MELO.jh011734.1.t3 (mRNA) Melon (Harukei-3) v1.41

Overview
NameMELO.jh011734.1.t3
TypemRNA
OrganismCucumis melo var. reticulatus cv. Harukei-3 (Melon (Harukei-3) v1.41)
DescriptionATP-dependent DNA helicase
Locationchr05: 29579820 .. 29599108 (-)
Sequence length2484
RNA-Seq ExpressionMELO.jh011734.1.t3
SyntenyMELO.jh011734.1.t3
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonpolypeptideCDSstart_codonstop_codon
Hold the cursor over a type above to highlight its positions in the sequence below.
AATACCATTTTCAGATGCTGCACAAGGGAAGGGGCAGGAAAAAAAGTCGCAGTAGGTGAACATTGTTTGAACATTCAGGCAGGTAGAAATGAAGAAGTCATCGCTTCCATTGCAGAGTAATATCCGTCCAGAAAAGCACAAATATAGCAAGGAATCCTTGACGAAGCTCTTAAGGTGGCATTTTGGACATTCCGAGTTTAGGGGAAAGCAACTGGAAACTATTGAAGCTGTTTTATCAGGTAAATACTTCAGCCGAATCTGAAATAAATAATAATAATAATAATAAAAGACCAACGTAGAGAAAACAATCCTTATTTTGATTAGCATATACCAAGAAAAGTTACTTTCAGAGCCAAGAGAACGAATTGAAACTGTCGTTTTTCCATTTTATACTATTGCTTCACTTTGTCTCCAACTGTAGCTCGCAGATATAACGTGCTGTACGTTCATTATTGTGGTGATTGGTGAAAGCATTGTATATGGGTTCTGTTAGCTCTTTATTGTTCTCTCTTACTTAGGAAAAGATTGTTTCTGTCTCATGCCCACTGGGGGAGGGAAATCAGTGTGTTACCAGATCCCTGCTCTAGCTTCGAACGGAACGGTGCTTGTTGTTTGTCCTTTAATAGGTGAATGGTATTCAGTCTCTTTATTTACAGTTTGGAGGATATTAACTACCAGAAGTCCATTTTTTTTTTGTGTGTGTGTGAGATAATTGCTCCATGCTCTTGCCTAAATCATCAAGTATTCGCTTGCAGCATTGATGGTAAGTATCGAAGTATTTGTTTCTTGTTCCCTTTCTGACAATTATATTTCTCGATTCGTAATTCTTTGACAATTTCCGCAACACTGATCGCACTCTATCAGGAAAACCAAGTGATGGCCTTGAAGGAAAAGGGGATTTCTGCTGAATATTTATCCTCGACTCAGTCAACACAAGCCAAAAATAAAGTGAATCATCCCCAACTATTATCTCCTAATCATACTTGTATTATGATGTCTGCTTTGACGACACTCATTGTTCATCAAAATTATTATTATCATTCTTTTAAAAAGCAAATCTATATTGTTATTATTATTTTTTGTAAATATCTTAAGAAGTTTTGACATTTAAAATAATTTTCATATTCTTACTACTCACCTATATGCGTAGGTATCATCACTCTTTCTAAAGTTACACCAGAATCAGTTGTCTTCTACATGCACGGGGTTGTTTAAAGTTATTTTTAGATTACAAACTTCTTTTTATTCCATCATCTTGCTATTTTTCAACCTTATCTGTGGAGAAAGCTCCATCATGGTTTTAAATATTTTTTGCATGTAATAGAATAGCAGAATAGGAAAATGCCTTCGTTTCCTTCCTTCTTATTGTGGAAATCTTTTGTTGTTCATAAGCTCGTCCTCTCATCTTTCATAATTTCTGTTTACTTGATACAAACATTACTTACCCGGAAATAATGCGTGTAACAATCTTCCTCATCCAGATTCATGAAGATCTCGATTCTAGTAAACCTACCTTAAGGCTTCTCTATGTTACACCTGAATTAATTGCGACATCAGGATTCATGGCAAAATTGATGAAAATTTATTCTAGAGGATTACTAAATCTGATTGCTATAGACGAGGTGAACTATATTCTTGTATTATGTGTGAATGCCGCGTTTTATCTTTTTCAATCATATTTCTATTTAATGCAATTTTCAGGCGCATTGTATTTCGACATGGGGCCATGACTTCAGGTTTGTGATAGTCATATAAGAGAGAATCAATTATTATCTTATAGTAATAGACTGTAATACTGACCTCCTTTTTATATTAGAGTAGCATTTCCATTTTTCTTCGTTTTCTCACTGTGCCACTTTTTGTTTTACTTTCTCTCTACTTTTGTGATATACCATTAAATATCAAGTTGACCAAAGCTATTGGTCCACTATACTTGTACTTGTACCTTCTACGTCAATTTAGTGTTCATCTTATTCGTAAGATATGCCAATCTTGTTGCTTATGGAGGAACTTTGTTTTTCCTTTTCTTCTTCTTCTTTTTCATTTTTTTTGGGTGGGTGGGGGAGTCTGCTTATTGTAGTTTTGGTCATGTCTCCTCACTAATCACTTTTATTGACCTTTTATGTTTTGACACAGGCCTAGCTACCGCAAGCTTTCTTCTTTGAGGAGTCGTCTTCCTAATATTCCTATACTGGCCTTGACCGCTACTGCTGTTCCTAAGTGAGTTATTATCACCCTGTCGCTTTAAATTTTTTTGCGGGAATCATACACTTGGTTTGAGCATACCAATCCTTTTGTCAAGTTATTATAGTTCTTAACCTAGTATTCAAATTTAAACCATCTTTTGCTTCTCTGAGTTATTTTGTTAATTTTTATCCTTTGCACGTTCGTGAGATGGACTCCAGGTCTCTTTTTGTCTCACTAGCAAAGTTTGATGCATGTTTCTATGCTGATAGTGTTCTTATGAAAAGAAAGTTCTAGACTTATAGTGCACAATTCAGTTGGATATGAATTTTTTTCTCTGGAAAATTCTGCAAGCGAGCATATCTCTCTGAATATCCTACTGTTCATTTGTTTATAGTCTTGTCACTATATTGACGACAGTTTGTTGAAAGTTTCCCTCACTTTCTAGTTTCTATATGGTTGGTAGAAGTCAATGACATGTAGATACTGATTTTAAAATTCAGAGAGATTAAATCCTGGTTTTTTCTTTGTTTCCGCAGAGTGCAGAAAGATGTGATAATATCCTTGGCCTTGGAAAACCCTCTAGTTCTTAAGTCTTCTTTTAATCGTCCTAATATATATTATGAAGGTTTGTCCTGGTGGCTCAACTAATTTACATGTTGCAGCATTAAAAAGTTGGATGAACTAATTGAATGTCCTCCGTTCCATATGATCTCATATTGGTGCCTTCATCACATACAAAATAAAGAACTCGATCCTATTTTCTCCTCCAATGGCTAGGCTGTTGATATCCTGGATGTGCTGCTCCCTGTCACATTTCTCATGCTGTCTCAGGAAACCTAATACCTAATATGATTTTTTGGGCCATTTTTTTCTTTATTTTTAATGTAGTAGGCTTAGAATAGATTAGGGTATCTTAATCAAGTCCTTCTTCGATTAGGATTAGGATTAGTTAGGATTATGATTATTTTCTTTGGTTTAATAGGGATGAAATTATTTTATTTGATTAATTAGGAAGTTTACTTCCGTCCCTTTGGGGACATTCGATAAAAAAGATTAGTTTACTTCCCAATTCTCCATAGACAAAGGAATTGTCTTCTTGTATTGATAACTTTTGATTCATAAGAAAGACTTTGATTCGATTCTTAGAGGGAGATCTCATTTTATCTTTTAGGCTACATCAATTTTGCATTTCTATTTCAAAATTATTTGGAGCTATTAGGTTTTAGTTGGCTCGTGTAAACTTCAGTAGTTTCTCTCTAGGCTGCATTGGCTGTTTGCTTGTACGTTTCATGGTTTACATGCTAACATGAAAGTTCATGTTGTCATAGGATCAGTAATTTACTGTTGCATGTTGAGTGAAAATTAATTATGCAGTTCGATACAAAGATCTTTTGGATGATCCATTTGCCGATTTGTGTAATCAACTGAAATCAAGTGGAGATGTTTGTGCAATCATCTATTGCCTAGAGCGTGCAATGTGCGATCAATTGTCAGTTTATCTAGCAAAACATGGCATTTCATGCGCTGGTAAGAAAAGATTTCTGCTCTTGGAATTGGATCTTCAACTCTCGGAGTTTTATTTGTTTAAATATTTACATGTTGATCCTGATGGTCTTCAGCATATCATGCGGGTTTGAAGAATGAGTTAAGGAAATCTGTTTTAGAGGATTGGATAAGCTCTAAGATACAAGTTGTTGTGGCCACAGTGGCTTTTGGGTATAGTTCTCGATAAAACTTTATCCTCATTTAACCTCAATAGTCAGATTTGGTGTATTTTCTTTTTTAACATAAATGTCTTGAAATTTTAGTATTTGACCCTGAAACTGAAATATAATTTTAAATTGCACTTGATGTTGTCGAGTATGTTCTAGAAGCCAAACCATTAGAAGGTGAGAAAGATGTGATAAGCATGACATTATAATTCGGTCTTTCACTTTTTTGATGATTTAAATTAAGTAGGTACTGCTCATATGTTTTAAAACTATGATGTACCTTACGTTGTGATTTGTCTTTCATTATGTCCTTTTGCCTAGAGCCACTCTGGTGCATGCACAATTTCTAAATTAGCGGTACTCCTTTCAGGATGGTAAGTATTTACTTGATTTTCGTTTAGTAAAAATTTGGACATGTGTGCTCTCATTTATGTGCAGTGCAGGAGGAGCATTAATTTTGCAAATTTCATGTTGTTGTGTTACGTAGGGTATAGATAGGAAAGATGTCAGGGTTGTTTGCCATTTCAATATTCCAAAGTCAATGGAAGCTTTCTATCAAGAGTCAGGTAGAGCTGGCCGTGATCAATTACCCTCTAAAAGTCTGTTATACTATGGAATTGAAGACCGCAGAAGAATGGTCAATTTCTGAACTTGAACTTGCTGTTCTCTTCTCTCTTTAGGCTGCATTTGATTTCACACGATCTATTGATTCATTTAACATTTTTTCATTTTTGCAGGAATTTATTATAAGAAATAGGTCCAGTGCTGATAAGAAGATCCTACCATCTTCAAGCTCCCAAGAAAAGCAATCGGAGAAGTCCTTAACCGACTTTACTCAGGTGATTTTCTTCTTCATTTGTAATTTGCAATGATATTTTTTGCCATTATTTTGATGTCCTGGCACAACTGAATGCAGATGGTTGAGTATTGTGAGGGCTCCAGATGTCGCAGGAAGCAAATTCTTGAGAGCTTTGGGGAACAGGTAGGAGGAAGGTGTTAGGTCTTCAATTTATTTCAATATCAATGTAAGGGCAGGAAAGCAATTGCTCATGTTAGCGAGAGTGGGACATCCATGTGAGATGGTGGGGGACCGCAGTTAGTTACGGATGGTAGAGAATATGTGTGGGAGGGGAAGTCTGGGTGAGGTAGGTTTTATTTTGCATATTTTTTTCTCGAGAGAGAGGTCTCAGCCTTCCTAGAGGTTGAGGAGTCTGTAGTTTGCCCTAGGGCAAGTTTCTTTCACTGTATAAGAATATCGAAAGCTAGATACCTTTCAGAAGGTCTATTTGTACAATTGGTGTTAGTTTTATTCTCAACTCTTGAATATTGTCCCAACAGCTAATAAATGTTTATGTAACTGTTGGACTAGGTTCCTGCATCCATATGTAGTAGATCATGTGATGCCTGCAAACACCCAAATATCGTTGCTGCCTATTTGGAGGAGCTTACTACTTGTGCTGTTAGGCGAAATAATTCATCTTCCAGAATTTTTGTCAGCAGGTGCTTGTCTTAAAAGTGTTTAAAATGTTTAAAATTTATTATTGAAAAGGCTAGCTGTAAATCTTATAGGCCACCTATTTCTTGAAGTAATATCTTATTACTTTCTTCATTTTGTTGTACGGTTAGGTGGATGATTAGTAGATATTCATGAGCAGCTTAAAAAATACAAACAAATATATATTTTTTTAGTAGTTTTACGGATTTTAAAGTGCTTGGAAACCTAAGGTGTGCCTAAGACTGATCGACAAGTATCTAACTATGGATCCTTTTCCTTGTCATTTGTTATGTCCCTGGATTTAGACGTAGTGGTAATTCCCCCACATTCGTCTGATGGGAATGTTACTAGAGTGTTTGTTGTTGGAATGGTGATTATGAATAAAGTTAGGGAAGATAGAGAGGTAAGCAAATATTGGTTAAATATTCCAAGTAGCCTGGAATTGGAGAGTTCAATCATCCTTATTTTTAATCTTTTGTTTATCTAATTACAAATATCAGCTTGATTCTTATTGTCATCAAATTTCTCATTTCAAGATTTTGGACCGTAGAGGGTTAATGGAAGTTGTTACTATCCTAAATGAGCATTGATATCTTGTACTAAATGCTGTCTCAAATCCTTGATTTAGTTACTTATAAGTCTTCTTTTGAGTACAACAAATAAGTGAGTCTGAGGATTTGAACCTCTAACTTTTAATTAAATATGTTGACCATTGAACCATGCACAATGGGCTGTCACTGACTCAGAATTGTTTTCTTTTAATGATAAAAACCAGATCGAATGCAGACGATGAAGATGAGTTTTCTGAATTTTGGAATCTCAAGGATGAAGCAAGTGGATCTGGAGAAGATATATCAAATTCTGATGGTATAAATCCTTTGAATGGACTCGATTGCTCTCCTTCTCTTCCAGCCACGTAGCTTCATTTGTATATAATGTGGTGGGTCGGGTTTGAGTATTTATTATATTAATGCATATTTTTAGTTTAAATTTTCGCAAATTTCCAGATGATACTGAGGTTGTCAAAAGCCTAACTAGGATGAAGTCTCTAAAGAAATCAGGACTAAATGAAAAGATGGCACTTCTAGAGCGTGCAGAAGAAAACTATTACCAGAACAAGATTTCAGTTAAACAGGTTTGGTTTCATCGTTTCTTTTTTCCCCCCGATTCTTTTTTTTTTTCTGGGAAACAGAAACGTCTCTTCATTAAATTAATGAAATGAGACTAAGTGCCCATTTGAATTGACTTAAGAGAAAAATATTTTTCCAAAAAATCATTTTTATTTAAACACTTCTAACAAAATTGATTAAAATAAACTTCAAAAGTTATTTTAAGTGATTATTAAACACTCCAATTATTTTTAAAATGACTTATTTTTTAATTTAAACACTTGAAAATGTATTTGTAAGACCTCCTATTATTAATGTGTATAAGAGGAGGGGTAAGAAAGGAAAGTTACAGGACAGCAAGGAGGAAAGAGAGAATGGAAATGAAATAGTGGATTAGTGGAGCAGCAAGTGGGCCCTACAGGATCATGTTGTTTGTCTTATTCGGCCAAATGTCTTATAAATAGCAAGGGGAGGGTAGCATTCTAGGTATGAGAGATTTATAAAGAATGTTTTGAGAAAGAATAGAGATTGGCGGCTGGGGAACCCTACCTTAGCCTAGGAGAATAGGTTGGTTGGTTCTTTACTGTTTTCCTTGTTTTATTTCCTAGTTATTTCTATCATCTATCTTGTATCTACTGTTTTTGGCAATATAAATATATAAACACAGAGTGCTGCCTCTGTTTTTGCCCTTGAGTTAGTAAGGGAATATAAGAAAGAAGTGAGAATCCTCACAATTGGTATCAGAGCTTTGTCAAACTGGGAGTGATTACAAGACTGATGGCACAACGACAAATGGAAGAAAGGCTGGAGGGAACGGAAAAAGAGGTGTTGAGCCTCAAGGAAATGATGCTGGAGATGAAGAAGAGTATGGACCGATTGGCCGATGAGTTGAGGGACCAGTCTTATAAGAAAAAAGAAGAATCTGGTACATCCGACGGGTCCATTATGAAAATGAAAGGAAAAATGGAAGAGACAGATGTAACTGGAGAAATACATAACCACCAGATCGATCGAAGCAAATATAAGAAGCTGGAAATGCCCATGTTTCTGGGAGAAAATCCAGAATCCTGGGTTTACCGGGCAGAGCATTTTTTTGAGATCAACAACTTACCAGAAGCAGAAAAGGTCAAGGTGGCAGTGGTGAGCTTTGGACAAGATGAAGTGGACTGGTACAGGTGGAGCCACAATAGGAGAAAGGTGGAATCGTGGGAAGATCTGAAGACCAGAATGTTTGAATTCTTCAGGGATACTGGACAGAAAAGCTTGGGGGCTAGGCTAATACGCATTCAACAAGAAGGCTCCTACAGTGATTATGTTAAGAAGTTCGTAAACTACTCGGCACCTCTCCCACACATGGCTGAAAGCGTGCTCCGTGATGCCTTCTTAACTGGCTTAGAACCTGCGCTTCAAGCTGAAGTGATGAGTCGACACCCTCAAACACTAGAAGATTGTATGATGGCAGCCCAGTTGGTGAATGACCGTAACTTAGCACTCAAATTGGCTCAAGCAGAGATGGGTATTATCGAGCCAAAAAGAAGCGAATCAGTTGGTAATAAGGTGCAATGGAACAACGAAAAAGGGATGTTGAGGAAAAATGAGTTCCAAATGAAGCAAATAACTATACCCCTCAAGGGAAGTTATCAAAAAGGAGAGCCCCCCGTTAAAAGACTGTCTGATGCCGAATTTAGAGCACGTTTAGACAAGGGTCTCTGTTTTAGGTGTAATGAGAAATATTCTCATGGACATCGATGCAAAATCAAAGAAAAAAGGGAGCTCATGCTTTTTATCTTGAATGAAGAAGAAAGCACCGAGGAAGGGGAAGGGTCAGAGGCACCAAACACAGAACCAGTAGAGATCAATCAGTTGGGAGAACCAGAAGAAACTATGATCGAATACCGGGCCATCACCAGTTTGACAACTAAAGGAACTATGAAGCTGAGAGGAATAGTCAAAGGAAAAGAGGTTATTGTATTGATTGACAGTGGGGCAACCCACAATTTCATTCATCATGAGCTGGTCAAGGAAAGGAAAATCCCCATCAATAGAAACACTCAGTTTGGGATTACTATTGGCGATGGCACAAGCTGTAAAGGAGAAGGCATTTGTAGCAAAGTAGAAATCCAGCTTGAAGGGCTAAGAGTAGTAACTGATCTGTTGGTTGTGGGATTGGGGACAATAGACGTGGTGCTGGGAATGCAATGGTTGGATACAACAGGCACCATGAAGATTCATTGGCCATCGTTGACAATGGTCTTTTGGAAGGAAGGGAATAAGGTGGTTTTAAAAGGAGACCCGGCTTTGATAAGGGCAGAATGTTCACTCAAGACCTTAGAGAAAACATGGGAAGCGGAAGATCAAGGTTTTTTGCTTGATTGGCAAAGATATGAGATCGAAAATGAGGATGCTGATTGCAGAAACACGAGCCATACAGGAGATGAAGAGGGATTACCAATGATCCAGTTCTTACTCCATCAATACTCTGATGTGTTTGAAAGTCCGACCACTCTACCACCCAAGAGAAGCATTGATCACCGCATACTCACTTTACCGGGGCAGAAGCCAATCAATGTCCGTCCTTATAAGTACGGCCATCAACAGAAAGAAGAGATAGAAAAGCTAGTCATGGAAATGCTGCAGACCGGAATCATTAGACCAAGTCACAGCCCTTTCTCAAGTCCAGTGCTGTTAGTCAAGAAAAAAGATGGGGGCTGGAGGTTTTGTGTCGATTACAGGAAGCTAAATACAATTACAATAGCTGATAAGTTTCCCATTCCGGTTATTGAAGAACTCTTGGATGAGTTACATGGGGCCACGGTGTTTTCCAAATTAGATTTAAAGTCAGGTTACCATCAAATACGAATGAGAGAAGAAGATATCGAGAAGACTGCGTTTAGGACGCATGAAGGCCATTACGAATTCGTGGTAATGCCATTTGGTTTAACCAACGCTCCTGCCACTTTTCAAGCCCTAATGAATCAGGTATTTAAGCCTTTTCTCCGCCGTTGTGTTTTGGTTTTCTTTGATGATATACTAGTCTATAGTTCGGACATAACAGAACACGAGAAACACTTAGGAATGGTGTTTGCAACACTAAGAGACAACCAGTTGTATGCTAATCGCAAGAAATGCGTTTTTGCTCACTCACAAATACATTACTTAGGCCATGTTATCTCCAAACATGGAGTGGAGGCAGATCAGGATAAAGTTAAAAGTATGCTACAGTGGCCGAAACCCAAGGATGTGACAGGTTTAAGGGGTTTTTTGGGGCTGACGGGCTACTATAGGCGTTTTGTCAAAGGTTATGGTGAGATTGCAGCACCACTGACTAAACTACTGCAGAAGAACGCTTTCAAATGGGATGAGAATGCCACCCTAGCATTTGAAAATCTGAAATCTGCAATGTCTACCATACCAGTACTGGCTTTACCCGATTGGTCTCTACCCTTTATGATAGAAACTGATGCCTCAGGTAGTGGATTGGGAGCAGTACTATCCCAGAACAGCCATCCCATAGCATTCTTCAGTCAGAAATTGTCTACAAGGGCTCAAGCCAAGTCCATATACGAGAGAGAATTGATGGCTGTAGTATTATCCGTGCAAAAGTGGCGGCATTATCTTTTAGGAAGGAGATTCACCATTATGTCAGACCAAAAAGCTCTAAAGTTTTTATTGGAGCAGAGAGAGGTACAACCACAATTCCAAAAGTGGTTAACCAAGTTATTGGGATATGACTTTGAAATTTTGTACCAACCGGGACTTCAAAATAAGGCAGCAGATGCACTTTCAAGGATGGATCATTCAATAGAATTGAAGGCATTGTCAACAACAGGGATTGTAGACATGGCAGTAGTTACAAAGGAAATCGAGAAAGATGAAGAACTTCAACTCTTAATCCAACAGTTACAGAATAACCCAGCATTGGAGGGCAATTACTCTTTAACAAATGGCACGCTAATGTATAAAGGAAGGGTGGTGCTGTCCAAATCATCGTCAATTATACCCAGCCTTTTACACACCTTCCATGATTCGATTTTGGGGGGCCATTCAGGATTTTTGAGGACTTACAAGCGAATGAGTGGTGAGCTATTTTGGAAAGGTATGAAAGAAGACATCAAGAAGTATGTGGAACAGTGTGAAATCTGCCAAAGAAATAAGAGTGAAGCAACCAAACCGGCAGGGGTTCTACAACCATTACCCATACCCGACCGCATATTGGAAGATTGGACTATGGACTTCATCGAAGGATTGCCTAAAGCAGGAGGTATGAACGTGATTATGGTGGTTGTCGACCGGCTGAGTAAATATGCTTATTTTGTCACCATGAAGCATCCGTTTTCAGCAAAGCAAGTTGCCATGGAATTCATTGATAAGATAGTTCGAAGACACGGCATCCCTAAGTCAATTATATCAGATAGGGACAAAATATTTGTAAGCAACTTTTGGAAAGAACTATTTTATGCCATGAATACCATCCTTAAACGAAGCACTGCCTTTCATCCTCAAACGGATGGCCAAACAGAACGAGTCAATCAATGTTTAGAAACCTACTTACGGTGCTTTTGTAATGAGCAACCAAACAAATGGCATCAGTTCATTCCATGGGCAGAGTTATGGTACAACACCACATTCCATTCGTCAACACGCACAACTCCTTTTCAGACTGTGTATGGTAGACCCCCACCACCCCTGATATCCTATGGAGACAAGAAGACACCTAATGATGAAGTTGAAGCATTGCTGAAGGAAAGAGATTTGGCTATTAGTGCGCTCAAGGAGAACCTCACGATCGCTCAAAATAGAATGAAGAAATTTGCAGACTCAAAGAGAAGAGAACTTAAGTTTAAAGTAGGAGATGAAGTCTATCTAAAGTTAAGACCCTACCGGCAGCGCTCCTTAGCAAGAAAAAGGGCAGAAAAGCTAGCTCCTAAATATTATGGCCCATATCGCATCATTGAAACTATAGGAGAAGTGGCATACCGACTTGATTTACCACCCGAAGCATCAATTCATAATGTTTTCCACATATCACAGCTCAAACTGAAACTAGGCAACCAACACAACGTCCAAATCCAACAACCACAGCTCACAGCAGAGTTCGAATTACAACTTTGGCCGGAGACAGTTTTAGGCATACGTTGGAGTCCTGAATTGGGAGCCAATGAATGGCTGGTGAAATGGAAAGGACTGCCAGACAGTGAAGCCACCTGGGAATCAGTTTACTCAATGAATCAACAGTTTCCTTCATTCCACCTTGAGGACAAGGTGATTTTGGAACCCCGGGGTATTGTAAGACCTCCTATTATTAATGTGTATAAGAGGAGGGGTAAGAAAGGAAAGTTACAGGACAGCAAGGAGGAAAGAGAGAATGGAAATGAAATAGTGGATTAGTGGAGCAGCAAGTGGGCCCTACAGGATCATGTTGTTTGTCTTATTCGGCCAAATGTCTTATAAATAGCAAGGGGAGGGTAGCATTCTAGGTATGAGAGATTTATAAAGAATGTTTTGAGAAAGAATAGAGATTGGCGGCTGGGGAACCCTACCTTAGCCTAGGAGAATAGGTTGGTTGGTTCTTTACTGTTTTCCTTGTTTTATTTCCTAGTTATTTCTATCATCTATCTTGTATCTACTGTTTTTGGCAATATAAATATATAAACACAGAGTGCTGCCTCTGTTTTTGCCCTTGAGTTAGTAAGGGAATATAAGAAAGAAGTGAGAATCCTCACAGTATTCTAAACACATCCTAATGCTCAAAGTACAAAGGGAATACAAAGAGCAAAAAAAATAAAAGCATATCGATCTAGGTGGTGCACTCGGGTCATTGCTTCCACATCTCTTCCACTTGTCTTCCTCTAAATATAGAGTGGTGTTTAAGTTTTTAGTTTGGTGGAGCTCAGGATTAACAATTTGGATCAACTTGTAAGGAAGATGTTTTCGTTTGTTGGTCTATTTTTTTCATTCTCTGTCAAAAGGCAGAGGAAAACCTGGATCACATTCTTTGGAGTTGTGAGTTCGTGAAAGCCTTTTAGAGTGCCTTCTTTCAAATTGTTCGGTTTCTTGCTATCCCATTGCAGGGACATATGATCAAAGAGCTTCTCCACCCTTTTCCCTTTTTTGAAAAGATTCATTTTTTTTTTCTTACTCGTATGTGCTATTCTGGGGTGAGAGGAACAATAGAGTTTTTCTTTTTTAAAAAATTAATTCTCTTTTAGGGGGTGTTTAAGGCAAGGAATGAGTTATTATAGTCCTAGGTTATTATAGTTTGATTAGAATAACTTGTGTTTGAGGTGTAGATTATTTTAGTTTGGGTTATAATAGTTTGTGTTTGGTATGCAGACTATTTTAGTTTGATAAAAAAATGGTAAACACTGTTGCAAAGAATAAAAAAATGATGAATGTCAAATAGTAAAAACTGTAGCAAATTGGGAGTTTTGAAATAGTGTTTACTGTAGCTAATTGGAGATTTTTAAATAGTGTTTACTGTAACAATAGGTGATTATTATAGTCCTAAATAATCTTTGTCCCAAACGACTCTTTGTTCTTTGTGTCCATTAGGTCCTTGCTTGTTCTAAATTTCTAAAAATAATGATCTATTGATATAAAATTGTATTTTATGTCTAATGGGAGCCTATAATTTTGATTGTGTTTAGTAGGTCCATGAATTTTAAAATGTGTTGAATAAGCCAAGGATCTATTGAACACAAAATTAAAAGAATGAAAGTAACGACGAAGAACTAACACAAGATTTACGTGGAAACCCTAGTACATGGAAAAAAACCACAGGAGAGAGTTTTCTTATTATTTACTTATGCAACAAATAATGTAAGGGGAAAATACAAGAGCCTAGTTAAAAAAGGAAAGATTATATGCCGTGGCATTTTCGTTTAGGCCACCCTAATTTTTAATATATAAAACATTTATTTTCTCATCTTTTCTCCAAACTTGATGCGCCCACCTTATCTTGTGACATATGTATTCGAGCCAAACAACATTAGGTCTCTTTTCCTTCACAACCATACAAACCAACCCATTTATAGTGATGTCAGGGGACCATTCAAGATAACTACCTCATTTGGAAAACTATGGTTTGTAATCTTTATTATTAATGATCATACCCGTCTCCAACAAATCCGAGTTCACCTCCGTCTTAGGGATTCTATCACACCATAGAGACGCATTTCAATGCAAAGATTGCTATTTTATAGAGTGACAATGGTCGTGAGTTCGAAAACCATACCCTCAATGAGTTTTTGCCAAAAGGATTCTCTACCAAAATTTATGTTCCTATACCCCCAATAAAATGGGGTAGCCAAGCGTAAAAACCGTCACCTTTTGGAAGTAGCTCGTTCTCTTATCTTGTCTACTTCCCTTTCTTCCTATCTCTGGGGCGTCATTGTTCTTACTGCCACCCATCTTATCAACTGGATGTCTTCTCGTGTCCTACATTTCCAGACCCCCTTAGAGTTCTTAAAGAGTCATATTCCTTTACCCGCCTCCTTTCTGATGTTCCTCTTCGGGTATTCGGGTGCTCAACCTATGTTCATAACCATGACCCTAACCCAACTAAGTTTACCCCTCGGACTCAGACATGTGTTTTTGTTGGTTACCCTCTGCACCAACGAGGCTATAAATGCTTTCATCTGTCTTCTCGTAAGTACTTTGTTTCCATGGATGTCACATTTCTTGAGGGTTGTCATTTCTTTCCCATTAGCCTACTTCTTGGGGAGAGTGAGAGTGAAGAGTTTAATTGGGCGATTTCCTTGGAGTCTACCACTCCTACTCTTGTTACCCTATCTAGTCCAGATCCTCACAACACGGTCCTACCTATGAACCAAGTTCCTTGGAAAACCTACTATAGGAGGAATCTTAGAAAGGAAGTTGAGTCTTCTACTATTCAGTTGGCTCCGATCCAAGACTCTGAACCTTTACGAGATCAAGGTATGACAAATTCTTTTTCCTCATATATCGACAGTAAAATGAGTGAAAGTGACAGGTCCGAGACAACTATTCTTGAAAATATAGGTGAACAGGGTAGTGTTGATACTGAGATCATTTCAGATGGATAGGGCAGTGATGATGGGAATGAGGTCAGTGCACAATTTACTACGAATGAACCGTTTAGAAAATATCAGTACGTATTATTCGTCTCTTGATCTGACTATTGCACTAAGGAAGGAACGTCTCTTGATCTGACTATTGCATTAAGGAAGGGTATCGGGTCCTGCATAAAGCACTCTGTTGCTAACTATGTTTCTTATAAGAACCTATTTCTTCAGTTCAAAGCCTTTATAGCCAGCCTTGACTCTACAACAATACCCAATAATATTCATGTTGCCTTTGAATGCCCAAAGTGAAAAATTGCAGTCATGGAAGAAATGAGAGCCCTGGAAAGAACAAGACTTGGGAGCTCTGCACTTTTCCTAAGGGATATAAAACTGTAGGATGCAAATGGATGTTTACTATCAAGTACAAAGCAGATGGTACTCTTGACAAACATAAGGCCAGGTTAGTTGCAAAAGGACTCACTCAGACTTATAGGGTTAACTACTTTGAGACTTTCTCTCCTGTTGCAAATTTAAACATTGCTAGGGTCTTGCTGTCTGTTGTTGTGAATAAAGAGTGACCTCTAAAACAACTTGATGTTAAGAACGTGTTCCTAAATGGGGATTTAGAAGAGGAAGTGTATATGAGTCCTCCACTAGGATTCGAATCCTAATTTGACCATCATGTTTGCAAACTTCGAAAGTCCGTGTATGGATTGAAATGGCCACCAAGAGCTTGATTTGACAGATTTACCTCATTTGTCAAGTCTCAAGGGTACACTCAGAGGCACTCTGATCACACTTTATTTACAAAAGTCCCTTAGTTCTGGAAAATTACAATTTTTATAATCTATGTTGATGATTTTGTTATATGTGGGGATGACACCAATGAGATCCTCCAACTAAAAAAGAAGATGAGGGATGAGTTTAAAATTAAAGACTTTTAGGAGTCTGAAATACTTTCATAGGATGGAAATTCCAGATCTAGAGAGGGGATATCTGTATTCTAGAGGAAATACACCATTGATTTGTTAACTGAGACAAGAATGTTAGGATGCCGTCTCGCTGATACACCTTTTGAGTTCAATGCCAAACTCAAGGATACAGGTGAAAAAATTCCGATTGACAGAGAGAAATATCAGCACCTGGTGGAAAAACTGATTTATTTATCTCACACTAGGCCTGACATCTCATATGTTGTGAGTACTGTTAGTTAGTTCATGCAGACTCCTTACAAAGAACATATAGAGGCTATAAACAGAACTCTAGAGTATTTAAAAGCAACTCCTAGTAAGGGGTTGAGATTTAGGAAAACTGACAAAAGGTGTATTGAGGCCTATACAGATTCTAACTTCGCAGGGTCCATTGTTGATTATCAACCTCTGGTACTATATTTTTGTGTGGGGCAATCTTGTTACTTGGAGAAGTAAGAAGCAAGGAGTTGTTGCTAGGAGCAGTACTGAAGATGAGTACAGGGCCATGAGTTTGGGAATTTGTGAGAAAATTTAGCTCTAGAAGGTGCTATCTAATCTTCATCAAGATAATGAGGTGCCTATGAAACTTTTTTGCAAAAATAAGGTGACCATCAACATTGCCAATAACCCGGTCCAACATGAGAGAACTAAACGTGTGGACATTGATAGACACTTTATCAAAGAGAAATTGGACAGTGGTAGCATTTGCATTCCTTACACACCTTCAAGCCAATAAATTGTTGATATTATGATAAAAAGGCTTCTCAAACAGAGCTTCGGTTCTTGTGTTAGCAAGTTGGGTCGTAATTGGGTCTTTTTGACATTTACGACCCAACTTGAGGGGGAGTGTTAGAATTAGTGGGCTTGTTGTATATTGAAAGCCTAAAGGTATTTTAGTCTTTTATGTTGCCCTAATTAACTTTCGTTATTTTAATTAGGCCTTTATTGCCTATAAAGTAATGCTCCCCTGTATCATTAGTTATGTAAGAAAATAATAAGATAGATCTGCACTATGGACTTTCACCCTGAACTAGGGTTTCCATGTAAAATGTGTGTTTCTTCTTCATCTCTACTATCAATACTCCCCTTCCCAGAAAGGTTCCTAGGAATTACTTGGTGAAGGGCGAGGTATCTCTTCCGTTAGAAAGTCAAATTTGAGGCGTCCCTCAAGGATCATTTTAACCGATTGTGACCAAGAGAAGTAGTTTTGGCCATTCAGCTTCTCCCTTGTAGGAACTCATGTACTCTGTGCCATAGAACCAGGCACGTAAGTAACGGATAAATTAGGGAACAAAGTTATCGGATTCTCAGAATATGTCAGCAAGTTGGTTGGAATGCTAGGACTAGAGGTGTGCAGAAGCTCTAAAAGTTGCCTCAAACGCTGCAAGTTGCTATCAAAACATAGCCAATTGTTGGTGGTATCCTGCACTTTTGGTTTAGATTGGGTCGAGGACTCACCAATTTCAAATTCTGACTGGGTGTGGTGGTTACTAACTTTGGGGTGACAATTGGGCAGATTTTCCAGTGAGGTATAGGTGTTGGCGGGTAGTGGTGAAAAATTACATGGCTCGGATGGTGCAAAGATTTATTAGAGTTTGCGGCAACTTGTGATTTAGGGTGTGTAGCAGGGTGGTGGCTAGCGTCTGTGGTTTGCAGCAAGGGTAGGTTGCGGCTGGTGGTAGTTTGCGGCAAGGGAGTAATCGGTGGCTAGGTAGGTTGCGATGGTTGGTTAGGGTTTGTGGCAAGGGTGTAATCGGTGGCTGGGTTAGGTTGCGACTGCACACTGGGCAGCGGCTAGAAAGAAGCAATCAGCGGCTCGTGGACGTGAACTTGTTGGGGCTTGCTGAAACCTTCACTCGGCATCACGTGTGGCTAAAGGGGAACACTCGTCGGCATGTTTTGAAGGTGACGGAACAGGTCGTCCATGGTGGCAATGATGCCGACGTTGATACCAACTACTGTCTCGCTAGTAGTGAGGCTCTCCTCTGTTTAGGTTCCATCAAGATTAGGGTCTAAGGTTTTGACGTTATTCCTCTCTAATACCATATTGAAAGTAACCACAAAGAGCTAACATAAGATTTACGTGAAATCCTAGTACACGGAGAAAAGCCATGAGAGAGAGTTTCTTATTGTTTACTTATACAACACAAAATACAAGGGGGAACTTAACTGGGAACTAGAACCTAATTAAAAGAGGGAAGAATAATTAAGGTAACATAAATTACAAAATTACCCTTGGGCTTTCAACATACTTGCCCACTAATTCTAACAAAAAATTTAGGACCTATCGAGAACAAAATCGAAAGTTCAAGGACCTTTAGATATTTTTCTTTTGAGATTTTGGGACTTACCGACATATTATTAAAAATTTAGGAACCTTCTAGACATTTTCAAAGTTCAGAGATCGAATAGACACAAACTTGAAAGTTAACATGCTAATTTTGTAATTGAACATAACTTTTAACGGGCTTTTTGTAAGTACGTCTTTTTGTATATATTCTCTTGTGAGAGTTTCCGTTACATGTTGGGAGATCGATTGTATTTACTTTATCGTGATTATTATTGGATTTGTCCATTCATGTTGGATTCTCCTAGTATGCTTGCTTTTTTCCTGATGGAGTATATACTTCACGGCAGAATGATAAACATGACAAGAATAGTGTATCTACATCACTTAGGAAAGCTAGCAGGGAGAGATTAGAGAATTCTCTAGAGCAGGCTCAACAACGGCTTGGGAGCACCAAGTAAGTTGCCGTGCTTTTTAAGATGGCAGAGATTTTATTATTTCTTCATTGAATTATGAAGTGGCAAAAAAACGTCCGTTGCTTTTCTGATTTTACTTAGACGCTCATTTTCTTGAGATAATCAGTTGACCGATTTTCATTTTGTGTCATGTCCACCAATTGAACAGTGGACAACAATAACACTAACAGCATTGTTGATGTCATTTATCGATAATAAATACGATGTATTTCTCCTGGTAACTAAACTAGTTCACTCCTTAGTGACACAGGAGCGTGCATGCTCGTATTATGGATTTTAGTTCAGCCAACTCATACAGTTATACATGGTTTAAAATTTTTCATCTGGATTGGAATTCTTTCAGGATTGAAGTGGAAAGATATGCTTGTTTTCTTGAGCATGAGTGCTACGAGAAATATGGAAGAGCAGGGAAATCATTCTATTATTCACAAGTTGCAAGTACAGTGCGGTGGCTGTGGACAGCAAGTTCTACAGTGTTGACCAATCGGCTTAGCATCGCTGATAACCGTTGTTCAGAGAAGAATAGAGAACTTCCTGCATTGCCATCGCCATCCCCAGTGTTGGATCTCCCGAAGTTAGTAATGAGTAACGAAGAATTTTGTAGCAGCAACCTAGTTTTGGAAACTTCAGCGACTAAAGTGGCAGAGCGAAAGGCTTCCCCTGCTGTTTCTTTGCCTTCAATTCCTTCATTCTCAGAATTTGTTAATGGTATAAAGGAAAAGGCGAATCAATCAAATAAATCACATGGGCACTCCCTCAACAGAGATGAAAAGGATCCAGTGAAGAGGGGGAGGTTGCGGTAGACTTTCTTGTCTCCAAAAATTTTCTTTTGTTTTGTTATTGTTTTCTTGGGCCAACGATGAAGAACAGAACTCAAAAGATGGATGAATGATATGCTCATGACAAGGATGTCATTGTTACTTATTGTAAATTGTTAAAATTGAAGAGGTTTTGCTTGGAAACACTTTTGAATCTGTTCTATATTACTCCAAGATGGCGGAATTGGATAC

