IVF0000310 (gene) Melon (IVF77) v1
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.ATGGAGTATTTATGGACGATACTGTTCATTTTCATTAGCCTCGCTCTTTGTTTTGCTGCAGCTTTGATTTCTGCTCTCATCATAGAAGCTTTCAAGAGGAGATTCAATCGCGAGTACGCTACTGCAGCATTCATCGTTGATTTCAAATTCAATTTCATTTATCATCTTATCTTCTGTCTTTATGAGACTCTCTTTGTATTCATTCGTTTTGGTTTGTTTCAGGCACGTTGAAGCTCCAGCAATCTTCGAGGACCCAAACTCGTTGAAACGGGTAACCTTTTTCTTTTTTTCCTAATCGTCTGAAAGATTGAATTATACGTTTAATATCGACTCTCAATCACTCCAAGCTTGTCTTTAAAGAAGTTAAATTTATGGGTAGCTAGAGGTTTAGTCAAACAATCTAGAGTTTGATCGTGGGATTGAATTTACTTTCATGGCTTTTACAAAGTGTTGCGTTCAATTTACACCACGATAGGGATAAGAAAGTAATAGATGTGAGGATAGGTTGGAGATCTTGTTCTTTATCTGTAAAATTTCGAGCATTGCGCTCAAACCATATAGACTGCGAAAAAGCCCAAATGGAATTTAGCCTGTGTTTTCCTTTCCTTCTATGATGGATGAACAAAAGAAAAAGAAAGGTCCGAGTATTGTTAGGAAAGACTGTCTGCCAACCAAATGCTTCTAAAATGTAATCCCATCTCTTCTTATGATCCCAAAAGGTAATATACTAGGATGTTTCGGTTAGAATTAGTGGGCTTGGCCTAATGATGGATTTACCCTAATATTCTTTCCTTTTTTGTCATAAGTTGTAACCTATTTATCTTCCCTCTTGTATCTTTTGTTAATATGAGAAATTATTAAGAAAGTCAATCGTTGGTTTTCTCCCGGTACTTGAGTTTTTACGTAATTTGGTGTCTACTTTACTTTACCGCTTTTATCATGGTATCAGAGTGAGGTAAGATGAACTCTAGACACAGATGTAGATGAAACCCAAATAGGGACAGCCACCAGCGCCATCGGGATCGCCATTGTTGCCGCTGTGGATGCAGCCGTCGCTGCCATCATGGAAAAGCTGCTCCACCAGCTTTAGAAGATGTCATCAGTCACAGTGGGCCTACCCTTGGAGTCAACTACGCAGCCCAGTGGTGAAAACCAACCGCACTTGCTTCAATTAACCACCCCGCGCCTTTGCTGCCCAAAAGACTCCACAGCTCAGTTGGTCTACTCCCATCTGTCTTCCCAAGTCCAACCGCAATACCCTTCTGGTCAGCAGCACCTCCACGCGCTGCCACTGCCCTCGGTTCATGGACTGCCATCGTTTCACACATTGCTGTCCTTTGATTCTTTATAGTAGTCGCACGTCCATGGTACTGGGATCGATCAAGTCCATAATAGATCAGGGTTTGAAGTTGTTGAATCTTTCAGCGCAATCCAAACCAATTGACTTGCTGATGTATTCCAAGAATCCGTAACTTCGCTCCCTAACCTATCCTTAAATTATATAACGAGTTCTCTGGCACCATCCACAGGTGCCTTTCCAGGAGAGAAGCTAAATGACCAGAATTACTTTTCCTAGTCTCAATCGACCAAGATGTTTCTCGAAAGTTATCACCAATATGGTTTTCTGATAGGGGAGACTCTCCGTCCCCCACCCGATGATGTCTTGGAATGTTTCTGTAGAGGGGAGGACTCGTTTATTCAGTCCATGTTGATTAATAGTATGGAAAATAGGCGAGCCTCTACTTTATGCATCAACTGAGAAGGATCTATGGGACACAACTCAGAAACTCTATTCAAAGTGTCAAAACGCTTCTTGTTTGTATATACTGAGGAAACAAGTCCATGATTGCATGCAAGGAACTCTTGATGTAACCTCCTACTTCAATAAACTTTCTCTACTTTTGCAAGAGATGGACATGTGCAGAGAGACAGTATGGGATACTCCTAATAATGGTATACATTATGCTAGACTTGGAGAAGTTGATCAGATTTATGACTTCCTTGCAGGTCTTAACCCCAAGCTTGACGTTGTTTGTGGTCGTATACTTAGACAAAGACCTCTTCCCTCCTTAACGGAAGTGTATTATGAAGTCTATCTTGAAGAAGACTGTAGGAATGCCATGAGTGTTCTGACTACTCCTGCTACTGATTCCTCTGCCTTCAATGCTAGATCCTTGACCCATGACAATGAGAAGAATAACGGGAAACAATCCTTAACTCTATCTATGAACATTGAAAGAAACAGTGGCATGCCAAGGATCTGTGTTGGAAACTTCATGGTCGTCCCCCAGAAGTAAGAAACATTCCTCCAATGTTAATAAAAAATCAGGGTGTGCTTATGTGAGTGAGTCTGCTGACACTTCTCAACCATCTGGCCCTACTTAAACCAAAACGGTCCCAGTCCACCCTCCACTCTAAGAGCCATTGCTAAGTCAGGTATGCTTCAATCCTTTAGTGGAAAAATCCCTGGATCCTAGACTCAGGGGCTACAGATCACTTGACAGGTTCCTCTAGAATTTTGTTTCTTATATTATGCGTGCCGGTAATGAAAAGAACATAGTAGAGATCATAGTAGCGGATGGTTCTTTAGCTCTTATCGTTGGGAAGGGAAAATTTTTTCCTTTTGAAGGCTGTATCCCTCCAGAATGTTTTGCATGTGCCTAAGATTTCCTATAATTTGATATCTATAAGCAAGATCACTCGTGAGCTAAACTCAAAGCTACTTTCTTACCTGAATCTGTTTCTTTTCAAGATCTTGAGCTCGAGGAGGATGATTGGCACTGCCCAACATAGTAAAGGACTATCTCCTTAACGATGATACCTCCGCTAGTAGTATCTCTAAGACTAATTTATTGTCTTCATATTTTACTATTTCTGAACAAGATTGTATCTTGTGACATTTCCGGTTGGGCCACCCAAACTTTACATATTTAAAGTATTTATTTCCCCATCTCTTATCTGCTCTTTATTTTGTGATGTGTGTATTCAGGCCAAACAACATTGGGTCTCCTTCCCTGCACAACCATATAAACCAACTCAACTGTTCACTCTTATTCTTAGTGACATTGAGGTCCATCCAAGGTCACTACCTCCTCTGGGAAATGGTGGTTTGTGACTTTTATTTATAATCATACTCGCTTACCTGGGTCTTTCTTATCACTGATAAATCCGAGGTTTCCTCTGTTTTCCAGAACTTCTACCACACCATTGAAACATAGTTCAATGCAAAGATTGCGATTCTTCGGAGTGATAATGGTCGAGAGTTTCAAAACCATACCGTTGGTGAGTCCTAGCCTCTAAGGGGATAGTTCACCAGAGCTCATGTGCTTACACCCCTCAACAAAATAGGGTTGCCGAGTGGAAAAACCATAACCTTTTGGAAGTAGCTTGTTCCCTTATGCTGTCTACTTCCCTTCCTTCATATTTGTAAGGAGATGTTCTTATTGCAACTTATCTCATCAATAGGGTGCCTTCTTGTGTCGTTCACCTTCAGACTCCTTTAGAATGTCTCAAGGAGTCGTATCCCTCTACCCACCTAACTTCTAAGGTTCCCCTTCGTGTGTTTGAGTGTACAACTTATGTCCATAACTTTGACCCTAATTAGACCAAATTTACCCTTTGGGCTCAGGCGTGTCTGTTTGTTAGGTATCCTCTTCATCAGCGGGGCTATAAATGTTTCTATCCTCCTTCCCATAAATACTTTGTCACTATGGATGTCACCTTTTTCTAGGATCGAACATTCTTTCCCCTTAGCTATCTTCAGGGGGAGAGTATGAGTGAAGAGTCTAATTGTACCTTAGAGTCTACCAATCCTACTCCTATTACCTTACTTGACTCCGATCCTCATCCATGGTCCTACCCACAAACTAAGTTCCCTGGAAAACTTACTATAGGAGAAATCTCAGATAGGAAATTAAGTCCCCTACTGATTTGTCGGCTCCGGTCCAAGACTCTAAACCTCTTTGAGATCAAGGTATGACTAATCCTATTGAATCATGTGTTGATAGTAAAATGAGTGAGAATGATAGGTCTCATATTGTTGTTCCTGAAGATATGGGAGAAAAGGACAGTGTTGATGAGACTGCGGTCAGAGTAGAAACTAGTGGTAATGAGGCTGGACAGGGTCATTCAGATAATCTTGATGAGTATGACCCTTCTCTGGACATTCCCATTGTGGTGAGAAAAGGTACCAAGTCTTGAACAAAATAGTCCATCTGTAACTATGTTTTCTATGATAGTCTATCTCTATAGTTCAAAGCCTTCACAGCTAGCCTCGACTCTACCGTGATATCAAAAAATATTCACATAGCTTTAAAGTGTCTTGAGTGGAAAACTGCTGTTATGCAAGATATGAGGGCCATTAAAAAGAATAAGCTTAGGAGATCTGTGCTCTCCCTAAGGGACATAAAGTTGTGGGATGTAAATGGGTGTTCACACTCAAATAAAAGAGAGATGGAACCTTTGATAGACACAAGGCGAGGTTAGTTGCAAAAGGGTTTACTCAAACCTATGGTGTTGATTACTTGAAAATGTTTTCTCTAGTTGCTAAACTAAATACAGTTAGAGTCTTGTCATTTGTTGATGTGAACAAAAGTGGCCTATATATCAGCTAGATGTTAAGAATGTGTTCTTGAATAGAGACCTAGAAGAGGAAGTGTATATGATCTCTCCCTAGTGTTTGAAGGCCAGTTTGGTCATTGAGTTTGTAAACTTTAGAAATCTTTACATGGACTGCAATAGTCATTGAGAGCATGGTTTGATAGGTTTACTACCTTTGTTAAGTCCCAAGGGTACAGTCAGGGGCACTTGACCATACTTTGTTTACAAAAGTCTATAAGGTTCGGAAGATCACAGTTTTGATTGTTTATGTTAATGACATCGTTTTATCTAGGGATGACATTGCTGAAATCATCCAATTGAAAAAGAGGACGAGTGATGAGTTTGAAATCAAAGACTTGGAAAATCTAAAATATTTCCTTGCGATGGAGGTAGCTAGATCTAAAGAAGGTATCTTCGTATCTTAGATGAAGTATACCTTTGATTTGTTGACTGAAATAGGTATGCTGGGATGTCGCCCTACTGATACTCCCATTGAATTCAACTGTAAACTGGTAAGTTTAGGTAATAAAGTTCGAGTTGATAACGAATAATATTAGCGCCTTGTGGGTAAGTTGATTTACTTGTCTCATACTCGACCAGATATTTCCTATGCTTTGAGTGCCGTTAGCCATTTCATGCAGCCTCCTCATGAGGAACATATGGAGGTAGTTAACAAAATCCTGAGGTACTTAAAAGCAACTCCTGGTAAAGGATTGATGTTCAAAAATACAAACGAGAAAGCTATTGAGGCCTATACTAACTCTAACTTGGTAGGGTATGTTGTTGATAGAAAATTCACCTCCGGTTACTGTACCTTTGTATGGGGCAATTTTGTAACTTGGAGGAGTAAGAAGCAAGGAGTTGTGGCTAGAAACAGTGCTGTATATGGCTATGAGTTTGGGCATATGCGAGGAATTTGGCTTTAGAAAGTTTTATTTGATTTTCATCAGGATTGTGAGGTGCCGATGAAATAATTCTATGATAAAAAGGTAGCTATTAGCATCACCAACAATCCAATTCAACATGATAGAATTAAACATATGGAGCTTGATTGACACTTCATTAAAGAAAGACCGGACAATGGTAGCATATGCGTTCCATACATTCCCTTAAGCCAACAGGTTACTGATGTAATAACTCCATGATTTGAAGAGTAACGCTTGAGAAATTGGATCTGACAACCTTGTTGAAGAAAGAGACCTTTAAGTTAAATACTCAAAAACTCCAAATCATTATGACCTCAACTTAGGTTTGATTTCAGATTTCTTAGATGCTCAGCAAAACCAGGGATTGGGAAAAGCTTGTGGCTCCATCAATCCTCGATCTTCGAATCACTCCCAACATCGCTTGATCAAGACTGATTGAATGATCCTAGCATGCAAATCTAAACATAAGACATGCGAAGTAAGTTGCTCATGGCCGTAGGCTCAAAAGACTAATTTCATTGAAATTTGACAAAATTTAATCTCCAATTTGGGTTACAATAAAGATGACTTTATATGGCCTTCAAAACACAACCTAAATCCTTCCACTAAGTTGTTTTACTGTTTGTAAGCTGCCAAACGTTAATGGTACAAAGGGCCACCAACAAAAGTAACCTAAAACAATACATTAAAGGTCTTTAAACTGAAAATAAACTATAATAAAGCTCAAAAATTAAGAAATCGATCATTTTCCATCAGCCACTCAAGAGTATGTAATCATCCAAGAATAATTAAAACTTCACTTGAAGTAGTTTAGGTTTTGTGTAGGCTGTGTAGCTTGACGTCTAGTTCATTGAATTAAGCTTGAATCGTCGTAAATGGAACTCATTCTTGAAGTAATTATGTTGTGATTCCTTTATTCATATCAATGAGATTTGAGTAATCTGATCTTGCTTGATTGAGAAACTGACTGGCATTTTGTAGGCCTTTGCAAGGCTCTAGTACTCAAGATAACAAGGGAAGGAAAAGTTTCTTGAATGCTTTTTGTTGAATTATTCTGATAATTACTTATATAAAGGTGAAACTCTATTACCTTTTACTATTACTTAGAACTCAATTAGATAATAATAAAATTAATAACTACTGCTAATTAGCAACCACTGCAAGCACCTAATGTCTCTTTGCACCCGGCAAGCCAGTAGTTGGTGCACACAAGGTATTGAGTTTGAGCTTGTTTTTTAATAGGTGAAAATTCAAAGAGAGTAGACTGTAGAGAGGTTTGGTTAGGATGTTGTAATCTGATTTGAGCTGGCAGAGGTTGAACACTGTAGTTCTTGCCAAGAAGTAACTCACGTACAAAGTAAATGTTGATCTAAGCATATAGAGTGGAATAACGTGAAATAGGATTGAAGCTAAAACTTTTATTTGATTTGCATTAATTAATCCACAATTAAGAAATACACACAATAGAGAATCCAAAGAAAATCCCTATTGATGAAATTAATAACCAAATGAAATAATAATAACTACAATAATAATGATGAAATAAAATTTTTAGAAAAGGGGGCTCGTGGAAATGAGCTACAGACTCCATAATTGATGGAAATGATAAATTACATCATGCTTTTGTTTGTAATATTGGATCAAAATTGATGCCAAATGGTATGTAGAATGTTTGCTAGCAAGTTTCTTGAATCTTTTTCAGGTTCCTTGCCCTTCAATTTTTGATCCAGCTGAGAAGTACATGTCCTTGATCGTTCCTGCTTTCAATGAAGAGTACAGGCTTCATGGAGCTCTGGAGGAAACCATCAAGTAAGTTGAAACATCACATAAAACATTTAATTTTTTCCATATAAATATTTTTACTTTTCTTTTATACCTTTTAGCTCTCTTTGACTTTGGTTTTCTCTGCTTACCTATCCTCTCTACTTAGAGTTTTCCAAATTCTTAGATTTCTTAATTTTTCTCGAAATAGTCTCTACTTGGCTAGATACAACTGACAAAGTAAGACCCCACGAGCATGTTCCTCAACTTTCAAAGGCCACAATCATTTCCTAATTCATGGAAAATAGTAGTAGGCCTAAAACCTTACAAGTAAAATCTCATTCCTGTTTTTCTTTTTAGTTATCTTCAGCAACGTGCTGCAAAGGACAAGTCATTTTCCTATGAGGTATTTCTTTTTCTTCATTTATTCCTTTTATTCTTGTTCCTGATCGGGACAACTCTTAGAAAATTTGTAGGTTTGTTCAGTACGAAACTTGATATGGTTATATGTTCTTGCATGCTATACCTTGATATGGCAATATTTTTCTATTTTCTATTTTTCTATTTTTTATAAGAAACCTGGAGATATGTATTCAGAGAAAGAAAAGACAACCTATGGGGCCGTGGATGACGAATCTCCTCCCAAAACAGCTACTTAACAGTAACTTCTTCATCTCTGTCCTTATCTCTAGAATCTCTTGCTCAACAAAGTCCAGTCTTTCTTCACTCTTCTTAGCCATCTCCTTACGTTTGCCCAGATTCAGTTGCTTTGGTACCAATTTGATAGAACACCAATATGGTGACTCTACTTTATTGATATTCAAACTTAATTGCAATAGGAAATGAAAAGAAAAATCAAAGAAAACTACTAGGATAACAATCTTGCCCTAACCAGAACACAAGACTTCCAACAAGCAATAAGAACAAAATCAAAACAGAAACATAATTACAGAAAACAATAAACCAAAACGATGGAACCTGATACTACTCCTCCTATCTCTCAAAGAGTGAGATAGTCCTGATTTTACTCCACAAAATTCTGCACCCCTTTCTCTCTAAATCTTCCCTATTAAAACTCCCCCCAATCCTAACTAACTCTTGGGCCCACCATTCAGTTCCCCTAATCCCGCATTTCCCTCCTTCATCTCACGTGCCCACTTTCCCTTATTTCTACGGTTATATGTGAAAAGTATTGGTGGCTTAACACTTCATAACGTGGAAAACTTGAACATTGAGTTATCCATTAACTCTGTAGTAGGTTTGATCAACTCGGGGACCATGAAAGTCAAGGGAAGGATTGGTGAGGAAGAAGTAATGATACTAATCGATTGTGGGGCGACCAATAACTTCGTGAGAAGTTGGTGAAAAAGGTGGGGCTGACACTCAATGAAACTCCTAATTATGGAGTGATCTTGGGCTCGGGACTGCAGTCAAAGACAAGGGAGTATGCAGCGATGTGGAGGTTTGGGTGGGAGAATGGAAAGTGAATAACAGCTTCCTACCCTTGGAATTAGGGCAAGTGGATGTAATCCTGGGAATGAAGTGGTTACACTCTCTAGGGAGACTAAAGTAGATGGAAAAATTTGTTGCTGACTTTCTGTCACCAAGGTAGGAAGATTACGAGTAGAGAGGATCCGAGCCTCACCAAAACGCAGGTCTGTCTGAAGAATTTAGTGAAGTCGTGGGAGGTGGAAGACCAGGGATTCCCGGTGGAATGTAGAGCTATGGAAGGAGGGTCAACGAGGGAGGAAGAATAGGAAGAAGAATCAATGTCACAAGGAGATGCGTCCATGGCCGCCCTTCTGGAGAAATTCGCTAGTGTGTTTGAATGGCCGGAGAAACTACCCCCTCAGCGTAGCATCAACCATCATATATATTTGAAGAGTGGAACTGACCCGGTGAACGTAAGGCCCTATAGGTATGTACACCATCAAAAGGAAGAGATGGAAAGATTGGTGGATGAGATGCTATCTTTAGGCATCATCCGACCCAGCAAGAGCCCCTACTCCAACTCGGTGTTGTTGGTGAGGAAGAAGGACGGGAGCTGGCGATTTTGTGTAGATTACAGAGCCCTGAACAATGTGACCATCCCTGACAAATTCCCCATTCCGGTCATAAAGGAGTTGTTTGATGAACTAAACGGAGCAAACATGTTCTCCAAGATTGACCTCAAGGCCGGATATCACCAAATACGGATGTGCCCTGATGATATTGAAAAGACAGTTTTCCATACTCATGAAGGTCACTACGAATTCCTAGTGATGCCGTTCGGATTGACTAATGCCCCATCGACATTCCAGACTTTGATGAATCAAGTGTTCAAGCCATACATGAGAAGGTTTGTTCTTGTTTTCTTCGATGACATTTTGGTGTACAGTAAAGGGCTTGATGAACATGTGCAGCACTTGGAAGTTGTCTTAGAATTGTTGAAAAATAATGAATTGTACGCGAACCTGGAAAAATGTAGCTTTGCGAAGCCACGGATTGGTTACTTGGACCACTTCATATATGAGAAAGGCATTGAGGTAGATCCAGAAAAGATCAGGGCTATCAGAGAATGGCTGGTCCCTACCAGCGATTCGTGCGGGAAGTTCGAGGATTTCTGGGGCTCATGGGGTACTACCGGCGATTCATGAAGAACTATGGCAGCTCCCTTGACTCAATTACTAAAGACAAGTGCATACCGATGGAGTGAGGAAGTAGAGATAGCATTTGAAAAGCTTAAAATGGCCAAGATGACCCTCCCGGTACTAGCCATGCCAAACTTCAACTGTCCGTTTGAAGTTGAGTTGAATGCTTTAGGATTTGGGGTTGGGGTAGTGTTAACTCAAGGCCGACGACCAATAGCTTACTTTAGCAAGACGTTGTGTATGCGGGATAGGGCGCGCCCTATGTATGAAAGGGGGTTAATTTCGGTGGTTTTCGCAGTTCAGAGGTGGCGTCCATATCTACTGGGGAGGAAGTTTACGGTGAAAACTGATTAAAGGTTACTCAAATTTTTGTTGGAGTGGCGGGTGATACAACCCCAACATCAGAAATGGATTGCCAAACTCTTGGGGTATTCCTTTGAAGTGGTTTACCAACCGGGTTTAGAGAATAAAGCCACTGATGCCTTGTCTAGGAAATCAAAAAATTGATGGAAGAATAGAAGCTGGAGACACCGCATTATACCTTACATCAAGGTGTGCTGAAGTTCAAGGGCAGGTTGTGATTTCAATTTCATCTTCTTTGCTACCAACCATTATGCACACCTACCACGATTCAGTGTTTAGGGGACACTCGGGTTTTCCAAGGACCTATAAGAGAATGACCAGTGAGTTGTACTGGAAAGGGATGAAGAAAGACATAAAGAAATATTGTGACGAATGTGTGATCTGCCAGAGAAACAAGTTCTCTGCGTTGTCTTCGGCCGGGTTACTGATGCCGTTAGAGATCCCTGATGCGATATGGAGTGATATCTCAATGGACTTTATTGAAGGGTTACCGAAGTCAAAGGGGTAGGATGTAATCCTAGTGGTTGTAGATCGGCTAAGCAAGTATGCACACTTCCTACCGCTGAAACATCCCTATACAGCCAAGTCTGTGGCTGAAGTCTTTGTCAAAGAAGTGCTTAAACTCCACGGGTATCCTAAATCTATAGTCTCGGATAGAGACAAAGTCTTCATCAGCCACTTTTGGAAAGAGATGTTCAGGTTAGCCGGTACCAAATTGAATCGAAGCTCATCTTATCATCCCCAATCGGATGGGCAGACCGAAGTGGTGAACAAGAGCGTGGAGGCCTATCTGAGATGTTTTTGTGGGGAAAAACCAAATAAGTTGAGCCAATGGATACACTGGGTTGAGTACTGGTACAATACCACCTATCACAACTCAATCGAAATCACCCCCTTCCAGGCTGTATATGGCAGACTTCCTCCACCCTTGATCCAATATTGAGACATGGAAACACCGAACTCCACACTTGATCAGTAGTTGAAGCAGAGGGATGTGGTCTTAGGGGCGCTGAAAAAGAATTTGAAACTAGCTCAAGAAAGAATGAAAAAACAAGCGGACTTGAAGAGAAGAGAGGTGGAATCCCAAGAAGGGGATTATGTGTTTCTCAAAATCCGACCATACAGGCAGGTTACCTTAAGTATGAAACAGAATGAGAAGCTATCACCGAAGTACTTTGGGCCATATCAAATATTGGAAAGACTCGGCGAAGTTGCATATAAGCTGGAACTTCCAAGTTCAGCAGCCATCCACCCTGTTTTTCAAGTGTCGCAACTAAAAAAGGTAGTGGGAAATAGGGAGTCGGTTCAACAACTTGAGCTTTATGTGAATGAAAATCACGAGTGGATTACACAACCAGAAGAAGTGTACAGTTACCGCAAGAATTCGGCAACAAAAGAATGGGAAGCATTAATTAGTTGGAAGGGATTGCCGCCGCACAAAGCCACCTGGGAAAACTGCTCCGTTTTGAAGTACCAGTTCTCTAAATTCCACCTTGAGGACAAGGTGGATTTAGAGGAGGAAAGTGATGCTAGGCTCCCAATCCTATTCACATATAATAGGAGGAATAAGAAGATACATGGAGCCAGTGAGGGGGAAACACATGGAAATGGGGAGGATAATCATGAAACCAATGGAGAGTCTACATGTAGTAGTGGGGAGGAAAGCAAGGAGATAGTGGACCAGCAAGTGGGACCACGAGTTAGTAGTGGGAAATTAAAAGGAGTAGGGGAGAGCAGAGGGAGGTACGGAAATTTTGGGTGAAGAAGAGAGAGGCTGATTTTCTTCCTGGGGGGGGGGGGGGGGGGGGGAGAGAGCAGAGTCCAAGTTCCATTGTTCTAAGCTTAGTTTACCGTTGTTTTGTTGATTGTTGTTTTTGTTTAACAGATTGTTATCTCGGTTTGGTTTTGGTCATTCTGAACATTGTGGTTATTTTGTTGTTGGTGATTATATTTTTGTGTTTTCCTTTGCTTCTTAAATCGTTGTGATGTTTTGGGTTTGTAAACAGTTGAAACATTAATAGAAGTTAAGGAACCAGTTTGTATCCCAACAGACTTTTTGCATAGGCCTAACACCCGTAAGCTCCATGGAAAGTGAATTTGTAGGAAAATGATAGGATTGGTATTAGAGGAATATTAGGAGAACATTAGTAGTTTATTAGGGAGTTTGTTGGGGAAGTTAGTTATAAATAGAAGGGAGGGGAATGGAGAAGTTAAGCAATATTTTGGAATATGAATTAGGGCTTGAGTATTATCTCAAGATGGGACAGATGGGAGGGGCCTAAGTACCTCGAACACTTGGTGTATCTTCTATTTCCGTTATCTTTTTATATTTCAATATATCCGGGTTCTATAAAAAAAATTTACCGTATAGGTCTAAAGACCATCTTAGACTCTCCTATCCCTGACCCAATCAATCTACTTGTACCTTGATATGTTCACTTCCCTTTTCCCGTTATCTCGTTAACTTGGTGAAGAATAATAGCCAAACGAAAAACAGAAAACAAAGGTCAAATAAAAGTAGGAAGATAATTGCACAAGAAATTTACGGCATATCACTTTGAATTAAGGAGAGAATTCCATTAGATGCCCATCATACAGCTTACAGAATGAGAATGATGGAGCGAAGGTTAAGAGAAGCTCCAAACCAGTACATGGAAATTTTACCCTCTATCAGACTCTGATAAAACAAAAGAACAAAAAATATTCCAGCTGGATACCAAAGAAACTTTCTGTGCGCAATGAAAAGACTAAAATTCCACCTTAGCATTGAGCCAAATAGTAACACATACTTTGGTCCTTGTAGGCTTTTATTTTTTAGTTTGTTTTTATTCTTTGCAAAGGAGATAAGATAAGGGTCTGAAACTTTTTTCCAAGTTTTAGTTAAATCTAAGTTTGTTTTTTTCCCCAAGTACAGGTTGAACTTTTTATTTGTAATAGATCCTAGGTTTATCCATTTTATAGTATACTAAACTAATTAGAAACTTATGTTTATTTTTCTTTTAAAAGTAGAAACTCATTTAAAGATATAAATGCTGATTGGTCTCTCATCTCTGTCCATCTGAGATAAAAGAATGGGAACTCTGGTGTAAATAATGGATGAAGCTGAATATTTAATCATCCGACTTGTATAGGTCATAATAATTGATGATGGGAGCGCCGATGGCACAAAAGGTATAGCTTTCAATTTTGTTAGGAAGTACTCTGTAGAAAAGGTGAGGGTTATACTTCTTGGAAGAAATCATGGAAAAGGGGAAGCTATTAGAAAGGTGAGTTTGGACTTCGCACTTTGTTTGCAACACTTGTATGGTTATTATTCTCTTTACACCATTTTATAATGCCAAATTCGTGAGATTCACTTTCTAAAAGGCATTTTCAAGCAGGGAATGCTTCACTCACGTGGTGAGATACTTCTAATGCTGGATGCTGATGGAGCAACCAAAATTACCGACCTAGAAAAACTTGAAAACCAGGTTTCAACGAACCAATCTATTTTCTAGTGCAATTTATTTGAAGTAAGTTTGCTTATGAAAGTGAAAGCCATGACATCTAAAATTGTGAACTAATTATTAAAGACAAAATTTTCTCCCCCAGATTCATGCAGTGGCTAAGAAGGAAACTTCAAGAGATTCAAGCATTAAAATATCTGATATTCCTATCACTGCATTTGGTTCTCGTGCTCATCTTGAGGAAAAGGCTTTGGCTACAGTTTAGTGTTGCTTTTGCAGTTATCTCCCTTTCTTATTCGAGCTTTATTATTTGTGTGATTGGTTCATTCACTTTTTCAGAGGAAGTGGTACCGCAATTTCTTGATGAAGGGTTTTCATCTTGTGGTTCTTCTAATTGCTGGTCCTGGAATACGGGATACACAGGTGATTCTTCTAACTGTTTGCGTGCTCATGCTCCTTAAATTATACGTGCCATTATCTCTGTGCTTATATTGCTGTGCAGTAATGCCAGATATAATTTGGATTCATCCCAACTACTGGCTGAAGCTGCTAAGCTTCATTTTTTAATTCTGACTTCCTATAACTTTGATTATATGCAGTGTGGTTTTAAGATGTTCACGAGATCTGCTGCAAGGAAGCTGTTTATTAACATTCGTTTGAAGAGGTAAGATCCTCCCCTATATTCTCTCAAGTCACGACTGCTTATTAAAGGTTTTTACTTTAGATTATCATGTCTTATGGAGTAGATCCAGCTCTCTTTTAAGTGCATGCAACCACATCATAAAGGATATGGTAAATCGGTGTGTATTGTGGAATTGATTGCGTTCGATTTGAGAGCAAAACCGTAACAAATGAACTTTGTTGGCTTATTTTGTTTCCCATTCTCTTTCTAAATCCTTCCACTTGTTGGTAAAACATTTTCAGCAGCAATAGTAAATTTTCGTCTCTGATCCGTGCTTCCATGATATCGCAGATTCTGATCAATGGATCATCTAAGCAACAAGGACTAACCAACTAATGATTTGCTCCCTGCAGGTGGTGCTTTGATGTCGAGTTGTTTTACCTCAGCAAATATTTTGGCATTCCTATGATTGAAGTATCTGTGAACTGGTCTGAAATACCCGGATCCAAGCTAAGTCCTCGGAGCATTTTAAATATGCTATGGGAGCTCGCACTCATGTCGATCGGATACAAAATTGGAATCTGGAGAATTTTCAACTGA ATGGAGTATTTATGGACGATACTGTTCATTTTCATTAGCCTCGCTCTTTGTTTTGCTGCAGCTTTGATTTCTGCTCTCATCATAGAAGCTTTCAAGAGGAGATTCAATCGCGAGCACGTTGAAGCTCCAGCAATCTTCGAGGACCCAAACTCGTTGAAACGGGTTCCTTGCCCTTCAATTTTTGATCCAGCTGAGAAGTACATGTCCTTGATCGTTCCTGCTTTCAATGAAGAGTACAGGCTTCATGGAGCTCTGGAGGAAACCATCAATTATCTTCAGCAACGTGCTGCAAAGGACAAGTCATTTTCCTATGAGGTCATAATAATTGATGATGGGAGCGCCGATGGCACAAAAGGTATAGCTTTCAATTTTGTTAGGAAGTACTCTGTAGAAAAGGTGAGGGTTATACTTCTTGGAAGAAATCATGGAAAAGGGGAAGCTATTAGAAAGGGAATGCTTCACTCACGTGGTGAGATACTTCTAATGCTGGATGCTGATGGAGCAACCAAAATTACCGACCTAGAAAAACTTGAAAACCAGATTCATGCAGTGGCTAAGAAGGAAACTTCAAGAGATTCAAGCATTAAAATATCTGATATTCCTATCACTGCATTTGGTTCTCGTGCTCATCTTGAGGAAAAGGCTTTGGCTACAAGGAAGTGGTACCGCAATTTCTTGATGAAGGGTTTTCATCTTGTGGTTCTTCTAATTGCTGGTCCTGGAATACGGGATACACAGTGTGGTTTTAAGATGTTCACGAGATCTGCTGCAAGGAAGCTGTTTATTAACATTCGTTTGAAGAGGTGGTGCTTTGATGTCGAGTTGTTTTACCTCAGCAAATATTTTGGCATTCCTATGATTGAAGTATCTGTGAACTGGTCTGAAATACCCGGATCCAAGCTAAGTCCTCGGAGCATTTTAAATATGCTATGGGAGCTCGCACTCATGTCGATCGGATACAAAATTGGAATCTGGAGAATTTTCAACTGA ATGGAGTATTTATGGACGATACTGTTCATTTTCATTAGCCTCGCTCTTTGTTTTGCTGCAGCTTTGATTTCTGCTCTCATCATAGAAGCTTTCAAGAGGAGATTCAATCGCGAGCACGTTGAAGCTCCAGCAATCTTCGAGGACCCAAACTCGTTGAAACGGGTTCCTTGCCCTTCAATTTTTGATCCAGCTGAGAAGTACATGTCCTTGATCGTTCCTGCTTTCAATGAAGAGTACAGGCTTCATGGAGCTCTGGAGGAAACCATCAATTATCTTCAGCAACGTGCTGCAAAGGACAAGTCATTTTCCTATGAGGTCATAATAATTGATGATGGGAGCGCCGATGGCACAAAAGGTATAGCTTTCAATTTTGTTAGGAAGTACTCTGTAGAAAAGGTGAGGGTTATACTTCTTGGAAGAAATCATGGAAAAGGGGAAGCTATTAGAAAGGGAATGCTTCACTCACGTGGTGAGATACTTCTAATGCTGGATGCTGATGGAGCAACCAAAATTACCGACCTAGAAAAACTTGAAAACCAGATTCATGCAGTGGCTAAGAAGGAAACTTCAAGAGATTCAAGCATTAAAATATCTGATATTCCTATCACTGCATTTGGTTCTCGTGCTCATCTTGAGGAAAAGGCTTTGGCTACAAGGAAGTGGTACCGCAATTTCTTGATGAAGGGTTTTCATCTTGTGGTTCTTCTAATTGCTGGTCCTGGAATACGGGATACACAGTGTGGTTTTAAGATGTTCACGAGATCTGCTGCAAGGAAGCTGTTTATTAACATTCGTTTGAAGAGGTGGTGCTTTGATGTCGAGTTGTTTTACCTCAGCAAATATTTTGGCATTCCTATGATTGAAGTATCTGTGAACTGGTCTGAAATACCCGGATCCAAGCTAAGTCCTCGGAGCATTTTAAATATGCTATGGGAGCTCGCACTCATGTCGATCGGATACAAAATTGGAATCTGGAGAATTTTCAACTGA