IVF0004180 (gene) Melon (IVF77) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGACTTCTTCAATTCTCCTCCACTTTGAATTCAGGCCACAAATGGTGATCGCTATGGCGCTCGATTTCCTTCTCCCGTCTTGGTTGGAGATCAAGATCACTCTCGCTACTTCTCTCTTTGTCGTCTTCGCTTACTGGTTTTTGCTTACTGGAGTGGGTTATTTGATGCTGATCGTTCTGTGGTTGATGGTTCTGGAGATGGTATTCATGTTAAGGACAAGGTCGCCTTTTTCTCCTTCTATTACTTGTGGGTGTAATGTATTTTCTGTTGGAATTGTTTGTGTTTGTTCGTGCATTTTATTGATTGATGTACGTCTTGATATTTGAATGTGGGTTCGTTTTGCTATTGGTTTTGATTGAGTAGTTTCTTGCATAACTTGTTTAAGTTCATGTTTCAGTTTATGATGAAAAATTCGGTTTTGAAGGCGATTTGTATTTATTTATTGGAAGATTTTACTGGTTTTAGAGATTACTGCACAGTCAACCGTTTTTTGATTTGTAACTTTATATTATGTATGTTCGTGTTAGTTTAAGGAATTGATTTCTGATTCTGAATCTTTAGTTTTTTGCTATTTGGTAGCTTCCTGATATATGATCTTTTGAACTTTCTGGGTTTAAGAAATTATCTTGCTGATTAAATTATAGCCTCTTGTTGCTACTTTATGTGTGTTTTGTTTTTAATTCTCGTATTTTAATGGACTTGGGCATTCCGTCTTTCTGTATGCTAGTCATTGGAATTCATTTATAATTTTGAAATTTTGTTATCTGATATCATCAAAACTGGTCAAATCGAGCTTTCTACAAGTCTAATCTGGAATCTTATTACATGATACCACTGAAGTTCGACAAGTTGAGCCTTCTTATAAGTACAAGTCTGTTTTGTAACAGATAATTCACTCTTTCTTTATCCTGGCCTTAGGAGTTAGTCGTTAATGTTGAAATTTGGGCTCTCTGTTTTTTAACCTGTGCTTCATACCAATAGGTTTGTCTTCCATTATGTTTTGATGTGTTTCTCAGTGGTGATGACAGTTTTTGCCCTGAAATTCGATCTTTCCTGCAATCTTTGGGTTTTATCTTCTCATTTTCTTTTTTGATAAATAATGTTTGCCAATAAAATTTCTATTGAAGTATGAATATACTAATGAATTATGTGACTAAGAATGTGAAACTTTATTATGTCTTGATTTAGAAACTAATTTCTCATTTGATAACCACTTGATTTTTGAAAAATAAACCTATGAATACTACTCCCACATTTGAGTTCCCTTGTTTTGTTATTTGCTTTCTAGAGTGATTCCAAACTCTAAGCCAAGTTTTGATTCTTTTTGGGTTTTAGTACAACATTGTGGCTCTTGGTGGTATAAAAATCATATTAAATTCTTTTGTTATTACAGTCTTTTAATGATTGTTAACCATCGGAAGACTTTCCTTTGTTTGTTGTGTGGGTAGTGGTAGTTTGTAACCTTTATCATCAGGCTGTTTCTTTAGATTTCTTTTTCAGAATATGCAAATGTGTTTCTTGAAATAAATCTAAGCTAGTTCTGAAAACTATATAAGGTGCTTTTTAAAAGTAGTTTTTGTTTTTAGAAATTGGCTAAGAATTCAAATGTTTCTTTTAAGAGTAATGAAAACTAAGGATGTGAAAAAAACAAGCACATTTTTCAAAAAGCAAAGAAAAAAAGGAAATTAATAACCAAAAGGGAAATTGGTATCCAAGAGCCTAATCTTTTCACTTTTCTGGTTTAATTTGAAACTGATAAAAAGGAAGCATTTAGCCGCTCTGTTGCAATGTGATATTGCTTGTGTTAGAAAATTCTAGACAGATATATTCTATTGATGTGCAACTCTTTTGACGTGCAGTTTTGCAATTTTTTGTAGATTCCCCCTGGTCATTTAAGAGACCTTCAAAGTAATTCTGCTTATCTAATTAAGGTATGTTGGTCATCAAATGGTTGGCTCTAGTTCTTATTATGTGGATGAAGACTGGCATTGCTTTTGTCAAATGTTCAAATCAATCTTGTACTTTTGGACTCAATTACATTTTACAGCTTCATTTTTGTTATTTCATTTGGACAATGGGTTTGATTTTTCAGCTGGAATTGTTGGCTGCAAAGAATCTTATAGCTGCAAACTTAAATGGCACTTCTGATCCTTACGCTATCATTACCTGTGGTACAGAAAAGCGTTTCAGGTTTCCTTCTTGTTGATCCTTTTCTGAAATTTTAACCTTTGAAAATAGTTGATGGTTTAGTGGGGATGTGAGCCGTACCTAATTGTTGGATTGCAAATCAGTTTTGCATCTTCATTTGTTGAAAATTCAAGTATTGATCTTGAATCAATGTTATTCAGTAGGAGTAACTTCCCTTATAGTCTTATTGAACTTCCAAATATACAATTCACATAGCTTATGCTTGATTCTTGTCTTGATACCATATGATAAGACAAAGAGTCTCGTCATATATCCAACGGTATGATATTGTCTCTTTTGAGTTTAAAGTCACATGGTTTTATTTTTGAACTTTACTAGGATGGCACACACCAATGTACGTGTTTTCTTTGTTTATATATTTGATCTTTTCTTTACCTATAATGGATGTAGAGCTATTGACTATGTTTGCATCTCCAATGGGTAGCTCCTTTTTATAACTTGACTTGTAACTTGGTGCTGTATTATTGACCCTACCGTATTTTTTTCAAAAAAAAAAAAACTTGGTGCTGTATTACTGAAAATTTCAGTTTCCATCCTCGTGCTCAATCCTGTGTGCTACTCTCTTGTCCTCTAATTATTTGTCTCCAGTTTCCTGAATATATGGAAAAAGCACTATTCTGTTTGAACCCCCTTTTATTATTATTATTATTCTATTATTACTTTTTTTTTTTTGGGAATCTAGAACAATTTCTCTTTGCCACCTGCTGTTTAATTTTTTCCTTCATTCAAAATGTACCTTAGGAATAAAGTTTGTCAGAGTTCAAATGCTTTTAACATTTGCATACACTTTGTTCTCATCATACTTCTTGTGGTTTTATAAAAACTTTTGCATTAATGTATCAAGATTGTGTACTTTTATGTCGCTTTCTTTTTCTTCAATGCTTGCTTTAAAATACTTCTTGCTTGGTGCAGTTCAATGATTCCTGGTTCAAGGAATCCCATGTGGGGAGAGGAGTTCAATTTTTCCGTTGATGAGCTTCCTGTGCAGGTAGCTTTGCTTGCTATAGAGATGTTGTCATTTGCTTGGATCTGACTGCATAGAGATACTGTCATCATTGCTAGGATCTGAAGAGTTGGTTTTTGGACCGGTCTATATACTGTCTATGTTCTAAGTTTCTAACAAAAAATTGAGAGAAGCAATCTATATTAACCGTCTACATTAGCCACCACAGGTGGGCCTAATGGTCTTTAAACTAGTAAAAGAAAAGGTAAAAAGACTTGAAGGGTATAGGTTAAGACCTTAGGGGCAGCATGCACACATACACCGTGGAAAGTATGTAATTGTAATTTATTTATTTGAAATACGTTTATTTAAACGTTCAAACTTAACACCAATTTGACATTTCTTTGAAATTCTACTAAAAATAACGAATAATATAAAAATTACAAACCTGTTTCAATGAATCACTCAAACAAATTTGCCTGACCCTTTGAATGACATACATAAGAGTTGGTTCAGATTACATTTTTAGTGTTATGCCTGGCTCATGTCTGTGCTATATACTGAAGTCCAACCCAATAATTGGTCCTACCTGCCGGCCCTGCCAACTCTTTTGCCACCACCTAAACAAATTGCAAGTTAACTCGGTGAACATATGATTCAGGATTGCCCACATCATAGAGCTAACAAACTGAAATGCATACTTGCTTCCATTGCTTCTGTTGAAGTTCAAAGTTGTATTTGTAAATTACATGCCACTTATATAAAATTTCCCCTTATCTAACAGATTCATGCTACAATTTATGATTGGGATATAGTTTGGAAAAGTGCTGTTCTTGGTTCTGTTACTGTTACAGTTGAAAATGAAGGCCACACAGGTGCTGTGTGGTACACATTGGATAGTACTTCTGGGCAGGTTCTCATTCATAATAGTTTTGCTTCTTTTTGTTTTATTATTATTCACTTTTTTCTAGCATGCATGCTTCCCTTTCTCGTATTAAGAAGACTTATTAATTTGTACATGAACTTTTTAGGTTTGTCTCCACATTAAGACCATAAAATTGCCAGTGAATGCCGGAAGGTACAATTTGTACTTTAATCTTCTTCTTCTTCAACTATGCTTCTATTCATTTTTGTTCTGAATTGGTCGGGGCCTCTTTTACTTTGCAAAATCATATGGTTACCTCATGAGAGTTGGCCGCACCTGCTAATCTAAGAAGCACCGGCACTTCTAAGATGGCCAAGTGTTGGTGTCGAACACGTGTCCGATACTAACACGCCTCCAACACGTGTCCGACATGCCTGCTGGCATGTCAATTATTTTATTATTATTTTCTTAATTTGGGACACTTCTGGGACATGGAACCTGCAAGATTAGGGAAGAAAAAATGAACTAAAACTAACATTTTAAAAGCCCAAAGACAGACCGTCAGCCCCACTTTTTAGGCTTATTGTTATTGTCTTTGTCCTTTTCTTTTCATAGAAAACAGACCTCCCACAGCGACGATATCCCACATTTCTCCACGCCCATAATACCTCCTCACCCAAATGGTCATACCCAAACATTCATTTCCAAACCTTCACGCATAAATTCATGAATTATACGGTGTTTAACTTGTTAGTTTTATGTTTTCAATTTCACAATATGTTTATATGCATGACTTATATTTAAATTTTTAATAAGAAATAACGTGTTCCCAAAGTGTCGTGTCCTACTTTTTGAAAATTGGTGTGTCGCCGTGTCGTCGTGTTGCATGTCGGTTCGTGCTTCCTAGCTGCAAAAGATACATACAACTGCTGGCATATAATTCAATTAAGAAATTGCATGACAGTAGGATATCTTATATTCTCTTTTTGTTTGAAAATGGAAATATTTTTATTTGGTTCCAAGTTCCAATTGAAGAATGATTTTGTACTTTACGTTGTTTATGAGAAATTTTGAGTACTATCATTTCATCGAATAAATGAAATTACAGAAGGGAGGAGAGCCAATGAATTAAAGAAACCATTTTAATGGCAGTGAGTGATGTGATATTGTTGCCATCAAAAAGGGGAGAATTTTGCACCAAGCAGAAAAATAAAAGTTGAATGATCAACCATGACATCAAAATCCATTTCCTTATCCTCATACCAACTAGAAAAAGGCCGTGTGAAGATTAGCCATAAGATTTCTTTCTCTTTACAAACTGGATGCTCGGTGTAGATAAAGTCTAATGGAGTCGGAAGATCTGTAAAAGTAGGCGCATCATCAATCCACTATTATGTTTCAGGGATACACCAACTAGGGGATGAAGGAAACCAAGGATATTTCCTTTATTTATGTGTTGTGTTGATAGACCCATGCTAACTTCTCATTTGAGAATTTTAACCTTCTTATGGAAAAAGCCTTGCGACAGGGATGAATAAAAACCTTTGTGCAATTAGGGAGAAAGACCAAGAGGCCGACCCACTCCTCAATCTCGTTGCCCATGAGGGTGTCTTCTAATGCCCAAGTCCCAAAAAGTTGATTCCATGTTCCATAAATCAGGCACGGTTCCATTTTTCTTAAAGATAAAGTAAAAGTCTAGGGAAGGCCATGTTTAGAGGAAAATTCCAAGCCTCTGATCAGTCCAAAAGACGACAGCTGCTATTACCAATCACAAATGCAATGTTATTTTTCTTTAAAAAAACATGTGTTGAAGCCGCCATAAGTTCTTCCATGATCCTTTAGAGGAGTGGAGAGAAAAGTGCCTAGTTTGTTGCTAAAATGAGAGGTATCGTTGTTGGCAGCTATAATCTGTCACCACATGACTTTTTCCATGTAAAATTTCTCCCCTTTGACTTTTGGCAGTTTGACTGTTTGCCACCTATGATGGTCTTGACTTCCATTGCAGACAAGGTTTCCATTACGTTTTTCAATAGTGTGAGCAACTTTGGATGGGAGATAAAAACATGGATCTATAATAGGTAGGGAGGTTGGAGAGTATGGCTTAGTGTGAGCCAACCTCCTTTGGAATTGTAGGATCTTTTCAACGATCGAGCCTCCTAACAACCTTCTCAAATATAGGCTTCCAGAGAGTACTAGTATGGAGATTACTCTGAGAGGCAGTCCTAGATATGATGCATACCAAACGAGAATTTTATTAATGTATAAAAGTTTTAAATACAAGAAGACAAGTCCTCTATTTACAGTGAAAACAAACTATTTCTAATCCTAATTAATAAAAAAATTAATCTTAATCCTAATTAATAAAAGAAACTAATCCTAATCCTAATAAACCAAAGAAACTAATCCTAGCTTTGTCCAAGTGTGTGGTCTTTTAGACCATGGAAGTTCCTCAGATGTGCATTCTTATAGTAGGTTTTGGGTTTCACAGTTCTCTGATACTGTAATGTTTGCAAAAATATGCGGTCTCATCTTCATTAATCAAATTAGTAAGTTTACGGCCGTATAAGCCTATACAAGAATGGAAAGCTAATCTTACAAAGAACAACTAAGGAGAGGGAGGAAGGCTAAAGGATGTTTACCACAGTTCTAAAGGGGAACTATTTTCAATAGGTAAAGGAAATAAGTTAATAGTGGGCCTTACAACTACTACTTAATGTTAAATTCAAATAGTATTAATATAACGAAAAATAGACCGACTGAAGCTTACCCTCGTCATTTACTTGGAAGATTATCCCTTAAAATTCAAAGATTAATCCATGTATTTTGGAAGAAATTTGTGTTCAGTTCATCACTTCCTTGCCAAAGTTACAACAATCTCTTTCAAAACTTCTAGGATAAACTATTACTTTAACCAAAATTTGAGCAATCACGAAGTTGAAGCATGTTTAGTTGATGAAGAACCTCCTATCAAAAACTCTTTTGTTGAAGCATTTGAAAGTCTTTTCTTGGTTGATGATAGAAGGAACTTAGTTGAGAATTCTTCCATAGCATCAGTCATTAAGTACCCTTCAAATTCCTCCCAAATTTCATCCCCTCATCAGCTTGTTGAGTATAGATGAAAGAAATCATGCCTCAGTCACCACAAATTAAGATCTAATTGTGTTTCATTGGTCTTTAATGATTGTACTTTGGTGTGTAGTTTCTTTTGGTATTTCAGAAGCTTTGGTGGTTGTAATTTTAGTATTGTCTTGAAGAACTTTTCAGTTTTATTTTAACGTTCGAAGTTTGTTGGCTGAAGTTCTTTTTGGAAGTCTTTGTGGGCTTATATTTTGGTGGTTTGGTGTTTAGCTGAGTAGGCTATCTTTGTTTCCCAAGATTATTGTTCTTCTGCTTCCCTTGGCTTCCCCCTCCTTCCGTCTCGTTTGCTCAGAGCTCATCATTCTTGGCCTTTTATTTTGCTCTTTTGTTTGAATTATTTTTGGTTCTTCATGGAGGAGATTTATTTCCATTGTATTCCTATTTATTTGTTTTTTTATTTCTTCGTCGAAGCTTTGTATGTTCGGAGCACCGGTCTCCTTCATTATTTCAATAAAGTTTTCTTGTTTATTGGTTCAAAAATATATATATATATATATATATATGTATGTTGACTCTTGAATGCCATTTTTTAAGATGCGTTATTAACAAATGGTGGTTTTTCATTTATGATGAAAATATACGAACGTTGTATTTAAATATTTTAGTGACTGTCTTCCAGCACAGTTAATGGTTATGCCGGAGCAAATGCTCGAAGAAGAATTTCTTTAGACAAACCAGAGCTGACAGTGGTACATCAAAAGCCGGGGCCTCTTCAGACAATCTTTGAGCTTCTACCTGATGAGGCTAGTTTCTTAAAACCACTATTGTTTTGAAAATAATTGATATGGATATTCCTTTTAATTTTCAAATTACTATAAAACATTTACGGTTTCTGTTACTTCTTAAGCGTACCTAACAGACACCATTTTCCTTCAGATTGTTGAGCATAGTTTTTCTTGTGCGCTTGAGAGATCATTCTTATACCATGGTCGTATGTATGTCTCTTCTTGGCACATTTGCTTCCACTCTAACATCTTCTCCAAGCAAATGAAGGTTAGGAACGTCTTAATGATTAAGTTTTGTGTTTGTTGGCAATTTCTCGTCTTAAATCAAACATTTTTTAAAATTAAATTTGTTGTTTAATATTATGTTTTCTTTTTTCTCTTGACAGGTGGTTATACCACTAGGAGATATTGATGAAGTATTTTCTGCCTCCCTCTTTCTCTCTCCATAATAATTTTGCTGTTTTCTTATAAGAATTATTGTGTATATATGATGGAATCTCTTTTGATTTAAGATACGAAGGACTCAACATGCATTTATCAATCCTGCTGTAACAATTATTCTTCGCATGGGTGCTGGTGGGCATGGTGTACCTCCGTTAGGAAGTCCGGATGGTCAGTACCTTTCTATACTTGACAAAAACCCCGTTGTGTCATAAAATATGAGTTGAAATTACATATTTCAAGCTTGTCAATTTCAAATTTCCTTGATGAAACTGTTGTTTCTAATTTGTAAGCTTCCTGGTGGTGGTTTGACTGTGATCTACGGAAAATTATTAGTACATGAAATGTGTCTTTTCGTTTGTAAATCTTGATTATGCACCTTGATGCTTTATTATCGTTTCTCACTTTCTCATTCCATTTCCAGGTAGGGTCAGATATAAATTTGCATCATTTTGGAATAGGAACCATGTGGTTAGAGCTTTACAGCGCTCAGTGAATAACTTCCGTGAAATGCTGGAAGCTGAGAAGAAGGCATGTTCCTTGGTTTTTCTTTCCGTTGAAGATATTTCTTGTTGTTTGTGTTTCTTTTATTTATTTACTTATTTATTATTATTTTTATAAGAATGCCGTTTTATTTGTTGTTAGGAAGAATTCAAACTTGGAAATTTAGTACCATCAGATCCTGACTTGAGCATTTAAATCTTGAGATGTTCTAGTAATCTAAATAGATTTATTCTCTTATGTTGGGAAATTGAGTCTTGTTCTATGATCTCTTTCTAAGGCCTCTGCTTCATTCTATTTACAAGATATTTATTTGAATAGGGATGCAATTATCTTTCCTTTGAGTAATAATCTATTTCTTGTTTAAAAAAATAATATTAGTAAAAAAGGTAAACTTATTCTTTTGAATTATGCTAAACTCTTGTAAAGTCTAGTGATTTGGGAAGTTAGTTGTAGGGCTGATTAGTTCTTGAGACCCAGTGGTAATATATGTTTTTTCTTCTTTTTTTTGATTTGTGTAAGATATCATTTTAAACGGAACAAAACAAATGTTGGTTTTAATCTTATTTCAGGAAAAGGCTGAGTCAGCACTACGTGCACATAGTAGCTCTGTCAGAGTAAGTGAAAGTAAGGAAAAGATCCCCGCTGATGATTTGCCCAAAAGTAAAAATACTCAGACTCAGGCATTCCTTAAAGAGGAGGTTCTTACAAGCATACACAATGTACGTATCAATTTTTACCATCTTAACCTTGAAAACCCATTATCCTACAATGAGCTCGGTCTCTATTGTCTTCTGTTTCTTCAGGGTGTTTTCCCGTGCTCTCCTGAGCGGTTCTTTTCTACGCTGTTGAGTGATGGATCAGGTTACACAAGTGCTTTTGTAGCAAGAAGAAAAGATTCAAATCTAGTTGTAAGTAGGAAACTCACTCGTGTTGCTTTTTTCTTTTTTTTTTTTTGGGAACCTGTAACTTCCAAAGCCAGAACAGTTATGTTTTGGATTGTGCTACTACTGGAAGTGTAGGTTACATATTCTCAATGAAAGTTCGGTTTCTATGAAAAGAAGTGATAGATCATGTTACTTCCCCTGGATGTAATTTCCACTCTTCTACCTATTAAAAATAAAAAACATTCATCTTTCCCACTCCGTAGTCAGAGAGGGGCCATCATCTTATTTACATACTTTCTCAATCGTGAAATAATTTTCCATTCAAAGAGCATCTTTGGGCTTTCATTTATTGCATTTCTGATGCCTTGTATTTATTTTTGGTATATTCAGATGGGACAATGGCATGCTGCAGATGAATATGAAGGTCAAGTCAGAGAGCTTACGTATAGATCCCTGTGTCATAGCCCCATGTGTCCACCAGACACAGCGATGACAGAGTATCAACATGTAGTTTTATCTGAAGATAAAAAGAAATTGGTATGGCGAGGCTACTTATTTTCTTACTCAATATTATCATTTAACCTAAACTATTTATGGTGATTAAATGCATTTGGCTTTTAATATTCTTGTAATTGCTTGATACCATTGTCATCATTTTGCTGTTTCACAAGGAACTGAATATAATATTGAGGGAAAATGTACAAAATATCACGAAGTTAAAAAAAACTTTGATCAAACTCTTACCAAGATGTACAGAGACATGCTGGCATGTGGCTAAGCGCTCTTAGGTAGGTGGGCTGAAACAAGTGCCTTTTATTGAAGCTTTAAGGTGCAAACCGCAGCACCTTAGAGCTTCTTTGCTCATTTTTTAAGAAAATTGAACTTTTCACTTTGTGACGTAATTTCCACCAAGCGACGGATAGAATCCTTCGCAGGCGACTTCAGTATACTTCTGGGTCACATGTATTATAAATCAAACCAAGATCATGAATACAAAACAGTCTAATGACTGAATCTTACAAAGAAACATATATTACAATTCTCCTAGATGAGATTGTTATAAATATGAGATTTATTGTTTTATTTTATCTTTGAAGGGTAACATGTAAACAAATCTCATGTGTGTCTTACAGTTGAGAGTAAAACAAGAAAGGAATATAGAACACTAATTGGTTTTAAACATTTATCATGTACCCTTTTTTATTTATTTTTTTATCACTCTTGGTAAACTTTCTTTTAAGTTCTACATGTCACTAGATCAAAAATTTTGGGATACCTTTGTTTTTGTATACTTGATATATTTTTTATCCTCTTCTAGGTATTTGAGACTGTACAGAACGCCCATGATGTGCCATTTGGGGCGAACTTTGAGGTGATCAATTTTTTGACCATATGTTCTTTACAGTATTTCTTTGACTATAGAAAGAAGTCAATTAGTTTCTTTTAGACTGGTGATTATGCTGCTTATACATTTCCTCATTTTTCTAAAAAGAAAAGAATAGATGGTTAAGCCATTAGCATATGGTTTACATGTGACTTTAGGCTAAAATATTTTAGAACGAGACCAATGGTATCACTAGATATTTTTTAAATATTTGAGATGTTATAAAATGCACATGATGTGCCATTTGGAGCATACTTTGAGGTGATCAATTTTTCAAGCTTATCTCCTTTGGGATGTTTCTTGATATAGCTAGAAGCTAAAGCCAGAAGTTTAGGCTAAAATATATATAGAATGGGGGCCAGTTGTATAATTAAATTGATAATTTAGTACTGGCATAGTTATTCATTGAATTAGTTGGACGTCAGCTGCAATTACACAATTGATCACTATTAATTGTATCTACTGCTTCAGCTCCACTGTAGGTGGTCGTTGGAGAAGAATGCTGAAGACTCTTCATCTGTTGATATTAAAGCGGGTAAGTTTTACATTCTTTTTAGAAGAAACGCAACTTTTGATTGAATAATGTTAACTTTTCTAAAAAAATGTCTCAAAAGTACAAACTCCACAAGCCAGTGAGATAAAAGAAATAAATAAAGAAAAGAGTATAAAAATCTAAATAAATATAAATGATCATGATAGATATGAGAAGACACGGGGTTGTTCTATGAAGATTAGTCGAAGTGTACATAAGCTAGCTTGGACACTCACAAATATCGAAAAAGATATGAGAAGACATTCCAATAGATTTGAATTGAAAACTCTGCGATTGGCATTGTTAGAGAACACCATATGAAGTCTTTGGATGAGCACGTTTGAAGTATGAAAGCCGCTTGCTAAGAATAATCCGTTGATTTTGTTCTACCCATAATTATAACAATGTAGCTTTCACTGCATTAGACCACACGGTAACTTGCATAGAATTCAAAGATGGACCAATGAGAAGCTGTGCAATGTTGCCTCTGAAAGTGATAAAGAAAAAATTTGAACCAACGAAATCTGGCACATAAGAAATCGAAGATGTTCCTTTTGTTCCTCACCGTCTTTTTGTATATACAAGCTTCATTACAGTTTTATTACCCATTCCTCCCTCCTAACCCATACAAAGAACGGAAAAATAAAACAAAAAATGCTAGGTATGGCTCAGATAATCCATCAAATGAAACACGAGTCAGTCTCCCATAGGATGAATCGTGCAGGTCCTTACCCCTTTTCTTACTACAATTGTCAAAAATCATCAGCTTTAGGAGTTCTTATCTTCCAGCTCACTGACATAGCAGTTATCCATTGTTTATTAGAATTTGGAACCAGTTCAGAAGCTTGTGAAAGTTCCTCTTTCCATTTCTGTAGCTTCTCTTCCAATTGGAGAGGCCTTCTGCAATTTCCATTTGTTGTAATTTCTTTTTATTTTCCAAAAAAAAGTGAATATTTTTGAGAGTCGGATCTCTTAATTAACAAACGACGTTCTTTTCTATGGGGCACAGGTGTACATTTCAAAAAATGGTGTCTGATGCAATCCAAAATAAAAGCTGGAGCAATGCTTGAGGTTTGCATTCTTTTTTCTGGTTTCTTTACGGTTTCATCCATCATCCCCTCATTGTTTTTCTTGCTCTAGTTTTCTTTTTAGGCTTCCATTATTGAACTTCCAAATACTTTTCTTTCATTTAGTTTCAGATTAGTTTTGTTCTAAATGCTAAGATGATAACTAATTACAGTACAAACGAGCTGTGGACCTGAGGTTAGAGGTTGCCCTTGAATATATGAACTCGATTACTTCTGGAAATGAAACCGACAAAGTCGCATCGGCTCCATCGGAAGCTCAAAGCTCTTGAATGACTTCTTCAATTCTCCTCCACTTTGAATTCAGGCCACAAATGGTGATCGCTATGGCGCTCGATTTCCTTCTCCCGTCTTGGTTGGAGATCAAGATCACTCTCGCTACTTCTCTCTTTGTCGTCTTCGCTTACTGGTTTTTGCTTACTGGAGTGGGTTATTTGATGCTGATCGTTCTGTGGTTGATGGTTCTGGAGATGATTCCCCCTGGTCATTTAAGAGACCTTCAAAGTAATTCTGCTTATCTAATTAAGCTGGAATTGTTGGCTGCAAAGAATCTTATAGCTGCAAACTTAAATGGCACTTCTGATCCTTACGCTATCATTACCTGTGGTACAGAAAAGCGTTTCAGTTCAATGATTCCTGGTTCAAGGAATCCCATGTGGGGAGAGGAGTTCAATTTTTCCGTTGATGAGCTTCCTGTGCAGATTCATGCTACAATTTATGATTGGGATATAGTTTGGAAAAGTGCTGTTCTTGGTTCTGTTACTGTTACAGTTGAAAATGAAGGCCACACAGGTGCTGTGTGGTACACATTGGATAGTACTTCTGGGCAGGTTTGTCTCCACATTAAGACCATAAAATTGCCAGTGAATGCCGGAAGCACAGTTAATGGTTATGCCGGAGCAAATGCTCGAAGAAGAATTTCTTTAGACAAACCAGAGCTGACAGTGGTACATCAAAAGCCGGGGCCTCTTCAGACAATCTTTGAGCTTCTACCTGATGAGATTGTTGAGCATAGTTTTTCTTGTGCGCTTGAGAGATCATTCTTATACCATGGTCGTATGTATGTCTCTTCTTGGCACATTTGCTTCCACTCTAACATCTTCTCCAAGCAAATGAAGGTGGTTATACCACTAGGAGATATTGATGAAATACGAAGGACTCAACATGCATTTATCAATCCTGCTGTAACAATTATTCTTCGCATGGGTGCTGGTGGGCATGGTGTACCTCCGTTAGGAAGTCCGGATGGTAGGGTCAGATATAAATTTGCATCATTTTGGAATAGGAACCATGTGGTTAGAGCTTTACAGCGCTCAGTGAATAACTTCCGTGAAATGCTGGAAGCTGAGAAGAAGGAAAAGGCTGAGTCAGCACTACGTGCACATAGTAGCTCTGTCAGAGTAAGTGAAAGTAAGGAAAAGATCCCCGCTGATGATTTGCCCAAAAGTAAAAATACTCAGACTCAGGCATTCCTTAAAGAGGAGGTTCTTACAAGCATACACAATGGTGTTTTCCCGTGCTCTCCTGAGCGGTTCTTTTCTACGCTGTTGAGTGATGGATCAGGTTACACAAGTGCTTTTGTAGCAAGAAGAAAAGATTCAAATCTAGTTATGGGACAATGGCATGCTGCAGATGAATATGAAGGTCAAGTCAGAGAGCTTACGTATAGATCCCTGTGTCATAGCCCCATGTGTCCACCAGACACAGCGATGACAGAGTATCAACATGTAGTTTTATCTGAAGATAAAAAGAAATTGGTATTTGAGACTGTACAGAACGCCCATGATGTGCCATTTGGGGCGAACTTTGAGCTCCACTGTAGGTGGTCGTTGGAGAAGAATGCTGAAGACTCTTCATCTGTTGATATTAAAGCGGGTGTACATTTCAAAAAATGGTGTCTGATGCAATCCAAAATAAAAGCTGGAGCAATGCTTGAGTACAAACGAGCTGTGGACCTGAGGTTAGAGGTTGCCCTTGAATATATGAACTCGATTACTTCTGGAAATGAAACCGACAAAGTCGCATCGGCTCCATCGGAAGCTCAAAGCTCTTGA ATGACTTCTTCAATTCTCCTCCACTTTGAATTCAGGCCACAAATGGTGATCGCTATGGCGCTCGATTTCCTTCTCCCGTCTTGGTTGGAGATCAAGATCACTCTCGCTACTTCTCTCTTTGTCGTCTTCGCTTACTGGTTTTTGCTTACTGGAGTGGGTTATTTGATGCTGATCGTTCTGTGGTTGATGGTTCTGGAGATGATTCCCCCTGGTCATTTAAGAGACCTTCAAAGTAATTCTGCTTATCTAATTAAGCTGGAATTGTTGGCTGCAAAGAATCTTATAGCTGCAAACTTAAATGGCACTTCTGATCCTTACGCTATCATTACCTGTGGTACAGAAAAGCGTTTCAGTTCAATGATTCCTGGTTCAAGGAATCCCATGTGGGGAGAGGAGTTCAATTTTTCCGTTGATGAGCTTCCTGTGCAGATTCATGCTACAATTTATGATTGGGATATAGTTTGGAAAAGTGCTGTTCTTGGTTCTGTTACTGTTACAGTTGAAAATGAAGGCCACACAGGTGCTGTGTGGTACACATTGGATAGTACTTCTGGGCAGGTTTGTCTCCACATTAAGACCATAAAATTGCCAGTGAATGCCGGAAGCACAGTTAATGGTTATGCCGGAGCAAATGCTCGAAGAAGAATTTCTTTAGACAAACCAGAGCTGACAGTGGTACATCAAAAGCCGGGGCCTCTTCAGACAATCTTTGAGCTTCTACCTGATGAGATTGTTGAGCATAGTTTTTCTTGTGCGCTTGAGAGATCATTCTTATACCATGGTCGTATGTATGTCTCTTCTTGGCACATTTGCTTCCACTCTAACATCTTCTCCAAGCAAATGAAGGTGGTTATACCACTAGGAGATATTGATGAAATACGAAGGACTCAACATGCATTTATCAATCCTGCTGTAACAATTATTCTTCGCATGGGTGCTGGTGGGCATGGTGTACCTCCGTTAGGAAGTCCGGATGGTAGGGTCAGATATAAATTTGCATCATTTTGGAATAGGAACCATGTGGTTAGAGCTTTACAGCGCTCAGTGAATAACTTCCGTGAAATGCTGGAAGCTGAGAAGAAGGAAAAGGCTGAGTCAGCACTACGTGCACATAGTAGCTCTGTCAGAGTAAGTGAAAGTAAGGAAAAGATCCCCGCTGATGATTTGCCCAAAAGTAAAAATACTCAGACTCAGGCATTCCTTAAAGAGGAGGTTCTTACAAGCATACACAATGGTGTTTTCCCGTGCTCTCCTGAGCGGTTCTTTTCTACGCTGTTGAGTGATGGATCAGGTTACACAAGTGCTTTTGTAGCAAGAAGAAAAGATTCAAATCTAGTTATGGGACAATGGCATGCTGCAGATGAATATGAAGGTCAAGTCAGAGAGCTTACGTATAGATCCCTGTGTCATAGCCCCATGTGTCCACCAGACACAGCGATGACAGAGTATCAACATGTAGTTTTATCTGAAGATAAAAAGAAATTGGTATTTGAGACTGTACAGAACGCCCATGATGTGCCATTTGGGGCGAACTTTGAGCTCCACTGTAGGTGGTCGTTGGAGAAGAATGCTGAAGACTCTTCATCTGTTGATATTAAAGCGGGTGTACATTTCAAAAAATGGTGTCTGATGCAATCCAAAATAAAAGCTGGAGCAATGCTTGAGTACAAACGAGCTGTGGACCTGAGGTTAGAGGTTGCCCTTGAATATATGAACTCGATTACTTCTGGAAATGAAACCGACAAAGTCGCATCGGCTCCATCGGAAGCTCAAAGCTCTTGA