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MELO3C013197 (gene) Melon (DHL92) v4
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAACCCACGTTGCCTGAGAAAAATAAAAATAAAACAAAAACTTTTTTTTTTTTCACAATTTTTCTAATTTAGCCCTTACGATATATATGTATACTTTTTTAAGTTTAAACTAAATTCAGACATCTTCCAACTTCCAGTGTGCTCAAATTTGAGCTGATTTCACCCATTGAAGGGCGCTGGCAGTCTGCTGAAGAATTTTCATGTTCAATAGAACACTGCATTTCTTGGGTTTACATCTCCGGTGATGTTTTTTGGCTAATTTCGTCGACGAATGACAGCCATGGCGGGATTCAGCATCCATGCCTCAATTCAGCTTCAACCTAGGGTTCTTTCAACATCCTGGTGATTAATCTTTCCTAACTTTACTTCATTATTTACCCCCTTTAATTTAGTTTCCAAGAATTTAACGAATATAGCGAGCTAGACTTAAAAGGATTCGAAAGAATTCTTCTTTTGTAATTATGGTTTGAATGCGTTTTAATTGACCATAGATGGATTCTCGTTTTCGCATTCCATATGATGTCCTTGCGTTCATTTTTATGGTGGAGCTAATTGTCTCCAGGGTGAAGAAAAGCGGAGTTTTTGCTTGCTTGAAAGGCAGAGTGTATAGCTCGTCGGGTCCTGTTAGGTACATTCCAAAAGGGTCTTCAAATGATGAGAAATCGAGAACACATTTGACACCGGAAATTGTGAATGGAAACGATTTCAGTAGTGGGCTGGATGTTAATGCTCGGAGGATTGAGGTTAAACATAGGAGTGAAGTACCGAGAAGTAATTTTAATGATACATTGCGTGATCAAAATCAGTATGAGAAGAACTACTCAGCTGGTGGAAGTATGCTAGGTATCTATATGGAGCTTTTTAATTCGTTGAAACCGTTGTGTGCGTTTACCAAGTTGAATTGATCAAAATCTGTAATTTTTGTACTTCTGCACACCATGTAGTTTTAAAGTCAATGCTTTGCTGTCGTATTTTGTTCTGAGCTTGAAATATGGGTTGGCTTGTGCTTAATTCCCATCAGTTATCAAAGTTCTATAGATTGGAGATCCAGACAGGGCCGGGATGGTTATGAGTTTCATGAAAAAACTTGTGTGTAGGGTGTGGAATGAGGAAGTTTTTTAGGGGATAGTAAAGAGGGTAAGCATGAAACATTAGAGTTTTGCATTCAAGAGAGAGTTTGGAAGGCCACATTGAAGCTTCGAAGAAGGAGAAAGGTAGGTTTAATAGTGCCCTGGAACTCAGGAAATTGTACCTTCAGGTCTGCACAATCTTCCCATGTTGCTTCATGAGGGGGTAGCCCCTTCCAACTCACCAATACTTCCCATTCTTTAGTGGCTTGATTCTTGCGATACGCATAGACTTCCTCCGGCTGCGTAATCCACTCATGACATTCATTTACATATGGATCAAGGGGCTGGATTTCTTTGAAGTTCCCTACTGCCTATTTGAGCTGAGATACATGGAACACCGGGTAAATGGCCGCGGTACTGGGTAGTTCCAGTTTGTATGCTACTGCCCCAATTCTTTTTATGATTCTGTAGGGTCCAAAGTACTTTGGTGATAGTTTTTCATTACGTTTCTTCCGTAGGGATGTCTGTTTGTAGGGCCTTAATTTAAGGAATACATGGTCCCCTGTTTGAAACTCCACATCTCTTCTTTTCATATATGCAAATTTGTTCATTCTTTCTTGAGCCACCTTCAATGCTCCCAACACTATGTCTCTGTCCTTTAGCTGCTGATCTAGCGTGGAGTTGGGTGTCTCCATGTCCCCGTATTGGATCAAGGGAGGGGGAAGTCATCCATATACCGCTTGAAATGGGGTGATCTCAATTGACCCATGGTATGTGGTGTTGTACCAATATTCGGCCCAGTGTAGCCATTGACTCCATTCCCTCGGTTTCTCCCTGCAAAAACACCTCAAATAAGCTTCCACACTTTTGTTAACCACCTCGGTCTGCCCATCCGTTTGAGGATGATAGGAGGAACTCCTGTTCAACTTAGTTCCAGCTAATCTAAACATTTCAGTCCAGAAATGACTGAGAAATATTTTGTCCCTGTCTGAAACTATCGATTTAGGGTAACCGTGCAGCTTCACTACTTCCTTGACAAACACTTCGGGCACTGTCTTGGCAGTATATGGGTGTTTCAGTGTGAGAAAATGAGCGTACTTGCTCAGCCGGTCCACTACCACCAGTATCACCTCCCACCCGTGTGATTTGGGCAGCCCTTCAATGAAATCCATGGAGATATCACTCCAAATGGCATCTGGAATTTCTAACGGCAGCAGTAGACCCGTCGGGGATAGGGCAGAAGTTTTATTCCTTTGGCATATCGTGCATTCTTCATAGTATTTCTTAATGTCACTCTTCATTCCCTTCCAATACAATTCGCCGGCGATCCTCTTATAAGTTCTAAGGAAACCTGAGTGCCCTCCAAAAATTGAGTCATGATATGTATGCATAATGGTGGGAATCAGTGTGGATGTTTTTGACAGAACTAACCTCCCGTTAAACTTCAATACACCCTGATGGATAGTATAGTGTGGAACCTCCATGCCTTGTTCCTCTATTAACCGGATAATTTCATACAAAGCTAGGTCTTTTCTTACTTCCTCCCGAATAACCTCTACGTCCAGTAACGTTAGGGCTGTCAATTGGTTCAAGTGTGCCGTTGGACCCATTCTGGATAGCGCATCCGCGGCCTTGTTCTCCAAGCCCGACTTATATATCACTTCAAACGAATAGCCTAGCAGCTTAGCTATCCATTTTTGGTATTGCGGCTGTATCACCCTCTGTTCTAACAGGAATTTCAAGGATCTTTGGTCTGTTTTCACTGTGAATTTCCTTCCCAGCAAATATGGTCGCCACCGCTGCACTGCCAACACTACTGCAATCAGTTCCCGCTCATACATTGGTCGTGCCCTGTCTCGCATACTCAAAGTTTTGCTGAAATAGGCAATCGGTCTCTTGGCTTGAATCAATACTGCTCCCACTCCAAAACCCGAAGCATCTGATTCAATCTCGAATGGCAGATTAAAGTCTGACAATGCTAACACGGGAAGAGTCATCATGGCCGTTTTGAGTTTCTCAAAGGCTGTCTCTGCTTCTTCCGTCCATTTGTATGCCCCTGTTTTCAGTAGCTGCGTGAGGGGGCTGCTATTCTCCCATAATTCTGTACAAAGCGACGGTAATAGCCCGTGAGCCCCAAAAATCCCCTCATCTCCCTCACATTCGAAGGGATTGGCCATTCCTTCACTGCCCTTATTTTTTTAGGATCCACCTCAATGCCTTTCACGGATATAAAATGACCTAAGTAGCTAATTCTTGGTTTAGCAAAACTGCACTTGTCGAGGTTGACGTCCAACTCACTTTCCCTCAAAAGTTCCAACACCGCTTCAAGGTGTTGCACATGCTCCTCCACTTCCTTACTATAGGCTAAAACATCATCAAAGAAAACAAGTACAAATCTTCTCAAATAGGGCTTAAATACCTGGTTCATCAGGGCTTGAAAGGTCGAAGGGGCATTTGTCAGTCCGAACGACATCACTAGGAACTCATAGTGTCCTTTGTGTGTTCGGAAAGCTGTTTTCTCTACGTCTTCAGGGCACATACGAATTTGGTGGTACCCAGCTTTAACGTCAATCTTCAAAAAGATGTCTGCCCCATTCAATTCATTAAAGAGTTCCTTAACTACCGGAATTGGGAATTTATCCGGAATGGTCACATCGTTCAGTGCCCTGTAGTTTACATAAAATCTCCAGCTTCCATCCTTCTTTTTCACTAATAATACGGGGTTGGAATACTAGCTAGTGCTCGGCCTAATAATTCTGGAAGTCAACATCTCATCCACCAACCTCTCCATCTCTTCCTTTTGGTGGTGTGCGTATTTGTATGGCCTGACGTTAACCGGATCAGTTCCCTGCTTTAGATAAATATGATGGTCTATTCCCCATTGGGGTGGTAGTTTGCCCGGCCATTCGAACACCTCACTGTATTTGCTGATTATGGCAGCAATTTTACCTTCCTTTGTTTCTGTCAGTTCGTCGTCTTCCTCCCTTCCCTCGATGTCCCTTCTTTCCATAGCCCGGTATTCAACAAGAAACCCTTGGTCTTCCGCCTCCTAGCTCTTCATCATTCCCTTGAGGCTGACTTGGGTTTTTATGAGACTTAGATCCCCTTTGATGACCACCTTGTTTCCCCTCTCATAGAAGGTCAAGATTAGGTTCTTCCAATCAACTTCAGTGATTCCTAATGAGTGCAGCCACTGCATTCCCAGGATTGCATCCACTCCTCCCAGTTCCAGGGGTAAGAAGCTATCCGTCACTTTACAATCCCCTAGCCACAGCTCCACGTCTCCACACACACCTCTCCCTTTTATTGTTGTGCCCGACCCAAGTATCACGCCGTAGTTGGGTGTTTCTCTCATCCGTTGTTTCAATTTATCCACCAACTTCTCGGCAATGAAGTTATGGGTAGCCCCACAATGGATCAGTATGACTACCTCCTCTTCTCCTATTTTCCCTTTCACCTTCATGGTTCCCGGATTTGTCAGGCCAACCACTGAGTTGATAGACAACTCTATGTTCAAATTCTCAACGTTCTGTATTTCCGACAACTTCATCTCTGATTCTGCATCAAAATATTCCTCTTCTACAATTTCAAGCTCTTCCCCGCTCTCCTTAACGAGTAACGTACACAACTTCTTGTTCTCCTTAGTTTTACACCTATGCCTTGTGTGGTACTTCTCTCCACACCTGAAACATAACCCCTTTTCCCTTCGGGCTTGAAACTCGGCATCTGTCAGCCTTTTGGTGGGTCCTTCCCGTCGCTCAACCCATTCATGAACGTCTCTTCCAACACCACTGGCTGTAGGAATGCTACTGGCGCCAAATATTTATCAAATCGGTTTTTGTATTCCTCCACCGTCGTCTCTTGCTTGATGGTGAGAAATCGCCCCACTAGTGTGCCGTCTTGGATGGATTGGAATCTCACCAGCATCTTTTGTTTCAGGTCCTGCCATCCCTTGAATGCTTCCCTCTCCTCTTGGGATCTATACCAATCCAACGCTCGTCCGTCGAAGCTTATGACTGCTACGGTTAACTTTTCTGAATCGGACAGGTTGTCTATTTTGAAGTATCTGTTGGCTCGGAATAGCCACGAGTTTGGGTCGGTCCCATTGAAGACCGACATTTCCACTTTTTTGAACTTACTCCGATCCATCGACTGTCCTTCCTCGACCTTCCTTCCTTCCTTCGAGTCTATAGAAATCGCTGTGAGGGTCGGTTCTTCATTCTGAGCTTTGCTTGTCGAGCCTTCAACCATTTGCTTACCGGGCGAGTCGTCTCGGAGGATCCCTTCCAAGTATTTCAGTATCACCTGCTGCTGCTGATACTGCTTATCAATTTGAGCATTCATATCCGTGATGGTCTTCGACAGGAGAGAAATGTTTTCCTCCATCAATGGAAGCTTCATAATCCCTTGTTCCACCATGTTGAGTCTCTCTTATGTGCTCTTCGCCAGTATGGTAAGCTCTGATACCAAAATATTAAAACACCAACTGGTGCTTCTCTACTATTTCGATTACTCTTTCCAAAACAAATCGTAGTGACAACTTACAGCCCGTGTTTCTCTAACAACCTACGATTAATCACGACAAAAACTACACACAAAATAAGCAACACTCACACAAAACTTTCTATCAAAAACAACCACAGAGAAAATAACGCAAGAACAGGATATATAGCCTAAAACCCCAGGCGATGCAGCAACGATAGCCTGGAATTCCTTCTGCCTCCCTCTCCTTCCTTGGAGGGAGCAGCCCAACCTTTTCACGACAAAAAGTACGTACCCCCCTCTGCTCCCTGCTCTCCCTTTTAATCCCCACTACTAACTAACCCGTGGTCCCCACTGACTGGTCTCCAGTCACCTTGCTTTCCTCCCCGCTTCCACGTGTACCCTTCCCCGTCTCTATATTACTATCCTTCTTCCTTCGGTTATAGGTAAATAGAATTGGAGGTCTAGCAGCTTTATGATAGAAACCAGTTTATTTATGCATCAGAAGGTGCAAGCCAAGTGATATTTGAAGAGCTCCCTATCCCTGTCTTTTGCCTCCTGTCTCACTCAGAGATTTAGTTAGTTACTCAAAGTATGACTCTCGAGAATCTCTCTCTGCGTCTTTCCTTCACCGAACTAAATAATATTTTCAGACCTGAATAAGCCATATTGAACTATTACACATTATATAGTCTCTTCGCTCTTGTCCTTCCTTCTGAGTTGTGATTCTTCCTTACGACGGACTCTGTCTCTATACTTTTATATCGAATGAGCTGAGATATATGGATACTAGCAAATTCTTGGTAAATTATTATTTTACCATATTCTTGACAGAAGTTGCTGACCGCTTCTTTGACTATAAAAAGTTATAATCACAAAATTACCAAGAAAGCTATATTCTTTCAGTGCGTCAGAAGATTTAATACTCTTAACAGGGTTCAAGTACCCTCCCTAATTCTCTAGGTATATTTTACAAGAGAAAGAAACTTAGTAAGTAACTGTGAGGGTACTGATAGGAAATATGTTGGGAATATTAGTAGGATGGTATAATTAGGTAGGGAGGTGGTTATGAAGTTTAGTTATGCACAGAGAGAGTGAGAACGGAATGAGTTGGGCATTTTGGGAGTGAATAAGGGCTTGGGCAAGATCTCAAGAGGGAGGGTGCATGCACCTCGAATTACTTGTTTATATTGTAATTTCTCTAGATATTGCAATATAGTTGTTATAGTGTTTTCATATATTTTCTTGTTAGGAAGCATCCTAAAAGTAATCTGCTCTTCTTTTCAAGATTCAATTTGGAGAGTGAAATTTTAAACCTAACTTTTGAACATAAGATTTTCCAGTACCTTTTTGGCTTTTGACTTCTTGTCTTGTCTTTTTTTATTTTTATTTTTATTTTTATTTATTTATTTATCTCTTTGAAGTGCTTTAAGTTTTAACAATATTCTACATTCTGATTGTGGGCAATTCAAAGAGGCTTTTTTTCTCCCCTTTATTTTTTTAGTGGTAATTTCTTTTGGTGTTGGCTTCAGAGTATTCCTGTCTTCCCTCTCTTTTGTACACTACTTTTCTTAAATAGAAAGTTGTCTTTTATCTCAAGGGAAAATTTCATATTTAGGACTAGAAGATGACTTTGATGACAATTTGAGCCATGTTGCTGCGCTCTTGGAAGAACCCGAGGCAGTAGATGAGGAGTTAAATATTTATGACAATAAATCTTATGATGGAAACCACGTGGGGGGAATTCAAAGTAAGCAAAATGCTGAGAAATTGGCAATTGAATTACTTGCAACAAGGTAATATTATGTTAACTGTGATTCCTGTCTTTGATTTTCGAATCTGCACTACTCTGATTGAAGTGATGAAACTGTAAAAGTAAAAAATGAGTTTGTGACAGATTTATGTAGCTAGGAAACGTATCTGACTCACTTAAGTTGTAAGTTATTAAAGTTAGGGTATTTTTGTAATTGTCTAGTCAAGGCTTTACTGTATTCTTTAATTTTGTAACTATTTAAATATTTGAATTAGGGTAGATAATTTTCTGATATTTTATTAGGTCTTTCCTTGTATGTATATATTGAATGAAATTATAGAAATTCGTCACGGTATCAGACCAACTCTAATTGTCTAGAAACCCAAATCTCAGTGACAACTCACCATCTCCTGGAAGTTTCTCCATACGTCCACCAGACAATGCTGCTGCTGTACGTCTTCCAGTCGCCATCGTGAGTTCACCATCTTCTTCCGACTGCCGCTGCTTCAGATCTCACCAGATCTTTTTACTCATGCCATCGGGCTATTTCCAGTGTTTTTCATCCGCGCCAGATTCTGCCTTCAATGGGTTCTTCATTACAAACCTACCGGTCTCTATCATCATCAATAGTCCAATTTTTCACCTTGTAGACTTCATCAAAATCTATGGAAATTACTTCAAACGAATGTGCATCAAATACCCTAATCGCAAGTCGCAAATTGAATGGCAGCAATTACATTCAATTGTCATAGTTGGTTCGGATGTTCATATGTGGTTAGGGTAAGGATGAGTTTCTCTCTAGTGAAAATGTGCAACCCAAGGAGGCTTGATCTAGAATTCAAAAAGTGGAAAATGGATAACAACATGGTTATGCCATGGCTAATAAATTCCAGAGTCGTTCCAAGGCGTCTCCTGGTGGAGGACGTACAATCTCTCCAGTTAAGAAAGCGGCCTTCGAGGAACATCTTTATTGATTGGGACCAAGAGAAATAATTTTGCTCATTTAATTTTTCACCTGAAAAATTTCCTGTAGGCGAACCTAAAGAGTCAGTTATATAATTTGACTGTAAATTAGGGAACGAAGTTATCGGGTTCTTGGAATACATCGGCAACTCGGTTGGTTTGGAATGCGTTGAAGACTCGCCCGCTTCAATGTCCGATCTGTTTTGGGGTTGATCAATCCCGTTACCAGAAAACAACGTTTGTTGTAAATTGTCAACATACGGCGAATGCTTACTGTACAGATTTGACAAATTTATAGTTGAGGGTTGCTGTCCGGAGTTCATAGGCGGCACGTGAGGATGCGAATGCGTTTGACAGTTGAACATCCAACGGCGTGTAAAGGGGAATGGGCTGGGCGGTGAGATGAAAAGGCGATAGCACGTGGGCCCACGCATCGGACAGGAGCGGCGCATGAGGCATTTTTTGGTCAGACGGCAGCACAAATGACTGCGAAACCACTTCCGTTGGGTAGATCAGCAATTTCTGTAGGTTTTGGAGCAGTTTCTCCACGGTGGTGGCGGTAGTGACGGGTTCGGTTTCGATCTGGGTTTCTCCTAGGTTATTTTCTAGGGTTTCATTATTGCTTTGCTCTGATACCATATTGAAAGCAATATAACAACAACCCGAGGCTTACGTGGAAACTTGAGAATCGAGAGAAAAACCACGATACTTTAGTTTTTATTATTTCTCTTATGAATGAATATAGTAGGTACAAAGGGAGAGAATAATAGAGTACAATAGGAGTAAGAAAGGAAAAGATTTAGGAAATAAAATCTTCTATATTATTCTTTCCAAAAATTCTCTAATGGCAAAGCCCCACTAATTCTAACAAGTACCATGAAGGTTTGCAAACTAAAGAAACCTTTTCATGGGTTCAAGCAATCACCCCGTGCTTGGTTGGTAGATTTGCAACTTTTGTTCTAAGTCTTGGGTATTCTCATTGCCAATCAGATCATACTTTGTTTGACAAAAGTCTAAAGATCTATTTGCCTTCTTGATAGTATATGTTGATGAAATAATTATCTATCGCAATGATGAATCAGAATTACAAAGCTTGAAAAGGCACTTGGCGCAAGAATTTGAAGTCCTATCTTGGAAATCTAAAATATTTTCTTGGTATGGAGGTTGCTCGATCCAAACATGGTGTAGTTATCACAAAGAAAGTATGTGTTAGATCTTCTTACAGAAACTGGTATGCTAGGATGCAAGCCAACAGACCCCCTTATGGACCCACAAAAGAACTTGGACACAATCTTGAGAGTGCACCTGTGGATAGGGGGAGATACCACATCTTGTAGGGTGCCTTATCCACCTTTCTCATACTTCTCCCGATATTGGATTTGATGTTAGTATGGTTAGCCAGTTTATGCATCACCACTAATGAAGAACATATGGAAGCTATGCATCGGATCTTTGGATATCTAAATATGACTCCCGGAAAAGGACTATTGTTTAGAAAAGCTGATAAAAGAAACATTGAAGAATATCTGATGCAGATTAGGCAGGGAAGATCTCAGATAGGTGTTTTACCTTTGGTTATTGCTCCTTTATATGGGGCAATCTTGTTACATGGAGAAGTAAAAAGGAGTATGTGGTTGTAAGTAGTGTAGAAGCTAAACTCAGAGCAGTTGCTCCGGGCTTGTGTGAAGGTATATGGATCAAAAGAGTCCTAAGTGTGTTAGGAAAAGATTGTTCATTGCCGATACAAATGATGTGTGACAATAAAGCTGCAATAAGTATTGCAAAGAATCCACTTCACCAAGATAGGACAAAATACGTTGAAATTGGTCGGCACTTCATCTCAGAAAAAGTCAACAATGAAGTGGTTCATCTCAACTATGTGCCCACAAAACAACAGATGGCAGATATCGTTACCAAGCCTTTACCAAGACCTAACTTTGAAGTCTTGAATAGCTAGTTAGGTTTGTATAATATATACAACCAACCTTGAGGGGAAGTGTTGTAAATTATTAAAGTTAGGGTACTTTTGTGATTGTCTAGTTAGGGTTTTACTGTATTATTTTATTTTGTAACTATTTAAATATTTGAACTAGGGTAGATATTTTCCTTATATTTTATTAGGTCTTTCCTTGTATATATATGGGAATTAAGCCATCAATATGATTCTGAATGAAATTATAGAACTTCCTAAAAAATCATGTATGAATTAAATATTATTTTTCCAACTTTGGACATGGCTTGGACACTACTTTGGAAAATATTTAACCTAAAAATTGGGGAAAATTGGGGAAAAAACTGAAATTATTTATTTATTCTTCTTCCGTTAGTCATAGCCAACTCAATCCTTTTATATTTTATAATAGTTAAGATATCGTTTATTGCGTTAGTTTTTTTTTATGTTTTGAGGTATATTTGTTTTGATTTTAAATTAAAACTGAACTTATGTAGGTGCGTTAATTTAATATTTTCTATTACATTTTGTTTTGATAAACATAACGACACACAGCACGAAGAAACTGGTGTAATTCGTACACCACCAAGAGGCTGTATGTTGCACGACCGTCCAAAAAGAGTAAAGACGCACACTTATCTTAAAAAATTCTGCTAAACACCAAAGCAAGGAGCGGGAAGCACATTTCCATAAAATTCTACCTTACCGCCTTAGACAGGACAGTCGAAGGCTTCCATCATCTAGTGGTCGATCTTCTTAGGAAGGCAGCAGGTCAAACCAAAAGTCACAGTGGAAAAAGAGGTGATCAAGAGTTTCATCATTTTTCCCACACTTGTAGCTGGTAGAAGGGGAGAGGGCCGTCATCTTAAGCTTCCTCTGAAGTTTATCACGAGTATTTAAACTCCAATAGGCAAGTGACGCCTTTTTAGGGAAGGGGCAGAGGAGGGGCTTCCACATAGACTAACCAGAGGTGGGGCAGAGATAGGAGGCCTCTTAACACTACTCAGAAAGGCCGATTTACTATTACATGTCCTAGAGGCATCAATCTTCCATCTGAGGCAGTCCGGGTAATCAAGCGTCCAAGAATTTAAAGCTTCCAGCAGCGCCACCAAGACACCCATTTCTCTATCAAAATGCGTGGGAGCATCAAGAAGTTTTGTCGCCTCAATATTTTCATTTATTTTCTCTGTGGAAGCATGGTGACATACCAAAAGGAAAATAGAAAAAATCTTAATGTGTGGGAGTAATTTATCATATGTTATTAAAAACAGACTGAAAACCTGATGTGATGATGAAATACCTTTTGCTTTACCAATATTTGTAATTAGTTGACAATAACATAGATGCATGTGCTTATGCAAGAAGAATATTAGAATATTAAGCTTATGATTGCATCCCACAGATCCTTCACTGCAGTTGAGCTGAGGAAGAAATTACTTCGCAGGAAGGTCTCACCAGACGCAGTGGAAGCAGTAATCAATGATTTCAAGATCAGGTCCTGAATGGTGGCTACTTGTTATCTTTTTTAGTTATCAGCAACCTTTTGACAAACCTTCTACATTTGCACGTTAGATTTGAATTTTGAAGTCTAATTCAACCATATGATATGCCTCTCATTTGACATTAATCTTAGCCATATAATTATATTTAGGGGGTTGATCAATGAGGAGTTGTATGCCGAAGCATTTTCTCATTCGAGGTGGTCTTCCTCCAGTTGGGGACCTAGGAAAATCAAGCAGGTAAGTGTAACCTATTTTCATTTGGCACATAGCTAAAGAGTTGATCTTCTTTCTCGTCTTTTTCAACCTTTAAACTTCTCATCATTGATAGGAGAGGTAGTTGGTAGGATTAGGACTAGAGAAACTTGTTTACCAGATGCGAACTTTTTTATATCAATTTTATGATACTGAGAGGCTATTTTTTTTTTTGAATCAGGCACTTGTAACTAAGGGGATAGGAAGGGAAGTTGCTCAGAAAGCAATTAAACTAGTTTTTGAAGACGATAAAGAATCAGGTGATGGAATGAGGGTAGCATTATCAAAGGTTTCAATGGATCGTTTATTTGTCGAAGCTTCAAAACAGTGGATGCGAGGCATGGATGCACCGAGAGAGACTAGAAAATCAAGAATAGTTAGGTGGCTTCAATACAGGGGTTTCGACTGGGATGTTACTATAACCATTCTAAAGAAGTTACAAACGAAGTTCCCTCCTTAGCATTTGAATGAAAAATTTGAAGGATTTGGAGGCTCTTTGACCCTTGTCTGGTTGGGAAAGTATTGATTTGGATTTTGGTTGCTGTATCATCATGGGGTGCGAAGAGAAATGTCCGAAACTAAAACTTTTCACTTCCTGAATATATGCAAATGGGTGTCAAGAGAAGAGTCAAATGGTGGAAAGTGGAAGGAGAATAACAGTTGCAAAAGTGGGACGTTTGAGTCTGATTTTTCCTATGGTGAATTGTTCTTCCAGTACAATTACTGTTTACTTTCTACTCTTGGTTGTATGGATGAGGCTCTGTTTATGATAGCAAATCTGATTTCATTTTATTTATATAATTGGGTTTTCTTCTCCTCTCTCGCTCTCTCTCTCTTC