IVF0026908 (gene) Melon (IVF77) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CTTTCAAGTCGCAATCAAAAGCGGACTCAACCGAGTCCACTTTCCACAAACACACCGAGTCAGAATCGGCTCTCAAACGCCGTCGTTTCATCTCCATCTCCATCTCCATCTCCATTCCCCCCTTTTCCTCCTTCCTCTATCCTCTGAAACCGCCTCCGAAGACCTAGATTCCTTTTTGTTTTTCGTCTTCTTTATCCTCAATCTCCATGTTTCATTCTCAGGTATCATGTAATTTACTCTCTCGGTTCCTTTATTCTCCTTATTCGGTTCCTCCCTCTACTTTTCTCTATTTATTTTGTGTTTTTCTGTTTTGAATTTGGGCTCTTTTTGTTGATTTTACATGTTTTACTTGATCTGTTGATGTTGTTATTTTTTAGGATCGTCTGTGCTTTGGTAATTTATTTTTAGTTTGTTTTGTGTGGAATATTATGTTTATTTAATTGTTTTTGGTTTCTTTTATGTTGAAGGATTTTGATGGTATGTTAGCTGGTTGAAAATAATTGGACTGATTTAGTAGCTGCAGAAAAATGGGGAAAAGGAGTGGTTTGTACATAATGACCGCTGACTGCAGACAACGGTATTTTCTTCTTGGATCTTGTTTTATTACCCTCTGATCAGACCATTTCAGTTTACAAATGTTTTGAAAAGTTATATATAAGCTGTTCTCGTTTGGTTTGATGAATGATAAGAAACAAGGTTCGTTGACTATGGTATTCCATGTCCAAAGCCCCTAAAAAGCTTAGAATTAGAGTCCAATAGGAGGCCATGAAAAATTGACTGTAGTCCTGGATTTTGTCAATTATTATTATTATTTTGTTATAAATAAGTTTTTCCCTGTAAGAGTAATTATTATTTCATTTTTGAAGCCATTTGTGATTCAGATTTTAGCTAATTTGGGGCTCCTTGTTGAAAGTTTTTTTCACTTTGCTTTGTATTTTCTTCTTCTTGTTTTGCTCGGGTTCTAGAGGGTCTTGTCCAACTCGTTGAAATATTATGTTCTCTCTTGTCTCGGTTTATGTTGTATCAGTTCTTTTAGTCCTTATTGCTCTTGGTATATGTCTCTTGTACTTTGAGCCTTAATCTCTTTTATTTATTTAATAAAGAGACTCGTTTCCGTTTAAAAAAATTGTTGAAAGTAGAACTAATTGATGAGAGTTACTGTTCTTCGTCTTCTTGTTCTTTTTTTGTTTTCACCTCAATGGTTCCTGGGCACATGCTCTTAATTTAATATTATTGTTATATCAGAACTTTAATTCTTCCATTGGAGTTTGTCTTTTATTTGATGATTTGTAGTGTTCTTAAAGTTCAAGGCCAATAGTCTTCTGGGGCTTAAGCCCAAGGTGCAAAAAGAATTTCTGTGCTTTTTTTTGTAAGGTGTACTAATATACAAGAACTGCATTTCGAAGAGAAAACATTGGTGTAGTGGAAACGAGAAAGAAAGACCCCTAAACACAAGATGTTTCACATTTAGGCTTAGTAAATTTGATTTAGTTAATAAAGAAGAAAACCCCCTAATTATTACTATTGTACAAAATGACGAAAAAACCCAAGGGGCAGGGCTCCGAGCCTTGGGGCTTCACAAAAGGAATGCTTTAATTTTGTGAGCCTCACCTTTTCAAGTCAAGGCACCAGATCTGGGCCTCGAGCTTAGGCGCGTGACAAGAGGGCTTTTTAAAACATTTAGACTTAGTTGGCTAATCCCTTATTATTTTGGATATATTCTTTATTTATGCCTTCTTTTGTCAAATGAAACCGATTAATGGGGGTTGACATGGCGCGTCTATGCCTTGAGTTGGTTCCTATTTCTTGATAAAAAACGTGGTCTATAGGGTTAATTGGGGTGTGCATGATGAAAGCAGTTGGAATCACTTTCATTAGTGGTGTTTTTGAGGCTTGTTGTGTGGATAATCCCTCACGAAATTATATTCAAACACTAACACTGGCAAAAGAGGAGAACTAGAGTTTGATTACAGAACACAAAATAACAGAAACTACAGCCAAATAAGAGGACGGCTCCACACACAAGTTGAACTACTGTACATACACAAAATTCCAGATAACTAAAATGTTTCATATTGACAAAGACACAAAGAGGCCAGTGGCATCCTATGCTACCATGCTATAGTAGAAGGGAAGAGAAAAAAGGTAGAAGGGTTATGATCATTAAGAAACTTGAAGCTGCCTTAGAAGCCTTCAAAATACCATACTGATGTAGCGGGCCAATTCCATGACCAAAAAAGGGAATCCATCCTAGAAGTAAAGAGGACTCTGTTGTATTTTGATCAATTGAAGAAATCTTTTGCAACTCCTTTGGTTTGAGTCGATTTCCTTCTTTTGTAATATATACATCAATAAAATTTGTTTCTTATAGAAAAACTAATTATCTAGCAACATCACGCAGTCCTATTCACAACAGATATATTAACTTGAAGAAATCCCATTACTGTGTAGTCAGAGAAGAAACAAGCCGTTCAATAACCTTGGTGCCACATTTATACATATTGCACAGAGGTTGCACAGGACAGAAATATATGGCCTTTTAACTTTCAATGAGAATGAGATCACCAATCTCTTACTTTCTGGTGGCCTAAGAGCGCCACGAATTTCTTAATGGTTCCCATTAGACTAGATTAATTCAAATTGAAATGGTCAATATTAATAGTGGAAAGTACTTTGTCTGTTTTGTTTTCGGTTATAATTATAGAACCAACCAGACTTTGAAAAGAAGGGAATAATGAAAAAATTAAAAGGTTGAAGAGAGATTGCCTTAAGCGAACCAATTGGGTTACTGAAGTGGTGCTAATAATAAAAGAAATATATTTACAATAGAACTATTTTAAGAGCACTTAAGTATTGTACAAGGAACGGGCACCTCTACAAAGATGGTGAAAAGACATAATCTTCATTTTCATCCAAGCATCTAAAGAATTTTTTTATGGATAAGACCTCTTGGTTTTGTTTGAAGTAGTTGACTAGAAATAATTGAGTCAAACCTTGGATGATGGAAAGGGGAGCATACTACTGAACATTAAAAGCATTAGAAAGATACCTTAGCAATTGAGGGCAATAGAAATATATGAAGAGGTGATCTTGAGATTATGTACTTCCAGGACAGATAGGGCAACAGTTGGGGGAAGTATTGCAATGGCGGGTTCCTTCTCTGCTACTGTTTCTTAGAGTATCAGTCCCATGGGGAGATTTCATTCATCCCAAAAGGGAAATGATCTTTGTGCTTCTTGTTTTCCATACTTTTCTGAACTTGATCTTGACTTGTATATATCTTCGTTATTGCTTATGAATTATGATGAATTATTTCGATACTGATTTGGAAGTGGTAAAGAGTTTTATTCTTCTATTGTCCAAACTATTTATTTAAAGCAGAGGATCTTATTTTTGTTTTGGAACCATATTTAGTTTGGACAGATGACACTCCAGTGTCCAATTTTGTAAGATCTGTGGATGGCTGGATCTTGAATCTATTATTCATTTTCTGGACTTGTTGAATGACTAGCAAAACAGAATTGAACAGATACAGAAATGGGTTTTGTATTTGTGAAGAGAATGGAAGAATTTGTGGAATTCGATTCTTGTAAATATCAGTGAACTGGACTGACCAAATCAGATGGAAGATATGAATGAGCAAAAACAGGAGAATAGTGTTCTTCGTTGATATTTCATCTACGCACTCATTTGGTAGCTGGATCATATATTCCATTGATCAGGCATTTGTGAAGCCAAGGAGCTGACAAAATGGTTCTTATAGAACAGAATCTCACCGTTCGTCTGCGGAAGGCTTTGAAGACCATTACAAAATTATTGTGTAGGGGAAGCATGAATCCATAGACAAGCTAAAAAATGATGCTGATGTTCTGGCTTATTATTAAGGAGCTATGAAGACAGTGATACCTTTCACATGAACATTATCCAAACTGCTCCATCTGCTGAAATTCACTTTATATTGACATTGGGAATTCTGGTTCAGGGAAGAAAGTTTGATATGACGAAGATTGTTTTTGTGTTTTTTGTGGGGTTGGACCCCATTTCTTTGAGGGGGTTTCTCTTGTGGGCTTGTTTTCTGTGTGCCCCTATATTCTTTCAATAAAAGTTATTTTTACTAAAAAAAAGACCGCTTTTGTGTTTTCTATTCTACAAGCTTTTGGAGCCGAACTATTTTTGTACTCTTATTGCTACTTTGCGTGCTCCTCTTTCAGATTCTCTTTTTCTCAAGTCTGCTCAAAGAAATATTAAAAACGAGATCTTTCTTGCCTCTTACTGAACACAGAAAAGTTGTTTGTTGAGGAGTTTCTATTCCTGCAATAATGTCATTTTACCATGGATTTATGAAATACAGAAAATTACCTTGAAAAATACTTGAAATTATTTTAATGATATTTCGAGTAAACTATAAACTCATGTGTCATGTTAACATATTTTCATCTTTTCCGTAATCTGATTTTATATTTTCTTTTGCTAGTCATTTGTTGTTCTCTGCTAATAGTTATTATCTGGAAGTTCTAAAATGTGCCAAGTAATTTTCTATAAGATATTGGTGCTCACCATTGGAGCATTATTGTAATTTTTCAGACTAAGAACAAGAATCTGCTAGTTAATAAATTGAAAGTTGAACAACTATTTGTTTTGCAGGGTTTATGAATTTTCTCAATTGCATGGCTTATCTAACCCCTGGATAGTGAAGAAGAGATTTGTAAATATTCTAATAGTTGATCTTTAGGATATAGTTTGTAGATAAGGATTGTTCTTGTAGATGAATATGGAAACAGAGTTAACTAAGGTTCTGCATAATGGCCAAAAGATTGTTGTGGGTTTGAAGAGGAAAAGGGCAAATCAAGGCACGGCACATGCTGGAGCTGGCTACAAAGCTTTTTTGTCCAAGTTTTCTTCATCTAGGAACAAACATGCCAAGTCCAGGAGACTTGATGACTGTGAAGTCAGTTGTGGGCCAAACTCAAGGAGATCTTTTCTTAGAAACTACAAAAATTTTAGTAGAAGTGGACTACCCCAGAGGTTTTTATATTACGAAGATGGGGATTGGGTAGATTACCCTCAAATAACTGTCAAGTTGATTAGGGAACAGTTTCAGATTAAAAATGCGGCAATTGAAGTTGAATTTAATGGTCGTCATTTGCTGCTAGATGCTTTGTATATGATACAAGTGGAACTGAAAACAGCTATCCAGCAGCACATTGCTTGGATTGATGACAATGATCGATGTTTCTTTCCAGAATTTTATTCTGGTGACAGTGCGATGCATCAGTACCATCCATATGAGCTGGAAGATGCTTCTGCTGTTGCATTATCAGGCCATACAGGAATGAGAGAGATCAATTTGCATCTTGAAATTGGATTAACTGAAGCAAATATTTCAAAATTGGAAGAGTATGTTGAAGAGTCAAATAGAGATACTAAGAAATCTAATATCAAAGAAAAAACTCGTGATATTGTTGGGGTTTTGGAAGAAGGCAGTGAAACTAGAAGTCAGAAACCAGTTGCTGAAACGCAGGAGGCTGTTGGAGGAATAAAAGAGATTGGTTGTTATTCGATGCCTCAAAATGAATTAATTCATTCAACTGTGAATTCGGATGATGTAAAAAATATGTTCTTAATGAGCATGGAATCTATTAAGAACATTGAAATACTTGAGGTGAAACGCTGGTCTAGTCCTTTAATGCAGGATCGACTGGATCTGTTTCATAAACAAATAGAGACAACCATGAAAAATTGTGGGAATGCCAATGTTCAGTATGGTTGGCTAGCTCTGAATAAGGATACTTTATCTGGTAGAATGCCATATGGTGGGGTAGGCCATTCTGGACTGAAGCCTACATCCTTATATGATGTTCGCCTTTCACCTTCAAGCTGCGCAAATCTTAGGTATGCATTTCATCTTTCATCTGTTAAATAATGTATGGAATTTAATGGTGGTTTATTGCGAGGTCAGCTAATAGGGCAATAGCCACCTTATTAGGATATATCTTTTTATTTTTCTGAGCTTTATGGATCTTTCAACCTTGCAAAGAATACCGTTGGTCGTGATTTTCTGGTATTTAAACTCACACCTCTGTTAAAAGAAATTACCTCCTCTCCCCTTCTACTTTTTTATTTCTTCATGTAATCTTTTTAAAAAATCATATTACGATCACCATAATACTGAAAGATGCAAAGGTTATGAACAAATGCAGTATGTTATTTTTTAGCTTTTGGTGTATGGATAACTCTTTTGTTCTGCTTTATTACTCCTGGAGATTGACATCTGCACTGGTTTAGTGCAAGCTATTGCGATGATGATGAAAAAGGGGTTAGATACATAGCATTCTGTCATGTCATATTGGGAAATGTGGAAGTTGTCGCTCCTGGATGTGGACCATATCATCCCAGCTCTGTAAACTTTGACAGTGGAGTAGACGACCTTCATAATCCAAGTCAATATTTAGTTTCCTATGTTAATATGAAAAGCCACATTTTTCCAGAGTATGTTGTAAGTTTCAAGATATCATCAAGTCCTCTTGAACGTGGTAAGTTCTCTTTTGGTTGCTATTGTTCAGTTCTTGTTTATGGGATGTTTTTCCTAATCTTTCATGCCGCATGTATCTTAAGGAAAAATTGGTACTGAACAGGATGCATGAATGCAATGTTTCTTTTTTTAAAATTATTATTACTATTTGTACATTAATTTATTTTTCCTCACTTCTCTCTCTACCCACCCTTTTCTTATTTGGGACGGGGAGACTTGTGGAGATCTAAGTTACTAACATACATATATTTTTTTTTCAAATTGATTCTGAAGGGCGACAGGACCAGTTGCAGTTAAATTGCTCTTCAATTGAATCAGTAAGCCACTTCTTATGGGCTCTAATATTACCTTCTATGTGGTGGGATTTTCTGAGGTTTTAATTTTATGATAATCAGGGAATTCTTGAGTGGTTTCATTGCCTCTTTTTTGTGTATGTATAATTATGAAAGCTTTTAATTATTCAGTGAGTTGAACTTAATTTTGGGCCGGCATAGATTTCCTAAGGTTGTCTCCAATCTCGTCCCAGCAACGCTTTTATTCCTGTTTGTAGTTGAGTTAATTTATTTCAATTTCCTCCCTGAACCACATTTTAGATTGTTCGTATTCACAATTTTTGGTTTGATGATGGCCAGAATAAGTTTTCTTTCCAACTCAATGAACATGTACGTAATACTTCAATATTTGGTGACCTGCCTTTAAGTATTTGTTGACTGTAATGGTTCTAACTCTTAGGTGCCTCCACTAGCCAAATTCCTTTTTTCTTTAGTTGTCGTATCAGAATGCTCTGTAATTATTTCAATTGGCTCATTACATAGCCTCCTGGGCAAGCCAGATTACTTGGTTCTTCATAGGAAGATCAAGGAAACAATCTTGTGTCATTGATGCCCTTAGAGTTAAAAGTGTGAGTTCTTCAGACCTTTGGATGCTGCATGGAACGATTCGTAAATTTGGAGCCCTTTTGCGGCCACAGGTTTAGAAGAAATGTAAAAGTTCTTTTAGTTGGGCAATAAAAGCTATACGGAGTATGGATGGGGATGAATCAAAGAGGAAGGGAAGAAAACTTTATTTGCGAAGTACCGTTGCTCTTGTTGGTTCTCCCCCCATTTCTTTGCAAGTTTTTACTATATCCATACAATTCTTTTCCCACAAAGGAAAGAGTTTTGTAATCAAAGGAATCCTCTTCGGACTACACACGATGCACATGAATAGTAGAAAAAGTTTGGGACTCTCAAATTGTTAAAGCAAGACCTAGATTGCTTGTTTTCCTTTCATCTTAATATTGAAGGAAGTCATTTACTTTTAGGAGGAGGATTGCGTGTCTTCGCCAGCTCCCAAAAAGAGATGCTCGGAAAAGCATGATCATGGATCTAGCTCTTTGAAGACTCCGAAGTCCCCCTGGATGCCTTTTCCAAGGTTGTTGAATGCCATTTCAAAAGACGTTTCTCTCAATGACATGAAATTGGTTTATGGTCATTATGGCTTATTTAGAGTAAGTGAAAGTGTCTATAAGTGCTTTCGTGTAAATTAATTTGCTTGGGGATAATCTTGATACTCCCCTTTTTTGGTTCTGTATTAGGAAAAGAAGATCAGCAGGGATGAATTCGTAAGAAGGTTGAGGTCCATTGTTGGGGATCAGTTACTGAGGTCTACGCTAACGAGTCTCCAGTGTAAGGTATGTTACACATGTGATTGTATCTCAGTTCTTGTATGGTGTAGTGCATTGTGTTGCCATGCGAAAGACTGGCTTTTGAATCTGGATCATGTGCAGATTGTCAACATTATATTTTACAGTTTTCTTTTTTATGTGAATTATATTTGTTTGATTAGAAGGATAGGAAATGTACTATATACGGGTGTCACAAAGGCTAGAAAAAGCTACAGTTTACAAGAGTTCCTTAACAATCCTCCCTCCCCCACCAAAAGCACACACATACCAAAGAGCATCAGTAAATGGGCAGATTTTTATTTTTATTCTATTAGTAATTTTTTATAAGGAACAATTTCATTGACAGTATGAAATTACAGAAGGGGGAGAACCCCTTATGGTGTGTTGTAAAGGCCTTGCTACAATTGTGCTATGTTTAGATTTTAGGGCTTGTACATCAAAACAGCATAGTGTTAATTCATATCTTAATCAAAATTTTCATCAATTTTGGGTACTACATCCATCCCCAATATAAGTCTACTAGAAGGAAGGACAGTGATTCCTGCCTTCGTAAGTAACTGATGTTATACATCTATTAGAAGGAAGGATAGCAATTCCTGCCTTCGTAATTGAATTTGAGTCCAAAATGGATGTATTGAAAGTGAAAAACGCCGAGAGCTAGCGTTTTTCTGTTGTCTAAGAAACAGTTGAAAGGTTAATAGTTGAGTTAACGTTTTAATCTCACATCCAACTAGGAAGTCCCTGAACCACTTCTATTATGTATCTTTGTCTTGTTCAGTACTCTATAGTCATATCCGCAGTGGGTGCAGATTTCTTTTTTCGGAATCTGTTCTTACGAATGCTATCTTCTACTCTTCACGTGGATGTTACCACAGACACACTTATTTCTAATTCTAAAATTGCTGGAAATTTATGAAATTTCTCTCAACTTGAATGGGCACACGTGTTACCCTTATAACGAACAATCTCCTCTTATAGGTCTTTGAAATGTATGAAATTTCACACAAAAGAAATGTTTTGGCTGCAGTCTGCTAGAGAGTCTTCTTCTTGTTTATGGTGTTTATGATCTTTATGGTAGTTGAGAGGAATAATAAATTCCATGAAAGAAATAATCTTCCCATTGTGTGTGTGAGCGATGCCACCTACCACAGGGTTTCTTCTCTTGTAATACCTGTAAAGATTTTAGATCTTCTGTAAGTTGGGTGTCGGTATTCTCTCTCTCATTTGTAATTTTATGTACAGTAAAATCTTTTATCTGGAAAAAGAAAAAGATTGCAAGCAAGTATGATCTTTGAAAACAAAATCAACAATGTCACTTTTATCATACAGGTCACTAAATGATGATCAGGCATGTCACCTCTTTTATCCGTTGGTTTGTAATTTTAAGATTACTATACTAAGACATTGACATTGTAAATTCTCACAATATAGAAATTAGCTTCACGAACTGCACCCCTACCTTTATCACATTTATGTTTGAATTTTGTCATGTTGCAGTTTTCTTTTAAATAGACATTAAGTAATCTCTTCTTGTTTCAGCCACCTCCGAAGTCTCCATGTACTTCAAAAGTTCCAAAGGAGGAAGAATGTTGAGGCTGTTGGTAAGAGTCTGTATTTAGGTGCTTTCCGTCATGGGGGTTACTAATGTACATGGTGTCTTACTCTTATTTTGCCTTTGAATTTGTCGACCTGATGTGTGACATCTCGATATAGGCTATATATAAGACAGTTCCTATTTCATATGTACCTCAGTTAATTGCTTATTTATGTATTCTCAGTCAATTGCTTCTATTCTTA CTTTCAAGTCGCAATCAAAAGCGGACTCAACCGAGTCCACTTTCCACAAACACACCGAGTCAGAATCGGCTCTCAAACGCCGTCGTTTCATCTCCATCTCCATCTCCATCTCCATTCCCCCCTTTTCCTCCTTCCTCTATCCTCTGAAACCGCCTCCGAAGACCTAGATTCCTTTTTGTTTTTCGTCTTCTTTATCCTCAATCTCCATGTTTCATTCTCAGGATTTTGATGGTATGTTAGCTGGTTGAAAATAATTGGACTGATTTAGTAGCTGCAGAAAAATGGGGAAAAGGAGTGGTTTGTACATAATGACCGCTGACTGCAGACAACGGTATTTTCTTCTTGGATCTTGTTTTATTACCCTCTGATCAGACCATTTCAGTTTACAAATGTTTTGAAAAGTTATATATAAGCTGTTCTCGTTTGGTTTGATGAATGATAAGAAACAAGGTTCGTTGACTATGGTATTCCATGTCCAAAGCCCCTAAAAAGCTTAGAATTAGAGTCCAATAGGAGGCCATGAAAAATTGACTGTAGTCCTGGATTTTGTCAATTATTATTATTATTTTGTTATAAATAAGTTTTTCCCTGTAAGAGTAATTATTATTTCATTTTTGAAGCCATTTGTGATTCAGATTTTAGCTAATTTGGGGCTCCTTGTTGAAAGTTTTTTTCACTTTGCTTTGTATTTTCTTCTTCTTGTTTTGCTCGGGTTCTAGAGGGTCTTGTCCAACTCGTTGAAATATTATGTTCTCTCTTGTCTCGGTTTATGTTGTATCAGTTCTTTTAGTCCTTATTGCTCTTGGTATATGTCTCTTGTACTTTGAGCCTTAATCTCTTTTATTTATTTAATAAAGAGACTCGTTTCCGTTTAAAAAAATTGTTGAAAGTAGAACTAATTGATGAGAGTTACTGTTCTTCGTCTTCTTGTTCTTTTTTTGTTTTCACCTCAATGGTTCCTGGGCACATGCTCTTAATTTAATATTATTGTTATATCAGAACTTTAATTCTTCCATTGGAGTTTGTCTTTTATTTGATGATTTGTAGTGTTCTTAAAGTTCAAGGCCAATAGTCTTCTGGGGCTTAAGCCCAAGGTGCAAAAAGAATTTCTGTGCTTTTTTTTGTAAGGTGTACTAATATACAAGAACTGCATTTCGAAGAGAAAACATTGGTGTAGTGGAAACGAGAAAGAAAGACCCCTAAACACAAGATGTTTCACATTTAGGCTTAGTAAATTTGATTTAGTTAATAAAGAAGAAAACCCCCTAATTATTACTATTGTACAAAATGACGAAAAAACCCAAGGGGCAGGGCTCCGAGCCTTGGGGCTTCACAAAAGGAATGCTTTAATTTTGTGAGCCTCACCTTTTCAAGTCAAGGCACCAGATCTGGGCCTCGAGCTTAGGCGCGTGACAAGAGGGCTTTTTAAAACATTTAGACTTAGTTGGCTAATCCCTTATTATTTTGGATATATTCTTTATTTATGCCTTCTTTTGTCAAATGAAACCGATTAATGGGGGTTGACATGGCGCGTCTATGCCTTGAGTTGGTTCCTATTTCTTGATAAAAAACGTGGTCTATAGGGTTAATTGGGGTGTGCATGATGAAAGCAGTTGGAATCACTTTCATTAGTGGTGTTTTTGAGGCTTGTTGTGTGGATAATCCCTCACGAAATTATATTCAAACACTAACACTGGCAAAAGAGGAGAACTAGAGTTTGATTACAGAACACAAAATAACAGAAACTACAGCCAAATAAGAGGACGGCTCCACACACAAGTTGAACTACTGTACATACACAAAATTCCAGATAACTAAAATGTTTCATATTGACAAAGACACAAAGAGGCCAGTGGCATCCTATGCTACCATGCTATAGTAGAAGGGAAGAGAAAAAAGGTAGAAGGGTTATGATCATTAAGAAACTTGAAGCTGCCTTAGAAGCCTTCAAAATACCATACTGATGTAGCGGGCCAATTCCATGACCAAAAAAGGGAATCCATCCTAGAAGTAAAGAGGACTCTGTTGTATTTTGATCAATTGAAGAAATCTTTTGCAACTCCTTTGGTTTGAGTCGATTTCCTTCTTTTGTAATATATACATCAATAAAATTTGTTTCTTATAGAAAAACTAATTATCTAGCAACATCACGCAGTCCTATTCACAACAGATATATTAACTTGAAGAAATCCCATTACTGTGTAGTCAGAGAAGAAACAAGCCGTTCAATAACCTTGGTGCCACATTTATACATATTGCACAGAGGTTGCACAGGACAGAAATATATGGCCTTTTAACTTTCAATGAGAATGAGATCACCAATCTCTTACTTTCTGGTGGCCTAAGAGCGCCACGAATTTCTTAATGGTTCCCATTAGACTAGATTAATTCAAATTGAAATGGTCAATATTAATAGTGGAAAGTACTTTGTCTGTTTTGTTTTCGGTTATAATTATAGAACCAACCAGACTTTGAAAAGAAGGGAATAATGAAAAAATTAAAAGGTTGAAGAGAGATTGCCTTAAGCGAACCAATTGGGTTACTGAAGTGGTGCTAATAATAAAAGAAATATATTTACAATAGAACTATTTTAAGAGCACTTAAGTATTGTACAAGGAACGGGCACCTCTACAAAGATGGTGAAAAGACATAATCTTCATTTTCATCCAAGCATCTAAAGAATTTTTTTATGGATAAGACCTCTTGGTTTTGTTTGAAGTAGTTGACTAGAAATAATTGAGTCAAACCTTGGATGATGGAAAGGGGAGCATACTACTGAACATTAAAAGCATTAGAAAGATACCTTAGCAATTGAGGGCAATAGAAATATATGAAGAGGTGATCTTGAGATTATGTACTTCCAGGACAGATAGGGCAACAGTTGGGGGAAGTATTGCAATGGCGGGTTCCTTCTCTGCTACTGTTTCTTAGAGTATCAGTCCCATGGGGAGATTTCATTCATCCCAAAAGGGAAATGATCTTTGTGCTTCTTGTTTTCCATACTTTTCTGAACTTGATCTTGACTTGTATATATCTTCGTTATTGCTTATGAATTATGATGAATTATTTCGATACTGATTTGGAAGTGGTAAAGAGTTTTATTCTTCTATTGTCCAAACTATTTATTTAAAGCAGAGGATCTTATTTTTGTTTTGGAACCATATTTAGTTTGGACAGATGACACTCCAGTGTCCAATTTTGTAAGATCTGTGGATGGCTGGATCTTGAATCTATTATTCATTTTCTGGACTTGTTGAATGACTAGCAAAACAGAATTGAACAGATACAGAAATGGGTTTTGTATTTGTGAAGAGAATGGAAGAATTTGTGGAATTCGATTCTTGTAAATATCAGTGAACTGGACTGACCAAATCAGATGGAAGATATGAATGAGCAAAAACAGGAGAATAGTGTTCTTCGTTGATATTTCATCTACGCACTCATTTGGTAGCTGGATCATATATTCCATTGATCAGGCATTTGTGAAGCCAAGGAGCTGACAAAATGGTTCTTATAGAACAGAATCTCACCGTTCGTCTGCGGAAGGCTTTGAAGACCATTACAAAATTATTGTGTAGGGGAAGCATGAATCCATAGACAAGCTAAAAAATGATGCTGATGTTCTGGCTTATTATTAAGGAGCTATGAAGACAGTGATACCTTTCACATGAACATTATCCAAACTGCTCCATCTGCTGAAATTCACTTTATATTGACATTGGGAATTCTGGTTCAGGGAAGAAAGTTTGATATGACGAAGATTGTTTTTGTGTTTTTTGTGGGGTTGGACCCCATTTCTTTGAGGGGGTTTCTCTTGTGGGCTTGTTTTCTGTGTGCCCCTATATTCTTTCAATAAAAGTTATTTTTACTAAAAAAAAGACCGCTTTTGTGTTTTCTATTCTACAAGCTTTTGGAGCCGAACTATTTTTGTACTCTTATTGCTACTTTGCGTGCTCCTCTTTCAGATTCTCTTTTTCTCAAGTCTGCTCAAAGAAATATTAAAAACGAGATCTTTCTTGCCTCTTACTGAACACAGAAAAGTTGTTTGTTGAGGAGTTTCTATTCCTGCAATAATGTCATTTTACCATGGATTTATGAAATACAGAAAATTACCTTGAAAAATACTTGAAATTATTTTAATGATATTTCGAGTAAACTATAAACTCATGTGTCATGTTAACATATTTTCATCTTTTCCGTAATCTGATTTTATATTTTCTTTTGCTAGTCATTTGTTGTTCTCTGCTAATAGTTATTATCTGGAAGTTCTAAAATGTGCCAAGTAATTTTCTATAAGATATTGGTGCTCACCATTGGAGCATTATTGTAATTTTTCAGACTAAGAACAAGAATCTGCTAGTTAATAAATTGAAAGTTGAACAACTATTTGTTTTGCAGGGTTTATGAATTTTCTCAATTGCATGGCTTATCTAACCCCTGGATAGTGAAGAAGAGATTTGTAAATATTCTAATAGTTGATCTTTAGGATATAGTTTGTAGATAAGGATTGTTCTTGTAGATGAATATGGAAACAGAGTTAACTAAGGTTCTGCATAATGGCCAAAAGATTGTTGTGGGTTTGAAGAGGAAAAGGGCAAATCAAGGCACGGCACATGCTGGAGCTGGCTACAAAGCTTTTTTGTCCAAGTTTTCTTCATCTAGGAACAAACATGCCAAGTCCAGGAGACTTGATGACTGTGAAGTCAGTTGTGGGCCAAACTCAAGGAGATCTTTTCTTAGAAACTACAAAAATTTTAGTAGAAGTGGACTACCCCAGAGGTTTTTATATTACGAAGATGGGGATTGGGTAGATTACCCTCAAATAACTGTCAAGTTGATTAGGGAACAGTTTCAGATTAAAAATGCGGCAATTGAAGTTGAATTTAATGGTCGTCATTTGCTGCTAGATGCTTTGTATATGATACAAGTGGAACTGAAAACAGCTATCCAGCAGCACATTGCTTGGATTGATGACAATGATCGATGTTTCTTTCCAGAATTTTATTCTGGTGACAGTGCGATGCATCAGTACCATCCATATGAGCTGGAAGATGCTTCTGCTGTTGCATTATCAGGCCATACAGGAATGAGAGAGATCAATTTGCATCTTGAAATTGGATTAACTGAAGCAAATATTTCAAAATTGGAAGAGTATGTTGAAGAGTCAAATAGAGATACTAAGAAATCTAATATCAAAGAAAAAACTCGTGATATTGTTGGGGTTTTGGAAGAAGGCAGTGAAACTAGAAGTCAGAAACCAGTTGCTGAAACGCAGGAGGCTGTTGGAGGAATAAAAGAGATTGGTTGTTATTCGATGCCTCAAAATGAATTAATTCATTCAACTGTGAATTCGGATGATGTAAAAAATATGTTCTTAATGAGCATGGAATCTATTAAGAACATTGAAATACTTGAGGTGAAACGCTGGTCTAGTCCTTTAATGCAGGATCGACTGGATCTGTTTCATAAACAAATAGAGACAACCATGAAAAATTGTGGGAATGCCAATGTTCAGTATGGTTGGCTAGCTCTGAATAAGGATACTTTATCTGGTAGAATGCCATATGGTGGGGTAGGCCATTCTGGACTGAAGCCTACATCCTTATATGATGTTCGCCTTTCACCTTCAAGCTGCGCAAATCTTAGTGCAAGCTATTGCGATGATGATGAAAAAGGGGTTAGATACATAGCATTCTGTCATGTCATATTGGGAAATGTGGAAGTTGTCGCTCCTGGATGTGGACCATATCATCCCAGCTCTGTAAACTTTGACAGTGGAGTAGACGACCTTCATAATCCAAGTCAATATTTAGTTTCCTATGTTAATATGAAAAGCCACATTTTTCCAGAGTATGTTGTAAGTTTCAAGATATCATCAAGTCCTCTTGAACGTGGGCGACAGGACCAGTTGCAGTTAAATTGCTCTTCAATTGAATCAGAGGAGGATTGCGTGTCTTCGCCAGCTCCCAAAAAGAGATGCTCGGAAAAGCATGATCATGGATCTAGCTCTTTGAAGACTCCGAAGTCCCCCTGGATGCCTTTTCCAAGGTTGTTGAATGCCATTTCAAAAGACGTTTCTCTCAATGACATGAAATTGGTTTATGGTCATTATGGCTTATTTAGAGAAAAGAAGATCAGCAGGGATGAATTCGTAAGAAGGTTGAGGTCCATTGTTGGGGATCAGTTACTGAGGTCTACGCTAACGAGTCTCCAGTGTAAGCCACCTCCGAAGTCTCCATGTACTTCAAAAGTTCCAAAGGAGGAAGAATGTTGAGGCTGTTGGTAAGAGTCTGTATTTAGGTGCTTTCCGTCATGGGGGTTACTAATGTACATGGTGTCTTACTCTTATTTTGCCTTTGAATTTGTCGACCTGATGTGTGACATCTCGATATAGGCTATATATAAGACAGTTCCTATTTCATATGTACCTCAGTTAATTGCTTATTTATGTATTCTCAGTCAATTGCTTCTATTCTTA ATGAATATGGAAACAGAGTTAACTAAGGTTCTGCATAATGGCCAAAAGATTGTTGTGGGTTTGAAGAGGAAAAGGGCAAATCAAGGCACGGCACATGCTGGAGCTGGCTACAAAGCTTTTTTGTCCAAGTTTTCTTCATCTAGGAACAAACATGCCAAGTCCAGGAGACTTGATGACTGTGAAGTCAGTTGTGGGCCAAACTCAAGGAGATCTTTTCTTAGAAACTACAAAAATTTTAGTAGAAGTGGACTACCCCAGAGGTTTTTATATTACGAAGATGGGGATTGGGTAGATTACCCTCAAATAACTGTCAAGTTGATTAGGGAACAGTTTCAGATTAAAAATGCGGCAATTGAAGTTGAATTTAATGGTCGTCATTTGCTGCTAGATGCTTTGTATATGATACAAGTGGAACTGAAAACAGCTATCCAGCAGCACATTGCTTGGATTGATGACAATGATCGATGTTTCTTTCCAGAATTTTATTCTGGTGACAGTGCGATGCATCAGTACCATCCATATGAGCTGGAAGATGCTTCTGCTGTTGCATTATCAGGCCATACAGGAATGAGAGAGATCAATTTGCATCTTGAAATTGGATTAACTGAAGCAAATATTTCAAAATTGGAAGAGTATGTTGAAGAGTCAAATAGAGATACTAAGAAATCTAATATCAAAGAAAAAACTCGTGATATTGTTGGGGTTTTGGAAGAAGGCAGTGAAACTAGAAGTCAGAAACCAGTTGCTGAAACGCAGGAGGCTGTTGGAGGAATAAAAGAGATTGGTTGTTATTCGATGCCTCAAAATGAATTAATTCATTCAACTGTGAATTCGGATGATGTAAAAAATATGTTCTTAATGAGCATGGAATCTATTAAGAACATTGAAATACTTGAGGTGAAACGCTGGTCTAGTCCTTTAATGCAGGATCGACTGGATCTGTTTCATAAACAAATAGAGACAACCATGAAAAATTGTGGGAATGCCAATGTTCAGTATGGTTGGCTAGCTCTGAATAAGGATACTTTATCTGGTAGAATGCCATATGGTGGGGTAGGCCATTCTGGACTGAAGCCTACATCCTTATATGATGTTCGCCTTTCACCTTCAAGCTGCGCAAATCTTAGTGCAAGCTATTGCGATGATGATGAAAAAGGGGTTAGATACATAGCATTCTGTCATGTCATATTGGGAAATGTGGAAGTTGTCGCTCCTGGATGTGGACCATATCATCCCAGCTCTGTAAACTTTGACAGTGGAGTAGACGACCTTCATAATCCAAGTCAATATTTAGTTTCCTATGTTAATATGAAAAGCCACATTTTTCCAGAGTATGTTGTAAGTTTCAAGATATCATCAAGTCCTCTTGAACGTGGGCGACAGGACCAGTTGCAGTTAAATTGCTCTTCAATTGAATCAGAGGAGGATTGCGTGTCTTCGCCAGCTCCCAAAAAGAGATGCTCGGAAAAGCATGATCATGGATCTAGCTCTTTGAAGACTCCGAAGTCCCCCTGGATGCCTTTTCCAAGGTTGTTGAATGCCATTTCAAAAGACGTTTCTCTCAATGACATGAAATTGGTTTATGGTCATTATGGCTTATTTAGAGAAAAGAAGATCAGCAGGGATGAATTCGTAAGAAGGTTGAGGTCCATTGTTGGGGATCAGTTACTGAGGTCTACGCTAACGAGTCTCCAGTGTAAGCCACCTCCGAAGTCTCCATGTACTTCAAAAGTTCCAAAGGAGGAAGAATGTTGA MNMETELTKVLHNGQKIVVGLKRKRANQGTAHAGAGYKAFLSKFSSSRNKHAKSRRLDDCEVSCGPNSRRSFLRNYKNFSRSGLPQRFLYYEDGDWVDYPQITVKLIREQFQIKNAAIEVEFNGRHLLLDALYMIQVELKTAIQQHIAWIDDNDRCFFPEFYSGDSAMHQYHPYELEDASAVALSGHTGMREINLHLEIGLTEANISKLEEYVEESNRDTKKSNIKEKTRDIVGVLEEGSETRSQKPVAETQEAVGGIKEIGCYSMPQNELIHSTVNSDDVKNMFLMSMESIKNIEILEVKRWSSPLMQDRLDLFHKQIETTMKNCGNANVQYGWLALNKDTLSGRMPYGGVGHSGLKPTSLYDVRLSPSSCANLSASYCDDDEKGVRYIAFCHVILGNVEVVAPGCGPYHPSSVNFDSGVDDLHNPSQYLVSYVNMKSHIFPEYVVSFKISSSPLERGRQDQLQLNCSSIESEEDCVSSPAPKKRCSEKHDHGSSSLKTPKSPWMPFPRLLNAISKDVSLNDMKLVYGHYGLFREKKISRDEFVRRLRSIVGDQLLRSTLTSLQCKPPPKSPCTSKVPKEEEC Homology
BLAST of IVF0026908 vs. ExPASy Swiss-Prot
Match: Q8RY59 (Inactive poly [ADP-ribose] polymerase RCD1 OS=Arabidopsis thaliana OX=3702 GN=RCD1 PE=1 SV=1) HSP 1 Score: 300.4 bits (768), Expect = 4.3e-80 Identity = 208/593 (35.08%), Postives = 322/593 (54.30%), Query Frame = 0
BLAST of IVF0026908 vs. ExPASy Swiss-Prot
Match: O82289 (Probable inactive poly [ADP-ribose] polymerase SRO1 OS=Arabidopsis thaliana OX=3702 GN=SRO1 PE=1 SV=2) HSP 1 Score: 282.0 bits (720), Expect = 1.6e-74 Identity = 191/575 (33.22%), Postives = 298/575 (51.83%), Query Frame = 0
BLAST of IVF0026908 vs. ExPASy Swiss-Prot
Match: Q9ZUD9 (Probable inactive poly [ADP-ribose] polymerase SRO2 OS=Arabidopsis thaliana OX=3702 GN=SRO2 PE=1 SV=1) HSP 1 Score: 140.2 bits (352), Expect = 7.4e-32 Identity = 82/239 (34.31%), Postives = 119/239 (49.79%), Query Frame = 0
BLAST of IVF0026908 vs. ExPASy Swiss-Prot
Match: Q9STU1 (Probable inactive poly [ADP-ribose] polymerase SRO4 OS=Arabidopsis thaliana OX=3702 GN=SRO4 PE=2 SV=2) HSP 1 Score: 126.3 bits (316), Expect = 1.1e-27 Identity = 95/339 (28.02%), Postives = 161/339 (47.49%), Query Frame = 0
BLAST of IVF0026908 vs. ExPASy Swiss-Prot
Match: Q9FJJ3 (Probable inactive poly [ADP-ribose] polymerase SRO5 OS=Arabidopsis thaliana OX=3702 GN=SRO5 PE=1 SV=1) HSP 1 Score: 113.2 bits (282), Expect = 9.7e-24 Identity = 76/248 (30.65%), Postives = 118/248 (47.58%), Query Frame = 0
BLAST of IVF0026908 vs. ExPASy TrEMBL
Match: A0A1S3CQK1 (inactive poly [ADP-ribose] polymerase RCD1 OS=Cucumis melo OX=3656 GN=LOC103503572 PE=4 SV=1) HSP 1 Score: 1178.7 bits (3048), Expect = 0.0e+00 Identity = 584/584 (100.00%), Postives = 584/584 (100.00%), Query Frame = 0
BLAST of IVF0026908 vs. ExPASy TrEMBL
Match: A0A5D3E6F2 (Inactive poly OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold455G004740 PE=4 SV=1) HSP 1 Score: 1142.9 bits (2955), Expect = 0.0e+00 Identity = 567/567 (100.00%), Postives = 567/567 (100.00%), Query Frame = 0
BLAST of IVF0026908 vs. ExPASy TrEMBL
Match: A0A0A0LE89 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G901000 PE=4 SV=1) HSP 1 Score: 1080.9 bits (2794), Expect = 0.0e+00 Identity = 544/584 (93.15%), Postives = 551/584 (94.35%), Query Frame = 0
BLAST of IVF0026908 vs. ExPASy TrEMBL
Match: A0A6J1HJF2 (inactive poly [ADP-ribose] polymerase RCD1-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111464106 PE=4 SV=1) HSP 1 Score: 923.3 bits (2385), Expect = 5.0e-265 Identity = 482/585 (82.39%), Postives = 504/585 (86.15%), Query Frame = 0
