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MELO3C023659 (gene) Melon (DHL92) v4
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTGCCTCATTTGCTTTCTTCATCCTCGTTTCATATCTATTCTCACCATTCCTTTTCTTACTCGTCTTCTATTCTATTCAGATAATGCTTCTTTAATACTCATCCCATCATTTACTAACCTAAATGCAGCTTTGAAATATACGAAATTCACTGGTATTTTGTCATTTCTTGTACAGAGATTGATGGCTCTGATTCATATTTCAAATCCCACCCAGTGCTTGCTGAAATTCAAGACAAACCTTCCTGCTTCTGAGGCATCTTCTCGTCGATCCAATTGCTCTGTTGCAGGTAGAAGGAAGTGGGTTGTTGCTATGACATCTCAAATTCCAGCACAACATGTTCAGGAGACTCAACAAAGCTTGACTGGTGATTCTTTTATTCGTCCCCATTTGAGGAAATTGTCTCCTTATCAACCCATTCTCCCTTTTGAGGTGCACCATGCTGACCTTTGATGCTCCTGTTATACTCTATTTCTAACTAGCTAAGTTATTTTCCACCATTATGTTGGTGCTAATCTCCTTGGGTTGATCAAATGGAAATGGGGCATGTGATAAAAGAGGCATTGATTCTAACTCATTGGTGGCCACATTGACGGGTCAGAGAATTGAGTTTAATTTACTGCTTAGGGTCAGAAAAATGAGTTTTGTCGAGGGTGTGTGTAATTTGGCCTAGGCACATGAAGGACATAAAGATTGAATATTTGGTGTCTTCTTAGCCATGTGGATGCACAGTACATTATGGATTTATCCGTTGGTGAAATTTATGACTTAGTGGAATGGTAATATGTTTCTGGAAGTTTCATTAGGATATACAACCAAGGATTAAAACTTCGATGTTGATATTGATATTGAGATTTAAAATTTACAGATATATCGATATTGGCAGATATTTCTGTAAGTAAAAAAGTTTTTAAAATTTGTTTAGATTCAGTTATGAATATTGTTAATAGTATCTTTATTGGTATTGGATTATATGACATTCTTTTTATGGTTTTCAAAATCACATTGTTTATTTATCCCTCGGTGGAATTTAATGACTCAGTGGAAGTTTATGTTATCAGTCCTGGGATTTTCATTAGAGTATACAAGGGCATACAAAAGAACAACCTAAAAAAATAGAACTTGAACCCCAACTATGGAATAGATGTCTGTCCAACAAAATGAAACCAATCTTATCTTGCTTGCTTCAAGTGTTTAATCCTTTGATGGTAGGTGTGTACATTAATGAGATATAGATGTATTTGAAGAGGTTCTTGTTTTCTCTTCATGATTTTCAGAGCACATTGTGAATAAACAACCTATTATTAAATTAATGACTTGGTGAAAGTATGTTACCAGTATTGAACTCAATTGCACCATTCGGTACGAGTTCTTTAAACTGGGGTATCTACTCCCACAAAATTATGAATTGTGTTATATTACATTTACAACTCATTTGCATGTTATAGGCTGTCAAGGTGGTTCTTTAACTTTTTTTGCCTGTAGGTTTTGTCAACACGTCTTGGAAGGAAGCCTGAGGACATTATAAAATTAGATGCAAATGAAAATCCTTATGGTCCTCCCCCTGACGTAAGTACATGTTCCCTTCTGGTTGATTCTATATACAAAGAATCTTGGTTAACTGAAAATTTGTCAAATTTGTTTCTTAAAAGTTCAGTCATAGGGAAGTTATCTTTCTTCTTTTGCCTGCCAACTAATTATTTATGTTTGTTTTGCATTATGTTGGACTATAATTTGGGTTTGTTTTGTAGGTTCTTGAAGCCTTGGGAACAATGAAATTCCCATATGTCTATCCTGATCCTGAAAGTCGTCAATTGCGAGCAGCACTTGCCATAGACTCTGGTCTTGAATCTGATTATATTCTTGTGGGTTGTGGCGCAGATGAACTCATTGATCTGATTATGCGGTTAAAACTGAATCAACTCTGCCTTGTCAATGAGTATTTAAATTTGAATTCTTACTTTCCCTTAGACTTAAGATCATTTCTTGAATTGTTGTAGATGTGTGTTGGACCCTGGTGATAAAATTGTAGACTGCCCTCCTACCTTCACGATGTATGAATTTGATGCTGCTGTTAATGGCGCTCTTGTCATCAAAGGTAGTTATCTACTTATATATCACTTTATTTTTTGATTTCTTCTTTTTATAACCAATCTTTAAGCTTACCAAAGTGACCATATTTGTCTCTTAATGGTCTGTCATTTGAATCTACTTATCTACATATGTTGCTTTCGTCACATACAGTTGCAATATATCTTGCCTATGGTATTCTGCAGTTCCAAGGAAGCCAGACTTTTCTTTGAATGTGGATCTCATCAAAGATGTTGTTTGTAAGGAAAAACCTAAGTGCATATTCCTCACTTCTCCAAATAACCCAGATGGAAGGTAATTCTTTGTTTTTTTTTCAAACACATACGAGCCTCTTTATTAATATTAATAAATGAAACTAAAGCTCAAAGTATAAGAGAATCATACTAAGAGCAAAAAGGACCAAAGGAACAAATACAACTTAAATCCAAGACAAGGAGGCGCATTATTATGATGACACCCCTAGAGCGATCACAACAAGAGTACAACAAGTTGGTCATAACCCTCTAGAATTCGAGCAAACAGGAAAAACTAATACAAAGTTAAAGTAAATAATATTTCAAAAAAGGAAGCACCAAAAAAAGGCAACCATCCAGTTGCTTGAAGTCTGATTGACAATACATTCCTGTGCCTGGAACTGGAAGACTTGCATCTTTCATCCCAAAGATTCAATAACAAAGCTTTGACATCATTGGTTCAGAAGAAGAATAATCCTTGAATACAGCATCTATCCAATAAAAACTGCACTACATTGCATTGAATGTATATACCCAAAGACCCAGCATGTGGCACAGTACCACAATATATCTATAATTTCTTTTCGAAAAGGAAACTCACTTTTGCCCACTGTATAATGTTAAAAAATCCATCGATGGTCCCAATCAGTTAAAGCATAAAACAAACTCTTCTTGCTTTGAATCTTGAATGAGCACTTGATTCGGATTATGTTTTCCAAGAAAACTTTGGAAAGCCAAAACTCTTCTATGCATCCGTTGAGCCTCTCATGATCCATTGGGGCAGGCTCGCAACATTCATTAGAATCTCTTTCTGCAACCGAAATAGCCTCTTGTTGTTTTTCCTAAAGGGAAACTCTCATGTGCCCATCTTGTGATGTTGAAATCACTGCCAATGCCTCAAGCTTCCTAGCAAAATTTCAAAAGGATGAGAAGTTCAGGCCATGCAGATTTCCTTTCCCTATAATTGTTTGGACCATACACTGGATATCCAGCAAGTTTTTCTACACAAAGTGATGCATTTTCAAAGAGTAGCTGCCATTTAGTGTGTTGGTGACTGTTATCTTGCTTGTATCCCACATAATCAGCATTCGGATTGAAGTTCCATATGATTCGACAAAATACCATCCACTGTCCTTTGAGCTCCAAAGTGATTTTGGGAAGCGCAAATCAAATTCTTCTTTCTTAGATTCTTGGATGAGTACCAATTCCGGTTTGTGATATTTTAGAAATCTTTTGATGGCCAATCTCTTGTTTACATCCTTCAAACCACTCGTGTTCCATGATACAATTTTCATTATCCCTCAGCAAAAGTAGCTAAAGTAAATTCTCTGTCTGTATCCTTATCTGTGATCTTGCACTTTAAATTCTCTGTCTGTATCCTTATCTGTATCCTTATCTGTGATCTTGCACTTTTCAGTTCACTCAATCGTGCCTATAAGATTGGGAAAATCGTACCTGCTCAATAACAATATGACGATCATATGTACTCTTTTCATGCTTATCCTCTATATGATTCAGATTTAGGGGCTATTTAATGTGCCACAACAATCTTCATGGAGAAGAGATCCTCAGAAATAAATTTAGGGAATTATTAACAGTGTAATATGTTGTATGTTGTTTGAAAAATAGACCATTTTGCTTGACTCTTAGACATGCTAAACTTTGTATTTGAAGTCATTTTTATTCCATCCTCTCCAGCTAAGACTTTTACTTGTTTACAGTGTAATTAGTGATGAAGATCTCTTGGAAATTCTTGACCTCCCCGTACTAGTTGTTCTTGACGAAGCATATATAGAGTTTTCCTCAACTGAATCAAAGATGCAGTGGGTGAAGAAGTATGAGAACTTGATTGTACTTCGAACGTTCAGTAAAAGAGCAGGTGTACCATCTACATTTTTTTAACCACAGTTTTAGAATAATTTACTTGTTTACCTGTGTACGACTTCCTTTTTTGTATTCATGACTATTGTGTTACCGGAATGACAATTTGGTGTTACAGTCTAGTAAAGTAGATTTATCATGCACATATTACGTTAATTGATTCTAACTAACAAAAAGTCTTCCTATGCATATCCTACTAATTTAAACTTATGTCCCTTAAATTTTGTATGGAAAACGCTAAATCATCATGTAAGTTGGAAAAAACTTATCAGAGGCATGTCTTGCGTATTGAAACAGTCTCATGTTTTCGTACATTCAATGTATTCTTCTTGATGGAGATAGAAGTCTTATCTTATATTTGCTGTCAAAATGTAGAAGTTAAACATATTTTGGTGTAACTAGTTTGGCCTATCTGTTATGATTTTGCTGCCAGAAAGCTAAACCTAAAACACATTTTATCTATTACTTTAGTTGCAGGGTTGTGGCTATGATCTTCTTATTTTTTATGATTTAATTTACTATTTCAAAAGTTTTATTTTTTGAATATGTAAAATGTAAATGGTTTCCCGCAATTCTACTCTTGGTAACTGATTGACAATAGCTTTACTATCCTTTTTATGTGAGATGTAAATTTGCAGGTTTAGCTGGACTTCGTGTAGGATATGGAGCATTTCCTTTGAGTATCATTGAATATCTTTGGCGAGCAAAGCAACCTTACAATGTATCTGTTGCTGCTGAAATTGCTGCATGTGCAGCATTGCAGAACCCCTCCTACTTGGAGGTACACTTTCTCAACTAATGCTTGTTGGATGCATTCTTTTAGCTTCAACATTACTTGATATTCGCGATTGATTGACTTAGCAACATTGGGAGATGTGAGAACAGTAAGAAGACTACGGAAAGAGATTCAATCCTGCAGTGACTACCTATCCAACATTAAATGCTATGATTTCTTTTTTGGCAACTAGATATTGTAGTGTCAAGAAGTTGTCTCCGCTAGATTAGAAGATATTTGAGTAAAAGCACGTAGATACTCGGTATAAAAAGATGATGAAATACTTGGTAAGAAGGGAAAGGCATTTTGGTGCTCGATTCATTTCTAATTCATGTTTTCTATTTCTTGCAGAAGGTAAAAAATGCCTTGGTACAAGAACGTGAGAGGTTGTATAATCTTCTAAAGGATGTGCCATTCTTAAATCCATTTCCTAGTCACTCTAATTTCATCCTTTGCGAGGTGACATCGGGAAAGGATGCGAAGAAATTGAAGGTAAATGACTTTCTTCATATTTACCACTTTTGCACTCTAGACTTGCAACATAACTTCTACTCTTTTTATTCAGATTGTCAGCCATGAATCAAAGTAGAAAAGTATTTGAGGACCTAAATATACTAAAATTTTAGCATATGCTCTATGCAAAATTATTAACAAATATGCTTTCCATCATTTGAAAATTATATCTTTGTACACAAATGATCTCAAAATCTTTTGAAGTTGGTGGTTGAAGCGGATAATAATGTGATAGAACAATAAGAAGTGTGTTCTTATTATATTGATATGAACTTTGACGATTACAATATAGAATTGATGATCTCAATTCTGGAAATAAAATGCAGAAATTAAGACAATATAGAAACTAAGAACAAAGATGAATAAGACTTCCCTCTCTGCCTTTCTTCTCTCTCAAGGAAACTTGCAGAATTCTCTCACCAAATTCATGCCCTCTCTCTGAATTCCCTCCCATTTAACCACCTCCCTTGTAACTAACTGTGGACCTCACCACTGTGGTCTTCTCTCCTATTGCTCTCCCCCTCATTCGCACGTGTGTTTTTCCTTCTTCTGATTCCTATTGTATTGTAATACAATACGGGGTCTATCATTACAATTCTCCTCCAAACTCACCTTGTCCTCAAGGTGGAAATTAGGAAATTGTTATTTAAAGTCATCACAGTTCTCCCGCGTAGCTTCATGTGGGGGTAGGCTCTTCCAACTGATTAGCACTTCCCATTCCCGTGGATTCTTAATATACTCGAATCTTTCTTCTGGTGTTGCCATCCATTCATGGTTTTCATTTACAAAAGGACTCAGCTGGCGCACCTCGGTATGATCTCCGAGCATCCTTTTTTGAGTTGGAATACATGGAATATTGGGTGAATGGATGCTTTAGTCGATAATTCCAACTTATAAGCAACATGACCTATTCTTTCAATCACCTTGTAAGGTTCGAAAAATTTTGGTGACAAATTTTTGTTTCTTCTCTTTCTCAATGAGACTTGACGATAGGGTCTAATTTTCAGAAATACAAGCTCTCCCACTTGGAATTCAACATGTCTCCTCTTCATGTCTGCATACTTCATCATCTTTTCTTGGGCCATTCTAAGGTGTTCCTTCAATGCTCCTAAAATCACATCTCTCCTTCTACTGTTGATCAAGTGTCAAATGGGTGTCTCCATGTCACCATAATATATTAATGGTGGTGGTAATCGTCCATAAATAGCTTGGAATGGAGTTATCCAATCGATCTTTGATATGTGGTGTTATACCAGTATTCGGCCTAGTGGAGCCAATTTACCCATTCCTTTGACTTCTCCCCTCAAAAGCACCTCAGATATGCTTCAATTCTTTGGTTTATAACTTCTGTTTGACTGTCAGATTGTGGATGGTATGCCAAGCTTCTATCCAGCCTAGTTCCAAATAAACGAAACATCTCCTTCCAAAAGTTACTAAGGAATACTTTATCACGATCTGAAATTATAGATTTCGGGTATCCATGTAATCTCACTATCTCTTTCACAAAAATTTCAGCAACAGACTTAGCAGTATATGGATGATTCAAAGCTATAAAGTGGGCATGTTTACTCAATCTATCCACTACTACCAGAATTACCTCAAATCTTGCAGCTTTGGGCTACCCATCAATGAAATCCACAGTCACCTCACTCCACTCTGCATCCAGTATCTCCGAGGGCATTAGTAACCTAGTTGGTGATAAAGCTGGTGACTTATTACGTTGGCAAATCAAGCATTCTTCACAATATTTCTGCACATCGCTCCTCATTCCTTTACAATATAGTTCTCCCATCATTCCCTTGTAGGTTCTGAGATAACCAGAACAACCCCCAAACACGAAATCATGGTAAATGTGTAATATTGTAGGTAGTAGAGCCAAATTCTTTGATATCACCATTCTTCCTTTGTATCTTAACATGCTCTGATGCATAGAAAACCCAGGGACTCCTTCCTCATTCTTTGCTAGATTTGCAATAATTTCTTTCTAGCGTTCATCTTCTTCAACTTCCTTCTTAATTACTGAGATATCTAATATGGCTAGGGCAGTTATATGATTGAGATGCACAATTGGTGGTACACTCGATAAAGAATAAGCAACTTTATTCTCAAGTCCTGGCTTGTAAACCACTTCAAAATTATAGCCTTGTAGCTTGGCAATCCATCTCTAATGCTGAGGTTGCATCACCCTCTGTTCCAACAGAAATTTCAATGAACATTGGTTCGTCTTGACCACGAATTTCCTTCCTAGCAAGTAGGGCCTCCATCTTTGGACTGTTAACACCACGGCCATCAACTCCCTTTCGTATCCTGGTTTCGCCCGATCCCTCATGAACAGTGTATGGCTAAAGTAAGCTATTGGTCTGTTTACTTGAGTTAACATTGCTCCTATACCATATCCGGATGCATCCATCTCAATCTCAAATGGCAAGTTGAAGTCTGGTAATGCCAAACTTGGTAGAGTCATCATCGCTGTCTTCAGCTTCTCAAAAGCCTCTTGTGCTTCATTGGACCATTTGTAAGCTCCCGATTTCAATAGTTGAGTCAATAGTGCAGCTACAGTTCCATAGTTTTGTACAAATCTTCTATAATAACCTGTAAGGCCTAGGAACCCCTTGACTTCACGCACATTAGTAGAAGCTGACCATTCCTTAATAGCTCTGATTTTTTCTGGATCTACCTCCACACCTTTTCCAGAGATTATGTGGTCGAGATATACAACTCTTGCCTTGGCAAAGCTACATTTCCAAGTTGGCATACAACTTGTGCTCCCTTAAGATTTTTAGGACCAATTCCTGATGTTGTAGATGCTCTTCTAGGTTTCAGCTATAGATCAAAATATCATCGAAGAATACCAGAACAAACCTCCTCAAATATGGTTTAAAAATGGTGTTCATTAAGGATTGGAATGTAGATGGAGCGTTAGTTAACCCTATGGCATAACTAGGAACTTATAGTGGCCCTCATGAGTTCTAAATGCTGTCTTTTCCACATCTTCTTTATTCACAGCCGGCCTTAGATCAATCTTTGAGAACATATTAGGGACAGTGACATTATTTAAGACTAGGTAGTCTATATAGAATCTCCAACTACCATCGTTCGTTTTGACTAACAAGACTGGGCTTGAGTAAGGACTTGTGCTTCAGTGTATTATTCCTGAAGAAAGCATTTCATCAACTAGCTTCTCCATTTTCTCCTTTTGCTTATAAACATATTTGTAAGGCCTTATGTTATTGGATATGTTCCTTTCTTAAGGTGTATATGGTGCTCAACGCTTCTCTTTGGGGTAGCTCCTCTTGGCAGTCGAATACATCTTCAAATTTTGCTAGAACTGCTGGAATGGACTCCCTCACTGTGGGTATTTCTTCAATTCCATACAACTCGGCAAATGACATACCTCCTTCCATGGCTCTACACTCAATTAGAAAGCCCTGATTCGATGATGTTCATGACTTCATCATATGTTTCAAACTCACCCGAGCCTTAGTCAGACTAAGATCTCCCCTTATAACTACTTTACGACCATTGTGGAAGAAAGTCATGTTCAAATTCCTCCGATCAACTTCAATTACCCCTAGAGAATGTAGCCATTGCATCTCTAATATCACGTCCACACCTCCCAACTCCAATGGCAAGAAGTTGTCAATTATCTTCCAGTTTCCTATTGATAGTTCCACTTTACTGCAAATTCCCTTCCCCATGACGGCTGTTTCTGAACCGAGGATTACTCCATAATGTGATGTCTCTTCCATTGGTAGGTTTAGTAAGGTCACTAACATCTCTAATATGATATTGTGCAGTGCTCCACAATCTACTAAAACCACCACTGCCTTCTCATTAATCATTCCTTTTACCTTCATCGTGCCCAGATTGGTTAACCCAACCGTGGAGTTTAAGGATAACTCTATGATTGGTTTCCCTTCTTTCTCCACTTCTAACGGCTTCATCTCAGTTTCTTCCATATAGTGTTCTTCCTCAATGATTTCCATTTCCTCCCCATTTTCTCGGACTACCAGGACTCGTAACTCCTTTTGCTTTGCAATGATGACCTGCATAGTATTTTTCTTCACAACGAAAACAGAGCCCCTTCTCTCTTCGTGCTTGAAATTTAGCATCGGATAATCTCTTTGAAGTTCCTTCATGCTGGCTGTCACCTGTTGCAACTCCCCTCAACTTTATGGTTCTCATCGAAGAATTTCTTGCAGGTTTAGAGTCATTCACATTAATCGGTAGATTAGTTTTAATAAAAGATTGGGCCTTACCTTCTATATTCCTCTTTAAACCAGCTTCCCTCCTCATCAGTTCTTGATTTTCTACGTGTAGGGCCAGTTTCATCATTTGATCATTTTCATTTCGGCTTTGACTTCCTTCACTGTCGAGTTACTTCCGTCGATCAGACTTTCAATTGATTGCCCTTTACTTGACGAACCTTCCGTTCCTTTGATCATCGTCGATTTCTCTTTCACCATTCCTTCGATGCTTCAGTAGTAATTGTTGCTGTTGTTACTTCTCCGCTTGTAGGCCCAATCGTTCAATACTCTTTGCCATAGATGATAAATTTTCTTCAATCGTTGGTAGTTTATGTAATTCCGAATTCCAGAAATCTCTTGATCAAAGGTTTCCAACTTCTCTTCGATCCTTTTTTGTGCCATTGGAATTCTTTTTCCAGGTAATTAATAGCTCCAATACCAATATAATAGAACACTAAGAAGTGTGTTCTTATTATATTGATATGAACTTCAAGGATTACAATATAGAATTGATGATCTCAAAATGGAGAAATTAAGACAGTATAGAAACTAAGAATAAAGATAAATAAGACTTCCCTCTCTGCCTTTCCTCTCTCTCAATGAAACTTGCAGAATTCTCTCACGAAATTCATGCCCCTTTCCTCTCCGAATTCCCTCCCATTTAACCACCTCTTCCTTGTAACTAACTGTGGGCCCCACCATTGTGGTCCTCTCTCCTATTGCTCTCACCCTCATTCGCACATGTGTTTTCCTTCTTCCTCCTATATTGTAATACGATAGGGATCTATTATAATGCTGATGAGGGATGGGAAAGACATAGTGAGTAGGGCTTTGTGAAGAAGAAAAGGAAGGCAAGGAAGGCAGGAAGTTCATAAGTTTTAAAATTTTATTGATGACTACTGCAGCAGTTTTCCGTCCTCACGAAGCCTATTTTGAATTGAACTTGTTTGGTTTGCTTGATTTGGTCGTGTTTAATAATTTGGCTCAGTTCCTTACACCCTTGCTTGTTGAATGAGGGTTAGTTTCTCACCCCTTTGATAGTGATCAATTTATCTCTTTGATGAGAGAAACCTCACAAAACCTATTGATTAAGACAATGCTGGCCTGGACACTAACGCATATCAAAATTTCCTCCGTCAGAAACTTTAGCAGAATCTTATGGAAGTTTGGACCTTCAATCAACTACTTTAATCAGATGAACTTCTCTATTAATTTCAGCAAACCCTGGAACTTTTTGAAAAGTTCGTAAATTGATGCTTCATTTCAGCTTCTTTCCAAGAAAAAGATTTTAACAATAAGATTCATCTCTCTGGGTTTTGATTCGTTGAAAATTATCAAATAGATGCGACATAATTTTATCTCATAATGGTAGATTTTACCTGTATTGCTTATCTCTGAGATCGATGTAATGTGGTTGCTATCTTCCTTTCAGTGGTTGAGACTTGTGAACCTGAAATTGACTGCAAAATTTCAATGCAGGAGGACCTGGCAAAAATGGGAGTGATGATTCGTCACTATGACAAAAAAGAGTTAAAAGGCTATGTTCGTGTGACTGCCGGGAAGCCTGAACACACTGATGCTTTGATGGACTGTCTTCGATGCCTATCATAATCAGTCCCATTTATTGGGAAGCTTTAGAATCTAAAGGATTTAAGGTTCACCTCTCCGTATGACTTTGATCAAATTATTTGCCACAACTGCTGACTGTAAAACATGGACACGTTGGTTTTTCTTTTGGAAGGAGAACAAGCTGAATCTTTTTGTAAGCAGTTGAAGGAAAACAATAGCAAGGGATTTTGGTCCATGGAATTTTGCTAAACCTCACAAATGTTTGGTAACACAAGAGACTTGGTCTGCTCATTTTTCTCCCCCTTTATTCTCATTGGAAGACTTGAATATATATGCCTAAAGAATTGGGGAATTTTTATTCTGAGTGAACAATTTAACTTTTACCTTCTAGTGTTATATGAATCTAAACTTAAATAATTGACGGAATAAATCTTTTGTTCAGTATAACTTTTAGTTAATCACCGTTTTTATGTGTTGTAGTAGGATAAAACTTGGTATTACTGATTTTATTAGTGAAATTCAGCCTTTTGTAGTT GTGCCTCATTTGCTTTCTTCATCCTCGTTTCATATCTATTCTCACCATTCCTTTTCTTACTCGTCTTCTATTCTATTCAGATAATGCTTCTTTAATACTCATCCCATCATTTACTAACCTAAATGCAGCTTTGAAATATACGAAATTCACTGGTATTTTGTCATTTCTTGTACAGAGATTGATGGCTCTGATTCATATTTCAAATCCCACCCAGTGCTTGCTGAAATTCAAGACAAACCTTCCTGCTTCTGAGGCATCTTCTCGTCGATCCAATTGCTCTGTTGCAGGTAGAAGGAAGTGGGTTGTTGCTATGACATCTCAAATTCCAGCACAACATGTTCAGGAGACTCAACAAAGCTTGACTGGTGATTCTTTTATTCGTCCCCATTTGAGGAAATTGTCTCCTTATCAACCCATTCTCCCTTTTGAGGTTTTGTCAACACGTCTTGGAAGGAAGCCTGAGGACATTATAAAATTAGATGCAAATGAAAATCCTTATGGTCCTCCCCCTGACGTTCTTGAAGCCTTGGGAACAATGAAATTCCCATATGTCTATCCTGATCCTGAAAGTCGTCAATTGCGAGCAGCACTTGCCATAGACTCTGGTCTTGAATCTGATTATATTCTTGTGGGTTGTGGCGCAGATGAACTCATTGATCTGATTATGCGATGTGTGTTGGACCCTGGTGATAAAATTGTAGACTGCCCTCCTACCTTCACGATGTATGAATTTGATGCTGCTGTTAATGGCGCTCTTGTCATCAAAGTTCCAAGGAAGCCAGACTTTTCTTTGAATGTGGATCTCATCAAAGATGTTGTTTGTAAGGAAAAACCTAAGTGCATATTCCTCACTTCTCCAAATAACCCAGATGGAAGTGTAATTAGTGATGAAGATCTCTTGGAAATTCTTGACCTCCCCGTACTAGTTGTTCTTGACGAAGCATATATAGAGTTTTCCTCAACTGAATCAAAGATGCAGTGGGTGAAGAAGTATGAGAACTTGATTGTACTTCGAACGTTCAGTAAAAGAGCAGGTTTAGCTGGACTTCGTGTAGGATATGGAGCATTTCCTTTGAGTATCATTGAATATCTTTGGCGAGCAAAGCAACCTTACAATGTATCTGTTGCTGCTGAAATTGCTGCATGTGCAGCATTGCAGAACCCCTCCTACTTGGAGAAGGTAAAAAATGCCTTGGTACAAGAACGTGAGAGGTTGTATAATCTTCTAAAGGATGTGCCATTCTTAAATCCATTTCCTAGTCACTCTAATTTCATCCTTTGCGAGGTGACATCGGGAAAGGATGCGAAGAAATTGAAGGAGGACCTGGCAAAAATGGGAGTGATGATTCGTCACTATGACAAAAAAGAGTTAAAAGGCTATGTTCGTGTGACTGCCGGGAAGCCTGAACACACTGATGCTTTGATGGACTGTCTTCGATGCCTATCATAATCAGTCCCATTTATTGGGAAGCTTTAGAATCTAAAGGATTTAAGGTTCACCTCTCCGTATGACTTTGATCAAATTATTTGCCACAACTGCTGACTGTAAAACATGGACACGTTGGTTTTTCTTTTGGAAGGAGAACAAGCTGAATCTTTTTGTAAGCAGTTGAAGGAAAACAATAGCAAGGGATTTTGGTCCATGGAATTTTGCTAAACCTCACAAATGTTTGGTAACACAAGAGACTTGGTCTGCTCATTTTTCTCCCCCTTTATTCTCATTGGAAGACTTGAATATATATGCCTAAAGAATTGGGGAATTTTTATTCTGAGTGAACAATTTAACTTTTACCTTCTAGTGTTATATGAATCTAAACTTAAATAATTGACGGAATAAATCTTTTGTTCAGTATAACTTTTAGTTAATCACCGTTTTTATGTGTTGTAGTAGGATAAAACTTGGTATTACTGATTTTATTAGTGAAATTCAGCCTTTTGTAGTT