AAACCCACGTTGCCTGAGAAAAATAAAAATAAAACAAAAACTTTTTTTTTTTTCACAATTTTTCTAATTTAGCCCTTACGATATATATGTATACTTTTTTAAGTTTAAACTAAATTCAGACATCTTCCAACTTCCAGTGTGCTCAAATTTGAGCTGATTTCACCCATTGAAGGGCGCTGGCAGTCTGCTGAAGAATTTTCATGTTCAATAGAACACTGCATTTCTTGGGTTTACATCTCCGGTGATGTTTTTTGGCTAATTTCGTCGACGAATGACAGCCATGGCGGGATTCAGCATCCATGCCTCAATTCAGCTTCAACCTAGGGTTCTTTCAACATCCTGGGTGAAGAAAAGCGGAGTTTTTGCTTGCTTGAAAGGCAGAGTGTATAGCTCGTCGGGTCCTGTTAGGTACATTCCAAAAGGGTCTTCAAATGATGAGAAATCGAGAACACATTTGACACCGGAAATTGTGAATGGAAACGATTTCAGTAGTGGGCTGGATGTTAATGCTCGGAGGATTGAGGTTAAACATAGGAGTGAAGTACCGAGAAGTAATTTTAATGATACATTGCGTGATCAAAATCAGTATGAGAAGAACTACTCAGCTGGTGGAAGTATGCTAGGACTAGAAGATGACTTTGATGACAATTTGAGCCATGTTGCTGCGCTCTTGGAAGAACCCGAGGCAGTAGATGAGGAGTTAAATATTTATGACAATAAATCTTATGATGGAAACCACGTGGGGGGAATTCAAAGTAAGCAAAATGCTGAGAAATTGGCAATTGAATTACTTGCAACAAGATCCTTCACTGCAGTTGAGCTGAGGAAGAAATTACTTCGCAGGAAGGTCTCACCAGACGCAGTGGAAGCAGTAATCAATGATTTCAAGATCAGGGGGTTGATCAATGAGGAGTTGTATGCCGAAGCATTTTCTCATTCGAGGTGGTCTTCCTCCAGTTGGGGACCTAGGAAAATCAAGCAGGCACTTGTAACTAAGGGGATAGGAAGGGAAGTTGCTCAGAAAGCAATTAAACTAGTTTTTGAAGACGATAAAGAATCAGGTGATGGAATGAGGGTAGCATTATCAAAGGTTTCAATGGATCGTTTATTTGTCGAAGCTTCAAAACAGTGGATGCGAGGCATGGATGCACCGAGAGAGACTAGAAAATCAAGAATAGTTAGGTGGCTTCAATACAGGGGTTTCGACTGGGATGTTACTATAACCATTCTAAAGAAGTTACAAACGAAGTTCCCTCCTTAGCATTTGAATGAAAAATTTGAAGGATTTGGAGGCTCTTTGACCCTTGTCTGGTTGGGAAAGTATTGATTTGGATTTTGGTTGCTGTATCATCATGGGGTGCGAAGAGAAATGTCCGAAACTAAAACTTTTCACTTCCTGAATATATGCAAATGGGTGTCAAGAGAAGAGTCAAATGGTGGAAAGTGGAAGGAGAATAACAGTTGCAAAAGTGGGACGTTTGAGTCTGATTTTTCCTATGGTGAATTGTTCTTCCAGTACAATTACTGTTTACTTTCTACTCTTGGTTGTATGGATGAGGCTCTGTTTATGATAGCAAATCTGATTTCATTTTATTTATATAATTGGGTTTTCTTCTCCTCTCTCGCTCTCTCTCTCTTC ATGACAGCCATGGCGGGATTCAGCATCCATGCCTCAATTCAGCTTCAACCTAGGGTTCTTTCAACATCCTGGGTGAAGAAAAGCGGAGTTTTTGCTTGCTTGAAAGGCAGAGTGTATAGCTCGTCGGGTCCTGTTAGGTACATTCCAAAAGGGTCTTCAAATGATGAGAAATCGAGAACACATTTGACACCGGAAATTGTGAATGGAAACGATTTCAGTAGTGGGCTGGATGTTAATGCTCGGAGGATTGAGGTTAAACATAGGAGTGAAGTACCGAGAAGTAATTTTAATGATACATTGCGTGATCAAAATCAGTATGAGAAGAACTACTCAGCTGGTGGAAGTATGCTAGGACTAGAAGATGACTTTGATGACAATTTGAGCCATGTTGCTGCGCTCTTGGAAGAACCCGAGGCAGTAGATGAGGAGTTAAATATTTATGACAATAAATCTTATGATGGAAACCACGTGGGGGGAATTCAAAGTAAGCAAAATGCTGAGAAATTGGCAATTGAATTACTTGCAACAAGATCCTTCACTGCAGTTGAGCTGAGGAAGAAATTACTTCGCAGGAAGGTCTCACCAGACGCAGTGGAAGCAGTAATCAATGATTTCAAGATCAGGGGGTTGATCAATGAGGAGTTGTATGCCGAAGCATTTTCTCATTCGAGGTGGTCTTCCTCCAGTTGGGGACCTAGGAAAATCAAGCAGGCACTTGTAACTAAGGGGATAGGAAGGGAAGTTGCTCAGAAAGCAATTAAACTAGTTTTTGAAGACGATAAAGAATCAGGTGATGGAATGAGGGTAGCATTATCAAAGGTTTCAATGGATCGTTTATTTGTCGAAGCTTCAAAACAGTGGATGCGAGGCATGGATGCACCGAGAGAGACTAGAAAATCAAGAATAGTTAGGTGGCTTCAATACAGGGGTTTCGACTGGGATGTTACTATAACCATTCTAAAGAAGTTACAAACGAAGTTCCCTCCTTAG