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PI0014483 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAGATGGCGGTCATGATAATTTTAAACCAAGTAAAGGATGTTAGAAACTGAGAGAGGGCAACACCCAAAGAAGAAGACGAAGGGACGGTAGAATAATGGCCAGGGCTACTCAAATATTTCGCAAATCTCGTAAAGCCTTCCACGATCTCAACCTCCTCAAGATCTTGCAATCCGAGATAACCCACGAGCTTTCTTCAACCCCATGTCAGGTCCTCTTTAATTTCCTCGCTTCGATTCCACCATTAAAGCCCCTTCTTAATCAATCCCTCTCTACATCATCTCTGATTTCCCATTTCTTTTCCCATTTTTCATTCGCAGAACTATGAGAACAATGGTAGTTCCAACGATTTCACTGTGGAACATGACTCGCTCAAGTCCCAAGACGTGGTGTTGCGGCGAAAATTGGATTCTGGTGAGGAGGTTGTGATTTCTGCTCTATTGGGTCCTTTCAGATTTGGATATGAAGGGGCTTTTCCGAGGGACATTTTGATGAAGATTTGTGTGAGTAAGCCTGGAGTTAGCTCTCTTTTGCAGTTTGATTGTGGGGTTTCAGAGGACGGTCATGGTGGGTCTCCTTTCAAACTCTACAATGCCTATTATCTTCAATCTTCTGATTGTTTGGGACCTTCTGTTTATAGAGGCCCTTCGTTCAGGTACTACTATTTGGCAACTCCCGCAAAAGTTAACATTGAGCGTAGCCATTTGTGTTTGATTGTATCTTTGAGAAGTTAGAAATCCATGAGTTCTCTATGTTTACTGATTTCAAACTGTAACCGTGACCTGGCTATAGAATTTTCTGTTTGTGAGATTGGTCCCTTGGTTATAATTTGAAAGTATTGATGATGTTATAACATGAGATGATGAATATGGATCACCTTTGACTTAATTTCTTTGACATTATTAACTGATCTAGGAATTCAAATTCTACAAGTTTTCTTGACACCCAAATGTTGTAGGGTCAGAAAGGGTTGTCCCCTAAGATTAGTTAAGGTGTCTGTAAGCTGGCCCATATACCATGGATATAAAAAAATCTTTGACATTGATCTTTGAGAGCTCAGTCGGGTAAAAAGTGTAGTGTAGACTGTGTTTTAGGAACAGTTGTTTATTCTCTTGGAAATGACCCTCACAACACAACTAAAGAGAAAGAGAAGAACAATTTTCTCTTACTCACACAATTTAGAAGAAACAAGAACTAGATTAATTTTAACAGGTTTTTGGTCTCTAAACTCTCTAGGGTAGAATCAGTGGGGGCCTTAGACACGGTAGTAACCAGACATTTTCTTTTCTTTTTTTTTTTTTAAACTTATTTATGGTTATTTGGGACCCTATTCATCCTCCATTTGTCGTAGAAGTTGCTAGCTTGACACCACTGCCCAAATTATGAGAATTTTACTGCCAAAGTAACTAATGTGTCTACCAGTTACCAGTTAACAGTTACCTATTTAGTTTTCCTTTGAGGAGAACTCGTGAAGTTCAAGGTGCAAGCCATTTATGATGATAATTGGTGTTCTTTTTGTACTAAATACCAGATTGTTGGCTTTAGGACCCTTGCCCCCAATTCAATCATATATGAAGGCTCGTTTCCTTCATTGTTCCTTTAGGACAATTTTTTTAGGAATTTACTAAATAATATTTATGATTTACAAGAACTTTTTTTCCTCATTGTCTTCAAGAGTCTATAATTACCTGTACCCGCATGATGGGAGGATCTATTAACTTCTCATCCTCTTCCTCTTTTACATTCCTTTATTGGATAGCTATTTCTTATATAAAAAAGTCTTCACTAAATTATCAATTGGGTATATATATTTTATAAATTTCAGTTTGATACTCTATGGTTTGGTTAAACTTCAAAAATTGGCCCTAAACCATTATACTCTCCCTTCTCTTATTTTTTTTCTTGGCCTAAACTCTAATATTAAGCTAACATATAAGCCATCTAGAAACAAATAACTCATTACCACTTAAATGATGATACGCCACATTGGTAGAACTTAAAAGTAGGGATGCTTTGTGTGGTATAACCAAACCATAGAGACCAAATTTTATACCTAACTGTGGGGGCCTAATTAAAATTAAGCACGTACCACAGGGACCAGATTGAAACTTCAAAATTATTGAATTGAAATTTGTAATTTAACCAAAGATAAATTATGCTATGCATCATGGTCTAGTGGAGTTGGTGACCTCCTGCTCCCATGGGAAGGAAAATGTATATACTTTTCCTCCATATGATGATTGTATCCTTTATCAAAAAGTTGGTTCCTTCCTTTTCTGCAAGTTGGAAATTTTAGGATCAAAGACGAATCCTAATCCTATAGTAGTCACTTACCTAGAATGAAAGAAAAACATCAATCTATCTTGACAAATGAGAACCCTCTGTCTTACTAACATTTGTCTAGTGAAATTAGTCATGGTGGGCATAAATTGGCTTGGATAGTCACAATATCAATAAAAGACATAGCTGCTTCATTCTTTTCCTTTGCTGAATGCAATTCATCTACTTGAGTTCCTAACATGCTTAAAAACTCATTATGGGTTGGCCTAGTGGTCAATAAGGATTGTGGGTTTAATAAAGGATTTGGAGGGAATGAGTTCAATCCATGGTGGGCATCTACCTAAGATAAAATCTCATGAATTTTCTTGGCACTCAAATATTTTAGAGTCGAGCAAGTTAATCCCATGGGATTAGTCGAGGCGCTTGTCAGTTGGCTCGGACACTCACGAGCTGATTATCTCCACCCCGTTTATCTTTCCTCATTTAGCTTATCCATTTGTTGATTCTCCTAAATGGTATAACCTTGAAACTACATCTCCATTCAGTTGCTTTCCTGTTCTGTAGACAGTTCATATTGATATTTTCTTTTGTTTTTTTAGCAACAACTAATTTCAATGAGATAAAAAATGAAAGAATACAAGGGTCTACATGAAAACCATACCCGTAACTACATCAACTTTTCTTGCTTATTAATTTCAACTCTCTTCATTTTCTAGTTTCTCAACTAACAATTGCTAAATTATCTTCATTTTCTTAACCTTTGTAACTGTTAGGTGAGTCAATTTCACGCATTAAACTTATAATTTCATAAAATCAAACCGTAATTTGAATAAGAGGTGAAAGTATGACTTCCAGTTGGTTAGTAAATTTATGTTTTGATGACATCTGGCTGGATATGAGCATTCTTGTGGCTGGAGTGCACTATTTAGTAGATATCCATCCATTCTTCTGATCATGTTTTTCTGGACAAGTTTATCATTTTGTTGTTGAGTGTTCTTAAGTTCGTATTCATGGTTGGATTTGGCTGTTTCTGTTGCCTGATTTTGAATGTTTTTTTGTTTATTAGTTCCAGTTTTTTAATTTAGTTTCGAGAATGTATTAATTTCACTACTCGTTTAGAGTTATATTTAAAGGTTAACTCACTAAGCCAAGTATGAGGGAAAGTTGATTCTTTCCAAACTTGAATAGCGTTGTCATGATATATTATTTAGTTCTGAATTGACAAAACATAGACTTGTATGAATTATCCCAGCTTCCTTAATGCCTAATTGACCAATTTGACTTTAGTTTTCTGGTTGATAACTGAAAACTTGTTTGTGAACGACTTATTTTTGCTTCTTGTAGACTAAGTATCACGATTCATGATTAGTCCGTCATTCTCCTATCTTTTCAGCTTGGTTTCATCATTCATCTTAAGCTTTACCTGTTTTTCAAGCTTCCTTCTCTAAGATACTTAAAACTTCTATATCCATGGCAGCTCGTTAGATCCTCAGTTACAAGACGCGCTCAAGGAATACCTAATCAGTAGAGGTGTTGAAGAAAGCCTGACCAGCTTCCTTTTCATTCACCTGCATAAAAAAGAGCATGGTCAGTATCTGAATTGGTTACAAAATGTTGAATCTTCAATCAAAAAGACAATCGAATGAACTTTAACTTCACATCGTACCCCGGATGCCTGATTTTCATATGGGAAGAGGAGGTCTGACTTTAAGTGCAGGTTTGGAACATTTAGATTGATTGCTAAATAAGAGCTTTCTTTAATTCTGCTTGCATTTTGTGTTTGTGCAAGTTTATCCTTTTTCTTGCGCATGAAAACGTTTCATCCAGATTTATTTCTCAACAAAACAAAAACGTGGTATTCTACTCATTTAGTCTGATCCTTGGTTCTACATTGACGTTGACAAAAATGTCGAGCTCTCAGTTGAAGAGAAATTCAATGGAAATATTGAAATAACTTTTTGTGAATTTTTTGAATCATTTTCTTGGTTTTATTCATATTGATCATTTTTATTGACATTTTTTTAATACTCAATTGATGTTCATATGTTAAATATCTGCCATCTTTTGAAATGGATGTTATTCGGAAAGGGACGAAAAGGTTGGAATCAGATGTCATTTGACTTCATTTATTATATTGCACTCATTTACAAAATTAGAAATTTTGATTTGGAAATTAGATCATGAAGACGTGGATAAGCTATGGTTTTTTAGGAGCTGAAATGTAAAAAGGATCAATAAAAATTTGAAAGTTGTTGGAATCCATGGGAAATCAACAGCGGAACGAAAATGGGATTGTGAAGTGTGAAAAATGTAAAAAAGAGGGTTGTGTTGAATATTGTAGGAATTGAATGAGCTAGGTATTAGAAATTGGTTCAAAAAGCTCAATCTAAGCTTGAGTTTTGTATTATATTACATTACAATTTCATTTTAGGGGAAATTATCATTTTTTACTCAAAAGAAAGTTTTTCAATTCAAAACTAACCTCACTTTAAAATCTACTTTTTTTTTTAACTTCTTTTTCAACGTGTCCGACTTTAAGATGAGTGACCCATAACGTAAATGTACAATTTTTTCCCTCAATTGAATTCAAAGCATCTTGTCTTCTTGAGATAAAGTTAGGGTTTCTTTGAGAAGTTGCCATTTTTTACCCAAAAATGTTTTTCCCATTCAAAACTAACCTCATTTTTCAGATATATCTTTTTAACCTCTTTCCAAACTCTTTTAGACTTTTAAAGGGACCTAATAAGCGCATAAAGTGTGCTTATTTTTACTTCTTATTTAGAGTTATTTTTATTCTTATTTAGAATTATTTTTATTAGATTTAATGTGTTTGCTAGTGTTTCTCAACAAAATATGGATAAAATATAATTTGGCAGCAATCAGAGTAAAAATGAGTCAATTTTGAGCTAAAATGATGAAATAAGGTGAAATTACGATACTGCCCCTAAAAAAAGGGCAACGCATCCTAAATATGAAATCACTTAACTGCCCGACTTACATATCTTAAGCTAGAAGCTTTAATTTTCAATTTCACATTTTGTTTTCATAGAAAATGTTATACTTAAGGGTATTTTGTTTTCATAGAAAATGTTATACTTAAGGGTCCCAACTTTAGAGGAATAATTCGTTTTGAGAGTGTTTCAAGTTGAGAGGAACAATTTCTTTCATTTTTTAGAGTTCTAAAAGGCACAAGTATGTTAGAATATAACTTTTATCTTTGTATTGTAAGCCTGGTTGAAAAGTAGTCTTTCTTTTCTTCAAAAGTTGCAATATAGATCAAAAACAATTACTTTTTATAGAAGGTTTTAGTAAGCAACAAAAGTTTACTTCTTTTTCACTTCTTTACCTTATAAAGGAGAATTCTTACATTTTAGGAGAAGAAAATTGAGAAAATATTTTTTTTTTTTAAATTATTGGAACCTAATTGAACGTGGAAAAGTAATTGCTCGAGTTCTATGATTTGTCTCATTAGGTGAAGTTTTCAAGACAAAGGATAGAAAGTAAATGTCTCATAAAGTCAACCTTCTTGTGAAGATGCTTTTGTTCAGCTTTACAAAAAAGTTGACTTCATTCAACTTTACGAGACAGTTGACTTGGTTCAATTTTCTCGTTAAGTTGAACCAAGTCAACCTTCGCGTAAAGTTGAACCACATTAACTCTAGCATAAAGTTGAACCAAGTCAACTTTTGCGTAAAGTTTGAACAAAACTCAACTTTCTCATAAAGTTAATTGGTCTACTTTCTTGTAAAGTTGACCAAATCAACTTTCTCGTACATTCTTTATATATACTTCTATACTTTTTCTTTTGGTCAGTAAGTTTTATCTTCATTTGCATAATGTCTCATGTGCTTGTCTGCTATGACGGTATTTAGAATGAGGATGAACGAGAATATTCAAGGTATAACCTAGGGGATTTGAACGTAAGACTTGACATTTGCTTTTAAGACTTCTTGTTGGAATTGTATAGTCTAAATGGGAGTGACCCAAACAACCATGATCTCTCCCTAAGATGTTGTTTTTATACAATTTTGTGTCTAGGGTTCCTACATATTTGATACGAAATAATCAAGAACTTAGGTTATTTTTTAGTGGTGATGGCGCATGTAAGACCTCTATCTATAACGAAATCCAAACATATGTATGACAACAATGACATAAAGAAACTCAGTTGCTTATAGCAACCAAGCTTTCCATATAATTTAGCCCAAGAATATCTGACCTCTTATTATCTTACATAACCTTCATTCGAACAAAATTATCCAATAGGTTATGTTGCACCACTAACGCCCTTAGATAATAATGTTGCCCCATATAACCTAGCTGACAACTGTTTCTTTGTTTCTTCATATAATCTCGAGAATGATGCTCCATCATCCTCAATGTATGGATGGGAGAACAATGATTGTGTAGTCGGGGGGTTTGGGCATAATGTAAGTTAGGAGAATGATAGAAGATGAAAATGTACGTGTAGAAAAGGTTTTAGGGGTTGGTGTAGGAAAGAAGAATGTGAATTAATGGGAAAACATAGATGAAGACACTTCAAACTATGAATGGTAATTACTAGAGAAATTGGATTATGAGTTTGATGAAGAGGATGACAGTGACGTTAGGGAAGATGGTGAGAGTGGTAACTGTCAGTGCAAGGCTACCAACCCAAGCTTGGAAAATACTCATGTAGAACCTTCGAGTGCATGTCCCAAAGTGGCCATGATTGTATCGGGTCAGATGTTTGAGAGTGAGGACATTGATATTGAGATAGAACAGACATCTCTCTAAAAAAAAGAACTTTCATTTGCATTGTTTCTCTTTGGTATACTCCGAAAATTTGAACATAGGGTTAACAGACCCACAAAAGCACTACTGGTTGTTAACTGTAGAAATGATGTCAACCAGTGGAGGATTTATGCATGAAAGCTTAAGGATTCTACATTGTTTAAAATAACATGGTATCAAAATGTCTATACATACACAATAATTAATGGATCACGATCACCGTCAAGCTAGAAACAAATTGGTTGGTCATCTGATTAAGTCTGAGTTCATGAATGTTAGTAAAACACATAAGCCGAAAGACATCATGCAGGATATGCAGGAAGATTATGGTGCCAATATTAGTTATATAAAAGCTTGGCGGTTTAAAGAAGAAACGTTAGGAATGGTTCGACGTAAGTCGAAGGTGTAATGACTCAACTTTCAAACACTGTCAAGGACGCTACTACATGCATGCACAAGCTTGAAAAACTATTTCTTGCAAATCAACTAAAATAAATGAAAATTTTCATCCAATAAAATTTTAAAAGAATAAAATCATAAGACACTGAGGGTGAAGGGATGAGAGCCTTTACGCAGCAGAATAAATTTTTACAGAACCATTTTTCAATTTAATTGGGAATTGCAAAATACTCATACATTGGAAAAAAAAATACAGAAACATAATTCTGAGGTTAAGCATGTTTTTTTTAAAAAAATAAATACAGAGAAGAAAAGCTACTCACGTACGTTGTCGACTCTATATTGGGACTTCGGTATCTGCTGCCACCACCACTTGGAAACCTTCATCCTCTGGGCTGAGAACTGGTTTGTGGGAACCAATAATGGGAAGGGAATGATTTGCAAAGAGTTTTTTTTTTCTTCTAAGAGAGAAATCACAGAACAACGTTACCTAGAAAACTTTTTTCTGCGTTCGTCTGTCATTCGTTCATACCCTATCACTCCCTCTTCTTCAGGGAAGTTGGAGAGAATTGGGGAACGTGGGAGAACAACCCACGTTCCCTATTAATTTAATTGATAAAGTTAAATTAATTAAATTAATTAATAATTAATTAAATCATATTTAATTAATATTTCATTTAAATCATATTTAAATGAATATCTCTCACATAACCTATATATTAATCTCAATACCCTTTACGAGCTAGGAAGGGGACCTAATAGACCTATAGATCAGATGCTACAATGATATGAGATTAATTGACTGAACTCATTAACCACATTAATCAATATTCGTTAATTGTGTGTACACTCCACTAAAGACTCACAGTTGAACTCTTCTCACTGTAGATATATTTCTGTGTTCACGGATATAGACCAATAATAGTAAGTTAGTCCTTCACGAGTGTCCGTAACACCAGCTGGGTCAAATTACCGTTTTACCCCTAGGTTACTTCTAGTCCTTAAAAACTAGTGCTCCTCTAATGAACAACCTATTTATGGTCCAACCAATAAACAGAAAAACCTCTCTCGTGCCATAGAGAGGGTAGGGCCCTTTGTTCAAGTTCCGAAGACACCATTTAAGGGAACACTCATCTACTTACCCTAAAGTTGGGAAGGAGTGAATTCCATCTTGTGTGATTATATTCCTAGCTCCTCACTCGGTCTTGTCCCCAAAATGATAAGCATATTGAGTCGGCAATCTGGCCACTCTCAACCGTACAAATCAAAGAACAGTCCCTTATGAACAGTTCATAATACACTCAGGATTAAGACTAAGTTACCTAGGTTATCCTAATGAAATAGAAATCTAACTAGTTAACGGAGTTGCATCTAGTGGTTACTATTTCGTGGTCCGGTCTTATGCAAACTCATTGCATAGGATACCCTCACTCGCATGTCACCTACACGAATGCGTTTGATCATTGTGTTTGTATCAAATACAAAGTGAGTTGTATCCATAGTGTTACCAGGATAAGGTACCCAGCCTTATCCCTATACTATAGACCCTTTAAGTTATATCTCGAACATTAATCCTTGTATGTCTCCACATACAGTTCAAGACTCATTAAACAACTTAGGATGTTAGTTTATTAGATTTAGGTTATTAAGACAAAACTAATAATATAATCAATAACGCTTTATTGAAATTATAATAATAACACTTTTATTAATAACAGTCAATGGATTACATTTGCTATCTACGAGCTTTAGGACATAAAACCCAACAAACTCCCACTTGGAATAAAATTCTAGCCTAGTGGTAGTCTATGGGATGTACATAATAAAGTAATCCTCAAACATTGGAAATGGTAAAATGTACAAGTATATTACATAAAACGTATATATACAAATACAATAAACTAGGGCATCCTCATACCCATTACACATCTTTCACTTGCCCTAGATCACCTAATGTACATATCTCGCAGACCTAGACTTTCTAGATGGCCCTCGAACACTTTAGCCGTGAGAGTCTTCGTAAACGAATCAACAATGTTGTACTCCGAAATGATCTTGGTTACAATCACATCCCCTCGTTGCACAATCTCCCGTATCAGGTGATACTTCCTCTCTATGTGTTTCCCTCGTTTGTGGCTGCGAGGTTCTTTAGAATTGGCTACTGCCCCACTGTTGTCACAATAAAGAGTGATGGGAAAGTTCATGTTTGGAACAACTTCCAAATCATGCAGGAACTTCCTGAGCCAAACTACTTCTTTTACTGCTTCTTTTGCTGCTTCACAAGCAGCGACATATTCAGCCTCCATGGCAGAGTCCGCAATTCATCCTTGCTTGATGCTATGCCATACAACAGCTCCCCCGTTCAGGGTGAACACTAATCCCGACGTAGATTTCCTAGAATCCTTGTCAGTTTGGAAGTCAGAGTCAGTGTATCCTGTAAGGATCAAATCCTTAGCTCCATACACAAGCATGTAGTCTCTTGTTCTCCTAAGATACTTAAGAATAATTTTAACCGCTATCCAGTGGTCTAACCCTGGGTTGGACTGGTACCTACTGACTATTCCCACTGCATAACAAATGTCTGGCTTAGTGCAGAGCATAGCATACATTAAGCTGCCCACAGCTGAGACATAGGGAATACGTCTCATATCCTCAACATTTTAAGGTGTCTTAGGACACTGTTCCTTAGACAAGTGAACCCCATGCCTGAAAGGTAATAAACTCTTATTGGAGTTTTGCATTGAATATTGAATCAACATTTTGTCGATATAGGTTGCTTGAGATAGAGCTAGCGTTTTGTTCTTACGATCCCTTATGATTTAGATCCCAAGAACATATTGTGCCTCTCCCGAATCTTTCATTTGAAATTGGACTGCTAGCCAAGTTTTTACGTCAGTTAGGTATCCTATATCATTCACAATGAGAAGGATATCGTCCACATAAAGTACTAAGAAAGCTACTTTACCTTTGTTGATTTTCTTGTACACATAAGGTTCATCAACATTTTGGTCAAAACCATAAGATTTGATCGCGGTATCAAATCTAATGTTCCAAGATCTGGATGCTTGTTTCAACCCATAAATGGATCGATTTAGCTTGCAAAATTTTTGCTCCTGACCTTGGGTTATAAACCCTTCAGGCTGAGACATAAAAATACTCTTTTCAAGATTGCCATTCAGAAAAGCGGTCTTGACATCCATTTGTCATATTTCATAATCATAAAATGTAGTTATGGACAAGAGAATCCTTATAGACTTTAACATAGCAACAGGGAAAAAAGTTTCCTCATAGTCAACCCCTTCCCTTTAGGTGTACCCTTTTGCTACAAGTCTAGCTTTGAAGGTCTGTACCTTCCCAGCTGAATCTCTCTTTCTCTTATAAATCCATTTGCACCCTATGGGTTTCACCCCTTCAGGTAAATCTACAAGCTCCCATACTGAATTGAAGTTCATAGACTCCATTTCAAGGTCCATGGCTTTGACCCATTGGTCTTTGTCTACATCATTCATTGCCTGTTTATAGGACAATGGATCCTCAATGCCATCATCTGGTATGACAACTTGAATTTCAGTTAAACCCAAGTAACGGTTAGGTTGTGATACAATCCTCCCACTGCGTCGATGCATTCTCAACAATTGAGAAGGGCGAGACTGACTTGATGCGTTGGTTTCTCAACTTTTGATGAGGGACCAGCTTCATCAACAACTCTTGTTGATTCATCAGTAGCTTTATTTAATACTAATTTGCTTCGTGGTTTATGATCTCTCATGTGATTTTCTTCCAAGAAAGTAGCATTTGTCGATACAAATACTTTGTTTTCTTGTGGATCGAAGAATAGACCACCTTTCATTTCTTTAGGGTAACCAACAAATTGGTATAATCTTGAACGAGGTTCCAACTTTTTGAGATTTGTCACTGACACGTGTTCTGGACAATCCCAGATTCTGAAGTGACTTAAACTAGGTTTACGTTCTCTCCATAACTCGAAAGGTGTTTCAGAAACACTCTTCGAGGGAACATTGTTCAAGATATGAACTGTAGTCTCTACTGCATACCCCCAAAATGAGCTAGGCAATTGAGCATAGTTCATCATTGAACGAACCATGTCTAACAGTGTTCTATTTCTCCTTTTTGATACACCATTTTGTTGAGGTGTACCAGGTGCAGAGAGTTGAGATTGAATTTCATGTTCTATCATATAGTCTTGGAATCTTAAATTCATGTACTCTCCACCTCGATCAGATCAAAGTATTTTAATCTTTTTACTTAACAAATTTTCAACTTCAGCCTTATACTCCTTGAACTTTTCAAGAGCTTCAGACTTATGCTCCATTAAGTATAAATATTCATACTTTGAATAATCATCTATAGAAGAGATGAAGTATTCAAAACCTCATCGAGCTTTTACATTCATCGGACACAGAGGTTTGAATGTATAAGTTCTAGGGGCTCTTTGGCTCTATAACATTTTCCAGTAAAAAGTCTTTTAGTCATTTTTCCTTCAAGACAAGATTCACATGGAGGTAATGAATCATCTTCTAACTCATTTAAAAGTCCATTCTTTACCAATCTCTCGATCCAATCGAGATTAATGTGACCTAATCTTAAATGCCAAAGATAAGTATTGTTATTAGGAGAAATTCTTTGTCTTTTATTTTGAGTGTTAGCAGTTTTAAATATCTCATTATTTAAAATTGTTTTCGCTTCGTTAGGTCTTAATACATACAAGTTGTTTTCAAGCTTAGCTGAACAAATGTGTACACCATTCTTAGAAATGAACACTTCATTAATAGAAAAAATAACAGAGTACAATTGTTCTAATAAGCAAGAAATAGAAATTAAGTTTCCTCTAATCTTAGGAACTATCTACAAGTTTTCCAAAAACAAGAATCTATTTCTGAAAAACAACTTGACATCTCCCACTGCACGAGCTGAAATGGCATCTCCCGTTCCAACCTTGAGCGTCATTTCACCCTCCTCGAGCTGTTGGAAGGAACTAGTTTCCTGCAAAGAAGAACAAACATGATTAGTGGCTCCTGAATCAAGTATCCAGGCATTTTGGTCATTTTCCACTAAATAAGTTTCTAAAACAAGTAAATCATATTTACCTTCTTTTTCCTTCTTCTTCTCTGTAAGGTACTTGGGTCAGTTTCTCTTCCAATGACCATCCACATTGCAGAAACATGTAACCATAGTCTTAGAACATAACTCATGAGTTTCCATAACTACAATTCATCCATCAAACAAACATGGTAAAACATTCACACAATATCAAATTTTCTGTAACATAACAACAGGATTTCCAGAACAACCTCAATAGTCTAACATAGCGAGTTATGGAAATTCAACCCATTAAAAATAGAATCATGCGTTCAGTGATTCCACAGTTTTAACATCAACTTGAATTTAAGGACGAATGAGTAGTAAATCATTTACCTTGAATTTGGACAAAAATAGTCCAACCGAGCAAAAACCAACAAAGTCTTAATTAGGACTTAAACATAAGTCCAAGTTTAAACTCAAATAATCAGATTGAAACCAAGTACCCAACATAAAGATTTAGGGGAATTACAAAAAATAAACCAATTTTGAAAGGGTAATTTTTAAAAAGTTGAGTTTTAGGACAAATGAGGTATGAAAAGTAAAAAATGCCCTTATATAAATTTTTTATTTATTCTTCTTTTTTCCTCCAAAAAACATAAAAGAAACTTTCTTTTCCCGTGTTTTCTCTCATCTTTCTCTAACTTTCCTCTAACTTTTTTCACTCAAGCTCTCTTAGCACTTCTTAGAGTTTTTAGTCACTTTTAAGCAAACTCTCTTACTATTTTGAAAAGTGTTTATGTTTTTATTATTATTATTATTGTTATAGATAATCTTCTTAGTTTTTAATGTTCTCTTGGTGAAATGTTTACACCTTACGTGTATAACCCAAAATCAATTTTATAATTGTTCTAAGTGATTTGGGTTGTTTAATACATATTTTGCAAGTTTTTTTTTTTTAATCTCACAAACATCTCGTAAACATCTTATAGACATCTGGCAGACATCTCGCAAACATCTCGCAACTTTCAAATTTCAAATGTTCAATCTCAAATCAATTATATACTTGTTTTATGTGATTTAGGGTGCTTCTACACCTATTTTAGAAAATTTTTAGCTACTATATTTTTATCTCGCACACTAGATATTTCAACCCAATCATACGAGGTAACTGTCAAAACTTTCAAATTTTGTTTTTTTTTTTCATTCGCTTTTTTTAAAAAAAAATTAACTCTAAGAATTTTGGCAGTATTCAAATTGACGACAGAGGCGGTAGCTATCTTCTCTAGAACAACAAATTACCTTTGAAATTGTCTTCGAATGTAAGTTTCATGACTTTGGACGTTTAGTCTAGAAATTTCTCCAGGCATAAGATTGTCGATACTGTGGATATTCCGACCTCGAATGTTTTTTTAAGAAAGAGGGGGGCGACTTCTTGCCAAGAAAGTTATTTGCATTCTTTTTGTGACCGATTGAAAGATAGTAAAGGTGAGAAGAATGGGATTGTTAATATTTCTGTGAAAAATTTGGTGCATGATGTTGCTTCCTCTCTGCAACCGCAAAAAGCTAAGATTACAGCAAAGAAAAGTAATAATGGCATCAGAGGGGATTTTTTATTATTATTATTATTATTGTTCTTTGAAGGAAGCGGGAGAGAGAGAGAGATTTGTTTTTTAAAAAAAGTTTTTTTTTTCAGTTTCTCTTTATTATCATTAATTTTTTGTAGTTTTAGTTTTAGTTTTTTTTTTACGAATGTATCCTTTTCTTTTTACAACTAAGTAATTTTTTTAAGAAATTTTTTTTATGGCTTTTTCTCTTTTACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTGCTTTTTCTTTTTTAACAAAACTATTATGTTATATATATATATATATATATATATATATATATATATATATTTCATTTATCTTTTATTTCTTACTCCTAACTTTGACTTTGACTTCTTTTTTACAGGTTTAATATAACAAGAAGACAAAGTCGAGTCTCCAGACTTCCTCTTTCATTGGGAGTAAGGAGGTTCATTGTGCCATTTCTTCCGAGGTCCCAACAGTCAAAGGTTGAGTCATAAGCAGATCGTGTCTTTCCATCTTGGCTTTTGACTCTCAATCTTGGGATTGTATCCTGCTTGAACCATGATTGGTCAACTAGCTCATTTACTCATTCAACAATCACGCTTTGTAGGACTTAAACCGAAAAGACCCAGCCTCCAGCTTCTTATTGCAGAC AAGATGGCGGTCATGATAATTTTAAACCAAGTAAAGGATGTTAGAAACTGAGAGAGGGCAACACCCAAAGAAGAAGACGAAGGGACGGTAGAATAATGGCCAGGGCTACTCAAATATTTCGCAAATCTCGTAAAGCCTTCCACGATCTCAACCTCCTCAAGATCTTGCAATCCGAGATAACCCACGAGCTTTCTTCAACCCCATGTCAGAACTATGAGAACAATGGTAGTTCCAACGATTTCACTGTGGAACATGACTCGCTCAAGTCCCAAGACGTGGTGTTGCGGCGAAAATTGGATTCTGGTGAGGAGGTTGTGATTTCTGCTCTATTGGGTCCTTTCAGATTTGGATATGAAGGGGCTTTTCCGAGGGACATTTTGATGAAGATTTGTGTGAGTAAGCCTGGAGTTAGCTCTCTTTTGCAGTTTGATTGTGGGGTTTCAGAGGACGGTCATGGTGGGTCTCCTTTCAAACTCTACAATGCCTATTATCTTCAATCTTCTGATTGTTTGGGACCTTCTGTTTATAGAGGCCCTTCGTTCAGCTCGTTAGATCCTCAGTTACAAGACGCGCTCAAGGAATACCTAATCAGTAGAGGTGTTGAAGAAAGCCTGACCAGCTTCCTTTTCATTCACCTGCATAAAAAAGAGCATGGTCAGTATCTGAATTGGTTACAAAATGTTGAATCTTCAATCAAAAAGACAATCGAATGAACTTTAACTTCACATCGTACCCCGGATGCCTGATTTTCATATGGGAAGAGGAGGTCTGACTTTAAGTGCAGGTTTAATATAACAAGAAGACAAAGTCGAGTCTCCAGACTTCCTCTTTCATTGGGAGTAAGGAGGTTCATTGTGCCATTTCTTCCGAGGTCCCAACAGTCAAAGGTTGAGTCATAAGCAGATCGTGTCTTTCCATCTTGGCTTTTGACTCTCAATCTTGGGATTGTATCCTGCTTGAACCATGATTGGTCAACTAGCTCATTTACTCATTCAACAATCACGCTTTGTAGGACTTAAACCGAAAAGACCCAGCCTCCAGCTTCTTATTGCAGAC