TGCCTCATTTGCTTTCTTCATCCTCGTTTCATATCTATTCTCACCATTCCTTTTCTTACTCGTCTTCTATTCTATTCAGATAATGCTTCTTTAATACTCATCCCATCATTTACTAACCTAAATGCAGCTTTGAAATATACGAAATTCACTGGTATTTTGTCATTTCTTGTACAGAGATTGATGGCTCTGATTCATATTTCAAATCCCACCCAGTGCTTGCTGAAATTCAAGACAAACCTTCCTGCTTCTGAGGCATCTTCTCGTCGATCCAATTGCTCTGTTGCAGGTAGAAGGAAGTGGGTTGTTGCTATGACATCTCAAATTCCAGCACAACATGTTCAGGAGACTCAACAAAGCTTGACTGGTGATTCTTTTATTCGTCCCCATTTGAGGAAATTGTCTCCTTATCAACCCATTCTCCCTTTTGAGGTTTTGTCAACACGTCTTGGAAGGAAGCCTGAGGACATTATAAAATTAGATGCAAATGAAAATCCTTATGGTCCTCCCCCTGACGTTCTTGAAGCCTTGGGAACAATGAAATTCCCATATGTCTATCCTGATCCTGAAAGTCGTCAATTGCGAGCAGCACTTGCCATAGACTCTGGTCTTGAATCTGATTATATTCTTGTGGGTTGTGGCGCAGATGAACTCATTGATCTGATTATGCGATGTGTGTTGGACCCTGGTGATAAAATTGTAGACTGCCCTCCTACCTTCACGATGTATGAATTTGATGCTGCTGTTAATGGCGCTCTTGTCATCAAAGTTCCAAGGAAGCCAGACTTTTCTTTGAATGTGGATCTCATCAAAGATGTTGTTTGTAAGGAAAAACCTAAGTGCATATTCCTCACTTCTCCAAATAACCCAGATGGAAGTGTAATTAGTGATGAAGATCTCTTGGAAATTCTTGACCTCCCCGTACTAGTTGTTCTTGACGAAGCATATATAGAGTTTTCCTCAACTGAATCAAAGATGCAGTGGGTGAAGAAGTATGAGAACTTGATTGTACTTCGAACGTTCAGTAAAAGAGCAGGTTTAGCTGGACTTCGTGTAGGATATGGAGCATTTCCTTTGAGTATCATTGAATATCTTTGGCGAGCAAAGCAACCTTACAATGTATCTGTTGCTGCTGAAATTGCTGCATGTGCAGCATTGCAGAACCCCTCCTACTTGGAGAAGGTAAAAAATGCCTTGGTACAAGAACGTGAGAGGTTGTATAATCTTCTAAAGGATGTGCCATTCTTAAATCCATTTCCTAGTCACTCTAATTTCATCCTTTGCGAGGTGACATCGGGAAAGGATGCGAAGAAATTGAAGGAGGACCTGGCAAAAATGGGAGTGATGATTCGTCACTATGACAAAAAAGAGTTAAAAGGCTATGTTCGTGTGACTGCCGGGAAGCCTGAACACACTGATGCTTTGATGGACTGTCTTCGATGCCTATCATAA CLICFLHPRFISILTIPFLTRLLFYSDNASLILIPSFTNLNAALKYTKFTGILSFLVQRLMALIHISNPTQCLLKFKTNLPASEASSRRSNCSVAGRRKWVVAMTSQIPAQHVQETQQSLTGDSFIRPHLRKLSPYQPILPFEVLSTRLGRKPEDIIKLDANENPYGPPPDVLEALGTMKFPYVYPDPESRQLRAALAIDSGLESDYILVGCGADELIDLIMRCVLDPGDKIVDCPPTFTMYEFDAAVNGALVIKVPRKPDFSLNVDLIKDVVCKEKPKCIFLTSPNNPDGSVISDEDLLEILDLPVLVVLDEAYIEFSSTESKMQWVKKYENLIVLRTFSKRAGLAGLRVGYGAFPLSIIEYLWRAKQPYNVSVAAEIAACAALQNPSYLEKVKNALVQERERLYNLLKDVPFLNPFPSHSNFILCEVTSGKDAKKLKEDLAKMGVMIRHYDKKELKGYVRVTAGKPEHTDALMDCLRCLS Homology
BLAST of MELO3C023659 vs. NCBI nr
Match: XP_008461461.1 (PREDICTED: histidinol-phosphate aminotransferase, chloroplastic isoform X1 [Cucumis melo] >XP_008461462.1 PREDICTED: histidinol-phosphate aminotransferase, chloroplastic isoform X1 [Cucumis melo]) HSP 1 Score: 849.4 bits (2193), Expect = 1.6e-242 Identity = 422/422 (100.00%), Postives = 422/422 (100.00%), Query Frame = 0