MTAMAGFSIHASIQLQPRVLSTSWVKKSGVFACLKGRVYSSSGPVRYIPKGSSNDEKSRTHLTPEIVNGNDFSSGLDVNARRIEVKHRSEVPRSNFNDTLRDQNQYEKNYSAGGSMLGLEDDFDDNLSHVAALLEEPEAVDEELNIYDNKSYDGNHVGGIQSKQNAEKLAIELLATRSFTAVELRKKLLRRKVSPDAVEAVINDFKIRGLINEELYAEAFSHSRWSSSSWGPRKIKQALVTKGIGREVAQKAIKLVFEDDKESGDGMRVALSKVSMDRLFVEASKQWMRGMDAPRETRKSRIVRWLQYRGFDWDVTITILKKLQTKFPP Homology
BLAST of MELO3C013197 vs. NCBI nr
Match: XP_008447776.1 (PREDICTED: uncharacterized protein LOC103490166 isoform X2 [Cucumis melo]) HSP 1 Score: 649.0 bits (1673), Expect = 2.1e-182 Identity = 329/329 (100.00%), Postives = 329/329 (100.00%), Query Frame = 0
BLAST of MELO3C013197 vs. NCBI nr
Match: XP_008447775.1 (PREDICTED: uncharacterized protein LOC103490166 isoform X1 [Cucumis melo]) HSP 1 Score: 642.5 bits (1656), Expect = 2.0e-180 Identity = 329/335 (98.21%), Postives = 329/335 (98.21%), Query Frame = 0
BLAST of MELO3C013197 vs. NCBI nr
Match: XP_004139774.1 (uncharacterized protein LOC101220193 [Cucumis sativus] >KAE8646038.1 hypothetical protein Csa_016855 [Cucumis sativus]) HSP 1 Score: 564.3 bits (1453), Expect = 6.9e-157 Identity = 295/330 (89.39%), Postives = 304/330 (92.12%), Query Frame = 0
BLAST of MELO3C013197 vs. NCBI nr
Match: XP_038897535.1 (uncharacterized protein LOC120085566 isoform X1 [Benincasa hispida]) HSP 1 Score: 496.1 bits (1276), Expect = 2.3e-136 Identity = 265/351 (75.50%), Postives = 285/351 (81.20%), Query Frame = 0
BLAST of MELO3C013197 vs. NCBI nr
Match: XP_038897536.1 (uncharacterized protein LOC120085566 isoform X2 [Benincasa hispida]) HSP 1 Score: 460.7 bits (1184), Expect = 1.1e-125 Identity = 252/351 (71.79%), Postives = 270/351 (76.92%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy Swiss-Prot
Match: Q02VU7 (Regulatory protein RecX OS=Lactococcus lactis subsp. cremoris (strain SK11) OX=272622 GN=recX PE=3 SV=1) HSP 1 Score: 67.4 bits (163), Expect = 3.5e-10 Identity = 47/159 (29.56%), Postives = 82/159 (51.57%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy Swiss-Prot
Match: A2RNY5 (Regulatory protein RecX OS=Lactococcus lactis subsp. cremoris (strain MG1363) OX=416870 GN=recX PE=3 SV=1) HSP 1 Score: 63.9 bits (154), Expect = 3.8e-09 Identity = 45/159 (28.30%), Postives = 80/159 (50.31%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy Swiss-Prot