MTSSILLHFEFRPQMVIAMALDFLLPSWLEIKITLATSLFVVFAYWFLLTGVGYLMLIVLWLMVLEMIPPGHLRDLQSNSAYLIKLELLAAKNLIAANLNGTSDPYAIITCGTEKRFSSMIPGSRNPMWGEEFNFSVDELPVQIHATIYDWDIVWKSAVLGSVTVTVENEGHTGAVWYTLDSTSGQVCLHIKTIKLPVNAGSTVNGYAGANARRRISLDKPELTVVHQKPGPLQTIFELLPDEIVEHSFSCALERSFLYHGRMYVSSWHICFHSNIFSKQMKVVIPLGDIDEIRRTQHAFINPAVTIILRMGAGGHGVPPLGSPDGRVRYKFASFWNRNHVVRALQRSVNNFREMLEAEKKEKAESALRAHSSSVRVSESKEKIPADDLPKSKNTQTQAFLKEEVLTSIHNGVFPCSPERFFSTLLSDGSGYTSAFVARRKDSNLVMGQWHAADEYEGQVRELTYRSLCHSPMCPPDTAMTEYQHVVLSEDKKKLVFETVQNAHDVPFGANFELHCRWSLEKNAEDSSSVDIKAGVHFKKWCLMQSKIKAGAMLEYKRAVDLRLEVALEYMNSITSGNETDKVASAPSEAQSS Homology
BLAST of IVF0004180 vs. ExPASy Swiss-Prot
Match: Q8W4D4 (BAG-associated GRAM protein 1 OS=Arabidopsis thaliana OX=3702 GN=BAGP1 PE=1 SV=1) HSP 1 Score: 753.4 bits (1944), Expect = 1.9e-216 Identity = 378/591 (63.96%), Postives = 467/591 (79.02%), Query Frame = 0
BLAST of IVF0004180 vs. ExPASy Swiss-Prot
Match: Q9ZVT9 (C2 and GRAM domain-containing protein At1g03370 OS=Arabidopsis thaliana OX=3702 GN=At1g03370 PE=2 SV=4) HSP 1 Score: 101.3 bits (251), Expect = 3.9e-20 Identity = 116/499 (23.25%), Postives = 203/499 (40.68%), Query Frame = 0
BLAST of IVF0004180 vs. ExPASy Swiss-Prot
Match: Q9FGS8 (C2 and GRAM domain-containing protein At5g50170 OS=Arabidopsis thaliana OX=3702 GN=At5g50170 PE=2 SV=1) HSP 1 Score: 82.4 bits (202), Expect = 1.9e-14 Identity = 110/540 (20.37%), Postives = 224/540 (41.48%), Query Frame = 0
BLAST of IVF0004180 vs. ExPASy Swiss-Prot
Match: F4HVW5 (Protein VASCULAR ASSOCIATED DEATH 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=VAD1 PE=1 SV=1) HSP 1 Score: 80.9 bits (198), Expect = 5.4e-14 Identity = 93/393 (23.66%), Postives = 147/393 (37.40%), Query Frame = 0
BLAST of IVF0004180 vs. ExPASy Swiss-Prot
Match: O42976 (Uncharacterized membrane protein C20F10.07 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=SPBC20F10.07 PE=1 SV=1) HSP 1 Score: 65.1 bits (157), Expect = 3.1e-09 Identity = 43/138 (31.16%), Postives = 67/138 (48.55%), Query Frame = 0
BLAST of IVF0004180 vs. ExPASy TrEMBL
Match: A0A1S3BXU5 (BAG-associated GRAM protein 1 OS=Cucumis melo OX=3656 GN=LOC103494589 PE=4 SV=1) HSP 1 Score: 1132.9 bits (2929), Expect = 0.0e+00 Identity = 575/600 (95.83%), Postives = 578/600 (96.33%), Query Frame = 0
BLAST of IVF0004180 vs. ExPASy TrEMBL
Match: A0A5A7TNV3 (BAG-associated GRAM protein 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold46G002960 PE=4 SV=1) HSP 1 Score: 1125.5 bits (2910), Expect = 0.0e+00 Identity = 574/604 (95.03%), Postives = 578/604 (95.70%), Query Frame = 0
BLAST of IVF0004180 vs. ExPASy TrEMBL
Match: A0A0A0KTV0 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G011670 PE=4 SV=1) HSP 1 Score: 1104.7 bits (2856), Expect = 0.0e+00 Identity = 562/600 (93.67%), Postives = 571/600 (95.17%), Query Frame = 0
BLAST of IVF0004180 vs. ExPASy TrEMBL
Match: A0A6J1EX96 (BAG-associated GRAM protein 1 OS=Cucurbita moschata OX=3662 GN=LOC111439209 PE=4 SV=1) HSP 1 Score: 1022.3 bits (2642), Expect = 8.0e-295 Identity = 517/600 (86.17%), Postives = 545/600 (90.83%), Query Frame = 0
