MELO3C019793.jh1 (gene) Melon (Harukei-3) v1.41
Overview
Sequences
The following sequences are available for this feature:
Legend: exonpolypeptideCDSstart_codonstop_codon Hold the cursor over a type above to highlight its positions in the sequence below.AGGAAAAATGATAGTTTGAAAGTTGAGAGTTTGGTAAGAATGAGCTGTTGAACCTTGACAGAGGAAATAATTAGGCTGGGCCTTGTGACATTTGAGCCCAAAAACAGCCCAATTGGTTAGATTAAGCCCTCAGCCCAATAAATGGCCCATGTTTGGTTCCGAAGGAATCGCAAGAACCGAATCTTTCGACGATGGACCCCATCGAATCTTCTCCAACATATTTGGAAACTTTCGTTCGCATTTTGCACTGAGATTCATTTCCAGCCATAACTTCAAAATCACTTTCTTCGCCTCTGCATTTGGCTTCCATGAATTTACACTCCATCATCATCTCTTCCACCTTATTATGCCCTAAAGTCAGCATACAATGCCTGCGACTTCTTCCATGATCGCCTTTGCCGTCGCCATGTCCAAGGACTACTCTACAGAACTTGCAAACGAGCAAAAGAGCAAAGAGGTAATACGTCTCGCTTTGACGATGTTACTTTTTCCACTATTTAATCCACCATCCACCAATCTTGAGTTTCGCTTGGTGTTATAGATACAACCGTCGGTTGCTCTGCTTCGAGCAAAAAGAGGAAGGTCTACAATCTACAGAAGAATTGCAGCCGGGTTCGTCGTCTGAGAAGAAAGGAACTGTTGCTGGAGCTATGGCTTTTATTATTGGTACCAGTATTGGATCGGGGATTCTTGCAATTCCAGAGAAAGCGTCTCCGGCTGTAACTTTCTTTTTCTCTTCTAATATCTCTCAGCTTTAGCTTATTTTTTATTCAAATTATGTTGAAAATGGAGACTCCGGAGAGCTTATTTTTGTTATCTTCGACGTTTAATTCGTGGCAGGGATTTTTCCCCAGTTCGATATCGATAATAATATGTTGGGGGTTTCTTTTAGTAGAAGCACTGGTGCTTGTTGAGATTAGTGTGGTTCTGTGGAGGAGGAAGAAAAAGAAGAAGAAGGGCGAAGAGGGAGAGACGGGGATGGAGGTGATTTCAGTCAGAACTATGGCGCAGGAGACTCTGGGGGATTTTGGTGGAACCCTGGCCACTGTTACCTATGTTTTCTTGGGCTACACTTCCATGGTTGCCTATATTTCCAAGTCTGGAGAGATCCTTCTCCAATCATTTAATCTTCCATCTCCACTTTCAGGCTTCCTTTTCACATTGTTTTTTTCTCTGCTTATCTCCGTCGGTAGGACCAGAGCCGTAGATCAAGTCAACCAATGGCTTACAGCTTGTATGATAGGTAACTTCAGGACTTGAACCAGTTTTATGACCTCTCACCTCAGAGCAGTTCTAACTTTTGGGACACAATTTCAATTAAAACATATCTGGACTTGAACTTGTTATTACACTTAAGTTTTTATGTACATAATGGTTCCAAATGTAGTACTAATCCTCTATTGATATGGGATTTTAGAAACAGTTCAATAGACTCAAGAATGGAAAACTGGTTTGAAATCAACCTGCCTAATTACAAAAGAAGGGAAAAGAGAGATCCCCATCCAAAGGAGTTACAATGAAGATTTCCAATTGAACAAAAGTGAGACCATGGTGGCCATGGTGGCCATCTAGGAATTAATTTCCTACGAGTTTCCTTGCCCGTAAGTTGGCTCGGAGAAAAAAGAATTCAATTTAGACCAAGAGAAGGAAAAATAAGGGAATTATATAATAAAAAAAGATCCAATGAGTAGTTTCCTTTGGTTCAAACATCCGTTGTTTTCTTTTGTTCCAAATAAACCATTGATAGGCATTGGCAAAATTCTTGCTGCAAGTATTTTTCACAATTGTAGATAAAGTTGATTTAGTAATTCTTGAATGTCTTTGGGCAACAGGTTTACTACTGGGAATTGAAGTGTTAGCAGTTCAGTTTGGAGGATGGTCCGCAATGGATGGGGGAGGAGACTGGAGAAAGGTCCCAACTACAATACCTGTTATTATCTTTGCTTTGGTATATCATGATGTAATACCGGGTAAATTATATATATATATATATATATATTTTTTTTTTGTTGCCATTACTTTGCTCCGATTATTTGTGAAAGTATAAAGTTATAGCCCCCATTAGGTTGATGAAATCTTATATGTTGGCAGTTCTCTGTGCTTATTTGGAAGGTGACCTTCCTCGCCTAAGAGTTTCAGTTTTGCTTGGTAGCATTATTCCCCTGCTAGCATTGCTTGTCTGGGATGAAATAGCCCTTGGCTTGTTAGCACAAGCGGATCAATTAATTGACCCAGTTGAATTGCTCCTGAGGTAGTTCATTCCAGACCTTCAACATTCCATTGAGTAGCTCTATGTAATGATATGCTAAAGTATCATCTCCTCAAATTTCTGAAAGAAGTTGGTTTGATATTCAGTGTGAAATGGAGTGGAATTTCTTACATGGTAGAATGGTTCTCACTTCTTGCTGTTGGAACATCTATGCTGGGTACATTGCTAAGCTTCTCTGCATTTTTCAAGGAGCAACTCAGTAACATCTTTTCTGATTTGTCTACAAGAGAGGCTTTGAAAGTAATTTCTTCACGGTCTCTGTAGATTTATATGTTGGATATGTTGAAGTGCAAGAGGCAAAATTAATGTGGCCACCATGTGTTCTTGGCTATGACAGGAACCACCGATGTTCTGCTTAATGAAGAACTGGTGGGAAATGCATAAATTAGGCCTTACTGCCTTGGCAATTGCTGTTGGTCCCTCCCTTCTTGTGTCCACTACTAATCCTGATTCATTTTCTGCTGCTACGGATATTGCGGTAAGTAAACAAAACCAGGTGCCTGCTGTTTTATGAACATCGGGTATGCATTTTGAAGGACCTAAATCCTTGATGCAAATGTAATTTAATTGCCTATTAACCTTACTAAAATAAAATACGTCTAAATCGGAACAGAGGCACAAAAGTAATGTTATCTTTAGTTTTTCCTTGATGCAAGACTGATTGTAAGAAAAAAGAAGAAATCCAAATTACTGAAACATTCTGAAAGATTAAAAACGGAAGCCATTTGTTAGAAATAGTGGGCTTATGTCATGTTGAAGGCCCAAGAGTAGTTGACATTTACTTTGTCCTAATTTTTTATTATTTGAATTAGGTCCATGTTGCCTATAAATATTTTTTCCTTTGTATCTTTAGTATCATAAGAAAATAATAAGAAATATTGGCATCATGGTTTTTCACCCTGTACTAGGGTTTCCACGTAATTTGTGTTTGTGTTAAACTTCCAATTATATTCAAATATAGTAGAAGAGATAAAAATGTAAATACACGTGCAAATGAGGAAGGAAACCAACGGGAAGGGGATCACATTGTGGGACCCACTGTTATTTAGAGAAATGGATTGAAATAGGTAGTGCGGGGGAAGAGAGGGCACGTTTTTTGTGAGTAAGAAATTCTGTGATTCTTTGAGAGAGAGGAAGAGGGTGGGGAATGTTTTCATTCTTGTTTTGAGTCTTTTTCGGATTTGTTTTCAGTTTCTTTGTTTGTTGTTCACGAATTGTTCTCCTCAATTCTTCTCTGTTTCTGTAATTACTATCAATATCAATATATAGAAACACTATTATGGTGTTCTATCATATTGGTATAAGAGCTTTAACACCTGGGGAAGCAAAAGAAAATGGCGTAGAAGAGGATTGAAGAGAAGTTGTAGACCGTTGATGAGGATATCTTTGGAATTCGGGTGGAACTACAGAAGTTGCCAGTGATCGAAGAAAATATACCCTCAATGGCGAAAAGTATCGAGAGATTGGGGATTCAAGCCGATAAGCAACAGAAATAGCAGCAATTGTTGTTGAAGTACATTGAAGGAATGATCAAAGAGAAATCGATAGTGACGATGGAAACGGAAGGTTCTTCAAGTAGAGGAAGGCCGATAGAGAGTAATTTGGGAGGAAGTGAGATAACGATACTGGAAATTAAAGAAAAATCAGTTGATCAAAGCAAATTTAAGAAGGTGGAAATGCTTGTGTTTAATGGTGATGATCTAGATGCGTGGTTATTTCGAGCTAATAGATTTTTAAGATCCATGACTTAACTGAGTCAGAGAAGATGATGGTAGCCATGATCAGCTTCGATGGACCTACTTTAGATTGGTATAGAGCACATGATGAACGTGAGCCATTTCCAGATTGGGCAGACTTGAAACATTGTCTGTTAATCTGATTCCGATCGACAAGGGAAGGCACTATATGCGGGAAATTTTTATCGATCAAACAAGAAACCACTGTGGAAGAATATCACAACCAATTCAATAAGCTGTTGGCGCCACTGTCCTTCCTACAGAAGGTAGTATTGGAAGAGACGTTTATGAATCGGTTGAGCCCATGGCATAAGGCTGAGGTATAAGTTGCCAAATGATGAAATTAGCATTGAAGATAGAAAATAGGGAAATCGTACGAAAGGAAGTTGGACTCAAAAGTGTATATGGAGGTAAGCCTCAAACCCCCTACATCTAATATTAAAACTAATATGGCTGGGAATCCAAATGAAAACTAGACGAACAAAAATTTGCCAATGAGAACCATCACCCTTCATGGAGTAACAGTCGGAGATAACCGGTGAGAGGGAGCTTCGAAAAAACTATCTTATGGAATTCCAATCAAGAAGATAGAAGGGACTATGTTTTCGCTGTGATGAGAAACATCATACCGGCCACCGTTGCAAGGTGAAGGAGCAAAAGGAACTGAGATTGCTAATAGTCCAAGAAAACGGAGAAGAACCGGAGATCATTGAGGATGATTGCTGGTTAAATCCATGGAGGTGGGAATAGAGGAAAATCCTCATATTGAATTATCTATCAATTCCGTGGTAGGATTGATCAATCTAGGGACCATGAAAGTCAAGGAAAAGCTTCATAATGAAGAGGTAGCGATGCTCATTGACTGTGGCGTGACTCATAACTTCATTTTGAAAAAATTAGTAACCTCTTTGAATCTGCCAACTAAAGAAACTTCGAACTATGGTGTAATTCTGGGCTCAGGAACATCAATTAAGGGGAAAGGAATATGTGGAAATGTGGAATTTTCTATTGGGGATTGGAAGGTAGTAGACAACTTCCTACCTTTGGAGCTCAGGGGAATTGATATTATCCTAGGAATCGAGTGGCTACATTCCTTAGGAGTGACCAAAGTGGACTGGCAAAATTTGAGCATGACTTTCTAGCACGAAGGGAAGAAAATAGTTTGGGGGGATCCGAGCCTCACAAAAACCCAAGTCAGTGTAAAAAACATGATGAAATCTTGGGGCATTGAGGACAAAGGGTTCTTGATTGAATGTAGAGCCATGGAAGGAAGCTTGTCGATTGAAGAATTGTATGATGAAGAAGTTGTTCCGGCTATAAATGAATCCATTCCAGCCCTATTAAATAAATATGAAGATGTGTTTAATTGGCTAGAAGAGCTTCCACCAAATAGGGGAATAGAGCTTCCACCAAATAGAGCTTCCACCACATACAGCCGGGGTGTGTTCTTTGTCTTTACTTTCAATATTTTCGTTCTTGTTTTGAGTCTGTTTTGGATTTGTTATCAGTTTCCTTGTTTGTTGTTCAAGAATTGATCTCCTCAATTCTTCTCTCCTTCTGTAATCTTGATCAATATCAATATATAGAATCACTGTTCTGGTGTTCTATCAGTTTGTTCTACATCTCTACTTTCAATAGCATTCATTTTCTCCCAAGTATTTTAGGATCTCGGGATCTCTTCTCAAAGAGATACCACTCAATCCCAAAGTCATCAAAGATTAGCTTGCCTCTCCTAAAACCCAAACCTTCTACTCAAAACGAACTCCCAGTTTATTACTTTATTATCCCCTTGCTATTATGTCCCAACAAAATCATATGACAGTAAAAAAATTGTGTATAATATTTAACTTATTTCTATTCACATTTCAATGTAGAGATTTCATAATGATACAATCAGTCAATTGATTCTCATTAAGTATATCAACCGTCATGTCAGTATAATCATTTGTGGATATCCTTTATTATGCAACAGAACTTCAGTACTTGATTTTCTTGTTTCTCTGATGCTCTGAATGGAAACAGGGAGGATACTGCATGACAATGTTGTATGGAGTTCTCCCCCCAGCAATGGCATGGGCAATGCACAGTAGGGAATCAGAGGAGACTGAATCCAAGGCGATATTGAGAGAAAGGCCTGCACTGCTTGGGCTAGGTTTATTTGCTTGTGGTATTGTGGTGGAACAAGTTATTCAGGATATTCTGAAATTTCAATGGTAGCAAGGTAAAATGATATTTTGTCTGAATTAGTTTTATTTTTTTAAATTTTTGCTGACTGTTTCCAAAGTCACGTTCTGTTATGTTCTCCTAAAGGAAATGGTGAACCCATCGTTAGACAAGGGTGAGATTTTGGTCTCTTTTCTGTCCTTTGTCAGATAATCATTAAAAATTTAAAATATGTATCCAATTTAGACAAAATTAATTAAACTGAAAGTTACATAAATGTTCCAAATTTTAAAGATGCTTAATTCAAAACACTTGGCAGTCTCTTCTTAGAATATGCAGTCTACAGTTTTTGTTTTGTTTTGTTTTGTGTTGTTTGTTTTATTTATTGTTTTTTTTCCTTTGAGAAGATACAGTACAAGTACTGTCTGGAATTGTTAGACCACTCTGCTCTTTGACTTTGATGAACTGAACTGTTTCTTCTCATCAATAACTTAGAAACTCTAAGAACAAAGAACTGAGAGAGGGTGCAAAACAAAGGAAGAAGAGAGTGTGCAGAACAAAGGAAGAAGAGAGTAACCCAAGTAAGTTAGTGTATAAAAGGAGTGGGAGAAAAAGTTTCCTTTTTATAGTTTGGAGGATGGAATAGTCACGATCAAATTCCTTTCATGCATCGATTTTGTGGGCAATTAATTCCCCCAAGCATAAAATTTGTTCAATGGCCTCTCATCTTAGATAAGAATGCTCTTCTTGTTAATTCACTCTTTCCTAAAAAAGAGAAAAAAAAAAAAACAACTTTCATTTAGAAAAAAGGAAGGTAAGTTCTTCCGGTTAACTATTTCCTTTACTTCCATCCTTTTCTTTTTCCGTTGGACAATTTTAGAAGAAACCAAGGAAAAAGAAAAGAAAAAGAAAAAAAAAACATCCTTTTTGGCATTTCCCTCAAAATTTCATCTTACACGAGTTTGCTAAACGCCTGGAAAAAAAATTTCTTGCAAGGAAAAGTGGGCTATATACATATCATAGAATTAGAATTATGAAAGTTTTTGCTGATTACAATCATTGCTCTCTAATGATGGTAACTTCAGTATTATGGCTCGATTCAGGCGGAAAATATTTGTCAAGCAAATGGTTTTGTCTTTTTGGAGGTTTTGATCTTGTATACTGCAATAGACTAATACTTATGAAAGTTTCTCTTCACAAATTCTTAATAGAGGAAAACGATGCAACACTATTAATTATGTGCAAGTCTTATCTTCAACAGAGTGAACTTGTGCGGAACTTGCTACAAACTTAAAAGAAAACGAACTGCTTGGTTTACAGAGAATCTAGAGATACATATTATGGCAGGAATGCAGTATCTGTTTGATAAATTGCAAACCCGTGTAGCAAAAGTTGGGGCGAGTTGTCAAGGGGAAGACCATAGAACGCCTCAGGCCTAGGATCAGAAAAATAGGAGAAATAAGAGAAGAGAAAAGACAAGATGGTGGAGATGGGTGCCATTTTTTTTTTCCAGAAGTGCTGTAAGTTAATGCAGTCGCTGGAGTGGGTGAGTTTATATAGAGCTGAAAGAGATTGAAGCTTGCTGAAATATCTAGTCATAAAGCTTCCTGAAGGGTTACTTCCATTAGAACTCTGGGGTCCTATTCCCTGACCCAGAAAGCAGGAAGAAATATATTTTGTGTTTGGAAGGAGTTTGATGCAGTGCAATTATGCCGGCGTGTCTTAGAATTCCAACCTCAAGTGAAACATAGTCATGGTTGCTTGTACTTGAATATTTTGGGATTTTTAGGGTAAAAAATTAAGGGAAAAAGATGGATAACAACAAACAACAAAGGAAGGAGAAGATTGATACTGGGATGGGACCGGTCATGTCGGAGATTTTTTGGACTACTCTAGTTCGTTGTTGAGTGAAAGGCTGAATAAAGAATCAAATGCCGGAAGCAGGTTGTGGGATGATCAGCCAATTGAAGGTAATTTTTGTTTTTAAGCCTAAATTATGCATTTTTCTCTTCTAGCTTACTACGTGCTTTGTCACACTCTTTTCTTTTATCTGCCTTCTGTGAATCAATGTGTCCTCTGAAGTGTCCGATAACTTATGACAAGAAATAAAACTTTTCTTTTGTTAAAAAGGGAGAAATCTTTTTCCGTACAAAGTTTTGAGTTTCTAAATGCTTCAGTTTTAGTCTTTCAAGTTTCAAAATGGTAAATTTTCACTTTTGAGATTTGAGTTATATTTTGTTCTTTGGCATTTATGTTTATTTGTTAATTTAAAAGAATTATAGTTTATTAAGTTTCATTATTTTTATACTATTAAAATTAATGTCAAAAAATGAAAGGGAGTATTAGGTGAAAAATCAAAGTTTAAAGTGTAAATGTTGAAACTTAGGGGTCAAATTAAAACAAAACTCAACGGCTAAAAGTGTAACATTTTGAAGCTTAGAGACCAAATAGAAACTAGACCTAGAACCTGACCAAAAGGGTATTCTCAGATAAAAAAAAACTTCGATATTTAAATGAACGTTGGATAGATTTTTTAAGTTTTTAAAGTAATCTCTAGTATTAAGAGGTTGTGGAACTTCGATAAAAACTAAAGATATTCTATCAAAACCAAAAATCAATTAGTTTTAAATTGTTAACACATATTCATTTGATGATGTGGAGAATTTTTTGGGATATTTGGACTTAAAAGAACCAAAGACTCTGGTTCTCTTTTGACAACCACCATAGATTGGGTTCTTTTCTCCCCTTTTTTTGTAAATTTCATACATCTATAAAATTATTTCTACATATTCAATAGAATTTTTAAAATTCTATGGCATTAATTGAATTTAGTGTTGGTCATGTTGAGGAGTTGATTATTGGAGCTTTCCAATCGACTGCCATATATTCCAATTGCAATTAGTTTTTGACTAATTATTTCAATTAGCACTAAGAGTTTATTAGCCAAATAATTGAAGGTTTGAATCTCTATCACCTTACATCTTTAAAAGAAAAAAAAGAACATATAAAAAGGACGTTTCTGAACAATAATTGACGGATGTCACATTAAAATTTTCATCTGAGAATTAATTTTTGCATTACAAGGAAATGAAAAGGAGACTAGGCGAAAGATGACCTGGCCAGGGAAATAATTAGGCTGGGCCATCGGATATGTTGGCAAGCGCAATTGACAAAGTCCCATTAACTAGTTCTGATCCAAATACACGAGTACACCAAGCCCAAATTCTGATCTGAATGTAGAACACTTGAGGCCAATTTTAATAACCCTACTGTACTCTCTAAATCTTGAAAAATGAAGGAAATTTTGATATATGAAGTTTGAGTTTAGTGTCTATTTAGTCTCCAAGATCTAAGGAATAGTTCTAAATGATTTTTAAGTTATTTTGATCGTTACTAGACTAACAGAAAAAATGATGTCTAACATTGAGGTGACAAATTTTGAATGAGGTGATGAATTACATATATGTGTGTGTTCTTTTAAGATTATGAATATCACATCAATGAGGCTGAAAATTATTTGAGAATGGGGTCGATATCACATTCCTTATCTTCATTAATTTTGTGGGCATTTAGGCCACCCCAGGCATCAAACTCATATAGTGGCCTCTCATAATTAAATAAGAATGTTTTTTCTTCCTTTCTTTTATTTTATACTAGGAAAGCCAGGCTATGTCATAGATTTAGAACTATAAAAGTTTGAGCTGATTACATTACATTTACAATTTTTGCATCTCTCATATTGGAAGTTTTTGAAATTGAACTTCAGTACCACAATATCACAAGTGCATATGATTAACAGAAGGGAACTGTGAAATGACCATTACTTATCTGCTCTGTCTTCATCTTCAACAGAAATCTTGAGCAGAATTTGGAGAAGACAAACAGTTTGATTTGTATTAGCAAATTATAACACAATTGCAGTATCTGTGTGGAAAATAGCATACCCGATGAGTGACAGCTGTGCCGAGTGTTCGAGAGGGAGACCATAGAATGCCTCAGGCCAAGGATCAGATAAAAAGGATAGAGAAGACAACAGAAAAGACAAGATGGTGGAGATGGGTGCCATTTATTTTTCTCTCCAAATCCTGTAAGAAATGCACTTGTCTCGCTTATTCTTTACCCTTCATCGAACAACATGAGTTCTTTTTATATATTTAGCCATAAGGCTTCCTGTAGAGTTACTTTATTTTAATCTCTGGGTCTCTATGCCCTGACACAGAAAGCAAAAGGGACAAAAATTGTGAGTAGAGGGAATATGAATGATGTAATGTAATTATGTAGGCGTGCCTTTGAATTCTAAAAACAAGTGAAACATAGTCATGGTTGTTGCTTATA AGGAAAAATGATAGTTTGAAAGTTGAGAGTTTGGTAAGAATGAGCTGTTGAACCTTGACAGAGGAAATAATTAGGCTGGGCCTTGTGACATTTGAGCCCAAAAACAGCCCAATTGGTTAGATTAAGCCCTCAGCCCAATAAATGGCCCATGTTTGGTTCCGAAGGAATCGCAAGAACCGAATCTTTCGACGATGGACCCCATCGAATCTTCTCCAACATATTTGGAAACTTTCGTTCGCATTTTGCACTGAGATTCATTTCCAGCCATAACTTCAAAATCACTTTCTTCGCCTCTGCATTTGGCTTCCATGAATTTACACTCCATCATCATCTCTTCCACCTTATTATGCCCTAAAGTCAGCATACAATGCCTGCGACTTCTTCCATGATCGCCTTTGCCGTCGCCATGTCCAAGGACTACTCTACAGAACTTGCAAACGAGCAAAAGAGCAAAGAGATACAACCGTCGGTTGCTCTGCTTCGAGCAAAAAGAGGAAGGTCTACAATCTACAGAAGAATTGCAGCCGGGTTCGTCGTCTGAGAAGAAAGGAACTGTTGCTGGAGCTATGGCTTTTATTATTGGTACCAGTATTGGATCGGGGATTCTTGCAATTCCAGAGAAAGCGTCTCCGGCTGGATTTTTCCCCAGTTCGATATCGATAATAATATGTTGGGGGTTTCTTTTAGTAGAAGCACTGGTGCTTGTTGAGATTAGTGTGGTTCTGTGGAGGAGGAAGAAAAAGAAGAAGAAGGGCGAAGAGGGAGAGACGGGGATGGAGGTGATTTCAGTCAGAACTATGGCGCAGGAGACTCTGGGGGATTTTGGTGGAACCCTGGCCACTGTTACCTATGTTTTCTTGGGCTACACTTCCATGGTTGCCTATATTTCCAAGTCTGGAGAGATCCTTCTCCAATCATTTAATCTTCCATCTCCACTTTCAGGCTTCCTTTTCACATTGTTTTTTTCTCTGCTTATCTCCGTCGGTAGGACCAGAGCCGTAGATCAAGTCAACCAATGGCTTACAGCTTGTATGATAGGTTTACTACTGGGAATTGAAGTGTTAGCAGTTCAGTTTGGAGGATGGTCCGCAATGGATGGGGGAGGAGACTGGAGAAAGGTCCCAACTACAATACCTGTTATTATCTTTGCTTTGGTATATCATGATGTAATACCGGTTCTCTGTGCTTATTTGGAAGGTGACCTTCCTCGCCTAAGAGTTTCAGTTTTGCTTGGTAGCATTATTCCCCTGCTAGCATTGCTTGTCTGGGATGAAATAGCCCTTGGCTTGTTAGCACAAGCGGATCAATTAATTGACCCAGTTGAATTGCTCCTGAGTGTGAAATGGAGTGGAATTTCTTACATGGTAGAATGGTTCTCACTTCTTGCTGTTGGAACATCTATGCTGGGTACATTGCTAAGCTTCTCTGCATTTTTCAAGGAGCAACTCAGTAACATCTTTTCTGATTTGTCTACAAGAGAGGCTTTGAAAGAACCACCGATGTTCTGCTTAATGAAGAACTGGTGGGAAATGCATAAATTAGGCCTTACTGCCTTGGCAATTGCTGTTGGTCCCTCCCTTCTTGTGTCCACTACTAATCCTGATTCATTTTCTGCTGCTACGGATATTGCGGGAGGATACTGCATGACAATGTTGTATGGAGTTCTCCCCCCAGCAATGGCATGGGCAATGCACAGTAGGGAATCAGAGGAGACTGAATCCAAGGCGATATTGAGAGAAAGGCCTGCACTGCTTGGGCTAGGTTTATTTGCTTGTGGTATTGTGGTGGAACAAGTTATTCAGGATATTCTGAAATTTCAATGGTAGCAAGAGTGAACTTGTGCGGAACTTGCTACAAACTTAAAAGAAAACGAACTGCTTGGTTTACAGAGAATCTAGAGATACATATTATGGCAGGAATGCAGTATCTGTTTGATAAATTGCAAACCCGTGTAGCAAAAGTTGGGGCGAGTTGTCAAGGGGAAGACCATAGAACGCCTCAGGCCTAGGATCAGAAAAATAGGAGAAATAAGAGAAGAGAAAAGACAAGATGGTGGAGATGGGTGCCATTTTTTTTTTCCAGAAGTGCTGTAAGTTAATGCAGTCGCTGGAGTGGGTGAGTTTATATAGAGCTGAAAGAGATTGAAGCTTGCTGAAATATCTAGTCATAAAGCTTCCTGAAGGGTTACTTCCATTAGAACTCTGGGGTCCTATTCCCTGACCCAGAAAGCAGGAAGAAATATATTTTGTGTTTGGAAGGAGTTTGATGCAGTGCAATTATGCCGGCGTGTCTTAGAATTCCAACCTCAAGTGAAACATAGTCATGGTTGCTTGTACTTGAATATTTTGGGATTTTTAGGGTAAAAAATTAAGGGAAAAAGATGGATAACAACAAACAACAAAGGAAGGAGAAGATTGATACTGGGATGGGACCGGTCATGTCGGAGATTTTTTGGACTACTCTAGTTCGTTGTTGAGTGAAAGGCTGAATAAAGAATCAAATGCCGGAAGCAGGTTGTGGGATGATCAGCCAATTGAAGGTAATTTTTGTTTTTAAGCCTAAATTATGCATTTTTCTCTTCTAGCTTACTACGTGCTTTGTCACACTCTTTTCTTTTATCTGCCTTCTGTGAATCAATGTGTCCTCTGAAGTGTCCGATAACTTATGACAAGAAATAAAACTTTTCTTTTGTTAAAAAGGGAGAAATCTTTTTCCGTACAAAGTTTTGAGTTTCTAAATGCTTCAGTTTTAGTCTTTCAAGTTTCAAAATGGTAAATTTTCACTTTTGAGATTTGAGTTATATTTTGTTCTTTGGCATTTATGTTTATTTGTTAATTTAAAAGAATTATAGTTTATTAAGTTTCATTATTTTTATACTATTAAAATTAATGTCAAAAAATGAAAGGGAGTATTAGGTGAAAAATCAAAGTTTAAAGTGTAAATGTTGAAACTTAGGGGTCAAATTAAAACAAAACTCAACGGCTAAAAGTGTAACATTTTGAAGCTTAGAGACCAAATAGAAACTAGACCTAGAACCTGACCAAAAGGGTATTCTCAGATAAAAAAAAACTTCGATATTTAAATGAACGTTGGATAGATTTTTTAAGTTTTTAAAGTAATCTCTAGTATTAAGAGGTTGTGGAACTTCGATAAAAACTAAAGATATTCTATCAAAACCAAAAATCAATTAGTTTTAAATTGTTAACACATATTCATTTGATGATGTGGAGAATTTTTTGGGATATTTGGACTTAAAAGAACCAAAGACTCTGGTTCTCTTTTGACAACCACCATAGATTGGGTTCTTTTCTCCCCTTTTTTTGTAAATTTCATACATCTATAAAATTATTTCTACATATTCAATAGAATTTTTAAAATTCTATGGCATTAATTGAATTTAGTGTTGGTCATGTTGAGGAGTTGATTATTGGAGCTTTCCAATCGACTGCCATATATTCCAATTGCAATTAGTTTTTGACTAATTATTTCAATTAGCACTAAGAGTTTATTAGCCAAATAATTGAAGGTTTGAATCTCTATCACCTTACATCTTTAAAAGAAAAAAAAGAACATATAAAAAGGACGTTTCTGAACAATAATTGACGGATGTCACATTAAAATTTTCATCTGAGAATTAATTTTTGCATTACAAGGAAATGAAAAGGAGACTAGGCGAAAGATGACCTGGCCAGGGAAATAATTAGGCTGGGCCATCGGATATGTTGGCAAGCGCAATTGACAAAGTCCCATTAACTAGTTCTGATCCAAATACACGAGTACACCAAGCCCAAATTCTGATCTGAATGTAGAACACTTGAGGCCAATTTTAATAACCCTACTGTACTCTCTAAATCTTGAAAAATGAAGGAAATTTTGATATATGAAGTTTGAGTTTAGTGTCTATTTAGTCTCCAAGATCTAAGGAATAGTTCTAAATGATTTTTAAGTTATTTTGATCGTTACTAGACTAACAGAAAAAATGATGTCTAACATTGAGGTGACAAATTTTGAATGAGGTGATGAATTACATATATGTGTGTGTTCTTTTAAGATTATGAATATCACATCAATGAGGCTGAAAATTATTTGAGAATGGGGTCGATATCACATTCCTTATCTTCATTAATTTTGTGGGCATTTAGGCCACCCCAGGCATCAAACTCATATAGTGGCCTCTCATAATTAAATAAGAATGTTTTTTCTTCCTTTCTTTTATTTTATACTAGGAAAGCCAGGCTATGTCATAGATTTAGAACTATAAAAGTTTGAGCTGATTACATTACATTTACAATTTTTGCATCTCTCATATTGGAAGTTTTTGAAATTGAACTTCAGTACCACAATATCACAAGTGCATATGATTAACAGAAGGGAACTGTGAAATGACCATTACTTATCTGCTCTGTCTTCATCTTCAACAGAAATCTTGAGCAGAATTTGGAGAAGACAAACAGTTTGATTTGTATTAGCAAATTATAACACAATTGCAGTATCTGTGTGGAAAATAGCATACCCGATGAGTGACAGCTGTGCCGAGTGTTCGAGAGGGAGACCATAGAATGCCTCAGGCCAAGGATCAGATAAAAAGGATAGAGAAGACAACAGAAAAGACAAGATGGTGGAGATGGGTGCCATTTATTTTTCTCTCCAAATCCTGTAAGAAATGCACTTGTCTCGCTTATTCTTTACCCTTCATCGAACAACATGAGTTCTTTTTATATATTTAGCCATAAGGCTTCCTGTAGAGTTACTTTATTTTAATCTCTGGGTCTCTATGCCCTGACACAGAAAGCAAAAGGGACAAAAATTGTGAGTAGAGGGAATATGAATGATGTAATGTAATTATGTAGGCGTGCCTTTGAATTCTAAAAACAAGTGAAACATAGTCATGGTTGTTGCTTATA ATGGCTTTTATTATTGGTACCAGTATTGGATCGGGGATTCTTGCAATTCCAGAGAAAGCGTCTCCGGCTGGATTTTTCCCCAGTTCGATATCGATAATAATATGTTGGGGGTTTCTTTTAGTAGAAGCACTGGTGCTTGTTGAGATTAGTGTGGTTCTGTGGAGGAGGAAGAAAAAGAAGAAGAAGGGCGAAGAGGGAGAGACGGGGATGGAGGTGATTTCAGTCAGAACTATGGCGCAGGAGACTCTGGGGGATTTTGGTGGAACCCTGGCCACTGTTACCTATGTTTTCTTGGGCTACACTTCCATGGTTGCCTATATTTCCAAGTCTGGAGAGATCCTTCTCCAATCATTTAATCTTCCATCTCCACTTTCAGGCTTCCTTTTCACATTGTTTTTTTCTCTGCTTATCTCCGTCGGTAGGACCAGAGCCGTAGATCAAGTCAACCAATGGCTTACAGCTTGTATGATAGGTTTACTACTGGGAATTGAAGTGTTAGCAGTTCAGTTTGGAGGATGGTCCGCAATGGATGGGGGAGGAGACTGGAGAAAGGTCCCAACTACAATACCTGTTATTATCTTTGCTTTGGTATATCATGATGTAATACCGGTTCTCTGTGCTTATTTGGAAGGTGACCTTCCTCGCCTAAGAGTTTCAGTTTTGCTTGGTAGCATTATTCCCCTGCTAGCATTGCTTGTCTGGGATGAAATAGCCCTTGGCTTGTTAGCACAAGCGGATCAATTAATTGACCCAGTTGAATTGCTCCTGAGTGTGAAATGGAGTGGAATTTCTTACATGGTAGAATGGTTCTCACTTCTTGCTGTTGGAACATCTATGCTGGGTACATTGCTAAGCTTCTCTGCATTTTTCAAGGAGCAACTCAGTAACATCTTTTCTGATTTGTCTACAAGAGAGGCTTTGAAAGAACCACCGATGTTCTGCTTAATGAAGAACTGGTGGGAAATGCATAAATTAGGCCTTACTGCCTTGGCAATTGCTGTTGGTCCCTCCCTTCTTGTGTCCACTACTAATCCTGATTCATTTTCTGCTGCTACGGATATTGCGGGAGGATACTGCATGACAATGTTGTATGGAGTTCTCCCCCCAGCAATGGCATGGGCAATGCACAGTAGGGAATCAGAGGAGACTGAATCCAAGGCGATATTGAGAGAAAGGCCTGCACTGCTTGGGCTAGGTTTATTTGCTTGTGGTATTGTGGTGGAACAAGTTATTCAGGATATTCTGAAATTTCAATGGTAG MAFIIGTSIGSGILAIPEKASPAGFFPSSISIIICWGFLLVEALVLVEISVVLWRRKKKKKKGEEGETGMEVISVRTMAQETLGDFGGTLATVTYVFLGYTSMVAYISKSGEILLQSFNLPSPLSGFLFTLFFSLLISVGRTRAVDQVNQWLTACMIGLLLGIEVLAVQFGGWSAMDGGGDWRKVPTTIPVIIFALVYHDVIPVLCAYLEGDLPRLRVSVLLGSIIPLLALLVWDEIALGLLAQADQLIDPVELLLSVKWSGISYMVEWFSLLAVGTSMLGTLLSFSAFFKEQLSNIFSDLSTREALKEPPMFCLMKNWWEMHKLGLTALAIAVGPSLLVSTTNPDSFSAATDIAGGYCMTMLYGVLPPAMAWAMHSRESEETESKAILRERPALLGLGLFACGIVVEQVIQDILKFQW Homology
