IVF0003337 (gene) Melon (IVF77) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAAAAAGAAAAGAAAAGAAAATAGAGAGAGAGAGAAAGAGAGAGAAAGAGAGCTTTATTCTTTAACAACAAACGTTTCGCGCGATCTCTTTTTCTCCCAGTGAAATTTTCGCATATTCCTCAATCCTCCCATCTCTTAGCAATTCAAATTTCATAAAAGGTAACACCATTACAGATCGATTTTGTTTTTTCTGTATTCAGTTTAATTGCTACCTCAATTCTGAATCTTTCTTCATCTCAAAAATCATTTTTTCTAGTTTCTTTTTCTTAGGTGTTGGATCTGCCCAACGAGTTTTGTTTGCGCTCGCTGGAATTCTCGTCGAGCTAATTTCTTCCTTCAATGCTCGCCTTTCGAGGCCTCTAGATCAGGTGGGTTTTGTGATTTCACTGGGTTTACACAAGTTCTTTTCATACTTTAATCACTGCACACACTGGAGCTCAATTTTCTGAGTCTTTGAGATCCTACCTCCTCTATTCTGTTTTGGAAATTATGATCTTCTCGTGTCGGTTTGGTGGGGATCTTTGAAATTGGTCTTTTGTCTTATTTGAAACTGTCGAGTAATGAGATCTTTTGATAAGATCTATCTGAATTTTATTTTGTTTTTCATGGATCTATGTCTTGGGTTTCCTTTTCTTTTTGGTTTTATTCTTTTAATTGATTGGGTGGGATATTTGGGTTTTTAACACCCATTCCCAAGGTGGGCTTGGGGGGATTAAACTCTGTGCTGATCGTTATGTTCTCCAGGTGGGAGTGACTGAAAACGTATTGGTTATGGAACTTTGAATGTCTTGCTTGTTTCTTTTAGTCAGGTGTTATTACCTATTCTCCAAGTTTGTGAGGTTATGTTTTTGAGCGAAACATGATGTTTGTTTCACTTTGACTTGCAGCAATTGTGTTGTACAATGTTTTTCTTTTGATCTCAATATGCACCGCCAGGGTGTACCTATCAGATTTTCAAATAAGAAACATAACTTTCATTAGCTGCGGTGTATATCATTCTTAAGTGCTTTATGATGGTTACTAATTTTTCATTCGTTAGGGACATTGATTAGGTCTCTTGGATTTCATTCATTACGCAGCATTGGCCATTCTTTTCTGATATAGTCAGTCTGAGCAAGCTATAGTTTTGCGGTAGGCTGATGAAGAACGGAATGATAGAATGCAGTGTTTGTCACTCCAAGTTGGTTTCCCCCACCACCAAAGGTATATCGAGGGCATATGATCGACATAAGATCAGAGTATCATCTAAGCAACGAGCCTTAAACACCCTCTTGGTTGTAGGTGATTGTATCTTGGTTGGTTTGCAGGTGATTGTCATCTCTGAACCTACTAGTTGACATGCTTTTTTTCTTTCTTAATTTAATTCTAAAGTAAAATGTGCTTTCATGATTGTCCTGCTTTTGGCTTATGTTTTGCTTTCTTTCCCTTTGAAGTGGTATTTTAGCAATAAAATTTTTGTTGTTCAGTTCATTGTGTAACCGAACCTAACTATACTGCTACTCTTGTATATCAACCCTCTCCATCACTGATTGTGTATCTCACACTGCAAATCATACTAATTACTGTTACTCATTTAGCTCAATTGCACTATCAAGAAACCTTAACAGCCTTCCTTCTTGGTTTCCTTGTGCATGCTTGTCGTTCTTTTGGTCCAAGTTGTTGGCATTGCCCATCATGCTCCCCTTCCTTCTTTATCATTCCCTTTTTACCCTTTTTTGTATATGTATGAAGGATTGGGGATCTAACATTACCGCACGCCTCGAAATGCACCTTGTCCTCAAGGTGGAAGGAGGGAAATTGTTGATTGATCAAGTACACTGATTCCCAAGTCTTTTCACTGTTTGGAAAGCCCTTCTAATTGCCCGACCCTTCGTTTACTGTTAACTCCTTACTCCATCTTACCCTCAAAAATGTTTCTGACCTCAAACGTTATTCAAATTCTTCGGTTACTGCTGGAGGTATGTGTTGAACTCGTTGATTCTGCCCCAATTTTAGCTTCAATTGTGACACCTGGAACACATTGTGGATCCTTGCTTCGGTGGTAACACAAGACGATAAGCTACTGTTCCTATCTTTTCTGTAAAATATGGTCCATAGAACTTTGGTGTTAGTTTCTCACCTCTCTTTCTTGCCAAGGACAGTTGCCTGTAAGTTCTCAACTTTAAATACCCTTCTTCTCCTTTTTGGAAATTCAACTCCCTCTGGTGCAAATCTGTCTGCTTCTTCATCATATTTTGTGCGAAGACAATATCTAATCTGAACCCGAAGCGTCAGTTTCGATCATGAAGGGTAGTGCAACATTGGGTAAAGCCAATACTTCGGTAAAAGGGGGGTTGCAATGTCTCCATACTTCTTGACAAACCTCCCGTAATATCCCGTCAGTCCCAATAGTCCTCTCAATTTTGATACATTCTTGGGTGGCGGCCACTTTACCATTGCTCTGACCGTCTCCCCATCGATTTCACCCCTTTTTGCGAGATCCACTGTCCCAAGTGTTGTATTTCGGAGTGGCTGATAGCACACTTCTTTAGGTTGGTGTACAGTTCATTGTCTCTTAGTATGTTAAATCCTACCCCCCAAGTGTCTCTCATGTTCTATAATATACCAATATCTGGGATGTAGACTAATATTTCATCAAAAGAGACAAGCACAAATCGATGTAGGAATGGCAGGAGTCTAGCTGGTGTATTAGTGAGCCCAAACGACATCATTAAGAACTTATAGTGTCCTTCGTGTGTCCTTTAAGTTGTTTTCTCGACATCTACTGTTTCTCATTCTAATCTGGTGATACCTGGATGGGAGATCCAGATTGGAGAAGATTGCTGCCCCAAGTAGTTCATCGAGTAACTCTTTTGTCATGGAGATGGGGAGCTTATATGACACGGTGACTTGATTCCACTTGCGGTAATCTACGCAAAGACACCACCTTCTATGCTTCTTCTGTAACTATAATCACTAAACTTGAGTAAGGGTTTCTACTTGGCCTAAAGATTTCTGTTTGCCATCTTTTGGTTACCAATTTCTCACTCTCCTCTTTTTGAACGTGCCCATACTTATAGGGTCTCACGTTGATTGGTTTTTGCCATTCCCACATGAGAATTCAATGGTTTATTGCCCTCTTTGGAGGTAACCTCCTAGATGTGTCAAAGATATCATCATACTGCTTCAGAAGAGCTTGTATCATGGATAGTCATACTTCTTCCCCTCCTTCCTGGCTCTTGTTTTCAGTCTTCTCTTCTTCCTCAACCTCTGAATTTTGGAACTCAATCCAGAAGCCTTGTTCTTCCTCCTCCCATGATTTCGTCAACTTTTTCAATGAACACTCAACTGTCGTCAAGGTCGGATCCCCCTGAGCACAATGTGCTGATCCCCCTTCATAGTTGCAAGTGACTTCGACGGCCTTTGTATCCAAATCAACCCCGTCGAGTATAGCCATGGTATTCATACTACTACATCCCTCTTTCCCACGTTGATGGTTAAGAAATTTACTCGGATGGTTAATTCAGGAAGTTTCAGTTTGATTGTTCTATAGATTCCTTCTCTTTCAACGGTCGTAACAACTCCAATAGTTACTCCCAATTCTGTACCTCTGGTGATGGGTAGTTTGAGTTCCTCCACAATCTTCTGATGTATAACATTGTGAGTCACCCCACTATTAATCACAAGGATTACACCCCTCCCTTTAATCGTTCCCATTTCGTCAATTTTGTGGACTCTTATCCACTGTCCCAGGTTCGGCCGTCAAAGGCATTTCTAACTCCTCCCTTTTCTCTTTCGTCTTGTGCACCAAAACGTCAGACGTTCGTAACTCTTCTTTTCTCCTACTTGCCACACTCTTTTTCATTTCTTCAGCTAAACGGTCCACACTCTCCTTTAGTCGAAGAATGATTTCCTCGAGGTCTATAACCTCCCTTTCGGTTGATTTCATTCTTTCTTCAAGCTGTTTTTGAGCCATGGAACGTGTTCTTCCCAGGATGATTGACTCTGATACCTATTTGTTAAGATTCTAAACCTGAAACTCATAAAGATCTCAACAAAAGGCCAAACAGAGATGGTACTTTGAAATAGTATATTAATAAAATGATCCAAGTTTCACAAACAAACAAGCTATACAAAATTACAAGTAATATAGGCAACCAGATGATAGGAATAGTAAAAGAAAAAGTCCAGATCCTTTGAGAATTGCTGACAACTTCTCCTAAAAGCCTATAACAGCATTCACCAAAATCCAGACCTAGTTTTCATACCCAAAACATTCCTTACTTATATCCATGTCTCCAGTGGGCTCCCAGGTGTTTCTTACCCTCTCTCCTCAGCTCCCCCTTGGCATATTGTGTGAGTTTCCCTTTTTACCCTTTTTTGTATATGTATGAAGTATTGGGGATCTAACAAACAATTGCCACTGCTACCATTGCCTCTATAAATTTGTGGTACTTATCTCAGAGAGTAAGTTTCAGTAAGTTTTGACATTTATGTAGCAATCAACTCAATTAATTCTTGTCAAACTGTAGAAAGGAAACAGATGATTGTGTATATGTGTGTGTGTGTGTGTATGTATGTACATATATGTACGTGTGTATTCTGTTATTTAAGCATGGTATACTGTACAAGTTTACATGGAATATTGCACAGGCACAGTCCAAAGCAGACAAGAAGGTGCTTGTTCTCCACATGAATCTTCCTTTTCTTGTTTGATGCTAATTGGATTTGTTTGAAAGGTCAAATTGTGATGTGATTTAACCTAGTTTTTAAATGCCTAATACTGGTTCATTTCATTGCCAGCCTATTTTGGTTTATATGTCCAAGGTGGATGGCAAATTCATGTTCAGTCCAATTAGTGTTAACTTTTTGACCGAGATTGCGAAGGTTATCTTTGCTATTGTTATGCTGATAATCCAGGTACATATTATCTTGTAAACCGACTTTTTTTTTTTTGCCTTTTTGAAACAATCAAACTCTTAAAAATACCTTTGAGACTGTAATGCTTAATTTAAATGGATATTCTGAAACCTCATCATGTTAGTTTATAGGTTTCACTAATTTTGTTCTGTTGCAACATAGATTAATAATTCAATTCTTGTTCAATTGTGGGTGATAAGAGAGACACTGACTTCTAGACTTCTCTGCTTGTGGGAGTTTGCGTAGGGGGGAGTTTGGGTGGGGAGAACTTCATATTTTATGATCTTTTTGTGATACCTAATTTTGTTTTTGTATCTATGAATGTCCTAGCTAGTTTCCACATACCTTAACTAATTCTATGGACAATTGCTTACGCTTATAACGTTTAATTGTCAAAAAGCTGGACAGATTTTAATATCTTAGGTAAGGTGAATGGTGAATGGCCAATATGAGGTTTGAACCAATTCACCTAAAGTCGATTTGTTGTTTTCACAAACCCCAGTGCCACTCATGCCACAAATCCTCACGAGTAGGCTTTTGAATCATATAAAATTTAGGAGTCTCTTATCCAAAAAGAAATCATATAAAATTAGAAGTCGATTTCATTTTAAATCACCTATGTTCTTTTGGTAAACAATTGGTTTAAGTGACAAATGTAATTCCATCAAATACAGGAACTGCTTATGTGACACAAAAAATATTTATGATGCGCTAACTGCTTTTTCTTAACTTAGCATTCAAGTTAGATCATTTAATTGATTTTGGTTTCAAAGACAAAGCATCACTATACTTTTAATAGAGTTGGTTTTCAGTGTGACTTTGGCACTGACTTTGGAATTGTGCATTTGTAGAGCTTTTCATCTAAATTCACGTAAAAGCATTCATTTGAGTTTTTTGATTGAATTGCTTCCAAATAGACCCCATGGCCTATGGATCTGGCTTAGTTTAAACTTTTACTACGAAATTTGCAGGCTAGACATCAGAAAGTTGGGGAAAAACCTCTTCTCTCAATATCAACGTTTATGCAGGTTACTTTTCTCACATGACTGTTTCTAAATAATCATCAATAGTTGCTCTTGAATGTAATCTCTATGCTTGCCTTTTCAAAGTAAAACATTTTAGAATTACTTTTAAAACATTTTAGAATTACTTTTACCTTTACGTGAATTGAGATGGAAAAATCATACCTTAATAATAGTAAGTGAAATGAAACAATGTACTAGCTGACAAAGAAAGGTAACGTCTATTAGATTTACTTTGTTAAGATTCTTCTTATTTAAATTTCTTGTTTATCTTCTTTTAACATTTAGGATTCTTTGCTGTATCTTTGTATATTCCCCCTTCAACAAAATGGTGTTCATACTTCAAGGAATACATTGAATAAAATCTGATTGAAAATCAAATTACCTCAAATTTATTTTAGTATCAGAGCACCTAAGACTCACGATATTTTCTTCTTCGTACTACTGCAATGAATTCTTCCTCAGTCAAATTCGGCCGTTATTGGACTCCAAATCTCTGGTCTTCTATCCGACATTTGGGTCCCTGTTCGCTTTGATTCTATAAATTATTTTCAGTGGAAATTCCAAATCTTTGCAATTTTTTGAGTCCATGCTCTTTTCAGATATCTTGATAATTCAACACCTTCACCTTTTCAATACATCCAAGGACCATCTGAAACCTAGCCAGCCGGTTTCTCTGCCCCTTGAATCCAACCCCATGAAATTAATCCAGATTACCTTCAATGGGATACAGAGATCTAAGTTCTCATCATGTTGATCAACGCGACCGTATCCTTGTCTGCCTTTTTTCACATCATGTCTGCGACCACAGCTTGTGTACTTTGGCTAAGCCTAGAAACTCGACATTCATCCAAGACTAGATCTACTGTTTTGGAGCTTCACCCTCTAAACTGTCATGAAGGAACCAACCCAAAAACCAAGGGAAAACATATGCAAGTACTAATCAAAACTGCATCAATTGTTAAGGATTGTATGAAACAAAGAATACATACAAAACCCGTTTGTCACAAGCATCCATAAGGAGGTGCCGAACCTAGACAAATTAAAACCTTCCTCAAGAAAACTCAACACTCCTAAAATCATTCTCTTTGTGTTGAGCCGGATGTTTTGGAAAATAGTAAAAAGGTGGGTTGCTGGAAATCTTATCTATTGGGGCTTCTCTTGCTTGAGGGTTTGGAACTTAATTATTGGTCTGAAGACTCTGAACATAGTTTTCTTTTTGAAGCTCTTGGATTGTTCCGATCAGTAAATATTGTACTTGTGCTGAAAGGTTTCTAGAATAAGGGTAGACGCTTCTTCTTGAGGGTTATGGATTTTTTAATTTTATTATTTATGAATATTCTATTTTTTTCCCATTCATCCTTTCATTCCCGGGCTTTTTAGGTGTAATTCCCAAGATGTCTTGTTTTATTTTGCAGGCAGCACGTAACAATGTGCTTCTTGCTGTGCCAGCATTTCTCTATGCAATAAATAATTACCTAAAGTTTACCATGCAGGTATACTGTTCATATTTATTAAAGAGAGTATGTTTTTCTTTTATTTTATTCTTAACTAGATGGATCATGGAGCTTCTTTTCGATGTCAGATTATATTGTTCGTGTTTGAACAATTTCAGATACCTATAACTAACCAGGTTACCTCTCCATACAGCTATATTTCAACCCTGCAACTGTGAAGATGCTTAGCAATTTAAAGGTACTATATGTATCAGTAAATTACTGTACTTGTGGTATAATTACTGCTATGTCTTGATTAGCTCATATGACTGGCGACTCTCTCTTGATTCACCAATGTTCTCATCTTACTTGAAGGTTCTCATTTTCTTGGACAATAATTCGTTTGTTTTGTAATTCATAACCTGTATGGCTATGCCCAATTGACAATGACCTTCATTGCCATTTCTTTTGCTTTTTGAAACGGAGACAAACCTCTGAAATTATTATTAATAAAAGAGCCTCAAGCTCAAAGTATAAGAGGATTATACTAAGAGAAAATAGAAAATTCAGTCTACATCTACAACAAAAGCTAAAAAACAAATTCCAAATAGACGAGATAAAGCTAAACATAGAAAAGGTGCTAAACAAAACCATATCAGAAGAAATCTAATTACAAAAGATAATGCAAAATCCTCTCATAAAGAACTAATTTGAAACTAAAAACATTCAAGAACATGCAACTGGCTGCCTCGAAACCACCTAACCAAATTAATCCATAATCCAAAGGAAGCTCGAAAAAGTCTTCCACTATTCAGCATCGGTGTGTAGAATTTACTTGCCACCCATATGAAGGGAAATCCAAAACTGCTGAAGTTGGTCTTACATTGAGGAGAAATACCTTAAGCTACAGAATGACTGAAGGATTAGCCTCTACAAATACATTAAACTCCTTTAGAAATTTTACCTTGGAGTTAGGCAAAGAGAACTCAAAGTACTTAAACTAGGTGGAGTGAGGATGATGAGAAAATGACTTGGAAGAACGGGTTGGGGCTTGAATTTGGGTGCAACTGACTTCCAATAAATCAGGATTAGCCTCTACAAACAGCTTGGACCTTCATTGCCATTTCTCATACTCAGTAGCTTCTAGTTACTAAATTCTTATGACACTTTTTTTTCTTGTCAAAATATATACAGTGACGAGTCTGATTATTGATCAGGATTCTCTAATTTGTTTTTCCTAACCTTAAAACAATTTTCCTCGTATAATATTTTTATTCTTTGGTCTGTTCAGGTTTTGGTGATTGCTGTCTTGCTAAAGGTGATTATGAGACGTCGATTTTCCATTATTCAGGTTAGTATATTTCTTGTGCTATATTTGCGTGCTCTAGTTGTAATGTAACGGAGAGCTACATCCAATTATTTATGCAATACTGTTATTCGTATATTTATATAATCAAATATAGAAAGTTATTAGCTTCGGTTATGTATTACCTTATATTTGTTTGATATTTCTGCATTAGGTATTACTACTACTATTATTACTATTATTATTTGAGAAGAGGAGTTTCTAAGGTGGATTACATGAAGGTTATCCAGTTAGAAATCAAAGAAGATAAGTTATAATTGTTAAAAGGCAGGTATTATCATTATTACTACCATTTAAACAAGAAACCAAATCAGAAGACCAAAAAAGTAATTTTTAATTCAAATATGAAAAGCTACAGAATAAAGGCAGGTAGAGGATGTTGAGCTTAACGTCATCAACCATTACCTTTAATTGGGGTGATGGAATGGTGACGACCCTGCATGTTTCAACCATCAGTGTCATGAACTCTTTAGTAAAATTTTCTTTCAACAAAATGTTCCAACTGTCATTTGACAATTGGTTAGGGGATGTGGTTTAGATTCATTTGCTCTTCATTTCCTTAATGGATTGGTTGGTTTCTTCCAATATATTAGAAAAGAAAACCCTCTGCCGTTTGATCCTTCAAGTTATAAAATTCTTTTTTGGTGCTGACTCTTCTTATATTGAAGAAATATGGGAAATGAGAGGTGGGGGCGCCTTTCCAACCAACCATCTTCCATATGCACCAACCTGCCTTTCTTGTGCTTGAAGTAGAAGCTTCCATCGATTCAATTGTGATTACCACTAGTAAATGGCTTTTCTTGTCAACAAGAAACAAAATTTGTCATTAATGATAGAGAAGTAAAAAGGAGTAAAAAAGCGTTACAATTTTTATTTCTTATCTGAGAATGTTTTATACTAGTTTCTCATGCTTGTCTTCTCTCCCTCACCAATGAAGAGATTGTATTGAGAAACCTTTCACACAATTATTTTTTGATTTTGTGGTGGGTGATGGGAGTCACATAGAGTTTTGGGAGGATAGATAGTGTGCGCCCGACCTCTTGCTTCCTTGTACTGTGACATCTAACCTTATTTCTTCAAAAAAGAATGCTGTGGTGGCAGATTGTTGGGTTGATTCAAGTCAAGCTTGGGATCTTGGGTTGAGAAGGAGATCGATTGATAGAGAAATTGGTAATTATATTGCTCTGGCTCAGCTGCTAACTGATTGGGTGGTGAATAGAGCAAAGGTTTCTTCCAGTTCTCTACCAAGTTTGCTTTCCTCAAGCTGACCAAGAGGGCTACTAAAGTCAATCTACCTCCAGTCAATCTTATTTGGAAACCAAAAATTCCTAAAAACCAAAATTTTCCTTTGGTGCCTCATAGTAAGTATCAACACCCAGGAAAAGCTCCAGAGGAAGTTTCCTAATTGAAATCTCTCCCCTTCCATGTGCCCGGTTTGCCAGAAGTAAGCTGAAACTTTAGATCACCTTTTTTTACAATGTGAGTTAGCGTCTAAAGGGTGAAATAGGGTTTCTGAGACGTTTTGGGTTGGATCGGTGTCTCCCTTTGCGGATTCATGACTGAATGATGAAGGGTTTGTATGGGGGCGGCTTTAGTGAAAAGGAAAAATTTTATGAAGTTGTGCGACCCGTGCTCTCTTGTGGCATCTTTGGAATAAAAAAAATAGTAGGGTGTTCAATGATAAGTTTAGCTCTTTTGACTCTTTTTGGGCTCTTGTGCAGCATAAGGCCTCTTGGTGGCGTATAAACTACACTAAGTTATTTTGTAATTATAGCCTTCTCGTGATTATTAACAACTGGAAGGTGCTTATTGATTAGTTCTTTTTTCCTTTTTTTTTTTTGGGGGGGGGAGTTTTCAACCCCTCGCTCTTAGGTTGTTCTCTTCTTGTTGATTTTTATATTATATCTCTCTGTTTCTTATAAAAAGAAAAAAACAAAAATGGCAGAGTTCCTTGTCTTATTCCTGAAAGGCCTGAATATCCAATTAGGCTTACCATTGAAGAAAACAAAGAAGGTAACTGATATTTATTTTCTATTTGCCCCAGTGGGAAGCACTTGCGCTGTTGCTTATTGGAATAAGCGTAAATCAGTTGCGGTCATTACCTGAAGGCGCCCCTAATTTGGGTCTCACAGTTACCATGGGCGCATATGTCTACACTCTGATTTTTGTAAGTAGATCTTGTTTCATGGTTAGAATGTTAGTACCCTTACATTCAAGTTAGTTATTCTCCTATTGGTTTTTAAATATTTTCAAGTAACTTGAATCTCTTTTACAGGTAACCGTTCCATCTCTAGCTTCTGTTTATAACGAATATGCTTTGAAGAGCCAGTATGATACTAGCATCTATCTCCAGGTAATGCTACTATTGTGTTGTATTAAATTGAATCTGGAGGCGAAGCTGAGATCCATAAATTGGTATATTTTTTCTGTTTCATATGTTTTCTATTTAGAAAAGTAAGAATAGCTGTTCCTCATATCTGTAGTCGAGAAAGTATTTTGTCATGAACAGTTTCTGTTTGTTTAGAATTTGAGACAACAGATGTCAGATATTGAGGGGCAATTCCTTATTTCTTAGCTTCTTCTTTTTGATGTTGAAGCCATAGCATTCTATGCTTGTATAAACATTTTCTCTTAATGTTCATTATATCTGCTTAATAACTGAAACCCGTCTTCTGAATGGTGGACTCTGTATTGAATTGCAGAACTTGTTTTTATATGGATATGGTGCGATATTCAACTTCATGGGAATATTAGGAACGGTTATTATGAAAGGTAAGATATAAATCTCTAATAATTTCTTCCAGATGATGCTTCTTCAAGGTCTTGGATTTTTTCTGTAGATAATTCTTTTTAAAAAATTATATATATATATATATATATATTTTTTTTTTTTTTAATTTTTATTTTTGATACTGAGATGTTTGTAATATTGATCATGACGTGGTAGATGTAATTTCACGTTGAGTCCTTTTTTTTTACATAGATAATGTGTTCTTAACAGCGAGCAGGCCAATTCAAATATTGATTAGATATCATATGTGGCGATACTGCTAGTCATTCTCTATAGTTCTGGATGCTCTCATGTTAATTTATCTTTCATGAAATGTAGTTTGACACAAGCTTCATGATTTGCTCAGATTTTAGTACAGTATGTTACAAAGATTTTCTTTCCGACTTTCCAAGTTTATGATTCTCTCTCCTTTTTATTATTTTTATTTTTTTGGGTAAGCTTCATTATGATACTATGACATTGGACCTCGTGTTTTGGCCCTTTTGTATTCTTTGCTCTCTTCTCCTTCTCTTACTAAATTCTCTTCAGAATAGCTATTTTATAATGAACTAAGATGTTTGGTCTGTTTGGAATGTTCTTCTATCAAATGCTGCCAGTCCCCGTTATGCTTTTATTTCGGCTGCCTTCAATGTGATTGTATTAGCTCAACGGCATTTTAGAGCTCTAACTAGCTGTTGTCTGGCTTCTTGTATATTTCAGGTCCTAGCAGTTTTGATATACTCCAAGGTCATTCAAAAGCCACAATGCTACTAATAGCTAATAATGCAGCCCAAGGAATTCTATCCTCTTTCTTCTTTAAATATGCAGGTAAGCTAAAGCTTTTATAGGCTTCTCAGTACATTTTTTATCAGAGCATGCATTTTTCTTATTTAGAAAACTGTTTTAATGTCAAAAGTGGCTGGGCTGTTTTTGTCCATGGATCAATATCTCACACTTGTTTCTTGCAGATACAATTCTGAAGAAGTACTCCTCAACCGTTGCTACTATCTTTACGGGCATAGCGTCTGCAGCGTTGTTTGGTCATACTTTGACGATGAACTTTGTCTTGGGAATCTCTATAGTGTTCATCTCTATGCACCAGGTACTTCGAGGAAGGGATAACACTGACAAGTCTAAATATGCTATCAAAATATAATATGGACCGCTAATTCTTGATATTGTGTTTCAGTTCTTCTCACCCCTCTCAAAAGTCAAAGACGAGCAGAATGGGATGACAGAAATGGTGGATGTAGATAACCAACGGTAGGAACTTATTCATAGCTTGAGACTTCGATTTGATGTGGTTTCTTTTCACGGGGTTCATCTATATAATATTTAAAATTAAGAAAATCTCAGTCTAATGCTAGACCCCAATTGCTTTGAAAACTGCGAAGCCAATCTGATCTCTAGGGACCTGGTGACTGTTTTGTTTATTGGTGGAAAAACTGTTGGATTGTTTTTCTTTCTGAATATTTAAATTTTCGAGATTTTCCTTTTCAGGTCCAAGGGATCCTTCATAAATATAGCAGCAGGAGCGAATGATGAGGTGTGATATGGATGCTTCTCTTCTGAGTTTGTTTTCAAGATATTCTATGAAAAACCTCCAGAACAAAATGCTGAATGATTTTTTTTTTTCTGGGTTTGCAGGCCAGTCATCTTGTTGGTTCTGATGAGAGAAAGCCACTTCTTCCAACCTAAATATTTTCTGGACATGGTATTTTGATGCTTTGTCTTTCTCATTCCGTTCATAAAAATTCGTTATCATTTCTATTAAACTCCTTATGTTAGCAGAAAAAAAGGAGCAGCTCCAAATTCACAAACTAGCTAAGTTTACCAAGAAAGTTTTATTTGAATACCGATTCAATTTGTTAATGGTTGCCTACACCAATCTAATTTTGAACAAGCTTTTGATTTCTTAATTCAAGGAAGACAAACACCAAGAGTTCAATTTGCTATTTTAGTTGTAATGTACATGACATAATGGGCTTATTCCACAGGAGCTTTAATTTTTTTTTTTCCTTCCCATTATATACGCCGAGAATGTAAAACGGCATTCGTGCATTTTTCTGATTTGGCATTACAGGTTCTGTTTATTTCGTCAGCTCGACTTTGACATTAAATCACATAATGAACATCTGTTGCAGGATTTTGTAGGAAGTTTTGGCTGGATCATTGGACCATAGAAAGACGGGTGATGGGTCTCAACCTTTACGAATAAAATTCTTTTGATGAGGTCCTACAAGGTTTGAAAAATAGAGCATTCCTCATTCCTCAGGTTGGTTTGGATATGAAATTTTTGTTGCTACAGATTAGAATAGATAATAACATGGGTATCGTCATATACCAAGGTCTATACAGCCCTACCTTCATTTCAAGTTGTGGTTTTAGTAAAATGTATTATTATTCTTTACCCCAGATTGATTATAACTAATAATTTTTGTCTATTTCCTTCCAATATCTCAAATTTTTATGTATCCTTCCCCCACACTGAAAATGTAGTCTTACAATTCAGATCTATGGTAAAAAAGTAAACTCACTTTTTATCATACATATAATGGAAATGTTATATAGAGG AAAAAAGAAAAGAAAAGAAAATAGAGAGAGAGAGAAAGAGAGAGAAAGAGAGCTTTATTCTTTAACAACAAACGTTTCGCGCGATCTCTTTTTCTCCCAGTGAAATTTTCGCATATTCCTCAATCCTCCCATCTCTTAGCAATTCAAATTTCATAAAAGTTTCTTTTTCTTAGGTGTTGGATCTGCCCAACGAGTTTTGTTTGCGCTCGCTGGAATTCTCGTCGAGCTAATTTCTTCCTTCAATGCTCGCCTTTCGAGGCCTCTAGATCAGGTCTCTTGGATTTCATTCATTACGCAGCATTGGCCATTCTTTTCTGATATAGTCAGTCTGAGCAAGCTATAGTTTTGCGGTAGGCTGATGAAGAACGGAATGATAGAATGCAGTGTTTGTCACTCCAAGTTGGTTTCCCCCACCACCAAAGGTATATCGAGGGCATATGATCGACATAAGATCAGAGTATCATCTAAGCAACGAGCCTTAAACACCCTCTTGGTTGTAGGTGATTGTATCTTGGTTGGTTTGCAGCCTATTTTGGTTTATATGTCCAAGGTGGATGGCAAATTCATGTTCAGTCCAATTAGTGTTAACTTTTTGACCGAGATTGCGAAGGTTATCTTTGCTATTGTTATGCTGATAATCCAGGCTAGACATCAGAAAGTTGGGGAAAAACCTCTTCTCTCAATATCAACGTTTATGCAGGCAGCACGTAACAATGTGCTTCTTGCTGTGCCAGCATTTCTCTATGCAATAAATAATTACCTAAAGTTTACCATGCAGCTATATTTCAACCCTGCAACTGTGAAGATGCTTAGCAATTTAAAGGTTTTGGTGATTGCTGTCTTGCTAAAGGTGATTATGAGACGTCGATTTTCCATTATTCAGTGGGAAGCACTTGCGCTGTTGCTTATTGGAATAAGCGTAAATCAGTTGCGGTCATTACCTGAAGGCGCCCCTAATTTGGGTCTCACAGTTACCATGGGCGCATATGTCTACACTCTGATTTTTGTAACCGTTCCATCTCTAGCTTCTGTTTATAACGAATATGCTTTGAAGAGCCAGTATGATACTAGCATCTATCTCCAGAACTTGTTTTTATATGGATATGGTGCGATATTCAACTTCATGGGAATATTAGGAACGGTTATTATGAAAGGTCCTAGCAGTTTTGATATACTCCAAGGTCATTCAAAAGCCACAATGCTACTAATAGCTAATAATGCAGCCCAAGGAATTCTATCCTCTTTCTTCTTTAAATATGCAGATACAATTCTGAAGAAGTACTCCTCAACCGTTGCTACTATCTTTACGGGCATAGCGTCTGCAGCGTTGTTTGGTCATACTTTGACGATGAACTTTGTCTTGGGAATCTCTATAGTGTTCATCTCTATGCACCAGTTCTTCTCACCCCTCTCAAAAGTCAAAGACGAGCAGAATGGGATGACAGAAATGGTGGATGTAGATAACCAACGGTCCAAGGGATCCTTCATAAATATAGCAGCAGGAGCGAATGATGAGGCCAGTCATCTTGTTGGTTCTGATGAGAGAAAGCCACTTCTTCCAACCTAAATATTTTCTGGACATGGATTTTGTAGGAAGTTTTGGCTGGATCATTGGACCATAGAAAGACGGGTGATGGGTCTCAACCTTTACGAATAAAATTCTTTTGATGAGGTCCTACAAGGTTTGAAAAATAGAGCATTCCTCATTCCTCAGGTTGGTTTGGATATGAAATTTTTGTTGCTACAGATTAGAATAGATAATAACATGGGTATCGTCATATACCAAGGTCTATACAGCCCTACCTTCATTTCAAGTTGTGGTTTTAGTAAAATGTATTATTATTCTTTACCCCAGATTGATTATAACTAATAATTTTTGTCTATTTCCTTCCAATATCTCAAATTTTTATGTATCCTTCCCCCACACTGAAAATGTAGTCTTACAATTCAGATCTATGGTAAAAAAGTAAACTCACTTTTTATCATACATATAATGGAAATGTTATATAGAGG ATGAAGAACGGAATGATAGAATGCAGTGTTTGTCACTCCAAGTTGGTTTCCCCCACCACCAAAGGTATATCGAGGGCATATGATCGACATAAGATCAGAGTATCATCTAAGCAACGAGCCTTAAACACCCTCTTGGTTGTAGGTGATTGTATCTTGGTTGGTTTGCAGCCTATTTTGGTTTATATGTCCAAGGTGGATGGCAAATTCATGTTCAGTCCAATTAGTGTTAACTTTTTGACCGAGATTGCGAAGGTTATCTTTGCTATTGTTATGCTGATAATCCAGGCTAGACATCAGAAAGTTGGGGAAAAACCTCTTCTCTCAATATCAACGTTTATGCAGGCAGCACGTAACAATGTGCTTCTTGCTGTGCCAGCATTTCTCTATGCAATAAATAATTACCTAAAGTTTACCATGCAGCTATATTTCAACCCTGCAACTGTGAAGATGCTTAGCAATTTAAAGGTTTTGGTGATTGCTGTCTTGCTAAAGGTGATTATGAGACGTCGATTTTCCATTATTCAGTGGGAAGCACTTGCGCTGTTGCTTATTGGAATAAGCGTAAATCAGTTGCGGTCATTACCTGAAGGCGCCCCTAATTTGGGTCTCACAGTTACCATGGGCGCATATGTCTACACTCTGATTTTTGTAACCGTTCCATCTCTAGCTTCTGTTTATAACGAATATGCTTTGAAGAGCCAGTATGATACTAGCATCTATCTCCAGAACTTGTTTTTATATGGATATGGTGCGATATTCAACTTCATGGGAATATTAGGAACGGTTATTATGAAAGGTCCTAGCAGTTTTGATATACTCCAAGGTCATTCAAAAGCCACAATGCTACTAATAGCTAATAATGCAGCCCAAGGAATTCTATCCTCTTTCTTCTTTAAATATGCAGATACAATTCTGAAGAAGTACTCCTCAACCGTTGCTACTATCTTTACGGGCATAGCGTCTGCAGCGTTGTTTGGTCATACTTTGACGATGAACTTTGTCTTGGGAATCTCTATAGTGTTCATCTCTATGCACCAGTTCTTCTCACCCCTCTCAAAAGTCAAAGACGAGCAGAATGGGATGACAGAAATGGTGGATGTAGATAACCAACGGTCCAAGGGATCCTTCATAAATATAGCAGCAGGAGCGAATGATGAGGCCAGTCATCTTGTTGGTTCTGATGAGAGAAAGCCACTTCTTCCAACCTAA MKNGMIECSVCHSKLVSPTTKGISRAYDRHKIRVSSKQRALNTLLVVGDCILVGLQPILVYMSKVDGKFMFSPISVNFLTEIAKVIFAIVMLIIQARHQKVGEKPLLSISTFMQAARNNVLLAVPAFLYAINNYLKFTMQLYFNPATVKMLSNLKVLVIAVLLKVIMRRRFSIIQWEALALLLIGISVNQLRSLPEGAPNLGLTVTMGAYVYTLIFVTVPSLASVYNEYALKSQYDTSIYLQNLFLYGYGAIFNFMGILGTVIMKGPSSFDILQGHSKATMLLIANNAAQGILSSFFFKYADTILKKYSSTVATIFTGIASAALFGHTLTMNFVLGISIVFISMHQFFSPLSKVKDEQNGMTEMVDVDNQRSKGSFINIAAGANDEASHLVGSDERKPLLPT Homology