ATGGCCAGGGCTACTCAAATATTTCGCAAATCTCGTAAAGCCTTCCACGATCTCAACCTCCTCAAGATCTTGCAATCCGAGATAACCCACGAGCTTTCTTCAACCCCATGTCAGAACTATGAGAACAATGGTAGTTCCAACGATTTCACTGTGGAACATGACTCGCTCAAGTCCCAAGACGTGGTGTTGCGGCGAAAATTGGATTCTGGTGAGGAGGTTGTGATTTCTGCTCTATTGGGTCCTTTCAGATTTGGATATGAAGGGGCTTTTCCGAGGGACATTTTGATGAAGATTTGTGTGAGTAAGCCTGGAGTTAGCTCTCTTTTGCAGTTTGATTGTGGGGTTTCAGAGGACGGTCATGGTGGGTCTCCTTTCAAACTCTACAATGCCTATTATCTTCAATCTTCTGATTGTTTGGGACCTTCTGTTTATAGAGGCCCTTCGTTCAGCTCGTTAGATCCTCAGTTACAAGACGCGCTCAAGGAATACCTAATCAGTAGAGGTGTTGAAGAAAGCCTGACCAGCTTCCTTTTCATTCACCTGCATAAAAAAGAGCATGGTCAGTATCTGAATTGGTTACAAAATGTTGAATCTTCAATCAAAAAGACAATCGAATGA MARATQIFRKSRKAFHDLNLLKILQSEITHELSSTPCQNYENNGSSNDFTVEHDSLKSQDVVLRRKLDSGEEVVISALLGPFRFGYEGAFPRDILMKICVSKPGVSSLLQFDCGVSEDGHGGSPFKLYNAYYLQSSDCLGPSVYRGPSFSSLDPQLQDALKEYLISRGVEESLTSFLFIHLHKKEHGQYLNWLQNVESSIKKTIE Homology
BLAST of PI0014483 vs. ExPASy Swiss-Prot
Match: O94675 (Mitochondrial acidic protein mam33 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=SPBC776.07 PE=3 SV=1) HSP 1 Score: 68.6 bits (166), Expect = 9.7e-11 Identity = 45/130 (34.62%), Postives = 65/130 (50.00%), Query Frame = 0
BLAST of PI0014483 vs. ExPASy Swiss-Prot
Match: P40513 (Mitochondrial acidic protein MAM33 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=MAM33 PE=1 SV=1) HSP 1 Score: 62.4 bits (150), Expect = 6.9e-09 Identity = 37/110 (33.64%), Postives = 62/110 (56.36%), Query Frame = 0
BLAST of PI0014483 vs. ExPASy TrEMBL
Match: A0A1S3BK83 (uncharacterized protein LOC103490527 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103490527 PE=4 SV=1) HSP 1 Score: 350.9 bits (899), Expect = 3.6e-93 Identity = 171/194 (88.14%), Postives = 182/194 (93.81%), Query Frame = 0
BLAST of PI0014483 vs. ExPASy TrEMBL
Match: A0A6J1EKM2 (uncharacterized protein LOC111435528 OS=Cucurbita moschata OX=3662 GN=LOC111435528 PE=4 SV=1) HSP 1 Score: 336.7 bits (862), Expect = 7.0e-89 Identity = 167/202 (82.67%), Postives = 178/202 (88.12%), Query Frame = 0
BLAST of PI0014483 vs. ExPASy TrEMBL
Match: A0A6J1HWH3 (uncharacterized protein LOC111467274 OS=Cucurbita maxima OX=3661 GN=LOC111467274 PE=4 SV=1) HSP 1 Score: 334.0 bits (855), Expect = 4.6e-88 Identity = 166/202 (82.18%), Postives = 178/202 (88.12%), Query Frame = 0
BLAST of PI0014483 vs. ExPASy TrEMBL
Match: A0A6J1DM07 (mitochondrial acidic protein mam33 OS=Momordica charantia OX=3673 GN=LOC111021294 PE=4 SV=1) HSP 1 Score: 320.5 bits (820), Expect = 5.2e-84 Identity = 160/202 (79.21%), Postives = 177/202 (87.62%), Query Frame = 0
BLAST of PI0014483 vs. ExPASy TrEMBL
