PI0002917 (gene) Melon (PI 482460) v1
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.GCGGTTTATAATTTTTAAAGTAGATGTGTCTGACAAAAAGTGTCAAAGCGGCGACATGCAGAGAAGAATTTTCAATTTTCGATCGCGGTATTCATCAAACCTTCAAAAGGATTTTTCCCTATTGATCTTCTCCCAAAAATTCTCAATTTTCCGACGAAATTGGGGATTAATTTTATTTTTAGATTATAATGAAACCAAACGCTTGGATTTTCCTGCCAATCGCGTTGATTTTGATTCAATCTCTAGTGTCAGCAGCTTCTTCATCTTCTTCTTCCGGATCACAGTCTTCCGATGAAGCTTATGTTACCCTTTTGTATGGCGATGAATTTCTTTTGGGTGTTCGAGTTCTTGGGAAATCGATTCGCGACACTGGCTCCAACAAGGACATGGTGGCCTTGATTTCTGATGGGGTTTCTGAGTATGCTAAGAGGCTATTAGAGGTTAGCTTCTAGTTTGCTTTTTGTTTCCAACAAATTCGAGCTATTACTACAACTTATCCATGAGTACTTTCTCTTTGTTTTTTTTTTCTTTCTTCTGAAAATTTTAGTCTTGAAGTTAAATTTGTTGGGTACTTCGAATTCAACCTATATGTTGATTTATTCTGCAAGTGTGTGGATCCTTATATAATTAGAGTAATTAGTGATCCTTTGAATGGAGATAAGGGAGTTTTCTTGAGCACTTTCCCCCCACTGGCCGATAATTTAATGGAAATGGGAGTATCTGCAATGAAAAATAGTTTAATAGTAGAAGTCTGTGGTGAACGCCTACTTAGAACATTCTAATTTTAAGTGTATTCTAACAATCAAATGTGTTGTGGAGTTGACAGGTCTGTCTTTGAGATTAGTTTAAGCGTGAACAAGGTATCCTAAACATTTACAAGTATTAAATTTAGAATTTTTTTTGAAATCGTTGAATTAAAATGCCTCCTCCTTGATCTGTCCGATGTGAATAATGGATGTATGATCTCATTTGATCTGATTTTCTTTAGAGTTCAGGTGTGCATGTCGTCTCTTGCCCTGTCTCTTCCTGATCGGTGTGGGCATGTTAAGTAGAATCATACCTAGAGGGGAGGAACATAATGTCCTTGAAGGTTACAAAGTTGGTAGGGATAGTTTGCAGTGAAAAGTCCTTTATTAACCTGAATACATTCAATAAAAACCCTTGGAAAGGCATCATTGAGGAGTTTCCTTGGTCCTCTCTTTTTGTTAGTTGCTCGGTTGTGGATGAGAGGAACGATTTTTTCTGGGAGGATAAGCAGTTGGGGGATAATCTCCTTTCCTCTTTGTTTCGTTGTTTATTCTAGTCATCCTTGATGATGAACCACTTGGTAGCAGTTGTTTTGATTTGTCTTAACTTATGTACTCTCGTTTGTTGAGGTTACAATGTGCTTTGTTCAATGGGAAAACATCAAACATTGTTGACCTTTTTTCTTTGCTTGGGGAATTTCACTGTAATCTTGGGAGAAGATATATTTGTACTTGGAACTGATGACCACCCAACATAAAGACGTCAGTGCTATGATCGTGGAGTTCCTCCTCAATCCACATTTTGGGAGGAAAGACGGTTTTCTATGGTGTGCTGGGGTGGGTGTGATCATCTGGATTTTGTGGGGTGATCATTTGGGTTTTTTGGGGTGAACGAGATAGGACATTGTCTAGGGATGTGGATAGCAATCCTTCTGATGTTTGGTCCGTTGTTTGTTTTTATGTTTCTCTTTGGGCTTCGATTTGGAAGGATTTGTGTAATTATCCTTTAGGCATTTTGTTGCATAGTTGATGCCCCTTCTTGTAGAGGGAGCTTCCCTTTTTGTGGGCTTGGTTTTTGTTTTCTCGTGTATTCTTTCATTTTTTTTCTCAATTGAGAGTTGTTTTCATTAGAAAAAAGAAAGAAAAAATATTCGTACTTGGAACCATCATCCATAGGAAGGGTTCTCATGTAAGTTATTTTATTGTTGTTTAGTTAATCCTTCTCCTTTGAGTGGTTTAGTCTTTGTCTCATTGTGAAAGGTAAAAATTCATAAGAAGGTCAACTTTTTTGTTTGGCATGTCTTCTGAGCAAGGTAGCACCTTGGATAGGTGTTGAGGAGGGTGCCAAACTTAGTGGATTCATTATTTTGTATTCTTTACATAAGGACAATAGAGGATCTGATCACATCTTTTGGGGTTGTGTTTTAGCTTACCTAGTCTAGAACTGGTCTAGGCTTGCCCAAGCAGGGTTGCAGAGAGGCTGCAAAGAGATGATCGAAGAGTTCCTTCTCCATCCTCTCTTTTGCGAGAAGGGAAGTTTTTTGTGGCAATCAACAGAGTGTGCCATTTTGTGGAGACTTTTAGGTGTGAGGAACAAGAGATCTCGAGTGAGGTTTGCTCCCTTTTTAGATTCTATGCGCCCTTATGGGCTTTACTTACAATTGTAATTATACGTTAGGTGTTATTTTTCTTGATTGTAGGCCGTTTTTGGAGTTTTCGTCCTTTTCTTGGGCTCTCATTTTGTATGTCTGTACTTTTTTTAATCTTTTCTTAATAGAAGTTATGTTATTCATCAAGAAGAATAAAGATTGAGTGCATGCATGCATGTGTTTCTGTATTCTATATTACAACGATTACTTTCCTGTTATAACATGTTTTACTGCTGGAAATAATTGTGCAGGCTGATGGATGGATAGTGGAGAAGATTAGTTTATTGGCAAATCCTAATCAAGTTCGTCCATCAAGATTTTGGGGTGTCTATACAAAGCTGAAAATATTTAACATGACTGACTATAGAAAAGGTAAACTTTGTGATCTTAATGTGCAGATCATACAAAATATAGTATTATAGTGTTCTTGTTGATAAAACTTTGATAAGGAAAGCTAAAATGTGGTGATTTTTGGCTGGATAATCATTGTACTTCTTGTGTGTCAGCTACCTTCAAAAGCAGTGTCCTGATGCTCTTTGTTTAATCTCTATTAAACTACTCTGCAGTGGTATATCTAGACGCAGATACAATTGTGTTGAAAAATATAGAAGATCTTTTCAAATGTAGCAAATTTTGTGCCAACTTGAAGCATTCTGAAAGGCTGAATTCTGGTGTTATGGTTGTGGAACCGTCTGAAACTATTTTCAACGACATGATGAGTAAAGTTAATACTTTGCCCTCTTACACAGGAGGTAGTTGATCCTCTTCCTAAATATTTTTATACTTTATGCTTCCTCTTATGGGTGATTATTAAATTTGCTGTTATATTGGAGAAGGATTCTAAATAGTTTTATTTTTTTTATTATTGGAGAAGGAAAAAAGGAAAAAAAAAAAGAAAAATTAAATTATAATTTTTGGTTGGGTAACTGGATGATGTAGAAGTTTCAAACTTTGACGAACACTTTTGTTTTAATTTACCAGGGGACCAAGGCTTTTTGAATTCATACTATTCGAATTTTCCCAATGCACATGTTTTTGAGCCAAACTTACCCCAAGAAGTGCTACATTCTAGACCAGCTCCAGAAATGGAACGACTTTCTACTCTTTATAATGCGGATGTTGGTCTTTACATGCTTGCTAACAAGGTATGTACTGACAATTTAAGTAGTTGTTTTACTTAACGTATATGCAGGAATTCTCGTTCCTCTCAAATGATGATTCATTCTTTACATTGCTCATTTTCCTTTTCAAATTTATTTAAAAGTTTTAGGTTTAGACCCTCATCCACTTAGTTAATGTAGCTGGGAAATACTTACTTTAAAGTTATTTAATTATGTTCAATAGTTTTCCTTTATCCCTTCCTTTATTGACTTCCACTTGCAATAGTTACCCTACTGTGACATCCAAACCAAGTATACAAGTCTAAATAACAAAATTATGAGGGTATAGGTAATGTCAAGAACCAAACAATTTTGAGCAATATTTAAATCTCTTTGATTATTGCTGCTGGTTAACCAACAAGCAAAAGGCTCCTATAGTAGACTTTTGGATTCCTACCACTTAAAGATGGGGCGTGGGCTTTCAAATATAGATCTAAAAGAGTTGGAGATATCCAAATGGTGTCTCTGACTCTAACAAACCTTCTTTCTGAAGTAGAGCTAAAGGAAGAGGTGGATTGATGGCTTTGGCTCCTCGATCCCTTTTGCGACATGCCATCAAAACTCTACCACTTTTTGATTAGTGACTTTGGGAAACAAAGGGACCTCCACTGTTTCTTAGAATATGGACAGAAAGCCTCCCTAGAAAGTAAAGTTCTTTCGTTTTGGAATCTCAACATAGTAGATCGATTACGAAGAAGGATGCCTTGTCTTTGTTCATACCCAAATTGGTTTGTTTATACTAAAGTCATTCAGATAGCTAAAATCACATTTTCATTGGTGTTTTGCACCGATGCTTTTACACATTTCTTTTAGGCTTTGTAAAGGAAACTTTGGGTTGAATCTTTACCTCCCCGGCAAAAGCTCAAGATTTGTTTATGTGTTTACTGCGGGATACCCTTTCAAAGAAGAGAACAGGGTCCTTTGGCACTATATCATCAAGCTTTCTTCTACCCACACTTTCAGATCTCTGTGTGCACTTTTATCTTTCATTCCTTTGCCTAGCAAAACTCCCCTCTACAGAGAGGATCTCTTGGAAATTTCTTTGGTCAGATATCAACATGGCATTTGCCTCATTAAATAGGATATATCTCTGAATTTACACGTTCAATTTGTATCTTTGCATTTTGAACTTTGTATCTTGAACAATAGTCCCTTTTCATTATATCAATTAAAATTTTGTTTCCATTTGAAAAGAAAAAGGATATGGTGAAGTGTCCTAAAACAACATAACAAAGCCCTCCTTGCAAAGGAGAAGACATATAGAAAAGGAAGCTTTAAGGACGAAAGTTATAGTGCCAAACTGTCTGACGTCCAAATTTTGAAGCATATGACATGGTCAAGTGGGCCTTATAAAGTGGGCAAGGAGTGCACTCGAGGCTGACATGAGGTTAGCCCAGACACATGCCCAAGGTATCGAGGCATGTGGAAAGGTGCACGACAAGCTAATAGGAGGGTAGTGTGACATAGGGCATGATGTGCTAAGAGGTTAGCATGGTACTTGATGTGCAGATGGCACACGTGAGAGTGCCGAAGTGTGCGCTCATAGGCCCGCAACACAAGCAGGCACGCGCACCACGAAAGCACAAACCTCACAAGCACTTTAGGCGCACATGCAGTGCATAGGCAACATCAAGTACATGCGTGGTTCAAATGGGCGGCATCACACTTGGGGGGAGTGCTGGGAGCACATAGCGCCAAAGTGTCATGGGCGTGCTGATGTAATCAATTCAAGAATACAAGAATACTGAGTTTTTTCATTGATAATTCCTTCATAAGGGAGGCCAAGAGGCCTTATTTATACAGAAAGGAAGGCTGACGGTTAGCTAGCTAAACAGAAATTAAAGTTAATAACTAATTAACAGGAGCTAACTAATTGCAAACTGCTAATTAACAAACAGAAGATTAAAACCAACTAACTGTTAACTAAATAACAAACAATTAGTTGTAACTTCCTACATCACATGCTTTAGAAAGTAAGCGACAAGGCAACACACATGTGCGTAGGAAGTGCAGCCTTGGTGCAATCTGGCATAAGCGATCAAGTAGGTTACTTAGGTGCAAGGAAAAAGCAGTCTAGTATGAGTAAAAGTGCAACCCAACAACCTTGGAAGTTGGCTTTCGAATACATGATATGTGACAAGTATTTTTGAGAGGCACTAGAGGTTGAAGATTACCGCTAAGTGAACTTGTCCAACACATGCTAATAGGAACGCTTGAAAGAGTGGTGAAGTGGTGCAACTACGTGGGTGAGCGGCTAGCGAAACTGATGGCAAGATGAGTGGTAGCCTCCAAGATGAGTGGTTACTCTTGATCTGCCCTAGATCATGGGTAGTCAACTATAAATCATAGAGTTAATGCCTAGATCATGGGCAGTTAGTTGGGGATAGTGGATGAGTGGGTAGTTGTCCACGTAGTGGGCAATTACCAAGTTAGTAGAAGAGTGGAGTAACACCTTGGATGTGGATGGTTACTCATTAGTGGGTCATGATCGTGGGCTAGGTGCCTAAAATATAGGGTAGTTACTCGGTCATGGAGAGTGGACTCTTAAATTCAAGGGAAGTGGGTGATTAGCCACCTCCACTAACCCACTCCCCTTGCATTTCTCTTCCAACCTAAGATTTAAGAAGCATAGACATGGATATGGATACATGATATGGATACGATAGAATATAGATACAATAGAATATGACGATACGCCAATTTCTAAGAAACTAAGATACGGATACATTGAAGATACACTATTTTATATCTGTGTGTGTGTGTGTGTGTATGATACTGATACGTTGAAGATACGTTTGCCCATTTAATTGTTATAATACTTACTTTAAGTTAGATTAAAGTAGAAGGAGAGAGTGAAAACTTGAAAAAAAAAGTCCAGCACATCGGGTGGTGGTTGAGCCATTAGAGCAGATGGTAAGAAAGAACTAGAAGATGAATGTTGAAGATGAATGTTGAAGAATGAAGTTGAGGATTAAGGAGGTGAATCATGATTTAGATAGTGAGAGAGATGAAAGATTTAGTTATGTTCGGGCTTTTTACTTTTAATGTTTTTATTATTTTTTATTCTTATCATTTTTAATCTATTTTGTTTGGATTGCTAGATTTAAGTGGTCTTTTAACTAAAATGGGTTGTGGGTTGGGCTTAAATTTGAAAAAAAAATTGACCCAACGTACCCTCTTCACGTATTTGGAAGTAGATGTATCTGAAAAATAAAAAAACAAAAAAATCAGATACTTCAAGTTATGTATCTGGATGTATCCATATCTTATACGTATCTGATATCAATTCTCTGCACCATTAGAAGTATTTGTGCTGCCTAGCTCTCAACCACTTCTCATCCACGCCTATAAAAGGAAGAGCTTGGGGATTGTCCAAATCATGTCCTTTGAGGTGGAAAATCTTGTGAGACACTTTGTATTTCCTTCGAGTCTTGTAAGCATTACTAGTGACTTGATAGTGTGAATGACTAATTTGTGTATTGCTTTATCAATAAAGTTACATAGGCGACATTGCCACCAAAGTTGTGTTCTCTTCTTATCCTGCTTATTCAAGTTTCTGAGAATCAAGTGTAAAATGCCCTTATCTGAGTTATCGTTTCTGAGTGTTTGTTCGGCACAAAGTAAGGTTATACTAAGGAAAACCTCCTTAGTCCACACTGGTTGAACGCAAAAGATTCATTAATGAATTCTACCCACGACGCATGGTATGGAGTCTATCCTTTTGATATTAAGCTTGGAAGAGACCCTTGGAATTTTGTTTGACACCAGCAGGAGCTTAAACATTTTGTGTAAGGTTGACAATAGATTTTTACATAATTCTAAAATGTCTCTTGGCATGGTCATAATTTTTTTGATTGAAATAAACGGCTCTCATTGAGAAAAAAATGAAAGAATGCACAGGTGGATAAAAAACCAAGCCCACAAAAAACAGGGGACCTGATGTATTTAGTTAGTTTTATTCCTTGACTTTTCTTACTTAATTACCTATTACCTACTGTGCTGGTTTTCTTTGACTCGTTGACTTGTTTAAATATTAGCAGTTATTATTTTTACAGCAGATTAATAATACAAAAATTCTAGTTTCTTGTTACGTGTTAATTTCTCCAAGAACACACATCAGGACCCCACTACAGGAAGGGGCCTAGCTATACAAAGTCATGTCAAGAGGATAATTACAAAAAGTCTTCGAAATTGAAGCCCAAAGAGAAACATGATACCAAATGACCGACCAAATCTCGCCACTCTCCCTTTCAACTCCCCTAAACTATTCCTCTCATCCCACAAAACCCACAAGATGGCACAAACACAAACACGCCCATCTAAAGAATGACAATACAACTGTCATGGGAAAAGAATGAAAAAAAATACAAAGCATGCAAAAAAGGCTAAGCCCAACTAAAGAAAGTAGCTCCAGCTATACCTTGTACCTAAGGAATAACTACAAAAGATATTCGAAATCGAAATCTGAAAGGGAACCTGAAATTTAATGAAGGGCCCAATATCACTAGAATCTCTCTCCAACTCTCTAAACACTTTTTTTTATTCCACTCATGTCTCTCCCAAAGATCCCACAAAATAGCACCCCCTTGCAAGCCAAGCCACAATAATTGGCCCTTCTCACGTAAGGGCTGATGGAGGAGGAATTCCCTGATCGTGTCAATAGCGTCCTTGTGCTCAGGTGATCCATTGAAACTTCATTTCCCATTAAAAAGTAAAAGTATGGAAAACTAGATGACTTTTCTTACTCTGGTGCTCAGGTGAAGTTAAAATGATGTTTGATTGGAAGGAAATTTTGTACTTTTGGATGATTCATGAATTTGAAGAAGCAGCCAACATTAATAAAGAAAGGGTTTAGGGTTGTTTGATTCTACAGGTTTTGAATGATCAGACCTTTGCAATAATGATTCTAATGGCTCTTTTTACTACTTTCATTACAACTCCCCTTGTCATTGCTGTATACAAGCTGACAAGGAGTACCAAAATAACCGAATCTAAACACAGGAAAATCGAACGGAAAAACAAGACTATACAGCTTTGGATGTTGACCTGTTTCATAGTGCAAGAAACATTCCATCGAGTAAAAATCTGCTCGAAGCCTTGAGAGGAACTGAGAAGGGAGAAGAACTTTGTGTATATCCAATGCATATCTTGGAGATGTCTGGGAGGTCCTCAGGCATTTTAATGGTAGGAAAAATGGTTTGCCTTTCTGGAATAAGGGCCAGAGGTCAGATTCCAACCACATTGTTGTTGCGTTTGAAGCTTACCAACAACTAAGAGATATTCATCCAACGGATGATGGCAATTTCCTCCATGTCTGATATACATGAAGACATTTGCGCCACAGTTGAGAACTTGAGAAGAAAAGAACTGCAATCATAATTCTTCCATTCCACAAGCACCGGAAGATGGATGGTTCGCTGGAGACTACTCGACGCAACATCCATATTGTTAATCAAAATGTTCTCGAGCATGTTCCATGTTCGGTTGGAATTTTTGTGGATCGTGGTTTGGGTGGAACAACCCATTTTTCGTCGAGCAATGTTTCACTTTTCATCAGTGTTCTATTCTTCGGTGGTGGAGATGATCGTGAAGCACTTTCTTATGGCGGTTGTATGGCCGAGCACCCTGGCATTAGGTTGATGGTTATTCGTTTCTTTGTTGAGCTTGTTGGGGAGATAGTCAGTGCTGATACTGTTGGGAATTCTTCTGCAAAGACGGTTTCTCTGGATGATGAATTTCTGTCCGAGTTCAGGCTCAATGCGAAAGAATGATTCCATCACTTATGTAGAGAAACCATATAACTGCTGCTGAAGCAATGGATACGGTACAAGAGCCTGAAACACTGAAATTTGTATCTCGTTGGTCGAACACCGGAGCTCAATTCAAGCATTGTCTTAAACAGAATAGACTGTCCGGAGCTTGGTCCAGTTGGGAACCTACTGACTTCGCCAAACTTTCCGATTACAGCTTTGGTTTTGGTAGTGCAGCAATATTGTTCCGAGTTAACAGTGCTGCAGATTCTGCTGATGGAAAATCAGAATCAGCATAACTAGTGTGTTGATTTCAGGAGAGAATAAAAACCAGACAGTTTACATTCTTCAGTTGCAGATAGGATAGCAACATCTTTGTGAATCGTAGTGTTAGATTTCCTAATTGTCTGCTTTTTTGTTTTTAGTCTCAAATTAATGAAGAAACATTGGAAACATTTATTATTGATGATGCTTGCAGCCATAAAAGGATTGATGTTTCGCTTCCCAAGTAAAATGTTAAGAAGTTATTCTCCTTGCTCCCAAGTCCCAGGGGGCATTAAAGGGATAAATATTTGATGGTTTACCATAGAAAAAGCAAAAGAATAGCAAATCAAATGGAAAATTTAAATGGAACCACGTGGAGTGGGATTTAGATGATAATTTATTTGGAGATTCATTTAGGGGCCGTTTGGGGCACCAACTAGAACATGGTGGGGTGGGTTATTTACCCACCCCTGGTTTGGGGCACTAACAAAAATAGTGGTGTGAACAACTATTTATATCCTATAATTGAGTAGCAAATACTATTTCAAAATCCTCTTTGGTACAATATTTATTATTTGCTAGAGTATTTACTATTTTTTACTCATCTTCTCTTTTTTGTTTTTTTTTTTTGAAACAGAGACAAACATCTTTATTAATAATAGACTCAAAGTACAAGAGAATTATACAGTGAGAGTTACTATTTTTTACTCATCTTCTCTTTCCTTTTTTGTTATAGTGTTTACTATTTCTACCCAAACAAAAATAATTTACACTCAAAACACAAACTATTTTGACCCCAACCCTAATAGTCTCCATCTCAAACTCTAACTATTATAACCCACCATTGACTATAATAACCAACTTTTCGCCCTAATTCCTACGTGAGTGTGAACTTTGGTGATTCGAGAATTTCTTAGGGCTTGTTTGGTAGAGAACCCAAATTCTGTTTTTTGTTTTTAAATTTACTGAGTTCAACAGATATACATTTGATAGGCAACCCAAGTTTTGTTTTTGAAAATTGTTTTCGGATTTCGTGATCCACACTTTGCAAATTTTGAAAACAACATTTTTGCGTTTTGGACTTCTTTCCACTTCCTTTGTGTTCAATGGACAATTATTCAAGATAGAAAGGAAAGATCCTATGTCTAAACTTCATTAGGATTCTTGGTAGTCTAATGGGCTTGAGCACAACTCTTGTACTTTCAGATAAGGAACAATAAACAAGATGCCCAATCTTTTTTCACTGCGATTACTTTCTTGTGCCTATCATGGTGTAAATTAAGTGCGCCCTTTTGTACTTCTAGTTTTCCTACTCTAATAATCAAGTTGAAGTGCTTTTCTTTATGATTTTTTTTTTATAATTCCGTGGATAAATCTCATTCGTTTATGATTTCATTTTATCAATATTGTGTGCATACACACACACACACACACACACACGCATAGTACTTAGTCTTGAGGTTTAATCTATGAATACTTGCCATGAGAATAATTTGTACCTTTTATTCTTGCTTTCCGTGAACTATTAATGAAGAGTGTCATCCTGTTTGAGATATTGTTAATTGAGGCTTTCTTTTATGCATTCATTTTCAACCATTAGGCTAGACCTTAAAACTCCCTCATTATATTCTTACATGACATATTTAGGAAAATTCTCTCACTACATTTTTATTCCAATCTGTGAAAAGAACTGCACTCTTAATATTGGCCATATTTATGTTTGTTCTTTGAAGTAGAATTCCTTGGATTGAGAAAGCACTTTTATTTTTCCCCTTGATCTATATCAGTTCCTGCAATCTTATTTGAGCAATGTATATTTTTGCAGTGGATGGTAGATGAGAGTGAACTCCGGGTTATCCACTATACACTGGGCCCCCTCAAACCTTGGGACTGGTGGACATCTTGGCTTTTAAAACCTGTTGATATCTGGCAGGTCTCTCTCAATTTTACTTTATAGGTTCTTTTATTTCTATGCTGTTTATGTTCCACGTATGGTTTATCATGCGTCATAGTGTTGCACATCTGCAAGGATACACTAAACTATTGTTTCCATGTTAACAGTGCATGAGTCCAGCAGCCGAGTTTGACTACTGATATAGTTGTATCTGTTTGTGCATTTTTGTCTGGTTTAGGAGTGTAGTATTTTGTACCACTCGTAAGTCGTAACCTTTTTCTTTTGTTTGAGCTGATTGCAGAATGTCAGGGAAAGATTACAAGACTCCCTTCCTGGAACTGGTGGGGGTAGAAACCCTAATGATGATCTTATTGTCAAAATTCTTGTTCTTCTTCCTCTTGTTGCATTAATCTTCTATTCTTATCAATCTTGTCTTCAGGTAAGGAACATGGTAAATTATCTTCAAATAGTTTTTGCAAGGATAGGATTAGTCATGATCTAAATATGCTCTTCTACTTCTGTCAGACACGGTGGTACTCTAATACATCATGGAGAAGCTTGTTATGCGATCAAGCCAGGCATCTATACTACAAAATAAAGTCTGTTGGAACAATTAATTATACTGGTCTTTCTACACTAAACGCTGTTAATTTGAACTATCAGGCAAGTTTCCTTTCTGTCCTCTTAGTCTCTATTTAAGTAAGCATGTTACAATCATACTAAACATATTAAAGTCTAGAATAATATGCCTCTTTTATTTCATCTTCTTGAAGTTTATATCTTGTTTTGATTATAAGTTCCCGTGATATGATGTGCAGTCCAAGATACCTGTTTTTTTGGGTGGAATATCAATCTTCGTCTGTTTTCTTGCTGCTGTAATTTCCCTTGCTCTTGCGTTTGCGATTGTGCCGAGGCAAGTGATGCCATGGACTGGCTTGCTGTTGATGTATGAGTGGATATTCACAATTTTCATTCTATTATTTGGAAGCTATCTCCATTTTATTTTCAAATGGGGTAAATCAATGGCGACCCAAGCAGGATCCTTCTCTGATTCTGAGTCGTTTGATTATTCTGCTAAAGGTTTGCTTTAATACTTTGCTGCACCCCAATTTCTAATGTGTAGTAGTGCAACCGACTGAATATTGTTGATTTGTAATTTCTGAGATGTGTTTCTTTCTCTTGTATATTAGATCATCAGTGGCAGGCATCAAGCAGTGACGTTGCCACATGGTTTTATGGTCTAGGGATGGCATTCTTGGCTGTTATTGCTCCAACTTTGCCTTGTATTTTGGGTGTCACTGCTCTGTTTTTGAGGTAATTTACTTTACAAACAGTAACAATGTTCAGAATCAGCTGGTTTTGTTTGAAAATTTAACTCATAAAGTTTGCTTTTCGTATCATAGGTTTGCATTTTCTTGTAATGCAGAAGAAACTTGGATAAGACTATAAAAATATGCGTTCCATGAATGTCTTTCTAGTTTCTGAAGTTCAGAAAATTTCTAAGCTTCATTAAATGAATAATATGACACTAAACTCAATTTATTTTTCTTGATTACTTTATTCAAGATATTTTTCTTAATTGGAGTGTTTTTGTTTTTCTATGTAACCATGTATTCACTAGTTTTAGCAAGCGGATCTGTTTTATATTGGGATGTGATGAGGGTGCTAAGGATGTGTCAACCGAATTGAGATATCCGTGTGCATTTATTGATCCTTAGATTCTAAGTTTTGTTGTATTTTTGCTCATTTGCTTATTGTATTTTGAGCATCAGTCTCTTTTTGTTACATCAATGAAATTTCTATTTCTGTTTTTTTTAAAAAAAGAATAATATGACACTCAACTTTCCATTTTGTGTTTATACCATTATAATATACCACGTTGACCCTAAACTTTGAATTGTGTTTCATGTGTTTACGACACTACTGTATTTATAGATGTTTTTTGGTGATTTGCCTTATTAGCTGTTGATATTTATGGTGAGGTTTCTCAAGAACTTGTCTGTGGATCTTTGCTTTATGAAAAGGATGTATTATTTATTTATTTATGTGTCAACATCTCCGAAAACAATAAAACCTTATTTCATGTACATGTGTTTTTGTGTGTGACAGGTTAGGTTTGATGGTTGTAGGGGGTCTAATTTTGGTATCATTTATGACATATGCTTCTGAACACCTTGCAATTAGATCATTCTTGAGAGGTCTTGAAAACAGAGATGGTGCAAGAGGCAGCAGGAGTATATGTCTCTTCTGTTGATCATTTGGTACAAAGTAGGAGAGAAGTGGTGTAAAATAGCTGATTTTCTTGTACTAACTTTGAGGTCTCATTCATTGTACAATACTGATTACTACAACTTCAAGTTTGATTTCCCCTCTTTTTTGATCGGTGAGCATTCTTTTTTTCTTATTTCTTTTTGTATTTTCAAGTAAATTACCTAATTTAAATTGATTGATGTTTTGATAAGAGTCTCTACTCTCTATTGACGAGAAATCTTCAAATTCTTTACCTTTCATCTGAATCCATGTATATTTTCAGCGCCATCACTACGATTTGTTAAATTTCACCTTTTCTTTTCGTGCTCTGTATCTTATTGATTGTTATATTAACCCTTTGCTTGTTCATCATGATAATTATATCATATATAGATATAAAACAAACTATGTGATGAGGAAATAAGTGGCCGTGAGTATTAAATGTGTATTTTCTCACGAAGTTTTCAAGTATTCGTGAAGAGTTGCAACCTTTCAAGCTTGAAGATCACTCAAGAGACAATCTATATGAATTTTCATATTCATGCACATTCTCAATGAATTATACCAATTTGATTTTATGTATTTATATTCATGAAGGTTCATGTGTGGAGTTGAAGAGTTTTGGTTGAACTTAGACTACATAGATGGAACTCCTTTCATGGTAACTTTATAAATAGTATAAATAGTGTTGTATTTTCACATTTAATATAATTGGAAGTTGAATGATTTTTTTGTAAA GCGGTTTATAATTTTTAAAGTAGATGTGTCTGACAAAAAGTGTCAAAGCGGCGACATGCAGAGAAGAATTTTCAATTTTCGATCGCGGTATTCATCAAACCTTCAAAAGGATTTTTCCCTATTGATCTTCTCCCAAAAATTCTCAATTTTCCGACGAAATTGGGGATTAATTTTATTTTTAGATTATAATGAAACCAAACGCTTGGATTTTCCTGCCAATCGCGTTGATTTTGATTCAATCTCTAGTGTCAGCAGCTTCTTCATCTTCTTCTTCCGGATCACAGTCTTCCGATGAAGCTTATGTTACCCTTTTGTATGGCGATGAATTTCTTTTGGGTGTTCGAGTTCTTGGGAAATCGATTCGCGACACTGGCTCCAACAAGGACATGGTGGCCTTGATTTCTGATGGGGTTTCTGAGTATGCTAAGAGGCTATTAGAGGCTGATGGATGGATAGTGGAGAAGATTAGTTTATTGGCAAATCCTAATCAAGTTCGTCCATCAAGATTTTGGGGTGTCTATACAAAGCTGAAAATATTTAACATGACTGACTATAGAAAAGTGGTATATCTAGACGCAGATACAATTGTGTTGAAAAATATAGAAGATCTTTTCAAATGTAGCAAATTTTGTGCCAACTTGAAGCATTCTGAAAGGCTGAATTCTGGTGTTATGGTTGTGGAACCGTCTGAAACTATTTTCAACGACATGATGAGTAAAGTTAATACTTTGCCCTCTTACACAGGAGGGGACCAAGGCTTTTTGAATTCATACTATTCGAATTTTCCCAATGCACATGTTTTTGAGCCAAACTTACCCCAAGAAGTGCTACATTCTAGACCAGCTCCAGAAATGGAACGACTTTCTACTCTTTATAATGCGGATGTTGGTCTTTACATGCTTGCTAACAAGTGGATGGTAGATGAGAGTGAACTCCGGGTTATCCACTATACACTGGGCCCCCTCAAACCTTGGGACTGGTGGACATCTTGGCTTTTAAAACCTGTTGATATCTGGCAGAATGTCAGGGAAAGATTACAAGACTCCCTTCCTGGAACTGGTGGGGGTAGAAACCCTAATGATGATCTTATTGTCAAAATTCTTGTTCTTCTTCCTCTTGTTGCATTAATCTTCTATTCTTATCAATCTTGTCTTCAGACACGGTGGTACTCTAATACATCATGGAGAAGCTTGTTATGCGATCAAGCCAGGCATCTATACTACAAAATAAAGTCTGTTGGAACAATTAATTATACTGGTCTTTCTACACTAAACGCTGTTAATTTGAACTATCAGTCCAAGATACCTGTTTTTTTGGGTGGAATATCAATCTTCGTCTGTTTTCTTGCTGCTGTAATTTCCCTTGCTCTTGCGTTTGCGATTGTGCCGAGGCAAGTGATGCCATGGACTGGCTTGCTGTTGATGTATGAGTGGATATTCACAATTTTCATTCTATTATTTGGAAGCTATCTCCATTTTATTTTCAAATGGGGTAAATCAATGGCGACCCAAGCAGGATCCTTCTCTGATTCTGAGTCGTTTGATTATTCTGCTAAAGATCATCAGTGGCAGGCATCAAGCAGTGACGTTGCCACATGGTTTTATGGTCTAGGGATGGCATTCTTGGCTGTTATTGCTCCAACTTTGCCTTGTATTTTGGGTGTCACTGCTCTGTTTTTGAGGTTAGGTTTGATGGTTGTAGGGGGTCTAATTTTGGTATCATTTATGACATATGCTTCTGAACACCTTGCAATTAGATCATTCTTGAGAGGTCTTGAAAACAGAGATGGTGCAAGAGGCAGCAGGAGTATATGTCTCTTCTGTTGATCATTTGGTACAAAGTAGGAGAGAAGTGGTGTAAAATAGCTGATTTTCTTGTACTAACTTTGAGGTCTCATTCATTGTACAATACTGATTACTACAACTTCAAGTTTGATTTCCCCTCTTTTTTGATCGGTGAGCATTCTTTTTTTCTTATTTCTTTTTGTATTTTCAAGTAAATTACCTAATTTAAATTGATTGATGTTTTGATAAGAGTCTCTACTCTCTATTGACGAGAAATCTTCAAATTCTTTACCTTTCATCTGAATCCATGTATATTTTCAGCGCCATCACTACGATTTGTTAAATTTCACCTTTTCTTTTCGTGCTCTGTATCTTATTGATTGTTATATTAACCCTTTGCTTGTTCATCATGATAATTATATCATATATAGATATAAAACAAACTATGTGATGAGGAAATAAGTGGCCGTGAGTATTAAATGTGTATTTTCTCACGAAGTTTTCAAGTATTCGTGAAGAGTTGCAACCTTTCAAGCTTGAAGATCACTCAAGAGACAATCTATATGAATTTTCATATTCATGCACATTCTCAATGAATTATACCAATTTGATTTTATGTATTTATATTCATGAAGGTTCATGTGTGGAGTTGAAGAGTTTTGGTTGAACTTAGACTACATAGATGGAACTCCTTTCATGGTAACTTTATAAATAGTATAAATAGTGTTGTATTTTCACATTTAATATAATTGGAAGTTGAATGATTTTTTTGTAAA ATGAAACCAAACGCTTGGATTTTCCTGCCAATCGCGTTGATTTTGATTCAATCTCTAGTGTCAGCAGCTTCTTCATCTTCTTCTTCCGGATCACAGTCTTCCGATGAAGCTTATGTTACCCTTTTGTATGGCGATGAATTTCTTTTGGGTGTTCGAGTTCTTGGGAAATCGATTCGCGACACTGGCTCCAACAAGGACATGGTGGCCTTGATTTCTGATGGGGTTTCTGAGTATGCTAAGAGGCTATTAGAGGCTGATGGATGGATAGTGGAGAAGATTAGTTTATTGGCAAATCCTAATCAAGTTCGTCCATCAAGATTTTGGGGTGTCTATACAAAGCTGAAAATATTTAACATGACTGACTATAGAAAAGTGGTATATCTAGACGCAGATACAATTGTGTTGAAAAATATAGAAGATCTTTTCAAATGTAGCAAATTTTGTGCCAACTTGAAGCATTCTGAAAGGCTGAATTCTGGTGTTATGGTTGTGGAACCGTCTGAAACTATTTTCAACGACATGATGAGTAAAGTTAATACTTTGCCCTCTTACACAGGAGGGGACCAAGGCTTTTTGAATTCATACTATTCGAATTTTCCCAATGCACATGTTTTTGAGCCAAACTTACCCCAAGAAGTGCTACATTCTAGACCAGCTCCAGAAATGGAACGACTTTCTACTCTTTATAATGCGGATGTTGGTCTTTACATGCTTGCTAACAAGTGGATGGTAGATGAGAGTGAACTCCGGGTTATCCACTATACACTGGGCCCCCTCAAACCTTGGGACTGGTGGACATCTTGGCTTTTAAAACCTGTTGATATCTGGCAGAATGTCAGGGAAAGATTACAAGACTCCCTTCCTGGAACTGGTGGGGGTAGAAACCCTAATGATGATCTTATTGTCAAAATTCTTGTTCTTCTTCCTCTTGTTGCATTAATCTTCTATTCTTATCAATCTTGTCTTCAGACACGGTGGTACTCTAATACATCATGGAGAAGCTTGTTATGCGATCAAGCCAGGCATCTATACTACAAAATAAAGTCTGTTGGAACAATTAATTATACTGGTCTTTCTACACTAAACGCTGTTAATTTGAACTATCAGTCCAAGATACCTGTTTTTTTGGGTGGAATATCAATCTTCGTCTGTTTTCTTGCTGCTGTAATTTCCCTTGCTCTTGCGTTTGCGATTGTGCCGAGGCAAGTGATGCCATGGACTGGCTTGCTGTTGATGTATGAGTGGATATTCACAATTTTCATTCTATTATTTGGAAGCTATCTCCATTTTATTTTCAAATGGGGTAAATCAATGGCGACCCAAGCAGGATCCTTCTCTGATTCTGAGTCGTTTGATTATTCTGCTAAAGATCATCAGTGGCAGGCATCAAGCAGTGACGTTGCCACATGGTTTTATGGTCTAGGGATGGCATTCTTGGCTGTTATTGCTCCAACTTTGCCTTGTATTTTGGGTGTCACTGCTCTGTTTTTGAGGTTAGGTTTGATGGTTGTAGGGGGTCTAATTTTGGTATCATTTATGACATATGCTTCTGAACACCTTGCAATTAGATCATTCTTGAGAGGTCTTGAAAACAGAGATGGTGCAAGAGGCAGCAGGAGTATATGTCTCTTCTGTTGA