Match: Q9CDN7 (Regulatory protein RecX OS=Lactococcus lactis subsp. lactis (strain IL1403) OX=272623 GN=recX PE=3 SV=1) HSP 1 Score: 63.2 bits (152), Expect = 6.5e-09 Identity = 52/195 (26.67%), Postives = 95/195 (48.72%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy Swiss-Prot
Match: Q87XY8 (Regulatory protein RecX OS=Pseudomonas syringae pv. tomato (strain ATCC BAA-871 / DC3000) OX=223283 GN=recX PE=3 SV=2) HSP 1 Score: 58.9 bits (141), Expect = 1.2e-07 Identity = 45/151 (29.80%), Postives = 76/151 (50.33%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy Swiss-Prot
Match: B3EFY7 (Regulatory protein RecX OS=Chlorobium limicola (strain DSM 245 / NBRC 103803 / 6330) OX=290315 GN=recX PE=3 SV=1) HSP 1 Score: 57.0 bits (136), Expect = 4.7e-07 Identity = 48/165 (29.09%), Postives = 78/165 (47.27%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy TrEMBL
Match: A0A1S3BIU0 (uncharacterized protein LOC103490166 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103490166 PE=3 SV=1) HSP 1 Score: 649.0 bits (1673), Expect = 1.0e-182 Identity = 329/329 (100.00%), Postives = 329/329 (100.00%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy TrEMBL
Match: A0A1S3BI66 (uncharacterized protein LOC103490166 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103490166 PE=3 SV=1) HSP 1 Score: 642.5 bits (1656), Expect = 9.6e-181 Identity = 329/335 (98.21%), Postives = 329/335 (98.21%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy TrEMBL
Match: A0A6J1CG76 (uncharacterized protein LOC111010517 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111010517 PE=3 SV=1) HSP 1 Score: 456.8 bits (1174), Expect = 7.5e-125 Identity = 245/332 (73.80%), Postives = 271/332 (81.63%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy TrEMBL
Match: A0A6J1IEN5 (uncharacterized protein LOC111476555 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111476555 PE=3 SV=1) HSP 1 Score: 451.4 bits (1160), Expect = 3.1e-123 Identity = 242/332 (72.89%), Postives = 267/332 (80.42%), Query Frame = 0
BLAST of MELO3C013197 vs. ExPASy TrEMBL
Match: A0A6J1CDP1 (uncharacterized protein LOC111010517 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111010517 PE=3 SV=1) HSP 1 Score: 448.4 bits (1152), Expect = 2.7e-122 Identity = 243/332 (73.19%), Postives = 270/332 (81.33%), Query Frame = 0
BLAST of MELO3C013197 vs. TAIR 10
Match: AT3G13226.1 (regulatory protein RecX family protein ) HSP 1 Score: 181.4 bits (459), Expect = 1.2e-45 Identity = 117/375 (31.20%), Postives = 196/375 (52.27%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (DHL92) v4
Date Performed: 2022-08-06 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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