Match: A0A5A7V534 (Mitochondrial acidic protein mam33 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold89G003990 PE=4 SV=1) HSP 1 Score: 282.0 bits (720), Expect = 2.1e-72 Identity = 135/154 (87.66%), Postives = 144/154 (93.51%), Query Frame = 0
BLAST of PI0014483 vs. NCBI nr
Match: XP_004139944.1 (mitochondrial acidic protein mam33 [Cucumis sativus] >KAE8646855.1 hypothetical protein Csa_020765 [Cucumis sativus]) HSP 1 Score: 377.9 bits (969), Expect = 5.7e-101 Identity = 185/202 (91.58%), Postives = 194/202 (96.04%), Query Frame = 0
BLAST of PI0014483 vs. NCBI nr
Match: XP_008448290.1 (PREDICTED: uncharacterized protein LOC103490527 isoform X1 [Cucumis melo]) HSP 1 Score: 350.9 bits (899), Expect = 7.4e-93 Identity = 171/194 (88.14%), Postives = 182/194 (93.81%), Query Frame = 0
BLAST of PI0014483 vs. NCBI nr
Match: XP_022928687.1 (uncharacterized protein LOC111435528 [Cucurbita moschata]) HSP 1 Score: 336.7 bits (862), Expect = 1.5e-88 Identity = 167/202 (82.67%), Postives = 178/202 (88.12%), Query Frame = 0
BLAST of PI0014483 vs. NCBI nr
Match: XP_023544221.1 (uncharacterized protein LOC111803860 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 335.9 bits (860), Expect = 2.5e-88 Identity = 167/202 (82.67%), Postives = 178/202 (88.12%), Query Frame = 0
BLAST of PI0014483 vs. NCBI nr
Match: XP_022967898.1 (uncharacterized protein LOC111467274 [Cucurbita maxima]) HSP 1 Score: 334.0 bits (855), Expect = 9.4e-88 Identity = 166/202 (82.18%), Postives = 178/202 (88.12%), Query Frame = 0
BLAST of PI0014483 vs. TAIR 10
Match: AT2G41600.3 (Mitochondrial glycoprotein family protein ) HSP 1 Score: 182.6 bits (462), Expect = 3.3e-46 Identity = 96/202 (47.52%), Postives = 133/202 (65.84%), Query Frame = 0
BLAST of PI0014483 vs. TAIR 10
Match: AT2G41600.5 (Mitochondrial glycoprotein family protein ) HSP 1 Score: 182.6 bits (462), Expect = 3.3e-46 Identity = 96/202 (47.52%), Postives = 133/202 (65.84%), Query Frame = 0
BLAST of PI0014483 vs. TAIR 10
Match: AT2G41600.2 (Mitochondrial glycoprotein family protein ) HSP 1 Score: 122.5 bits (306), Expect = 4.0e-28 Identity = 70/162 (43.21%), Postives = 96/162 (59.26%), Query Frame = 0
BLAST of PI0014483 vs. TAIR 10
Match: AT2G41600.1 (Mitochondrial glycoprotein family protein ) HSP 1 Score: 119.4 bits (298), Expect = 3.4e-27 Identity = 66/146 (45.21%), Postives = 91/146 (62.33%), Query Frame = 0
BLAST of PI0014483 vs. TAIR 10
Match: AT2G41600.4 (Mitochondrial glycoprotein family protein ) HSP 1 Score: 119.4 bits (298), Expect = 3.4e-27 Identity = 66/146 (45.21%), Postives = 91/146 (62.33%), 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 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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