BLAST of MELO3C019793.jh1 vs. NCBI nr
Match: XP_016902005.1 (PREDICTED: tyrosine-specific transport protein 1-like isoform X1 [Cucumis melo]) HSP 1 Score: 723 bits (1865), Expect = 2.03e-258 Identity = 371/374 (99.20%), Postives = 371/374 (99.20%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. NCBI nr
Match: XP_031743424.1 (uncharacterized protein LOC101208104 [Cucumis sativus] >XP_031743425.1 uncharacterized protein LOC101208104 [Cucumis sativus] >XP_031743426.1 uncharacterized protein LOC101208104 [Cucumis sativus] >XP_031743427.1 uncharacterized protein LOC101208104 [Cucumis sativus] >XP_031743428.1 uncharacterized protein LOC101208104 [Cucumis sativus] >XP_031743429.1 uncharacterized protein LOC101208104 [Cucumis sativus] >KGN47817.1 hypothetical protein Csa_003540 [Cucumis sativus]) HSP 1 Score: 707 bits (1825), Expect = 2.46e-252 Identity = 362/374 (96.79%), Postives = 367/374 (98.13%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. NCBI nr
Match: XP_016902006.1 (PREDICTED: tyrosine-specific transport protein 1-like isoform X2 [Cucumis melo]) HSP 1 Score: 675 bits (1741), Expect = 2.12e-240 Identity = 347/348 (99.71%), Postives = 347/348 (99.71%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. NCBI nr
Match: XP_038886198.1 (tyrosine-specific transport protein 1-like [Benincasa hispida] >XP_038886199.1 tyrosine-specific transport protein 1-like [Benincasa hispida] >XP_038886200.1 tyrosine-specific transport protein 1-like [Benincasa hispida] >XP_038886201.1 tyrosine-specific transport protein 1-like [Benincasa hispida] >XP_038886202.1 tyrosine-specific transport protein 1-like [Benincasa hispida] >XP_038886204.1 tyrosine-specific transport protein 1-like [Benincasa hispida] >XP_038886205.1 tyrosine-specific transport protein 1-like [Benincasa hispida]) HSP 1 Score: 674 bits (1739), Expect = 3.18e-239 Identity = 347/376 (92.29%), Postives = 359/376 (95.48%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. NCBI nr
Match: KAG6602318.1 (hypothetical protein SDJN03_07551, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 626 bits (1615), Expect = 3.68e-220 Identity = 320/383 (83.55%), Postives = 345/383 (90.08%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy Swiss-Prot
Match: P44727 (Tyrosine-specific transport protein 1 OS=Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd) OX=71421 GN=tyrP-A PE=3 SV=1) HSP 1 Score: 89.0 bits (219), Expect = 1.6e-16 Identity = 104/385 (27.01%), Postives = 167/385 (43.38%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy Swiss-Prot
Match: P0AAD4 (Tyrosine-specific transport protein OS=Escherichia coli (strain K12) OX=83333 GN=tyrP PE=1 SV=1) HSP 1 Score: 84.3 bits (207), Expect = 4.0e-15 Identity = 102/375 (27.20%), Postives = 171/375 (45.60%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy Swiss-Prot