BLAST of IVF0003337 vs. ExPASy Swiss-Prot
Match: Q8GY97 (CMP-sialic acid transporter 2 OS=Arabidopsis thaliana OX=3702 GN=At2g43240 PE=2 SV=1) HSP 1 Score: 635.2 bits (1637), Expect = 5.1e-181 Identity = 341/405 (84.20%), Postives = 368/405 (90.86%), Query Frame = 0
BLAST of IVF0003337 vs. ExPASy Swiss-Prot
Match: Q9C5H6 (CMP-sialic acid transporter 3 OS=Arabidopsis thaliana OX=3702 GN=UTR6 PE=2 SV=1) HSP 1 Score: 634.8 bits (1636), Expect = 6.6e-181 Identity = 339/404 (83.91%), Postives = 367/404 (90.84%), Query Frame = 0
BLAST of IVF0003337 vs. ExPASy Swiss-Prot
Match: Q01IU9 (CMP-sialic acid transporter 4 OS=Oryza sativa subsp. indica OX=39946 GN=CSTLP4 PE=3 SV=1) HSP 1 Score: 612.1 bits (1577), Expect = 4.6e-174 Identity = 322/402 (80.10%), Postives = 360/402 (89.55%), Query Frame = 0
BLAST of IVF0003337 vs. ExPASy Swiss-Prot
Match: Q7X7C4 (CMP-sialic acid transporter 4 OS=Oryza sativa subsp. japonica OX=39947 GN=CSTLP4 PE=3 SV=2) HSP 1 Score: 610.5 bits (1573), Expect = 1.3e-173 Identity = 321/402 (79.85%), Postives = 360/402 (89.55%), Query Frame = 0
BLAST of IVF0003337 vs. ExPASy Swiss-Prot
Match: Q6K8S7 (CMP-sialic acid transporter 5 OS=Oryza sativa subsp. japonica OX=39947 GN=CSTLP5 PE=2 SV=1) HSP 1 Score: 599.7 bits (1545), Expect = 2.4e-170 Identity = 312/403 (77.42%), Postives = 359/403 (89.08%), Query Frame = 0
BLAST of IVF0003337 vs. ExPASy TrEMBL
Match: A0A1S3BE15 (CMP-sialic acid transporter 2 OS=Cucumis melo OX=3656 GN=LOC103488654 PE=3 SV=1) HSP 1 Score: 755.4 bits (1949), Expect = 1.2e-214 Identity = 402/402 (100.00%), Postives = 402/402 (100.00%), Query Frame = 0
BLAST of IVF0003337 vs. ExPASy TrEMBL
Match: A0A0A0KAX3 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G041200 PE=3 SV=1) HSP 1 Score: 754.6 bits (1947), Expect = 2.1e-214 Identity = 401/402 (99.75%), Postives = 402/402 (100.00%), Query Frame = 0
BLAST of IVF0003337 vs. ExPASy TrEMBL
Match: A0A6J1H548 (CMP-sialic acid transporter 2-like OS=Cucurbita moschata OX=3662 GN=LOC111460586 PE=3 SV=1) HSP 1 Score: 711.8 bits (1836), Expect = 1.6e-201 Identity = 378/402 (94.03%), Postives = 392/402 (97.51%), Query Frame = 0
BLAST of IVF0003337 vs. ExPASy TrEMBL
Match: A0A6J1DBF3 (CMP-sialic acid transporter 2 OS=Momordica charantia OX=3673 GN=LOC111018573 PE=3 SV=1) HSP 1 Score: 711.4 bits (1835), Expect = 2.1e-201 Identity = 380/402 (94.53%), Postives = 392/402 (97.51%), Query Frame = 0
BLAST of IVF0003337 vs. ExPASy TrEMBL
Match: A0A6J1KS23 (CMP-sialic acid transporter 2-like OS=Cucurbita maxima OX=3661 GN=LOC111498143 PE=3 SV=1) HSP 1 Score: 710.3 bits (1832), Expect = 4.6e-201 Identity = 377/402 (93.78%), Postives = 392/402 (97.51%), Query Frame = 0
BLAST of IVF0003337 vs. NCBI nr
