IVF0013405 (gene) Melon (IVF77) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGGAACTGTTCAGTCAAGGAAATCCACACAAAACAGGTAAAATAACTAGTTAATTCTCAATTTTTTGCAACCCTGCATTTATTATTTCTTTTGGAATTTTCACATCTTCTCAGATATAGAATTTGATAAATATGTTATTTTGGAAATAGAGATGGATAAATTTGAACGCATAAAATGCTAATACCAGGACATCTGCATCATCAGCTACCTAATCTCTAATTTCTCAACTTCTAACTTTTAAGTCTAAAAACTTTTATCTTATCAAGACAAAAGCAATATTTTGAGCAAAGAAAAAGGCGACAGCAACTGTCCTCTGGCTCCGAGAATTGGCATGATGCAGCTGACACAGGCAGGGAACAAAAAGAGCATCGGTCATTGGATATTATAAGTCTCCTAAATTTATCAGCAATTCCTCAAGAGGACAAAGCTGGCATCGGTAAATTCCAAAACTATTGCATTGAAGCACAGAATTCATTGTTCGTGTTTTTTTAACTTAAGCATTTGAAAGTAGAGGCTAAGGAATTTTTCCTATGCACATGCACTCCCATATAAAGGTTTCACAGTTGCATTCTATAGAGATTAGACTAGAACGCAAAGCTAACATAAAATCATTTTTCCTGGTTTGGTAATCATTGTCCCACAAGTTTTGATTCTCAGAAAAAATATACTGTGTTCTAAATGGAATGCTTGAAGTTGAGCAGATATTTCAACGAGTGATCAGATAATTTAGTATAGGTAAAAGGACGTGCATCTACAGAGCAGTTTAATTTGTGATATTTGATCTGGAGTAATTTGTGGTGTTAGTTTGTGAGAGTGGACTTTGTTCCTAACTAAAAAAAATGGAAAAAAGAATAAGAGATGAACTCTTTTTTGTCCAAAGAAAAAGGCGAGGTTTGATCAGAAAGCCACCGACTTTTTTCTGTGTTCCTTATTCTTTGTTGTTTAGTTGATGATTAATTACCTGTTGGTATTCTTTCATGATGTTCTGTTACAGAGGCCAATACTTCAACGGTGCGGTCTCATTTCATGAAAGACCCAGTTCCAACCCTCTATAACATTGAAACATTAGAGAAACCTGCTGACTTTGAACGTGATTTTCTAACTAGTGTTTTTAATTATGCCTATTCTATCTCAAGCTGTTGCTTTTAGACCATTTAAGCTGAAGTAAAAGCATTGTTTTGAAGAGCAAATTGACGAAACAGGAGCGCCATTCGACTATAAAGAGGAGACTTTATCTCCAATGAAGTGAGTTAGAATTGTTTTAATAGTGTTACATGTGTGAAACATGTCATATTCATGCACATATTTCTTCTCAACTTTTGATCTGCTTTCATAGACTTTCAAGCTGATGTAGTTACTAGTAAATAATCTATTTATTAAGGCATGATATGTATATATGTATGTGTGTATTATGGCAGAGTAATGTGCTCCTAGATTTTAGATTTACTATTGTTTGCAGAATTTTTGCTAAATAAAACATTTATTTTTTCCACTTTAGCAGAAATGTAAGTAATGATGCCAACAGTGGTAATACCACTAAGAACAAAGTAGATTCTCAATCGGAACAGGGGAAGATATCTGTTGAGCAAAGTAAGTCCTGGCAAAACTCATTGAACTCTTGTTATTTTCCATCCTTTTTCCTTCTATATTGGGCTTTGCTGAAGTTGACACTGGAACTGTTCATTATAAGAGCTGCCGTGGTATCTAACCTTGCTTTTTATTTTTTAATTGTTACTTGCCTTTTGCCATCAGCTGCTCCCAATACGTTTGGTTAAAAAATTTGTGCCCGAACTCTAACATTCCCATTTGTCAGGTCTTTCTATTTTCGATTTTCTTGGGGATGATGGAATGGCTGTTAAATGCGAAGGAAGTCCACTGAAAGAAGCTCATGTTGCATTTTCAGTCGATGGTACAGACTACTAATTACAGGACATTAATTTGGGATTCATGATCTTGCCCTATTCTGCTGGTTGATTTTAAGGGGGTCTAAACCAAATTCATTCTGCTGGTAGACTCTTTAAACTGAAGAATGTCTTGATTCACAGAAACTCTCTCTGACCCCAATTACAAATAAAACACTCTCTTAAAAGCATGATACCATTCACACAACTCAGTTAGTACACCAAGTTAAAGTGCTTCAAATTTTGATGATTTGAAACTAAAGGTACAGGCTCCTTTCAAAGTGCTTGTAGCTATCACTTCCTCGAATCTTCTACAATAGGACAACCACTCTTCTAATATTTTGTCATAACCCAACAGTTTCTGATATGATTAAGTAGCTAAAGCTTTTACTATATATAGGCTACATCACTTCAAAACAGACTTGTGTCTCTTTCAGAAGCCGGTGCCATTTCTCCGGACAGTTTCTAATGATAATGCATTTTTGTTAGGTTTGGGCAGAGTAGGAACAGAAACACCAGCATGTTCCCCGAAGCATGCCAGCAGGTATTTGAATGTTCGTTTCATAACCATAAAAAATATCCTTGATTAAAATTATAAAACTAGAACATATGATTTTAAATTTCAGCCTAACAAATATTTCCCACTGCCATGGCAGAAGCTTTTCTTATGGCTTCTCTTCTCATCTAGAAAGAGTGCGACCTTGGAACCCCTCTAAGAACACCAAAGTGTTGGATGACTTTGAACTTGAAGGAGTAAGAGCATTTTGAGATGCATCTTGCTACATTTGTTTGATTTCATATAATTCGCATGCTATCGATTTTTCTGGTGGTGCTATAACATTGGATTCTTCTATTCCTAATGGTCTTCTTTTCGTTATCTTATATGTTCTGCTTAGATTCTGGCACCTCATGGAGTTCTGTCTTTACATTCAAATTATTGGTGTTCTGCCTCTAAATGGAAAAGAGTGCTATAAAGTAATCTGGATTATATAATTCTCTAGAAGTTAAATAATGTCTAGCTGTTGTATTTCTCTAAGTTAATTATTAAAAGTGGTAAAGAAAATAGATACGGAGTTGGCGAGTTATGTGGAAACCCGAGTATTGGGAGAAAAGCCACTATCTAACTTTCTTATTAATCTCTCATATTAACAAAAGATACAATGGCAAAAAATAAATAGACAACATGCTTATGATAAAAAAGGAAAGGAAATTAGGGTAAATCATTCCTTGGACCAAGCCCACTAATTCTAACACTCACCTCAGTTGGGATGTAGATAAAAATGAGACCCAACTTTCTAACACATGGGTCAAAGCTCTGCTTGAGAAACCCCTTGGTGAGAACATTAGCACCCTATTGGCTCGAGGGGATGTAAGGAATGAATATGCTACCATTGTCTAGTCTTTCTTTAATGAAGTGTCGATCAATCTCTACATGTTTAGTTCTATCATGTTGAACTAGATAGTAGGCGATGCTAATAGATAACCTTATTATCAGAGATTAATTTCATCGGCACCTTACAGTCCTGATGAAAGGCAGATAAAACTTTTTGAAGCCAAATTTTCTCAAATATCCCCAAACTCATAGCCCTATACTCAATTTCAGCACTGCTTCTGGCCACAACCTCTTACTTATTTTTTTCTACGTTACGAGATTGGCCTATACAAAGGCAAAGTAACCGTAGGTGGATTTAATTACGGACTCTGCCCAGTCAGAACCAGTATAGGCCTTAATAGCTCTCCTGTTGGTCTTCCAGAACATTAACCCTTTACTAGGAGTTGTTTTTAAGTACCTCAAGATTCTGTTAACTGCCTCCATGTGTTCCTCAAAGGGAGCCTGCATGGACTAGCTAACGACATTCACAACATAGGAGATATCTGGTTGAGTATGTGACAAGTAAATCAACTTTCTCACAAAAAGCTGATATTTTTCTTTATCAACTGAAACTTTATCACCTGAATTTCCCAGTTTATAGTTGAATTCAATAGGATTATCAGCAGGACGACACCCGACATACCTGTCTCGATTAACAAATCAAGGGTATACTTCCTCTGAGATGGAGATACCTTCTTTTGATCTAGCTAGCTCCATCCCTAGGAAATATTTTAGATTCCCAAGTCTTTAATTTAAAACTCACCAACCATCTTCTTTTTCAGTTGGATGATCTCAACGGTGTCATCCTTAGATAAAACAACGTCATCAACATAAACAATCAACACGGCCATCTTACCGGCCTTGGAAACTTTTGTAAACAAAGTGTGATTAGAGTGCCCCCTGACTGTACCTCTTGGGACTTGACAAAGGTAGTAAACCTATCAAACCATGCTGTCAGTGATTTTTTAGTCCATACAAGGATTTCTAAAGTTTGCAAACCCGATGATCAAACTACGCTTCAAACCCTGAAGGGGGGCTCACATCCTCTTCAAAGTCTACGTTCAAGAATGCATTCTTAACATATAGCTGATATAGAAGCTAGTCTTTATTTATAGCAATATATAACAGGACTTTAGCGGTATTTAGTTTTGCAACTGGGGAAAAAGTTTTAAAGTAATCAACACCACTAAGTAAACCGTTTTGCAACTAACCTGGCCTTGTGTCTGTTAAGAGTTCCATTTGCCTTGTATTTGAATGTGAACACCCATTTACATCCTACGAATTTATGCCCCTTAGGGAGAGTTCAAATCTCTCAAGTCTTATTTTTTTCAAGAGCTCTCATCTCTTCCATAACTGTTGTTTTCCACTTAGGGCATTCTAAAGCAATGTGGATATTTTTAGGTATCATGGTAAAGTCAAGGCTGGCTGTGAAGGCTATGAACTGTGGTGATAGACTCTCATGGGATCTTTCAGTTTGAAGAGAGAGATTTGGGAGAGATTGATCTCATTCTAATTTCATGATGCGCTCCTTTGTTTAAAACACAGAAGGTTATGTACTTCCCCAGTTAGGGGGATAGTTTCCACCCTTGTTCTTTTCTTGCTTTTGTATTTGTTGTGGCAGTAGATGCTAGGGTTGGGCATTTCATGCCTTAATAGCCTGATTTCTCTCTTTTGACTTAAAAGGAAAATAGTTACAAATGGGGTGTTTTGTGCAGGACCTAGTACCTCTCTGCAACGCAATAAGAATGTCAAAAGAAGGATTATACTCATCTAGATTAACTGAATGACCTTTTCAGTCTCATTACCACCAGTTTCTGCTCTGATCTCAGTCTCATCAACACTGTCCTTTTCTTCCATATCTTCAGGACCTATCATTCTAACTCATTTTATTGTCAACACATGAATCAATAAGACTAGTCATACGATCTTGTGGAGGTTCAGAGTCTTGGACCAGAGTTGACTGATCAGTAGAGGAATATTTCCTTTCTAAGATTCCTTCTATATTAGGTTTTTAGGGAAGTTGGTTTGTAGGTAAGACCGTGGGATGAGGTTTGGGGTCAGGTAAGGTAACAAGGATAGGATTGGTAGGCTCTAAGGGATAATTAGACTTTTACTTACATTCTCCCCCTGAAGATGGCTAACGGGAAAGAAAGGTCGACCCTTACAAAAGGTGACATCTATAGGGAGTATTTATGGGAAGGAGGATATACCCCGTTGATGATGGGGATATCCACAAACATGCACGCCTGAGCCTGATGGGTGAATTTGGTCTAGTTAGAGCCAAAGCTATAAACATAGGTTGTAAGCCTAAACACACGAAGGGGTACTTCAAAAGTGAGGTGGATAGAGGGATACGACTCCTTAAAACAGTCTAAGGGAGTCTGGAGGTGAAGGACACGGGAAGACATTCTATTGATGAGATAGGCTGCAGTAAGAACATCATCCCCCCATAGATAAGAAGGAAGAGAAGTAGATAACATAAGAGAATTGCTACTTCCAGAAGATGACGGTTTTTTCGCTTGGCAACCCCATTTTGTTAGTGGGTGTAACCACACGAGCTTTGGTGAACAATCCCTTTGGAGGATAGAAACTCACTAAGGGTATGGTTTTGAAACTCACAACCATTATCACTCCGAAAAATTGTAATTTTTGTATTGAAATGTGTTTCTACGATGTGATAGAAGTTCTGGAAGACAAAAGGGACCTTGGATTTATCAGTGCTAGCGATGACCCAGGTAAGACGAGTATGATCATTAATAAAGGCCACAAACCATCGTTTCCCAGAGGAGGTAGTGAGCTTTAAGGGACCCCAAACATTGTTATGGACAGTTGAGTTGGCTTATATGATTGTAACAGAAAGGAAACCCGATACCGTTTGGCCCAAATACACACATCACAAGATAAAGAGGAGACATCAACTTTAGAGAAGAGATGGAGAAATAAATACTTCATATATTGAAATTTTGGGTGGCCCAACCGAAAATGTCACAACATACAATCTTGTTTAGAAATAGTAAGATATGAAGATAGTAAACTAGTTCTAGGATTACTACTGTGAGGTATCATCGTCAAGGAGGTAGAGTATCCTGCGATGTTGGGCAGTGCCAATCGTCCTCCTCGAGCTCAAGTCTCGAAAAGAAACAGAATCAGGTAAGAAAGTAGCTTTGCAGTTCAACTCACGAGTGATCTTGCTTATAGTTTACAATTATAGGAAATCTTAGGCACATGCAATACATTCGGGAGGGATAGCCCCTGAAAGGGAAAAATTTGCCCCTTCTCAGCAATTGGAGCTAAGGAACTATCGGCTATTTTGATCTTTTCATTACCAACACACGAAATATAAGAAACAAAATTCTCAGAGGGATCTGTCAAGTGATCTATAGCACCAAAGTCTAGGATCCAAGAATTTTTCCTATCGACACTGATAAGACTAAGGAACTGAGGCATACCTGACTGCGTAATGGCTCTTAGAGTGGAGGGTGGATTGGGACTGGTCTAGTTTATCGTAGGGTCGGATGGTTGATAAGACTAAGGAATTGAGGCACGCCTTGAATTCTGTTTATCATTTGAGGAACATTTCTTACCTCCTAGAGGACGACCATAAAGTTTCCAACACTGATCCTTAGTGTGCCACTTTTTCTTGTAATGCTCACAGATAGGGATCAATTTCACGTTGTTCTTCTCACTATCATGGGTAGAGCATCTAGCACTGAAGGCAGTGGAGTCAGTAGCAGGAATAGTCAGAACACTCATGGCCACTCGTACGGTCCTCTTTAAGACGGATTTCATAACACACTTCCATTAAGGAGGAAAAGGGTCTATGTACAAGTATAGAACCACAAACAATGTCAAACTTGGGGTTGTGACATGCAAGAAAGTCATAAATCCGATTAGCTTCTTCGAGTCTAGCACATTGTAGGCCATCATTCCAAGTATCCCATACTGTCTCTCTATACAGGTCCATCTCTTGTCAGAGTAAGGAAAGTTTATTGAAGTAGGAGGTAAGATCCAGAGTTCCTTGCTTGCAATCATTGACTTGTTTCCTCAGTGTGTACAGACGAGAGACGTTTTGTTGCTTCGAATAGAGTTTTTGAGTAGTGTCATGTAGATCCTTCGTAATTGCTGCATAAAGTAGAGGCTTGCCAATTGTGGTTGTATACTATTAATCAACGTGGACTGAATAAGAGAGTCATCTCCTCTCTAGAAATATTCCCAAGCATCATGGGTGGGGGCCGAAGAGTCTCCCCTGTCAAAAAACCGAATTGGTGCGTCCTTCAATAAACATTTTGACCTTTTGAGACCAGGAAAATATTTATGGTCGTTCAACTTCTCTCCTACAAAGACATCTATAGATGGTGCCTGAAAACTAGTTATATAATTTGAGGACAAAGTAGGGAATGGAGCTACCGGGTTCTTGGAATACATCGGCAAGTCGGTTGGTTTGGATCGTGTCGAAGATTTGCCAACTTCAAACCTGGACTTATTATGGAGTTGATCAATCCCGGTACCATGGAAGTGCGACTGCTGTAAAGGATCATATTGCAATGGTCGTGAGAGAGGGTAGCGCGTGAAACAAGGGCAGCGGCGGTGCATGGATGTTCGGCTGACCAAGAGGGTGCTGCGGCTGGATAGTGGACCACGGTTAGGAGTAGGCCGGTTGAATTGCAAAGACGACGGACGGCGACGCGTGGGCGATAATGTGGTGCGTGTGGCTCTTTCCATCCACTAGGCAGTGTGGCTGACTTTGAGGGTGGGCCCATTGCAATCACCGGCGGCTTCTGAAGTTGGTGGAGCAACTTTTCCATGGCGACGGCAGCTGTCTCGTCAGTCTCTATTTGGGTTTCATCAACAATCATGTCAAGGGTTTTGTCTTTACCCCTATCTGAGCGGTAAAGAAAATAGACATTGAGTTACGTGGAGACCCGACCGAAGAAAAACCACGATTTTTAACTTTCTCATAATTTCTCATATTAACAAAAGATCCAAGAGGAAAAATAAATAGACTAACATGCCTACTAATTCTAACATTAATAATTTGAGTCTCATAATTTTCAGTTAGAGTAGAGTATCTTTAACGTGTTTTTAGTTATCTTGAAATTATCAATGATCATATTGACATACAAAATGCAGGATATCATGATGCGCTGTGATGATGGTTCTTTAAATTATTCCTTTGACATGATGGATACATGTGATAATCCAAAGAAGAAAACACCTACTAAGATCCATTTCCGTTCTGTTGAAGATTGTAAAAGAAATGAACATAGTGGTAGAACTATCTTTGATGGCACGGATGGAGAAAGAGATAGATATGAAGGTAAATTTTTTTGTTCTCTTATTCATCCTTGTCAAGGTTTGGTGTAAGTTGGTTCATTTATTACAACAAAGTTTCTTGTATCTTTGACAGTTTTATCCTTTTTATGTTCCAATTGGAACATGCATCCATGAAATTTTGATTTTGTTTTCAAGTAACCCTTAAAGATAGTTTGCCATTACTAGTATTGTACTATTCCACAGACTTCTGCAGCTTCTCCTCCCCGTTTCAAATACTTTGATTACCAATTATCCTTTTAAGTTATTTTATCTCATTATCTTCTACTAGGTGGATTTAACTTCTTAAACGGCAACTTTCTCGGGGAGATGGAATGTGATCTCTTCGAGAAGACTCATTTAATGAAATTGGTAGTGTTTCGTCTGATTTTTGAACTATGAGAAGTATGATATATCAGAAAAGGCATTTGGCAGCCCCTATCTACCAAAAAAGAGGTTTATGTTGATGAAAGCTAATTTCTAAGGTTTTTCCAAAGTAAAGAAAACTTTATTCTGAAGTAAATATTTATGTGCAGAGTTGCAGGTGCTACAAGAACAATGGACAAATTCAACTTATTTGGTAATCCCCCCAAAAAGTAATGTATAGATACATATATAATAATAATAGTAATACTAAAATTAGAGAATCTATATAGATGTGTAGTGAGTTTTTGCTTCTCTATGATTGATTTGCTCTGGTGAAACAATCAATTGAGTAGATTATAATGCCTCGTTTATTTAAGAAGTTTTTCATATGTCAATATTGAAAACCTACTAGAATGTGTAACGCTATTTATGTTAGTGACTCTGTAGGGTATCATCTACTTGCTTGTATCCATCAAAATTCATGTGTTGGATGATGTCCAACGTGTGCTTCTCCTTATTTGGCTAGGAAATCTTTAATGCTTTTTCTTCCTTTCTTTTCTCTCCTTTCTTTGAAGTTCTTGACATTTGATTACAATGAGAAGTTCAAAATTTTTTGAAGCTCCCAGTGTTGATAACCTAACGGACACTTAAAAGCTTGATCTTTTGTAATTAGATCCAGTCGAGTCCAGCTCGAAGCACCATACCTATGGATATGATTGTGATTTAATGGCGGATGTAAAAAGGTATTCTAAATTTCACATAGAATGTTATTGAGGTGGGTAAAGCATATATACTTATTAGGCAAGTTTTGTCTGTGTTAGCAGGAACCCGAAAGCCACAAGGATTTCTGATTTACAGGACAAAACGCACCAACGAGATTGGTTTTGCTCTATGGCAGACGATGTCACAGACAACTTCAGCTTGTTGAGGTCAGTAAAACAACTTCTTTTATCTTTATTGTCTTACTTTCCTCTCACTCCGACTGATGTGTCAGACTTCTTCAACTTTTTGGCAGTGAAGAGTCTTGTTCAATCAATGCAGGTGATATGAGTTTGCTTCTTATAAAACGAGCTTCAAACAGTTTTTTGGAGAACATATAGATATGCATATATATACTCTCTCATCTTCTCCACATGTTGATCAGAACAAGTTGACTTGCTTTTCTTCTCTGCTGTGTATTTCAGTAAGGGGCGAGGCATTCGATAGCACACCACTAAACTCAAATCCGAAACAGAGCATGGGAAGAGCCATGGATGATGATGCTGGCCCTGGGAATAGTTACAGCGTTAACAGTTTTTACTCCAGGGACCCACATTACAAAATCAAGGACGAAGAGCCAAAAAAGTATGTGAGAAAATCAAATTCATCGAAATCCAAGCCAGTCCACCACACAAACTCTCCTTTCATGGAAAAACCACAGCCATTTAAAACCTGGTCGTTTGAGAAAGAATGTAACTTCAGCTCTCCAAGTCAAAGTCCAGTTGCAGATTGTCCATTCAGAGGCTCTATGCCTTGGAATGAATATCCCTGCGCCGAGTCATCTCTTCCCGAATCCTCCTTCACAAACAAACACATCGAAACCGTTCATCGTCCTTCTAGCACTCTGATCTCCAAAAGACCTTCCTTTCATCCATCAAATATTGCGACTGCAGTTCTCGAGCGCAACCCTTGTTCAAATTCAAAATTTGTACCTACGTACAAAAGCATGACAGGGACTACAAGTTCTCATGGAGAAGATCAGATTTCTCCTGTACTATCAGCTCAGGGAAGTGTAGGTACAGGTGAAGAAAGTGAATCCAAAGATCCATCAGTAGGAAGTGAAAAGGTTGATTTTCATGAAGACAAATGCAACAGAGCTAGAAGCAAGGTCTGTGTAGAGGACACTAACGAAGATTGGTTGGATGATTCGAATCTTGAGAGGAGAAATTGTGATAGCATCGGAAATGAAACGGAAAATGAATCTCCAGAAGTGGAGAATTTGGAAGCCTCCCACGATTCTGACCATGTAAAAAATGGTGGCAAAACCGACAAGTACGTAACTACCATTCTTCTTCCTTTGTCCTTTTTCTTCATTATTCCATGGTAAACTTCCCTTTAGATCTCTACTAAATAAAGTTGAAATTTGGTCTAGATTTAACCCTGACGATAAAGTTTCTGTTTCATATTCTAAAGAAGAAAAGGGTAAGCACTCATTTTCTTTGTTTGCTTTTTTCTTTCTTAACTTGCATGGTAATTCAATGGTAGCTATAGGATTGATGAGGTACACTTGTAAAGTACAGAAGTAGAAGATGTTAAGGTAGAAGAAAGAAAGACGAGGAGCAAAAGTTGCGGCATGGACTCATCTTCACAAGTGATGATGCTTGAAAGTTATGTTCTTCAGCTTCTCTTCGTGCAAAAGGTGCTTCTAAAGCAAGCATCTTCACAAGATTTTATAAAAAAAGCATGAATGGGGAACTGTTCAGTCAAGGAAATCCACACAAAACAGCAATATTTTGAGCAAAGAAAAAGGCGACAGCAACTGTCCTCTGGCTCCGAGAATTGGCATGATGCAGCTGACACAGGCAGGGAACAAAAAGAGCATCGGTCATTGGATATTATAAGTCTCCTAAATTTATCAGCAATTCCTCAAGAGGACAAAGCTGGCATCGAGGCCAATACTTCAACGGTGCGGTCTCATTTCATGAAAGACCCAGTTCCAACCCTCTATAACATTGAAACATTAGAGAAACCTGCTGACTTTGAACAGCAAATTGACGAAACAGGAGCGCCATTCGACTATAAAGAGGAGACTTTATCTCCAATGAACAGAAATGTAAGTAATGATGCCAACAGTGGTAATACCACTAAGAACAAAGTAGATTCTCAATCGGAACAGGGGAAGATATCTGTTGAGCAAAGTCTTTCTATTTTCGATTTTCTTGGGGATGATGGAATGGCTGTTAAATGCGAAGGAAGTCCACTGAAAGAAGCTCATGTTGCATTTTCAGTCGATGGTTTGGGCAGAGTAGGAACAGAAACACCAGCATGTTCCCCGAAGCATGCCAGCAGAAGCTTTTCTTATGGCTTCTCTTCTCATCTAGAAAGAGTGCGACCTTGGAACCCCTCTAAGAACACCAAAGTGTTGGATGACTTTGAACTTGAAGGAGATATCATGATGCGCTGTGATGATGGTTCTTTAAATTATTCCTTTGACATGATGGATACATGTGATAATCCAAAGAAGAAAACACCTACTAAGATCCATTTCCGTTCTGTTGAAGATTGTAAAAGAAATGAACATAGTGGTAGAACTATCTTTGATGGCACGGATGGAGAAAGAGATAGATATGAAGATCCAGTCGAGTCCAGCTCGAAGCACCATACCTATGGATATGATTGTGATTTAATGGCGGATGTAAAAAGGAACCCGAAAGCCACAAGGATTTCTGATTTACAGGACAAAACGCACCAACGAGATTGGTTTTGCTCTATGGCAGACGATGTCACAGACAACTTCAGCTTGTTGAGTGAAGAGTCTTGTTCAATCAATGCAGTAAGGGGCGAGGCATTCGATAGCACACCACTAAACTCAAATCCGAAACAGAGCATGGGAAGAGCCATGGATGATGATGCTGGCCCTGGGAATAGTTACAGCGTTAACAGTTTTTACTCCAGGGACCCACATTACAAAATCAAGGACGAAGAGCCAAAAAAGTATGTGAGAAAATCAAATTCATCGAAATCCAAGCCAGTCCACCACACAAACTCTCCTTTCATGGAAAAACCACAGCCATTTAAAACCTGGTCGTTTGAGAAAGAATGTAACTTCAGCTCTCCAAGTCAAAGTCCAGTTGCAGATTGTCCATTCAGAGGCTCTATGCCTTGGAATGAATATCCCTGCGCCGAGTCATCTCTTCCCGAATCCTCCTTCACAAACAAACACATCGAAACCGTTCATCGTCCTTCTAGCACTCTGATCTCCAAAAGACCTTCCTTTCATCCATCAAATATTGCGACTGCAGTTCTCGAGCGCAACCCTTGTTCAAATTCAAAATTTGTACCTACGTACAAAAGCATGACAGGGACTACAAGTTCTCATGGAGAAGATCAGATTTCTCCTGTACTATCAGCTCAGGGAAGTGTAGGTACAGGTGAAGAAAGTGAATCCAAAGATCCATCAGTAGGAAGTGAAAAGGTTGATTTTCATGAAGACAAATGCAACAGAGCTAGAAGCAAGGTCTGTGTAGAGGACACTAACGAAGATTGGTTGGATGATTCGAATCTTGAGAGGAGAAATTGTGATAGCATCGGAAATGAAACGGAAAATGAATCTCCAGAAGTGGAGAATTTGGAAGCCTCCCACGATTCTGACCATGTAAAAAATGGTGGCAAAACCGACAAATTTAACCCTGACGATAAAGTTTCTGTTTCATATTCTAAAGAAGAAAAGGAAGTAGAAGATGTTAAGGTAGAAGAAAGAAAGACGAGGAGCAAAAGTTGCGGCATGGACTCATCTTCACAAGTGATGATGCTTGAAAGTTATGTTCTTCAGCTTCTCTTCGTGCAAAAGGTGCTTCTAAAGCAAGCATCTTCACAAGATTTTATAAAAAAAGCATGA ATGGGGAACTGTTCAGTCAAGGAAATCCACACAAAACAGCAATATTTTGAGCAAAGAAAAAGGCGACAGCAACTGTCCTCTGGCTCCGAGAATTGGCATGATGCAGCTGACACAGGCAGGGAACAAAAAGAGCATCGGTCATTGGATATTATAAGTCTCCTAAATTTATCAGCAATTCCTCAAGAGGACAAAGCTGGCATCGAGGCCAATACTTCAACGGTGCGGTCTCATTTCATGAAAGACCCAGTTCCAACCCTCTATAACATTGAAACATTAGAGAAACCTGCTGACTTTGAACAGCAAATTGACGAAACAGGAGCGCCATTCGACTATAAAGAGGAGACTTTATCTCCAATGAACAGAAATGTAAGTAATGATGCCAACAGTGGTAATACCACTAAGAACAAAGTAGATTCTCAATCGGAACAGGGGAAGATATCTGTTGAGCAAAGTCTTTCTATTTTCGATTTTCTTGGGGATGATGGAATGGCTGTTAAATGCGAAGGAAGTCCACTGAAAGAAGCTCATGTTGCATTTTCAGTCGATGGTTTGGGCAGAGTAGGAACAGAAACACCAGCATGTTCCCCGAAGCATGCCAGCAGAAGCTTTTCTTATGGCTTCTCTTCTCATCTAGAAAGAGTGCGACCTTGGAACCCCTCTAAGAACACCAAAGTGTTGGATGACTTTGAACTTGAAGGAGATATCATGATGCGCTGTGATGATGGTTCTTTAAATTATTCCTTTGACATGATGGATACATGTGATAATCCAAAGAAGAAAACACCTACTAAGATCCATTTCCGTTCTGTTGAAGATTGTAAAAGAAATGAACATAGTGGTAGAACTATCTTTGATGGCACGGATGGAGAAAGAGATAGATATGAAGATCCAGTCGAGTCCAGCTCGAAGCACCATACCTATGGATATGATTGTGATTTAATGGCGGATGTAAAAAGGAACCCGAAAGCCACAAGGATTTCTGATTTACAGGACAAAACGCACCAACGAGATTGGTTTTGCTCTATGGCAGACGATGTCACAGACAACTTCAGCTTGTTGAGTGAAGAGTCTTGTTCAATCAATGCAGTAAGGGGCGAGGCATTCGATAGCACACCACTAAACTCAAATCCGAAACAGAGCATGGGAAGAGCCATGGATGATGATGCTGGCCCTGGGAATAGTTACAGCGTTAACAGTTTTTACTCCAGGGACCCACATTACAAAATCAAGGACGAAGAGCCAAAAAAGTATGTGAGAAAATCAAATTCATCGAAATCCAAGCCAGTCCACCACACAAACTCTCCTTTCATGGAAAAACCACAGCCATTTAAAACCTGGTCGTTTGAGAAAGAATGTAACTTCAGCTCTCCAAGTCAAAGTCCAGTTGCAGATTGTCCATTCAGAGGCTCTATGCCTTGGAATGAATATCCCTGCGCCGAGTCATCTCTTCCCGAATCCTCCTTCACAAACAAACACATCGAAACCGTTCATCGTCCTTCTAGCACTCTGATCTCCAAAAGACCTTCCTTTCATCCATCAAATATTGCGACTGCAGTTCTCGAGCGCAACCCTTGTTCAAATTCAAAATTTGTACCTACGTACAAAAGCATGACAGGGACTACAAGTTCTCATGGAGAAGATCAGATTTCTCCTGTACTATCAGCTCAGGGAAGTGTAGGTACAGGTGAAGAAAGTGAATCCAAAGATCCATCAGTAGGAAGTGAAAAGGTTGATTTTCATGAAGACAAATGCAACAGAGCTAGAAGCAAGGTCTGTGTAGAGGACACTAACGAAGATTGGTTGGATGATTCGAATCTTGAGAGGAGAAATTGTGATAGCATCGGAAATGAAACGGAAAATGAATCTCCAGAAGTGGAGAATTTGGAAGCCTCCCACGATTCTGACCATGTAAAAAATGGTGGCAAAACCGACAAATTTAACCCTGACGATAAAGTTTCTGTTTCATATTCTAAAGAAGAAAAGGAAGTAGAAGATGTTAAGGTAGAAGAAAGAAAGACGAGGAGCAAAAGTTGCGGCATGGACTCATCTTCACAAGTGATGATGCTTGAAAGTTATGTTCTTCAGCTTCTCTTCGTGCAAAAGGTGCTTCTAAAGCAAGCATCTTCACAAGATTTTATAAAAAAAGCATGA MGNCSVKEIHTKQQYFEQRKRRQQLSSGSENWHDAADTGREQKEHRSLDIISLLNLSAIPQEDKAGIEANTSTVRSHFMKDPVPTLYNIETLEKPADFEQQIDETGAPFDYKEETLSPMNRNVSNDANSGNTTKNKVDSQSEQGKISVEQSLSIFDFLGDDGMAVKCEGSPLKEAHVAFSVDGLGRVGTETPACSPKHASRSFSYGFSSHLERVRPWNPSKNTKVLDDFELEGDIMMRCDDGSLNYSFDMMDTCDNPKKKTPTKIHFRSVEDCKRNEHSGRTIFDGTDGERDRYEDPVESSSKHHTYGYDCDLMADVKRNPKATRISDLQDKTHQRDWFCSMADDVTDNFSLLSEESCSINAVRGEAFDSTPLNSNPKQSMGRAMDDDAGPGNSYSVNSFYSRDPHYKIKDEEPKKYVRKSNSSKSKPVHHTNSPFMEKPQPFKTWSFEKECNFSSPSQSPVADCPFRGSMPWNEYPCAESSLPESSFTNKHIETVHRPSSTLISKRPSFHPSNIATAVLERNPCSNSKFVPTYKSMTGTTSSHGEDQISPVLSAQGSVGTGEESESKDPSVGSEKVDFHEDKCNRARSKVCVEDTNEDWLDDSNLERRNCDSIGNETENESPEVENLEASHDSDHVKNGGKTDKFNPDDKVSVSYSKEEKEVEDVKVEERKTRSKSCGMDSSSQVMMLESYVLQLLFVQKVLLKQASSQDFIKKA Homology
BLAST of IVF0013405 vs. ExPASy TrEMBL
Match: A0A1S4E125 (uncharacterized protein LOC103496242 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103496242 PE=4 SV=1) HSP 1 Score: 1369.4 bits (3543), Expect = 0.0e+00 Identity = 703/775 (90.71%), Postives = 705/775 (90.97%), Query Frame = 0
BLAST of IVF0013405 vs. ExPASy TrEMBL
Match: A0A1S3C2C4 (uncharacterized protein LOC103496242 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103496242 PE=4 SV=1) HSP 1 Score: 1361.7 bits (3523), Expect = 0.0e+00 Identity = 701/775 (90.45%), Postives = 704/775 (90.84%), Query Frame = 0
BLAST of IVF0013405 vs. ExPASy TrEMBL
Match: A0A1S4E122 (uncharacterized protein LOC103496242 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103496242 PE=4 SV=1) HSP 1 Score: 1288.5 bits (3333), Expect = 0.0e+00 Identity = 671/775 (86.58%), Postives = 673/775 (86.84%), Query Frame = 0
BLAST of IVF0013405 vs. ExPASy TrEMBL
Match: A0A1S3C2R5 (uncharacterized protein LOC103496242 isoform X4 OS=Cucumis melo OX=3656 GN=LOC103496242 PE=4 SV=1) HSP 1 Score: 1280.8 bits (3313), Expect = 0.0e+00 Identity = 669/775 (86.32%), Postives = 672/775 (86.71%), Query Frame = 0
BLAST of IVF0013405 vs. ExPASy TrEMBL
Match: A0A1S4E129 (uncharacterized protein LOC103496242 isoform X5 OS=Cucumis melo OX=3656 GN=LOC103496242 PE=4 SV=1) HSP 1 Score: 1273.8 bits (3295), Expect = 0.0e+00 Identity = 648/720 (90.00%), Postives = 650/720 (90.28%), Query Frame = 0