BLAST of MELO3C023659 vs. NCBI nr
Match: KAE8646161.1 (hypothetical protein Csa_016194 [Cucumis sativus]) HSP 1 Score: 818.9 bits (2114), Expect = 2.3e-233 Identity = 411/425 (96.71%), Postives = 416/425 (97.88%), Query Frame = 0
BLAST of MELO3C023659 vs. NCBI nr
Match: XP_004150396.1 (histidinol-phosphate aminotransferase, chloroplastic [Cucumis sativus] >XP_031744487.1 histidinol-phosphate aminotransferase, chloroplastic [Cucumis sativus]) HSP 1 Score: 815.1 bits (2104), Expect = 3.3e-232 Identity = 409/422 (96.92%), Postives = 413/422 (97.87%), Query Frame = 0
BLAST of MELO3C023659 vs. NCBI nr
Match: XP_038899460.1 (histidinol-phosphate aminotransferase, chloroplastic [Benincasa hispida]) HSP 1 Score: 806.6 bits (2082), Expect = 1.2e-229 Identity = 400/422 (94.79%), Postives = 411/422 (97.39%), Query Frame = 0
BLAST of MELO3C023659 vs. NCBI nr
Match: XP_022131757.1 (histidinol-phosphate aminotransferase, chloroplastic-like [Momordica charantia] >XP_022131758.1 histidinol-phosphate aminotransferase, chloroplastic-like [Momordica charantia]) HSP 1 Score: 770.4 bits (1988), Expect = 9.2e-219 Identity = 381/423 (90.07%), Postives = 401/423 (94.80%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy Swiss-Prot
Match: Q9FEW2 (Histidinol-phosphate aminotransferase, chloroplastic OS=Nicotiana plumbaginifolia OX=4092 GN=HPA PE=1 SV=1) HSP 1 Score: 648.7 bits (1672), Expect = 5.3e-185 Identity = 314/391 (80.31%), Postives = 353/391 (90.28%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy Swiss-Prot
Match: O82030 (Histidinol-phosphate aminotransferase, chloroplastic OS=Nicotiana tabacum OX=4097 GN=HPA PE=2 SV=1) HSP 1 Score: 648.3 bits (1671), Expect = 6.9e-185 Identity = 313/394 (79.44%), Postives = 355/394 (90.10%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy Swiss-Prot
Match: B9DHD3 (Histidinol-phosphate aminotransferase 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=HISN6A PE=1 SV=1) HSP 1 Score: 625.2 bits (1611), Expect = 6.3e-178 Identity = 311/420 (74.05%), Postives = 361/420 (85.95%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy Swiss-Prot
Match: P0DI07 (Histidinol-phosphate aminotransferase 2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=HISN6B PE=1 SV=1) HSP 1 Score: 625.2 bits (1611), Expect = 6.3e-178 Identity = 311/420 (74.05%), Postives = 361/420 (85.95%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy Swiss-Prot
Match: A7NFV2 (Histidinol-phosphate aminotransferase OS=Roseiflexus castenholzii (strain DSM 13941 / HLO8) OX=383372 GN=hisC PE=3 SV=1) HSP 1 Score: 331.3 bits (848), Expect = 1.9e-89 Identity = 173/368 (47.01%), Postives = 246/368 (66.85%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy TrEMBL