Match: XP_008445696.1 (PREDICTED: CMP-sialic acid transporter 2 [Cucumis melo] >XP_008445697.1 PREDICTED: CMP-sialic acid transporter 2 [Cucumis melo] >XP_008445698.1 PREDICTED: CMP-sialic acid transporter 2 [Cucumis melo] >XP_008445700.1 PREDICTED: CMP-sialic acid transporter 2 [Cucumis melo]) HSP 1 Score: 755 bits (1949), Expect = 3.23e-274 Identity = 402/402 (100.00%), Postives = 402/402 (100.00%), Query Frame = 0
BLAST of IVF0003337 vs. NCBI nr
Match: XP_004140872.1 (CMP-sialic acid transporter 2 [Cucumis sativus] >XP_011656532.1 CMP-sialic acid transporter 2 [Cucumis sativus] >XP_011656533.1 CMP-sialic acid transporter 2 [Cucumis sativus] >XP_011656534.1 CMP-sialic acid transporter 2 [Cucumis sativus] >XP_031743410.1 CMP-sialic acid transporter 2 [Cucumis sativus] >XP_031743411.1 CMP-sialic acid transporter 2 [Cucumis sativus] >KGN45984.1 hypothetical protein Csa_005275 [Cucumis sativus]) HSP 1 Score: 754 bits (1947), Expect = 6.52e-274 Identity = 401/402 (99.75%), Postives = 402/402 (100.00%), Query Frame = 0
BLAST of IVF0003337 vs. NCBI nr
Match: XP_038885571.1 (CMP-sialic acid transporter 3-like [Benincasa hispida] >XP_038885572.1 CMP-sialic acid transporter 3-like [Benincasa hispida]) HSP 1 Score: 747 bits (1928), Expect = 5.12e-271 Identity = 396/402 (98.51%), Postives = 399/402 (99.25%), Query Frame = 0
BLAST of IVF0003337 vs. NCBI nr
Match: XP_022959535.1 (CMP-sialic acid transporter 2-like [Cucurbita moschata] >XP_022959536.1 CMP-sialic acid transporter 2-like [Cucurbita moschata] >KAG7025283.1 CMP-sialic acid transporter 2, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 711 bits (1836), Expect = 4.95e-257 Identity = 378/402 (94.03%), Postives = 392/402 (97.51%), Query Frame = 0
BLAST of IVF0003337 vs. NCBI nr
Match: XP_022150411.1 (CMP-sialic acid transporter 2 [Momordica charantia]) HSP 1 Score: 711 bits (1835), Expect = 7.30e-257 Identity = 380/402 (94.53%), Postives = 392/402 (97.51%), Query Frame = 0
BLAST of IVF0003337 vs. TAIR 10
Match: AT2G43240.1 (Nucleotide-sugar transporter family protein ) HSP 1 Score: 635.2 bits (1637), Expect = 3.6e-182 Identity = 341/405 (84.20%), Postives = 368/405 (90.86%), Query Frame = 0
BLAST of IVF0003337 vs. TAIR 10
Match: AT3G59360.1 (UDP-galactose transporter 6 ) HSP 1 Score: 634.8 bits (1636), Expect = 4.7e-182 Identity = 339/404 (83.91%), Postives = 367/404 (90.84%), Query Frame = 0
BLAST of IVF0003337 vs. TAIR 10
Match: AT3G59360.2 (UDP-galactose transporter 6 ) HSP 1 Score: 634.8 bits (1636), Expect = 4.7e-182 Identity = 339/404 (83.91%), Postives = 367/404 (90.84%), Query Frame = 0
BLAST of IVF0003337 vs. TAIR 10
Match: AT2G43240.2 (Nucleotide-sugar transporter family protein ) HSP 1 Score: 589.3 bits (1518), Expect = 2.3e-168 Identity = 324/405 (80.00%), Postives = 349/405 (86.17%), Query Frame = 0
BLAST of IVF0003337 vs. TAIR 10
Match: AT5G41760.1 (Nucleotide-sugar transporter family protein ) HSP 1 Score: 144.1 bits (362), Expect = 2.5e-34 Identity = 94/304 (30.92%), Postives = 167/304 (54.93%), 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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