BLAST of IVF0026908 vs. ExPASy TrEMBL
Match: A0A6J1HW58 (inactive poly [ADP-ribose] polymerase RCD1-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111466819 PE=4 SV=1) HSP 1 Score: 921.4 bits (2380), Expect = 1.9e-264 Identity = 481/585 (82.22%), Postives = 502/585 (85.81%), Query Frame = 0
BLAST of IVF0026908 vs. NCBI nr
Match: XP_008466012.1 (PREDICTED: inactive poly [ADP-ribose] polymerase RCD1 [Cucumis melo]) HSP 1 Score: 1177 bits (3045), Expect = 0.0 Identity = 584/584 (100.00%), Postives = 584/584 (100.00%), Query Frame = 0
BLAST of IVF0026908 vs. NCBI nr
Match: KAA0038554.1 (inactive poly [Cucumis melo var. makuwa] >TYK31190.1 inactive poly [Cucumis melo var. makuwa]) HSP 1 Score: 1141 bits (2951), Expect = 0.0 Identity = 567/567 (100.00%), Postives = 567/567 (100.00%), Query Frame = 0
BLAST of IVF0026908 vs. NCBI nr
Match: XP_004136202.1 (inactive poly [ADP-ribose] polymerase RCD1 [Cucumis sativus] >XP_011652635.1 inactive poly [ADP-ribose] polymerase RCD1 [Cucumis sativus] >KAE8651426.1 hypothetical protein Csa_001310 [Cucumis sativus]) HSP 1 Score: 1080 bits (2792), Expect = 0.0 Identity = 544/584 (93.15%), Postives = 551/584 (94.35%), Query Frame = 0
BLAST of IVF0026908 vs. NCBI nr
Match: XP_038887800.1 (inactive poly [ADP-ribose] polymerase RCD1 [Benincasa hispida] >XP_038887802.1 inactive poly [ADP-ribose] polymerase RCD1 [Benincasa hispida]) HSP 1 Score: 1016 bits (2626), Expect = 0.0 Identity = 516/584 (88.36%), Postives = 534/584 (91.44%), Query Frame = 0
BLAST of IVF0026908 vs. NCBI nr
Match: XP_023553913.1 (inactive poly [ADP-ribose] polymerase RCD1-like [Cucurbita pepo subsp. pepo] >XP_023553914.1 inactive poly [ADP-ribose] polymerase RCD1-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 924 bits (2389), Expect = 0.0 Identity = 481/585 (82.22%), Postives = 505/585 (86.32%), Query Frame = 0
BLAST of IVF0026908 vs. TAIR 10
Match: AT1G32230.1 (WWE protein-protein interaction domain protein family ) HSP 1 Score: 300.4 bits (768), Expect = 3.1e-81 Identity = 208/593 (35.08%), Postives = 322/593 (54.30%), Query Frame = 0
BLAST of IVF0026908 vs. TAIR 10
Match: AT1G32230.2 (WWE protein-protein interaction domain protein family ) HSP 1 Score: 300.1 bits (767), Expect = 4.0e-81 Identity = 208/591 (35.19%), Postives = 319/591 (53.98%), Query Frame = 0
BLAST of IVF0026908 vs. TAIR 10
Match: AT1G32230.3 (WWE protein-protein interaction domain protein family ) HSP 1 Score: 298.1 bits (762), Expect = 1.5e-80 Identity = 206/585 (35.21%), Postives = 316/585 (54.02%), Query Frame = 0
BLAST of IVF0026908 vs. TAIR 10
Match: AT2G35510.1 (similar to RCD one 1 ) HSP 1 Score: 282.0 bits (720), Expect = 1.1e-75 Identity = 191/575 (33.22%), Postives = 298/575 (51.83%), Query Frame = 0
BLAST of IVF0026908 vs. TAIR 10
Match: AT1G23550.1 (similar to RCD one 2 ) HSP 1 Score: 140.2 bits (352), Expect = 5.3e-33 Identity = 82/239 (34.31%), Postives = 119/239 (49.79%), 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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