BLAST of IVF0004180 vs. ExPASy TrEMBL
Match: A0A6J1I8V7 (BAG-associated GRAM protein 1 OS=Cucurbita maxima OX=3661 GN=LOC111470728 PE=4 SV=1) HSP 1 Score: 1013.4 bits (2619), Expect = 3.7e-292 Identity = 513/600 (85.50%), Postives = 544/600 (90.67%), Query Frame = 0
BLAST of IVF0004180 vs. NCBI nr
Match: XP_008454047.1 (PREDICTED: BAG-associated GRAM protein 1 [Cucumis melo] >XP_008454048.1 PREDICTED: BAG-associated GRAM protein 1 [Cucumis melo]) HSP 1 Score: 1126 bits (2912), Expect = 0.0 Identity = 575/608 (94.57%), Postives = 578/608 (95.07%), Query Frame = 0
BLAST of IVF0004180 vs. NCBI nr
Match: KAA0044548.1 (BAG-associated GRAM protein 1 [Cucumis melo var. makuwa]) HSP 1 Score: 1118 bits (2893), Expect = 0.0 Identity = 574/612 (93.79%), Postives = 578/612 (94.44%), Query Frame = 0
BLAST of IVF0004180 vs. NCBI nr
Match: KGN53020.1 (hypothetical protein Csa_014709 [Cucumis sativus]) HSP 1 Score: 1098 bits (2839), Expect = 0.0 Identity = 562/608 (92.43%), Postives = 571/608 (93.91%), Query Frame = 0
BLAST of IVF0004180 vs. NCBI nr
Match: XP_031739869.1 (BAG-associated GRAM protein 1 [Cucumis sativus]) HSP 1 Score: 1081 bits (2796), Expect = 0.0 Identity = 553/598 (92.47%), Postives = 561/598 (93.81%), Query Frame = 0
BLAST of IVF0004180 vs. NCBI nr
Match: XP_038893958.1 (BAG-associated GRAM protein 1 [Benincasa hispida]) HSP 1 Score: 1059 bits (2738), Expect = 0.0 Identity = 545/610 (89.34%), Postives = 564/610 (92.46%), Query Frame = 0
BLAST of IVF0004180 vs. TAIR 10
Match: AT3G59660.1 (C2 domain-containing protein / GRAM domain-containing protein ) HSP 1 Score: 753.4 bits (1944), Expect = 1.3e-217 Identity = 378/591 (63.96%), Postives = 467/591 (79.02%), Query Frame = 0
BLAST of IVF0004180 vs. TAIR 10
Match: AT1G03370.1 (C2 calcium/lipid-binding and GRAM domain containing protein ) HSP 1 Score: 101.3 bits (251), Expect = 2.8e-21 Identity = 116/499 (23.25%), Postives = 203/499 (40.68%), Query Frame = 0
BLAST of IVF0004180 vs. TAIR 10
Match: AT5G50170.1 (C2 calcium/lipid-binding and GRAM domain containing protein ) HSP 1 Score: 82.4 bits (202), Expect = 1.3e-15 Identity = 110/540 (20.37%), Postives = 224/540 (41.48%), Query Frame = 0
BLAST of IVF0004180 vs. TAIR 10
Match: AT1G02120.1 (GRAM domain family protein ) HSP 1 Score: 80.9 bits (198), Expect = 3.9e-15 Identity = 93/393 (23.66%), Postives = 147/393 (37.40%), Query Frame = 0
BLAST of IVF0004180 vs. TAIR 10
Match: AT1G05500.1 (Calcium-dependent lipid-binding (CaLB domain) family protein ) HSP 1 Score: 56.6 bits (135), Expect = 7.8e-08 Identity = 43/156 (27.56%), Postives = 74/156 (47.44%), 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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