MKPNAWIFLPIALILIQSLVSAASSSSSSGSQSSDEAYVTLLYGDEFLLGVRVLGKSIRDTGSNKDMVALISDGVSEYAKRLLEADGWIVEKISLLANPNQVRPSRFWGVYTKLKIFNMTDYRKVVYLDADTIVLKNIEDLFKCSKFCANLKHSERLNSGVMVVEPSETIFNDMMSKVNTLPSYTGGDQGFLNSYYSNFPNAHVFEPNLPQEVLHSRPAPEMERLSTLYNADVGLYMLANKWMVDESELRVIHYTLGPLKPWDWWTSWLLKPVDIWQNVRERLQDSLPGTGGGRNPNDDLIVKILVLLPLVALIFYSYQSCLQTRWYSNTSWRSLLCDQARHLYYKIKSVGTINYTGLSTLNAVNLNYQSKIPVFLGGISIFVCFLAAVISLALAFAIVPRQVMPWTGLLLMYEWIFTIFILLFGSYLHFIFKWGKSMATQAGSFSDSESFDYSAKDHQWQASSSDVATWFYGLGMAFLAVIAPTLPCILGVTALFLRLGLMVVGGLILVSFMTYASEHLAIRSFLRGLENRDGARGSRSICLFC Homology
BLAST of PI0002917 vs. ExPASy Swiss-Prot
Match: Q8GWB7 (Inositol phosphorylceramide glucuronosyltransferase 1 OS=Arabidopsis thaliana OX=3702 GN=IPUT1 PE=1 SV=1) HSP 1 Score: 709.5 bits (1830), Expect = 2.9e-203 Identity = 365/549 (66.48%), Postives = 437/549 (79.60%), Query Frame = 0
BLAST of PI0002917 vs. ExPASy Swiss-Prot
Match: Q8W4A7 (Putative UDP-glucuronate:xylan alpha-glucuronosyltransferase 3 OS=Arabidopsis thaliana OX=3702 GN=GUX3 PE=2 SV=1) HSP 1 Score: 135.6 bits (340), Expect = 1.7e-30 Identity = 93/297 (31.31%), Postives = 156/297 (52.53%), Query Frame = 0
BLAST of PI0002917 vs. ExPASy Swiss-Prot
Match: Q9LSB1 (UDP-glucuronate:xylan alpha-glucuronosyltransferase 1 OS=Arabidopsis thaliana OX=3702 GN=GUX1 PE=2 SV=1) HSP 1 Score: 127.9 bits (320), Expect = 3.6e-28 Identity = 60/163 (36.81%), Postives = 97/163 (59.51%), Query Frame = 0
BLAST of PI0002917 vs. ExPASy Swiss-Prot
Match: F4HZC3 (Putative UDP-glucuronate:xylan alpha-glucuronosyltransferase 5 OS=Arabidopsis thaliana OX=3702 GN=GUX5 PE=2 SV=1) HSP 1 Score: 125.9 bits (315), Expect = 1.4e-27 Identity = 71/181 (39.23%), Postives = 109/181 (60.22%), Query Frame = 0
BLAST of PI0002917 vs. ExPASy Swiss-Prot
Match: Q9FZ37 (Putative UDP-glucuronate:xylan alpha-glucuronosyltransferase 4 OS=Arabidopsis thaliana OX=3702 GN=GUX4 PE=3 SV=1) HSP 1 Score: 119.8 bits (299), Expect = 9.7e-26 Identity = 63/161 (39.13%), Postives = 97/161 (60.25%), Query Frame = 0
BLAST of PI0002917 vs. ExPASy TrEMBL
Match: A0A1S3B4Z4 (Hexosyltransferase OS=Cucumis melo OX=3656 GN=LOC103485833 PE=3 SV=1) HSP 1 Score: 1042.7 bits (2695), Expect = 5.3e-301 Identity = 525/546 (96.15%), Postives = 532/546 (97.44%), Query Frame = 0
BLAST of PI0002917 vs. ExPASy TrEMBL
Match: A0A6J1EV46 (Hexosyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111436224 PE=3 SV=1) HSP 1 Score: 1007.3 bits (2603), Expect = 2.5e-290 Identity = 505/544 (92.83%), Postives = 522/544 (95.96%), Query Frame = 0
BLAST of PI0002917 vs. ExPASy TrEMBL
Match: A0A6J1K663 (Hexosyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111492036 PE=3 SV=1) HSP 1 Score: 989.9 bits (2558), Expect = 4.1e-285 Identity = 499/544 (91.73%), Postives = 519/544 (95.40%), Query Frame = 0
BLAST of PI0002917 vs. ExPASy TrEMBL