mRNA sequence

AATACCATTTTCAGATGCTGCACAAGGGAAGGGGCAGGAAAAAAAGTCGCAGTAGGTGAACATTGTTTGAACATTCAGGCAGGTAGAAATGAAGAAGTCATCGCTTCCATTGCAGAGTAATATCCGTCCAGAAAAGCACAAATATAGCAAGGAATCCTTGACGAAGCTCTTAAGGTGGCATTTTGGACATTCCGAGTTTAGGGGAAAGCAACTGGAAACTATTGAAGCTGTTTTATCAGGAAAAGATTGTTTCTGTCTCATGCCCACTGGGGGAGGGAAATCAGTGTGTTACCAGATCCCTGCTCTAGCTTCGAACGGAACGGTGCTTGTTGTTTGTCCTTTAATAGGTGAATGGAAAACCAAGTGATGGCCTTGAAGGAAAAGGGGATTTCTGCTGAATATTTATCCTCGACTCAGTCAACACAAGCCAAAAATAAAATTCATGAAGATCTCGATTCTAGTAAACCTACCTTAAGGCTTCTCTATGTTACACCTGAATTAATTGCGACATCAGGATTCATGGCAAAATTGATGAAAATTTATTCTAGAGGATTACTAAATCTGATTGCTATAGACGAGGCGCATTGTATTTCGACATGGGGCCATGACTTCAGGCCTAGCTACCGCAAGCTTTCTTCTTTGAGGAGTCGTCTTCCTAATATTCCTATACTGGCCTTGACCGCTACTGCTGTTCCTAAAGTGCAGAAAGATGTGATAATATCCTTGGCCTTGGAAAACCCTCTAGTTCTTAAGTCTTCTTTTAATCGTCCTAATATATATTATGAAGTTCGATACAAAGATCTTTTGGATGATCCATTTGCCGATTTGTGTAATCAACTGAAATCAAGTGGAGATGTTTGTGCAATCATCTATTGCCTAGAGCGTGCAATGTGCGATCAATTGTCAGTTTATCTAGCAAAACATGGCATTTCATGCGCTGCATATCATGCGGGTTTGAAGAATGAGTTAAGGAAATCTGTTTTAGAGGATTGGATAAGCTCTAAGATACAAGTTGTTGTGGCCACAGTGGCTTTTGGGTAGGGTATAGATAGGAAAGATGTCAGGGTTGTTTGCCATTTCAATATTCCAAAGTCAATGGAAGCTTTCTATCAAGAGTCAGGTAGAGCTGGCCGTGATCAATTACCCTCTAAAAGTCTGTTATACTATGGAATTGAAGACCGCAGAAGAATGGAATTTATTATAAGAAATAGGTCCAGTGCTGATAAGAAGATCCTACCATCTTCAAGCTCCCAAGAAAAGCAATCGGAGAAGTCCTTAACCGACTTTACTCAGATGGTTGAGTATTGTGAGGGCTCCAGATGTCGCAGGAAGCAAATTCTTGAGAGCTTTGGGGAACAGGTTCCTGCATCCATATGTAGTAGATCATGTGATGCCTGCAAACACCCAAATATCGTTGCTGCCTATTTGGAGGAGCTTACTACTTGTGCTGTTAGGCGAAATAATTCATCTTCCAGAATTTTTGTCAGCAGATCGAATGCAGACGATGAAGATGAGTTTTCTGAATTTTGGAATCTCAAGGATGAAGCAAGTGGATCTGGAGAAGATATATCAAATTCTGATGATGATACTGAGGTTGTCAAAAGCCTAACTAGGATGAAGTCTCTAAAGAAATCAGGACTAAATGAAAAGATGGCACTTCTAGAGCGTGCAGAAGAAAACTATTACCAGAACAAGATTTCAGTTAAACAGAATGATAAACATGACAAGAATAGTGTATCTACATCACTTAGGAAAGCTAGCAGGGAGAGATTAGAGAATTCTCTAGAGCAGGCTCAACAACGGCTTGGGAGCACCAAGATTGAAGTGGAAAGATATGCTTGTTTTCTTGAGCATGAGTGCTACGAGAAATATGGAAGAGCAGGGAAATCATTCTATTATTCACAAGTTGCAAGTACAGTGCGGTGGCTGTGGACAGCAAGTTCTACAGTGTTGACCAATCGGCTTAGCATCGCTGATAACCGTTGTTCAGAGAAGAATAGAGAACTTCCTGCATTGCCATCGCCATCCCCAGTGTTGGATCTCCCGAAGTTAGTAATGAGTAACGAAGAATTTTGTAGCAGCAACCTAGTTTTGGAAACTTCAGCGACTAAAGTGGCAGAGCGAAAGGCTTCCCCTGCTGTTTCTTTGCCTTCAATTCCTTCATTCTCAGAATTTGTTAATGGTATAAAGGAAAAGGCGAATCAATCAAATAAATCACATGGGCACTCCCTCAACAGAGATGAAAAGGATCCAGTGAAGAGGGGGAGGTTGCGGTAGACTTTCTTGTCTCCAAAAATTTTCTTTTGTTTTGTTATTGTTTTCTTGGGCCAACGATGAAGAACAGAACTCAAAAGATGGATGAATGATATGCTCATGACAAGGATGTCATTGTTACTTATTGTAAATTGTTAAAATTGAAGAGGTTTTGCTTGGAAACACTTTTGAATCTGTTCTATATTACTCCAAGATGGCGGAATTGGATAC

Coding sequence (CDS)

ATGGAAAACCAAGTGATGGCCTTGAAGGAAAAGGGGATTTCTGCTGAATATTTATCCTCGACTCAGTCAACACAAGCCAAAAATAAAATTCATGAAGATCTCGATTCTAGTAAACCTACCTTAAGGCTTCTCTATGTTACACCTGAATTAATTGCGACATCAGGATTCATGGCAAAATTGATGAAAATTTATTCTAGAGGATTACTAAATCTGATTGCTATAGACGAGGCGCATTGTATTTCGACATGGGGCCATGACTTCAGGCCTAGCTACCGCAAGCTTTCTTCTTTGAGGAGTCGTCTTCCTAATATTCCTATACTGGCCTTGACCGCTACTGCTGTTCCTAAAGTGCAGAAAGATGTGATAATATCCTTGGCCTTGGAAAACCCTCTAGTTCTTAAGTCTTCTTTTAATCGTCCTAATATATATTATGAAGTTCGATACAAAGATCTTTTGGATGATCCATTTGCCGATTTGTGTAATCAACTGAAATCAAGTGGAGATGTTTGTGCAATCATCTATTGCCTAGAGCGTGCAATGTGCGATCAATTGTCAGTTTATCTAGCAAAACATGGCATTTCATGCGCTGCATATCATGCGGGTTTGAAGAATGAGTTAAGGAAATCTGTTTTAGAGGATTGGATAAGCTCTAAGATACAAGTTGTTGTGGCCACAGTGGCTTTTGGGTAG

Protein sequence

MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKLMKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKDVIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAMCDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG
Homology
[Close]
BLAST of MELO.jh011734.1.t3 vs. NCBI nr
Match: XP_008459900.1 (PREDICTED: ATP-dependent DNA helicase Q-like 3 isoform X2 [Cucumis melo])

HSP 1 Score: 449 bits (1154), Expect = 5.11e-154
Identity = 229/229 (100.00%), Postives = 229/229 (100.00%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL
Sbjct: 89  MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 148

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
           MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD
Sbjct: 149 MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 208

Query: 121 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 180
           VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM
Sbjct: 209 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 268

Query: 181 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG
Sbjct: 269 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 317

[Close]
BLAST of MELO.jh011734.1.t3 vs. NCBI nr
Match: XP_008459885.1 (PREDICTED: ATP-dependent DNA helicase Q-like 3 isoform X1 [Cucumis melo])

HSP 1 Score: 449 bits (1154), Expect = 1.21e-151
Identity = 229/229 (100.00%), Postives = 229/229 (100.00%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL
Sbjct: 89  MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 148

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
           MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD
Sbjct: 149 MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 208

Query: 121 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 180
           VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM
Sbjct: 209 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 268

Query: 181 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG
Sbjct: 269 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 317

[Close]
BLAST of MELO.jh011734.1.t3 vs. NCBI nr
Match: KAA0061460.1 (ATP-dependent DNA helicase Q-like 3 isoform X1 [Cucumis melo var. makuwa])

HSP 1 Score: 447 bits (1149), Expect = 6.84e-151
Identity = 228/228 (100.00%), Postives = 228/228 (100.00%), Query Frame = 0 

Query: 2   ENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKLM 61
           ENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKLM
Sbjct: 92  ENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKLM 151

Query: 62  KIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKDV 121
           KIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKDV
Sbjct: 152 KIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKDV 211

Query: 122 IISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAMC 181
           IISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAMC
Sbjct: 212 IISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAMC 271

Query: 182 DQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           DQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG
Sbjct: 272 DQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 319