MEYLWTILFIFISLALCFAAALISALIIEAFKRRFNREHVEAPAIFEDPNSLKRVPCPSIFDPAEKYMSLIVPAFNEEYRLHGALEETINYLQQRAAKDKSFSYEVIIIDDGSADGTKGIAFNFVRKYSVEKVRVILLGRNHGKGEAIRKGMLHSRGEILLMLDADGATKITDLEKLENQIHAVAKKETSRDSSIKISDIPITAFGSRAHLEEKALATRKWYRNFLMKGFHLVVLLIAGPGIRDTQCGFKMFTRSAARKLFINIRLKRWCFDVELFYLSKYFGIPMIEVSVNWSEIPGSKLSPRSILNMLWELALMSIGYKIGIWRIFN Homology
BLAST of IVF0000310 vs. ExPASy Swiss-Prot
Match: Q9VLQ1 (Dolichyl-phosphate beta-glucosyltransferase OS=Drosophila melanogaster OX=7227 GN=wol PE=1 SV=1) HSP 1 Score: 262.7 bits (670), Expect = 5.6e-69 Identity = 149/328 (45.43%), Postives = 206/328 (62.80%), Query Frame = 0
BLAST of IVF0000310 vs. ExPASy Swiss-Prot
Match: Q9Y673 (Dolichyl-phosphate beta-glucosyltransferase OS=Homo sapiens OX=9606 GN=ALG5 PE=1 SV=1) HSP 1 Score: 256.5 bits (654), Expect = 4.0e-67 Identity = 128/271 (47.23%), Postives = 182/271 (67.16%), Query Frame = 0
BLAST of IVF0000310 vs. ExPASy Swiss-Prot
Match: Q9DB25 (Dolichyl-phosphate beta-glucosyltransferase OS=Mus musculus OX=10090 GN=Alg5 PE=1 SV=1) HSP 1 Score: 248.1 bits (632), Expect = 1.4e-64 Identity = 142/327 (43.43%), Postives = 198/327 (60.55%), Query Frame = 0
BLAST of IVF0000310 vs. ExPASy Swiss-Prot
Match: A2DZE8 (Dolichyl-phosphate beta-glucosyltransferase ALG5A OS=Trichomonas vaginalis OX=5722 GN=ALG5A PE=1 SV=1) HSP 1 Score: 238.0 bits (606), Expect = 1.5e-61 Identity = 123/281 (43.77%), Postives = 182/281 (64.77%), Query Frame = 0
BLAST of IVF0000310 vs. ExPASy Swiss-Prot
Match: Q54J42 (Dolichyl-phosphate beta-glucosyltransferase OS=Dictyostelium discoideum OX=44689 GN=alg5 PE=2 SV=1) HSP 1 Score: 233.4 bits (594), Expect = 3.6e-60 Identity = 119/292 (40.75%), Postives = 182/292 (62.33%), Query Frame = 0
BLAST of IVF0000310 vs. ExPASy TrEMBL
Match: A0A1S4E276 (Dolichyl-phosphate beta-glucosyltransferase OS=Cucumis melo OX=3656 GN=LOC103498152 PE=3 SV=1) HSP 1 Score: 652.1 bits (1681), Expect = 1.2e-183 Identity = 328/329 (99.70%), Postives = 329/329 (100.00%), Query Frame = 0
BLAST of IVF0000310 vs. ExPASy TrEMBL
Match: A0A0A0KSA3 (Dolichyl-phosphate beta-glucosyltransferase OS=Cucumis sativus OX=3659 GN=Csa_5G517110 PE=3 SV=1) HSP 1 Score: 622.5 bits (1604), Expect = 1.0e-174 Identity = 310/329 (94.22%), Postives = 319/329 (96.96%), Query Frame = 0
BLAST of IVF0000310 vs. ExPASy TrEMBL
Match: A0A6J1GQI8 (Dolichyl-phosphate beta-glucosyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111456187 PE=3 SV=1) HSP 1 Score: 590.1 bits (1520), Expect = 5.7e-165 Identity = 296/329 (89.97%), Postives = 307/329 (93.31%), Query Frame = 0