Match: A0A6J1CTK2 (Hexosyltransferase OS=Momordica charantia OX=3673 GN=LOC111014198 PE=3 SV=1) HSP 1 Score: 971.5 bits (2510), Expect = 1.5e-279 Identity = 482/541 (89.09%), Postives = 511/541 (94.45%), Query Frame = 0
BLAST of PI0002917 vs. ExPASy TrEMBL
Match: A0A5A7U762 (Hexosyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold13G002030 PE=3 SV=1) HSP 1 Score: 966.8 bits (2498), Expect = 3.7e-278 Identity = 485/502 (96.61%), Postives = 491/502 (97.81%), Query Frame = 0
BLAST of PI0002917 vs. NCBI nr
Match: XP_004152810.1 (inositol phosphorylceramide glucuronosyltransferase 1 [Cucumis sativus] >KAE8651720.1 hypothetical protein Csa_006708 [Cucumis sativus]) HSP 1 Score: 1057.4 bits (2733), Expect = 4.3e-305 Identity = 526/545 (96.51%), Postives = 537/545 (98.53%), Query Frame = 0
BLAST of PI0002917 vs. NCBI nr
Match: XP_008441775.1 (PREDICTED: inositol phosphorylceramide glucuronosyltransferase 1 [Cucumis melo]) HSP 1 Score: 1042.7 bits (2695), Expect = 1.1e-300 Identity = 525/546 (96.15%), Postives = 532/546 (97.44%), Query Frame = 0
BLAST of PI0002917 vs. NCBI nr
Match: XP_038891107.1 (inositol phosphorylceramide glucuronosyltransferase 1 [Benincasa hispida]) HSP 1 Score: 1018.1 bits (2631), Expect = 2.9e-293 Identity = 513/546 (93.96%), Postives = 527/546 (96.52%), Query Frame = 0
BLAST of PI0002917 vs. NCBI nr
Match: XP_022929725.1 (inositol phosphorylceramide glucuronosyltransferase 1-like [Cucurbita moschata]) HSP 1 Score: 1007.3 bits (2603), Expect = 5.1e-290 Identity = 505/544 (92.83%), Postives = 522/544 (95.96%), Query Frame = 0
BLAST of PI0002917 vs. NCBI nr
Match: KAG6598955.1 (Inositol phosphorylceramide glucuronosyltransferase 1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1005.7 bits (2599), Expect = 1.5e-289 Identity = 507/547 (92.69%), Postives = 524/547 (95.80%), Query Frame = 0
BLAST of PI0002917 vs. TAIR 10
Match: AT5G18480.1 (plant glycogenin-like starch initiation protein 6 ) HSP 1 Score: 709.5 bits (1830), Expect = 2.0e-204 Identity = 365/549 (66.48%), Postives = 437/549 (79.60%), Query Frame = 0
BLAST of PI0002917 vs. TAIR 10
Match: AT1G77130.1 (plant glycogenin-like starch initiation protein 2 ) HSP 1 Score: 135.6 bits (340), Expect = 1.2e-31 Identity = 93/297 (31.31%), Postives = 156/297 (52.53%), Query Frame = 0
BLAST of PI0002917 vs. TAIR 10
Match: AT3G18660.1 (plant glycogenin-like starch initiation protein 1 ) HSP 1 Score: 127.9 bits (320), Expect = 2.5e-29 Identity = 60/163 (36.81%), Postives = 97/163 (59.51%), Query Frame = 0
BLAST of PI0002917 vs. TAIR 10
Match: AT3G18660.2 (plant glycogenin-like starch initiation protein 1 ) HSP 1 Score: 127.9 bits (320), Expect = 2.5e-29 Identity = 60/163 (36.81%), Postives = 97/163 (59.51%), Query Frame = 0
BLAST of PI0002917 vs. TAIR 10
Match: AT3G18660.3 (plant glycogenin-like starch initiation protein 1 ) HSP 1 Score: 127.9 bits (320), Expect = 2.5e-29 Identity = 60/163 (36.81%), Postives = 97/163 (59.51%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) 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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