[Close]
BLAST of MELO.jh011734.1.t3 vs. NCBI nr
Match: KGN60530.2 (hypothetical protein Csa_019207 [Cucumis sativus])

HSP 1 Score: 438 bits (1126), Expect = 2.27e-148
Identity = 223/229 (97.38%), Postives = 227/229 (99.13%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDL+SSKPTLRLLYVTPELIATSGFMAKL
Sbjct: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLNSSKPTLRLLYVTPELIATSGFMAKL 60

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
           MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRS+LPNIPILALTATAVPKVQKD
Sbjct: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSQLPNIPILALTATAVPKVQKD 120

Query: 121 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 180
           VIISL LENPLVLKSSFNRPNIYYEVRYKDLLDDP ADLCNQLKSSGDVCAIIYCLERAM
Sbjct: 121 VIISLGLENPLVLKSSFNRPNIYYEVRYKDLLDDPLADLCNQLKSSGDVCAIIYCLERAM 180

Query: 181 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           CDQLSVYLAK+GISCAAYHAGLKNELRKSVLEDWISS+IQVVVATVAFG
Sbjct: 181 CDQLSVYLAKYGISCAAYHAGLKNELRKSVLEDWISSRIQVVVATVAFG 229

[Close]
BLAST of MELO.jh011734.1.t3 vs. NCBI nr
Match: XP_004141074.1 (ATP-dependent DNA helicase Q-like 3 [Cucumis sativus])

HSP 1 Score: 438 bits (1126), Expect = 2.00e-147
Identity = 223/229 (97.38%), Postives = 227/229 (99.13%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDL+SSKPTLRLLYVTPELIATSGFMAKL
Sbjct: 89  MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLNSSKPTLRLLYVTPELIATSGFMAKL 148

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
           MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRS+LPNIPILALTATAVPKVQKD
Sbjct: 149 MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSQLPNIPILALTATAVPKVQKD 208

Query: 121 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 180
           VIISL LENPLVLKSSFNRPNIYYEVRYKDLLDDP ADLCNQLKSSGDVCAIIYCLERAM
Sbjct: 209 VIISLGLENPLVLKSSFNRPNIYYEVRYKDLLDDPLADLCNQLKSSGDVCAIIYCLERAM 268

Query: 181 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           CDQLSVYLAK+GISCAAYHAGLKNELRKSVLEDWISS+IQVVVATVAFG
Sbjct: 269 CDQLSVYLAKYGISCAAYHAGLKNELRKSVLEDWISSRIQVVVATVAFG 317

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy Swiss-Prot
Match: Q9FT72 (ATP-dependent DNA helicase Q-like 3 OS=Arabidopsis thaliana OX=3702 GN=RECQL3 PE=1 SV=1)

HSP 1 Score: 356.3 bits (913), Expect = 2.6e-97
Identity = 175/229 (76.42%), Postives = 202/229 (88.21%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           MENQVMALKEKGI+AEYLSSTQ+T  KNKIHEDLDS KP++RLLYVTPELIAT GFM KL
Sbjct: 89  MENQVMALKEKGIAAEYLSSTQATHVKNKIHEDLDSGKPSVRLLYVTPELIATKGFMLKL 148

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
            K++SRGLLNLIAIDEAHCIS+WGHDFRPSYR+LS+LR  L ++P+LALTATA PKVQKD
Sbjct: 149 RKLHSRGLLNLIAIDEAHCISSWGHDFRPSYRQLSTLRDSLADVPVLALTATAAPKVQKD 208

Query: 121 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 180
           VI SL L NPLVLKSSFNRPNI+YEVRYKDLLD+ + DL N LKS G++CAIIYCLER  
Sbjct: 209 VIDSLNLRNPLVLKSSFNRPNIFYEVRYKDLLDNAYTDLGNLLKSCGNICAIIYCLERTT 268

Query: 181 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
           CD LSV+L+  GIS AAYHAGL +++R +VL+DW+SSK Q++VATVAFG
Sbjct: 269 CDDLSVHLSSIGISSAAYHAGLNSKMRSTVLDDWLSSKKQIIVATVAFG 317

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy Swiss-Prot
Match: O94762 (ATP-dependent DNA helicase Q5 OS=Homo sapiens OX=9606 GN=RECQL5 PE=1 SV=2)

HSP 1 Score: 197.6 bits (501), Expect = 1.5e-49
Identity = 100/238 (42.02%), Postives = 153/238 (64.29%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           +++QV  L    +    L+S  S Q + ++  DL+  KP  ++LY+TPE+ A+S F   L
Sbjct: 83  IQDQVDHLLTLKVRVSSLNSKLSAQERKELLADLEREKPQTKILYITPEMAASSSFQPTL 142

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
             + SR LL+ + +DEAHC+S WGHDFRP Y +L +LRSRL + P +ALTATA P+VQ+D
Sbjct: 143 NSLVSRHLLSYLVVDEAHCVSQWGHDFRPDYLRLGALRSRLGHAPCVALTATATPQVQED 202

Query: 121 VIISLALENPL-VLKSSFNRPNIYYEVRYKDLLDDPFADLCN-QLKSSGDV-------CA 180
           V  +L L+ P+ + K+   R N++Y+V++K+L+ DP+ +L +  LK+ G         C 
Sbjct: 203 VFAALHLKKPVAIFKTPCFRANLFYDVQFKELISDPYGNLKDFCLKALGQEADKGLSGCG 262

Query: 181 IIYCLERAMCDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
           I+YC  R  C+QL++ L+  G++  AYHAGLK   R  V  DW+  K+ V+VAT++FG
Sbjct: 263 IVYCRTREACEQLAIELSCRGVNAKAYHAGLKASERTLVQNDWMEEKVPVIVATISFG 320

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy Swiss-Prot
Match: D4ACP5 (ATP-dependent DNA helicase Q5 OS=Rattus norvegicus OX=10116 GN=Recql5 PE=1 SV=1)

HSP 1 Score: 194.5 bits (493), Expect = 1.3e-48
Identity = 97/239 (40.59%), Postives = 148/239 (61.92%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           +++QV  L    +    L+S  S Q + ++  DL+  KP  +LLY+TPE+ A++ F   L
Sbjct: 83  IQDQVDHLLALKVQVSSLNSKLSVQERKELLSDLERDKPRTKLLYITPEMAASASFQPTL 142

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
             + SR LL+ + +DEAHC+S WGHDFRP Y +L +LRSRL + P +ALTATA P+VQ+D
Sbjct: 143 NSLLSRNLLSYLVVDEAHCVSQWGHDFRPDYLRLGALRSRLAHAPCVALTATATPQVQED 202

Query: 121 VIISLALENPLV-LKSSFNRPNIYYEVRYKDLLDDPFA---DLCNQL------KSSGDVC 180
           V  +L L+ P+   K+   R N++Y+V++K+L+ D +    D C +         S   C
Sbjct: 203 VFAALHLKQPVASFKTPCFRANLFYDVQFKELIPDVYGNLRDFCLKALGQKADNGSSSGC 262

Query: 181 AIIYCLERAMCDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
            I+YC  R  C+QL++ L+  G++  AYHAGLK   R  V  +W+  K+ V+VAT++FG
Sbjct: 263 GIVYCRTREACEQLAIELSSRGVNAKAYHAGLKASERTQVQNEWMEEKVPVIVATISFG 321

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy Swiss-Prot
Match: Q8VID5 (ATP-dependent DNA helicase Q5 OS=Mus musculus OX=10090 GN=Recql5 PE=1 SV=1)

HSP 1 Score: 194.1 bits (492), Expect = 1.7e-48
Identity = 97/239 (40.59%), Postives = 148/239 (61.92%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           +++QV  L    +    L+S  S Q + ++  DL+  KP  +LLY+TPE+ A++ F   L
Sbjct: 83  IQDQVDHLLALKVQVSSLNSKLSVQERKELLSDLERDKPRTKLLYITPEMAASASFQPTL 142

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
             + SR LL+ + +DEAHC+S WGHDFRP Y +L +LRSRL + P +ALTATA P+VQ+D
Sbjct: 143 NSLVSRNLLSYLVVDEAHCVSQWGHDFRPDYLRLGALRSRLAHAPCVALTATATPQVQED 202

Query: 121 VIISLALENPLV-LKSSFNRPNIYYEVRYKDLLDDPFA---DLCNQL------KSSGDVC 180
           V  +L L+ P+   K+   R N++Y+V++K+L+ D +    D C +         S   C
Sbjct: 203 VFAALHLKQPVASFKTPCFRANLFYDVQFKELIPDVYGNLRDFCLKALGQKAENGSSSGC 262

Query: 181 AIIYCLERAMCDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
            I+YC  R  C+QL++ L+  G++  AYHAGLK   R  V  +W+  K+ V+VAT++FG
Sbjct: 263 GIVYCRTREACEQLAIELSSRGVNAKAYHAGLKASDRTQVQNEWMEEKVPVIVATISFG 321

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy Swiss-Prot
Match: Q9FT73 (ATP-dependent DNA helicase Q-like 2 OS=Arabidopsis thaliana OX=3702 GN=RECQL2 PE=1 SV=1)

HSP 1 Score: 186.0 bits (471), Expect = 4.6e-46
Identity = 100/234 (42.74%), Postives = 148/234 (63.25%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATS-GFMAK 60
           +++QVM L   GISA  L+ST   + +  +++ L+  +  L++LYVTPE ++ S  FM+K
Sbjct: 142 IQDQVMGLAALGISAYMLTSTSGKENEKFVYKALEKGEDDLKILYVTPEKVSKSKRFMSK 201

Query: 61  LMKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQK 120
           L K ++ G L+LI+IDEAHC S WGHDFRP Y+ LS L+++ P +P++ALTATA  KVQ 
Sbjct: 202 LEKCHNAGRLSLISIDEAHCCSQWGHDFRPDYKNLSILKTQFPKVPMVALTATATQKVQN 261

Query: 121 DVIISLALENPLVLKSSFNRPNIYYEVRYKD----LLDDPFADLCNQLKSSGDVCAIIYC 180
           D+I  L +   +   SS NRPN++Y VR K     L+ D  A+   +  S+ +   I+YC
Sbjct: 262 DLIEMLHIPKCVKFVSSVNRPNLFYSVREKSAVGKLVVDEIAEFIRESYSNNE-SGIVYC 321