Match: A0A1S3CG25 (histidinol-phosphate aminotransferase, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103500052 PE=3 SV=1) HSP 1 Score: 849.4 bits (2193), Expect = 7.6e-243 Identity = 422/422 (100.00%), Postives = 422/422 (100.00%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy TrEMBL
Match: A0A0A0K7U5 (Aminotran_1_2 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_7G282400 PE=3 SV=1) HSP 1 Score: 775.4 bits (2001), Expect = 1.4e-220 Identity = 395/422 (93.60%), Postives = 400/422 (94.79%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy TrEMBL
Match: A0A6J1BRX3 (histidinol-phosphate aminotransferase, chloroplastic-like OS=Momordica charantia OX=3673 GN=LOC111004844 PE=3 SV=1) HSP 1 Score: 770.4 bits (1988), Expect = 4.5e-219 Identity = 381/423 (90.07%), Postives = 401/423 (94.80%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy TrEMBL
Match: A0A1S4E3A4 (histidinol-phosphate aminotransferase, chloroplastic isoform X2 OS=Cucumis melo OX=3656 GN=LOC103500052 PE=4 SV=1) HSP 1 Score: 760.8 bits (1963), Expect = 3.5e-216 Identity = 379/379 (100.00%), Postives = 379/379 (100.00%), Query Frame = 0
BLAST of MELO3C023659 vs. ExPASy TrEMBL
Match: A0A6J1EWM3 (histidinol-phosphate aminotransferase, chloroplastic-like OS=Cucurbita moschata OX=3662 GN=LOC111439036 PE=3 SV=1) HSP 1 Score: 754.6 bits (1947), Expect = 2.5e-214 Identity = 379/422 (89.81%), Postives = 395/422 (93.60%), Query Frame = 0
BLAST of MELO3C023659 vs. TAIR 10
Match: AT1G71920.2 (HISTIDINE BIOSYNTHESIS 6B ) HSP 1 Score: 625.2 bits (1611), Expect = 4.5e-179 Identity = 311/420 (74.05%), Postives = 361/420 (85.95%), Query Frame = 0
BLAST of MELO3C023659 vs. TAIR 10
Match: AT5G10330.1 (histidinol phosphate aminotransferase 1 ) HSP 1 Score: 625.2 bits (1611), Expect = 4.5e-179 Identity = 311/420 (74.05%), Postives = 361/420 (85.95%), Query Frame = 0
BLAST of MELO3C023659 vs. TAIR 10
Match: AT5G10330.2 (histidinol phosphate aminotransferase 1 ) HSP 1 Score: 625.2 bits (1611), Expect = 4.5e-179 Identity = 311/420 (74.05%), Postives = 361/420 (85.95%), Query Frame = 0
BLAST of MELO3C023659 vs. TAIR 10
Match: AT1G71920.3 (HISTIDINE BIOSYNTHESIS 6B ) HSP 1 Score: 621.3 bits (1601), Expect = 6.5e-178 Identity = 298/358 (83.24%), Postives = 333/358 (93.02%), Query Frame = 0
BLAST of MELO3C023659 vs. TAIR 10
Match: AT5G10330.3 (histidinol phosphate aminotransferase 1 ) HSP 1 Score: 621.3 bits (1601), Expect = 6.5e-178 Identity = 298/358 (83.24%), Postives = 333/358 (93.02%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (DHL92) v4
Date Performed: 2022-08-06 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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