Match: P0AAD5 (Tyrosine-specific transport protein OS=Shigella flexneri OX=623 GN=tyrP PE=3 SV=1) HSP 1 Score: 84.3 bits (207), Expect = 4.0e-15 Identity = 102/375 (27.20%), Postives = 171/375 (45.60%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy Swiss-Prot
Match: P44747 (Tyrosine-specific transport protein 2 OS=Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd) OX=71421 GN=tyrP-B PE=3 SV=1) HSP 1 Score: 67.0 bits (162), Expect = 6.6e-10 Identity = 96/388 (24.74%), Postives = 171/388 (44.07%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy Swiss-Prot
Match: Q5E5M9 (Glutamine transporter 2 OS=Aliivibrio fischeri (strain ATCC 700601 / ES114) OX=312309 GN=VF_1172 PE=3 SV=1) HSP 1 Score: 64.7 bits (156), Expect = 3.3e-09 Identity = 80/309 (25.89%), Postives = 138/309 (44.66%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy TrEMBL
Match: A0A1S4E201 (tyrosine-specific transport protein 1-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103496418 PE=4 SV=1) HSP 1 Score: 723 bits (1865), Expect = 9.81e-259 Identity = 371/374 (99.20%), Postives = 371/374 (99.20%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy TrEMBL
Match: A0A0A0KHF6 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G405310 PE=4 SV=1) HSP 1 Score: 707 bits (1825), Expect = 1.19e-252 Identity = 362/374 (96.79%), Postives = 367/374 (98.13%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy TrEMBL
Match: A0A1S4E1A5 (tyrosine-specific transport protein 1-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103496418 PE=4 SV=1) HSP 1 Score: 675 bits (1741), Expect = 1.03e-240 Identity = 347/348 (99.71%), Postives = 347/348 (99.71%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy TrEMBL
Match: A0A6J1BVF1 (uncharacterized protein LOC111006064 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111006064 PE=4 SV=1) HSP 1 Score: 620 bits (1600), Expect = 4.49e-218 Identity = 312/369 (84.55%), Postives = 340/369 (92.14%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. ExPASy TrEMBL
Match: A0A6J1BW54 (uncharacterized protein LOC111006064 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111006064 PE=4 SV=1) HSP 1 Score: 620 bits (1600), Expect = 4.66e-218 Identity = 312/369 (84.55%), Postives = 340/369 (92.14%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. TAIR 10
Match: AT5G19500.1 (Tryptophan/tyrosine permease ) HSP 1 Score: 181.8 bits (460), Expect = 1.3e-45 Identity = 127/395 (32.15%), Postives = 203/395 (51.39%), Query Frame = 0
BLAST of MELO3C019793.jh1 vs. TAIR 10
Match: AT2G33260.1 (Tryptophan/tyrosine permease ) HSP 1 Score: 117.1 bits (292), Expect = 3.9e-26 Identity = 114/420 (27.14%), Postives = 190/420 (45.24%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
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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