Query: 181 LERAMCDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
             R  C+Q++  L + GIS   YHA +   +R+ V   W  +K+QV+V TVAFG
Sbjct: 322 FSRKECEQIAGDLRERGISADYYHADMDANMREKVHMRWSKNKLQVIVGTVAFG 374

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy TrEMBL
Match: A0A1S3CBQ2 (ATP-dependent DNA helicase OS=Cucumis melo OX=3656 GN=LOC103498866 PE=3 SV=1)

HSP 1 Score: 449 bits (1154), Expect = 2.48e-154
Identity = 229/229 (100.00%), Postives = 229/229 (100.00%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL
Sbjct: 89  MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 148

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
           MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD
Sbjct: 149 MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 208

Query: 121 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 180
           VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM
Sbjct: 209 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 268

Query: 181 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG
Sbjct: 269 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 317

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy TrEMBL
Match: A0A1S3CBB1 (ATP-dependent DNA helicase OS=Cucumis melo OX=3656 GN=LOC103498866 PE=3 SV=1)

HSP 1 Score: 449 bits (1154), Expect = 5.84e-152
Identity = 229/229 (100.00%), Postives = 229/229 (100.00%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL
Sbjct: 89  MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 148

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
           MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD
Sbjct: 149 MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 208

Query: 121 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 180
           VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM
Sbjct: 209 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 268

Query: 181 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG
Sbjct: 269 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 317

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy TrEMBL
Match: A0A5A7V2G7 (ATP-dependent DNA helicase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold41G00190 PE=3 SV=1)

HSP 1 Score: 447 bits (1149), Expect = 3.31e-151
Identity = 228/228 (100.00%), Postives = 228/228 (100.00%), Query Frame = 0 

Query: 2   ENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKLM 61
           ENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKLM
Sbjct: 92  ENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKLM 151

Query: 62  KIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKDV 121
           KIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKDV
Sbjct: 152 KIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKDV 211

Query: 122 IISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAMC 181
           IISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAMC
Sbjct: 212 IISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAMC 271

Query: 182 DQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           DQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG
Sbjct: 272 DQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 319

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy TrEMBL
Match: A0A0A0LES3 (ATP-dependent DNA helicase OS=Cucumis sativus OX=3659 GN=Csa_2G00090 PE=3 SV=1)

HSP 1 Score: 428 bits (1101), Expect = 3.70e-145
Identity = 218/224 (97.32%), Postives = 222/224 (99.11%), Query Frame = 0 

Query: 6   MALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKLMKIYS 65
           MALKEKGISAEYLSSTQSTQAKNKIHEDL+SSKPTLRLLYVTPELIATSGFMAKLMKIYS
Sbjct: 1   MALKEKGISAEYLSSTQSTQAKNKIHEDLNSSKPTLRLLYVTPELIATSGFMAKLMKIYS 60

Query: 66  RGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKDVIISL 125
           RGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRS+LPNIPILALTATAVPKVQKDVIISL
Sbjct: 61  RGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSQLPNIPILALTATAVPKVQKDVIISL 120

Query: 126 ALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAMCDQLS 185
            LENPLVLKSSFNRPNIYYEVRYKDLLDDP ADLCNQLKSSGDVCAIIYCLERAMCDQLS
Sbjct: 121 GLENPLVLKSSFNRPNIYYEVRYKDLLDDPLADLCNQLKSSGDVCAIIYCLERAMCDQLS 180

Query: 186 VYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           VYLAK+GISCAAYHAGLKNELRKSVLEDWISS+IQVVVATVAFG
Sbjct: 181 VYLAKYGISCAAYHAGLKNELRKSVLEDWISSRIQVVVATVAFG 224

[Close]
BLAST of MELO.jh011734.1.t3 vs. ExPASy TrEMBL
Match: A0A6J1HQJ2 (ATP-dependent DNA helicase OS=Cucurbita maxima OX=3661 GN=LOC111465781 PE=3 SV=1)

HSP 1 Score: 411 bits (1056), Expect = 2.52e-138
Identity = 208/229 (90.83%), Postives = 215/229 (93.89%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           MENQVMALKEKGISAEYLSSTQS Q K KIHEDLDS KPTLRLLYVTPELIAT GFMAKL
Sbjct: 1   MENQVMALKEKGISAEYLSSTQSIQDKKKIHEDLDSGKPTLRLLYVTPELIATPGFMAKL 60

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
           MKIYSRGLL+LIAIDEAHCISTWGHDFRP YRKLSSLRSRLPN+PILALTATA PKVQKD
Sbjct: 61  MKIYSRGLLSLIAIDEAHCISTWGHDFRPGYRKLSSLRSRLPNVPILALTATAAPKVQKD 120

Query: 121 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 180
           VI SL L+NPLVL SSFNRPNIYYEVRYKDLLDDP ADL  QLK+SGDVC IIYCLERA+
Sbjct: 121 VIASLGLQNPLVLMSSFNRPNIYYEVRYKDLLDDPLADLAKQLKASGDVCGIIYCLERAL 180

Query: 181 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 229
           CDQLSVYLAK+GISCAAYHAGLKNELRKSVLEDW+SSKIQVVVATVAFG
Sbjct: 181 CDQLSVYLAKYGISCAAYHAGLKNELRKSVLEDWLSSKIQVVVATVAFG 229

[Close]
BLAST of MELO.jh011734.1.t3 vs. TAIR 10
Match: AT4G35740.1 (DEAD/DEAH box RNA helicase family protein )

HSP 1 Score: 356.3 bits (913), Expect = 1.8e-98
Identity = 175/229 (76.42%), Postives = 202/229 (88.21%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKL 60
           MENQVMALKEKGI+AEYLSSTQ+T  KNKIHEDLDS KP++RLLYVTPELIAT GFM KL
Sbjct: 89  MENQVMALKEKGIAAEYLSSTQATHVKNKIHEDLDSGKPSVRLLYVTPELIATKGFMLKL 148

Query: 61  MKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKD 120
            K++SRGLLNLIAIDEAHCIS+WGHDFRPSYR+LS+LR  L ++P+LALTATA PKVQKD
Sbjct: 149 RKLHSRGLLNLIAIDEAHCISSWGHDFRPSYRQLSTLRDSLADVPVLALTATAAPKVQKD 208

Query: 121 VIISLALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAM 180
           VI SL L NPLVLKSSFNRPNI+YEVRYKDLLD+ + DL N LKS G++CAIIYCLER  
Sbjct: 209 VIDSLNLRNPLVLKSSFNRPNIFYEVRYKDLLDNAYTDLGNLLKSCGNICAIIYCLERTT 268

Query: 181 CDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
           CD LSV+L+  GIS AAYHAGL +++R +VL+DW+SSK Q++VATVAFG
Sbjct: 269 CDDLSVHLSSIGISSAAYHAGLNSKMRSTVLDDWLSSKKQIIVATVAFG 317

[Close]
BLAST of MELO.jh011734.1.t3 vs. TAIR 10
Match: AT4G35740.2 (DEAD/DEAH box RNA helicase family protein )

HSP 1 Score: 347.1 bits (889), Expect = 1.1e-95
Identity = 170/224 (75.89%), Postives = 197/224 (87.95%), Query Frame = 0 

Query: 6   MALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATSGFMAKLMKIYS 65
           MALKEKGI+AEYLSSTQ+T  KNKIHEDLDS KP++RLLYVTPELIAT GFM KL K++S
Sbjct: 1   MALKEKGIAAEYLSSTQATHVKNKIHEDLDSGKPSVRLLYVTPELIATKGFMLKLRKLHS 60

Query: 66  RGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQKDVIISL 125
           RGLLNLIAIDEAHCIS+WGHDFRPSYR+LS+LR  L ++P+LALTATA PKVQKDVI SL
Sbjct: 61  RGLLNLIAIDEAHCISSWGHDFRPSYRQLSTLRDSLADVPVLALTATAAPKVQKDVIDSL 120

Query: 126 ALENPLVLKSSFNRPNIYYEVRYKDLLDDPFADLCNQLKSSGDVCAIIYCLERAMCDQLS 185
            L NPLVLKSSFNRPNI+YEVRYKDLLD+ + DL N LKS G++CAIIYCLER  CD LS
Sbjct: 121 NLRNPLVLKSSFNRPNIFYEVRYKDLLDNAYTDLGNLLKSCGNICAIIYCLERTTCDDLS 180

Query: 186 VYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
           V+L+  GIS AAYHAGL +++R +VL+DW+SSK Q++VATVAFG
Sbjct: 181 VHLSSIGISSAAYHAGLNSKMRSTVLDDWLSSKKQIIVATVAFG 224

[Close]
BLAST of MELO.jh011734.1.t3 vs. TAIR 10
Match: AT1G31360.1 (RECQ helicase L2 )

HSP 1 Score: 186.0 bits (471), Expect = 3.3e-47
Identity = 100/234 (42.74%), Postives = 148/234 (63.25%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATS-GFMAK 60
           +++QVM L   GISA  L+ST   + +  +++ L+  +  L++LYVTPE ++ S  FM+K
Sbjct: 142 IQDQVMGLAALGISAYMLTSTSGKENEKFVYKALEKGEDDLKILYVTPEKVSKSKRFMSK 201

Query: 61  LMKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQK 120
           L K ++ G L+LI+IDEAHC S WGHDFRP Y+ LS L+++ P +P++ALTATA  KVQ 
Sbjct: 202 LEKCHNAGRLSLISIDEAHCCSQWGHDFRPDYKNLSILKTQFPKVPMVALTATATQKVQN 261

Query: 121 DVIISLALENPLVLKSSFNRPNIYYEVRYKD----LLDDPFADLCNQLKSSGDVCAIIYC 180
           D+I  L +   +   SS NRPN++Y VR K     L+ D  A+   +  S+ +   I+YC
Sbjct: 262 DLIEMLHIPKCVKFVSSVNRPNLFYSVREKSAVGKLVVDEIAEFIRESYSNNE-SGIVYC 321

Query: 181 LERAMCDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
             R  C+Q++  L + GIS   YHA +   +R+ V   W  +K+QV+V TVAFG
Sbjct: 322 FSRKECEQIAGDLRERGISADYYHADMDANMREKVHMRWSKNKLQVIVGTVAFG 374