BLAST of IVF0000310 vs. ExPASy TrEMBL
Match: A0A6J1JRS3 (Dolichyl-phosphate beta-glucosyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111487753 PE=3 SV=1) HSP 1 Score: 585.9 bits (1509), Expect = 1.1e-163 Identity = 296/329 (89.97%), Postives = 308/329 (93.62%), Query Frame = 0
BLAST of IVF0000310 vs. ExPASy TrEMBL
Match: A0A6J1C019 (Dolichyl-phosphate beta-glucosyltransferase OS=Momordica charantia OX=3673 GN=LOC111006250 PE=3 SV=1) HSP 1 Score: 577.4 bits (1487), Expect = 3.8e-161 Identity = 281/327 (85.93%), Postives = 302/327 (92.35%), Query Frame = 0
BLAST of IVF0000310 vs. NCBI nr
Match: XP_016902331.1 (PREDICTED: dolichyl-phosphate beta-glucosyltransferase-like [Cucumis melo]) HSP 1 Score: 652 bits (1682), Expect = 5.44e-236 Identity = 328/329 (99.70%), Postives = 329/329 (100.00%), Query Frame = 0
BLAST of IVF0000310 vs. NCBI nr
Match: XP_031741063.1 (dolichyl-phosphate beta-glucosyltransferase [Cucumis sativus] >KGN51312.1 hypothetical protein Csa_007869 [Cucumis sativus]) HSP 1 Score: 622 bits (1605), Expect = 2.97e-224 Identity = 310/329 (94.22%), Postives = 319/329 (96.96%), Query Frame = 0
BLAST of IVF0000310 vs. NCBI nr
Match: XP_038889980.1 (dolichyl-phosphate beta-glucosyltransferase-like [Benincasa hispida]) HSP 1 Score: 603 bits (1555), Expect = 1.44e-216 Identity = 299/329 (90.88%), Postives = 310/329 (94.22%), Query Frame = 0
BLAST of IVF0000310 vs. NCBI nr
Match: XP_022953750.1 (dolichyl-phosphate beta-glucosyltransferase-like isoform X1 [Cucurbita moschata]) HSP 1 Score: 590 bits (1521), Expect = 2.02e-211 Identity = 296/329 (89.97%), Postives = 307/329 (93.31%), Query Frame = 0
BLAST of IVF0000310 vs. NCBI nr
Match: KAG7033054.1 (Dolichyl-phosphate beta-glucosyltransferase, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 588 bits (1517), Expect = 8.23e-211 Identity = 295/329 (89.67%), Postives = 307/329 (93.31%), Query Frame = 0
BLAST of IVF0000310 vs. TAIR 10
Match: AT2G39630.1 (Nucleotide-diphospho-sugar transferases superfamily protein ) HSP 1 Score: 459.9 bits (1182), Expect = 1.7e-129 Identity = 223/333 (66.97%), Postives = 272/333 (81.68%), Query Frame = 0
BLAST of IVF0000310 vs. TAIR 10
Match: AT2G39630.2 (Nucleotide-diphospho-sugar transferases superfamily protein ) HSP 1 Score: 271.6 bits (693), Expect = 8.6e-73 Identity = 136/224 (60.71%), Postives = 175/224 (78.12%), Query Frame = 0
BLAST of IVF0000310 vs. TAIR 10
Match: AT1G20575.1 (Nucleotide-diphospho-sugar transferases superfamily protein ) HSP 1 Score: 69.7 bits (169), Expect = 4.9e-12 Identity = 59/244 (24.18%), Postives = 114/244 (46.72%), 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 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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