000130 PE=4 SV=1) HSP 1 Score: 1291.6 bits (3341), Expect = 0.0e+00 Identity = 654/774 (84.50%), Postives = 693/774 (89.53%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy TrEMBL
Match: A0A6J1KCC4 (probable inactive DNA (Cytosine-5)-methyltransferase DRM3 OS=Cucurbita maxima OX=3661 GN=LOC111494323 PE=4 SV=1) HSP 1 Score: 1189.9 bits (3077), Expect = 0.0e+00 Identity = 624/778 (80.21%), Postives = 666/778 (85.60%), Query Frame = 0
BLAST of Cla97C06G113730 vs. ExPASy TrEMBL
Match: A0A6J1ER27 (probable inactive DNA (Cytosine-5)-methyltransferase DRM3 OS=Cucurbita moschata OX=3662 GN=LOC111436780 PE=4 SV=1) HSP 1 Score: 1182.2 bits (3057), Expect = 0.0e+00 Identity = 622/778 (79.95%), Postives = 663/778 (85.22%), Query Frame = 0
BLAST of Cla97C06G113730 vs. TAIR 10
Match: AT3G17310.2 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 491.1 bits (1263), Expect = 1.6e-138 Identity = 310/801 (38.70%), Postives = 425/801 (53.06%), Query Frame = 0
BLAST of Cla97C06G113730 vs. TAIR 10
Match: AT3G17310.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 491.1 bits (1263), Expect = 1.6e-138 Identity = 310/801 (38.70%), Postives = 425/801 (53.06%), Query Frame = 0
BLAST of Cla97C06G113730 vs. TAIR 10
Match: AT5G14620.1 (domains rearranged methyltransferase 2 ) HSP 1 Score: 298.5 bits (763), Expect = 1.5e-80 Identity = 203/595 (34.12%), Postives = 291/595 (48.91%), Query Frame = 0
BLAST of Cla97C06G113730 vs. TAIR 10
Match: AT5G15380.1 (domains rearranged methylase 1 ) HSP 1 Score: 277.7 bits (709), Expect = 2.8e-74 Identity = 139/338 (41.12%), Postives = 209/338 (61.83%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31 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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