BLAST of IVF0013405 vs. NCBI nr
Match: XP_016901926.1 (PREDICTED: uncharacterized protein LOC103496242 isoform X1 [Cucumis melo]) HSP 1 Score: 1370 bits (3545), Expect = 0.0 Identity = 703/773 (90.94%), Postives = 703/773 (90.94%), Query Frame = 0
BLAST of IVF0013405 vs. NCBI nr
Match: XP_008456238.1 (PREDICTED: uncharacterized protein LOC103496242 isoform X2 [Cucumis melo]) HSP 1 Score: 1362 bits (3525), Expect = 0.0 Identity = 701/773 (90.69%), Postives = 702/773 (90.82%), Query Frame = 0
BLAST of IVF0013405 vs. NCBI nr
Match: XP_016901927.1 (PREDICTED: uncharacterized protein LOC103496242 isoform X3 [Cucumis melo]) HSP 1 Score: 1289 bits (3335), Expect = 0.0 Identity = 671/773 (86.80%), Postives = 671/773 (86.80%), Query Frame = 0
BLAST of IVF0013405 vs. NCBI nr
Match: XP_008456240.1 (PREDICTED: uncharacterized protein LOC103496242 isoform X4 [Cucumis melo]) HSP 1 Score: 1281 bits (3315), Expect = 0.0 Identity = 669/773 (86.55%), Postives = 670/773 (86.68%), Query Frame = 0
BLAST of IVF0013405 vs. NCBI nr
Match: XP_016901928.1 (PREDICTED: uncharacterized protein LOC103496242 isoform X5 [Cucumis melo]) HSP 1 Score: 1274 bits (3296), Expect = 0.0 Identity = 648/718 (90.25%), Postives = 648/718 (90.25%), Query Frame = 0
BLAST of IVF0013405 vs. TAIR 10
Match: AT2G30480.3 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: 12 plant structures; EXPRESSED DURING: 4 anthesis, F mature embryo stage, petal differentiation and expansion stage, E expanded cotyledon stage, D bilateral stage; Has 189 Blast hits to 180 proteins in 63 species: Archae - 0; Bacteria - 43; Metazoa - 86; Fungi - 6; Plants - 19; Viruses - 0; Other Eukaryotes - 35 (source: NCBI BLink). ) HSP 1 Score: 94.4 bits (233), Expect = 4.1e-19 Identity = 140/558 (25.09%), Postives = 237/558 (42.47%), Query Frame = 0
BLAST of IVF0013405 vs. TAIR 10
Match: AT2G30480.1 (unknown protein; Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). ) HSP 1 Score: 73.9 bits (180), Expect = 5.7e-13 Identity = 45/117 (38.46%), Postives = 63/117 (53.85%), Query Frame = 0
BLAST of IVF0013405 vs. TAIR 10
Match: AT2G30480.2 (unknown protein; Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). ) HSP 1 Score: 73.9 bits (180), Expect = 5.7e-13 Identity = 45/117 (38.46%), Postives = 63/117 (53.85%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (IVF77) v1
Date Performed: 2021-10-25
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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