[Close]
BLAST of MELO.jh011734.1.t3 vs. TAIR 10
Match: AT1G31360.2 (RECQ helicase L2 )

HSP 1 Score: 186.0 bits (471), Expect = 3.3e-47
Identity = 100/234 (42.74%), Postives = 148/234 (63.25%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATS-GFMAK 60
           +++QVM L   GISA  L+ST   + +  +++ L+  +  L++LYVTPE ++ S  FM+K
Sbjct: 17  IQDQVMGLAALGISAYMLTSTSGKENEKFVYKALEKGEDDLKILYVTPEKVSKSKRFMSK 76

Query: 61  LMKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQK 120
           L K ++ G L+LI+IDEAHC S WGHDFRP Y+ LS L+++ P +P++ALTATA  KVQ 
Sbjct: 77  LEKCHNAGRLSLISIDEAHCCSQWGHDFRPDYKNLSILKTQFPKVPMVALTATATQKVQN 136

Query: 121 DVIISLALENPLVLKSSFNRPNIYYEVRYKD----LLDDPFADLCNQLKSSGDVCAIIYC 180
           D+I  L +   +   SS NRPN++Y VR K     L+ D  A+   +  S+ +   I+YC
Sbjct: 137 DLIEMLHIPKCVKFVSSVNRPNLFYSVREKSAVGKLVVDEIAEFIRESYSNNE-SGIVYC 196

Query: 181 LERAMCDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
             R  C+Q++  L + GIS   YHA +   +R+ V   W  +K+QV+V TVAFG
Sbjct: 197 FSRKECEQIAGDLRERGISADYYHADMDANMREKVHMRWSKNKLQVIVGTVAFG 249

[Close]
BLAST of MELO.jh011734.1.t3 vs. TAIR 10
Match: AT1G10930.1 (DNA helicase (RECQl4A) )

HSP 1 Score: 176.4 bits (446), Expect = 2.6e-44
Identity = 98/233 (42.06%), Postives = 140/233 (60.09%), Query Frame = 0 

Query: 1   MENQVMALKEKGISAEYLSSTQSTQAKNKIHEDLDSSKPTLRLLYVTPELIATS-GFMAK 60
           +++Q+M L +  I A  LS+      + KI ++L+S     +LLYVTPE +A S   +  
Sbjct: 506 IQDQIMNLLQANIPAASLSAGMEWAEQLKIFQELNSEHSKYKLLYVTPEKVAKSDSLLRH 565

Query: 61  LMKIYSRGLLNLIAIDEAHCISTWGHDFRPSYRKLSSLRSRLPNIPILALTATAVPKVQK 120
           L  + SRGLL    IDEAHC+S WGHDFRP Y+ L  L+ + PNIP+LALTATA   V++
Sbjct: 566 LENLNSRGLLARFVIDEAHCVSQWGHDFRPDYQSLGILKQKFPNIPVLALTATATASVKE 625

Query: 121 DVIISLALENPLVLKSSFNRPNIYYEV--RYKDLLDDPFADLCNQLKSSG-DVCAIIYCL 180
           DV+ +L L N +V + SFNRPN++Y V  + K  L+    D+   +K +  D C IIYCL
Sbjct: 626 DVVQALGLVNCVVFRQSFNRPNLWYSVVPKTKKCLE----DIDKFIKENHFDECGIIYCL 685

Query: 181 ERAMCDQLSVYLAKHGISCAAYHAGLKNELRKSVLEDWISSKIQVVVATVAFG 230
            R  C+++S  L + G   A YH  ++ E R  +   W   +I ++ ATVAFG
Sbjct: 686 SRMDCEKVSERLQEFGHKAAFYHGSMEPEQRAFIQTQWSKDEINIICATVAFG 734

The following BLAST results are available for this feature:
BLAST of MELO.jh011734.1.t3 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008459900.15.11e-154100.00PREDICTED: ATP-dependent DNA helicase Q-like 3 isoform X2 [Cucumis melo][more]
XP_008459885.11.21e-151100.00PREDICTED: ATP-dependent DNA helicase Q-like 3 isoform X1 [Cucumis melo][more]
KAA0061460.16.84e-151100.00ATP-dependent DNA helicase Q-like 3 isoform X1 [Cucumis melo var. makuwa][more]
KGN60530.22.27e-14897.38hypothetical protein Csa_019207 [Cucumis sativus][more]
XP_004141074.12.00e-14797.38ATP-dependent DNA helicase Q-like 3 [Cucumis sativus][more]
BLAST of MELO.jh011734.1.t3 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9FT722.6e-9776.42ATP-dependent DNA helicase Q-like 3 OS=Arabidopsis thaliana OX=3702 GN=RECQL3 PE... [more]
O947621.5e-4942.02ATP-dependent DNA helicase Q5 OS=Homo sapiens OX=9606 GN=RECQL5 PE=1 SV=2[more]
D4ACP51.3e-4840.59ATP-dependent DNA helicase Q5 OS=Rattus norvegicus OX=10116 GN=Recql5 PE=1 SV=1[more]
Q8VID51.7e-4840.59ATP-dependent DNA helicase Q5 OS=Mus musculus OX=10090 GN=Recql5 PE=1 SV=1[more]
Q9FT734.6e-4642.74ATP-dependent DNA helicase Q-like 2 OS=Arabidopsis thaliana OX=3702 GN=RECQL2 PE... [more]
BLAST of MELO.jh011734.1.t3 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3CBQ22.48e-154100.00ATP-dependent DNA helicase OS=Cucumis melo OX=3656 GN=LOC103498866 PE=3 SV=1[more]
A0A1S3CBB15.84e-152100.00ATP-dependent DNA helicase OS=Cucumis melo OX=3656 GN=LOC103498866 PE=3 SV=1[more]
A0A5A7V2G73.31e-151100.00ATP-dependent DNA helicase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaff... [more]
A0A0A0LES33.70e-14597.32ATP-dependent DNA helicase OS=Cucumis sativus OX=3659 GN=Csa_2G00090 PE=3 SV=1[more]
A0A6J1HQJ22.52e-13890.83ATP-dependent DNA helicase OS=Cucurbita maxima OX=3661 GN=LOC111465781 PE=3 SV=1[more]
BLAST of MELO.jh011734.1.t3 vs. TAIR 10
Match NameE-valueIdentityDescription
AT4G35740.11.8e-9876.42DEAD/DEAH box RNA helicase family protein [more]
AT4G35740.21.1e-9575.89DEAD/DEAH box RNA helicase family protein [more]
AT1G31360.13.3e-4742.74RECQ helicase L2 [more]
AT1G31360.23.3e-4742.74RECQ helicase L2 [more]
AT1G10930.12.6e-4442.06DNA helicase (RECQl4A) [more]
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR027417P-loop containing nucleoside triphosphate hydrolaseGENE3D3.40.50.300coord: 139..229
e-value: 2.1E-22
score: 81.6
IPR027417P-loop containing nucleoside triphosphate hydrolaseGENE3D3.40.50.300coord: 1..138
e-value: 2.0E-51
score: 176.3
IPR027417P-loop containing nucleoside triphosphate hydrolaseSUPERFAMILY52540P-loop containing nucleoside triphosphate hydrolasescoord: 3..229
IPR001650Helicase, C-terminalPFAMPF00271Helicase_Ccoord: 158..226
e-value: 2.2E-5
score: 24.8
IPR001650Helicase, C-terminalPROSITEPS51194HELICASE_CTERcoord: 162..229
score: 10.100618
IPR004589DNA helicase, ATP-dependent, RecQ typeTIGRFAMTIGR00614TIGR00614coord: 1..229
e-value: 1.3E-78
score: 262.8
NoneNo IPR availablePANTHERPTHR13710DNA HELICASE RECQ FAMILY MEMBERcoord: 1..229
NoneNo IPR availablePANTHERPTHR13710:SF134ATP-DEPENDENT DNA HELICASE Q-LIKE 3coord: 1..229
NoneNo IPR availableCDDcd17920DEXHc_RecQcoord: 1..138
e-value: 6.86299E-63
score: 192.749
IPR014001Helicase superfamily 1/2, ATP-binding domainPROSITEPS51192HELICASE_ATP_BIND_1coord: 1..131
score: 15.004574

Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameType
MELO.jh011734.1MELO.jh011734.1gene


The following exon feature(s) are a part of this mRNA:

Feature NameUnique NameType
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exonexon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_2exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_3exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_4exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_5exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_6exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_7exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_8exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_9exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_10exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_11exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_12exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_13exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_14exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_15exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_16exon
MELO.jh011734.1.t3.exonMELO.jh011734.1.t3.exon_17exon


The following stop_codon feature(s) are a part of this mRNA:

Feature NameUnique NameType
MELO.jh011734.1.t3.stop_codonMELO.jh011734.1.t3.stop_codonstop_codon


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameType
MELO.jh011734.1.t3.cdsMELO.jh011734.1.t3.cdsCDS
MELO.jh011734.1.t3.cdsMELO.jh011734.1.t3.cds_2CDS
MELO.jh011734.1.t3.cdsMELO.jh011734.1.t3.cds_3CDS
MELO.jh011734.1.t3.cdsMELO.jh011734.1.t3.cds_4CDS
MELO.jh011734.1.t3.cdsMELO.jh011734.1.t3.cds_5CDS
MELO.jh011734.1.t3.cdsMELO.jh011734.1.t3.cds_6CDS
MELO.jh011734.1.t3.cdsMELO.jh011734.1.t3.cds_7CDS
MELO.jh011734.1.t3.cdsMELO.jh011734.1.t3.cds_8CDS
MELO.jh011734.1.t3.cdsMELO.jh011734.1.t3.cds_9CDS


The following start_codon feature(s) are a part of this mRNA:

Feature NameUnique NameType
MELO.jh011734.1.t3.start_codonMELO.jh011734.1.t3.start_codonstart_codon


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameType
MELO.jh011734.1.t3MELO.jh011734.1.t3-proteinpolypeptide


GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006310 DNA recombination
molecular_function GO:0004386 helicase activity