MELO3C020478 (gene) Melon (DHL92) v3.5.1
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCCCTAGCTACAAACAATTTTCATTGTTCCACGGTAGTTGGTCAAGGTGGTTATGGAAAGGTTTACAAAGGAATTCTAGCAGATAGCACGGCTGTTGCTATCAAACGTGCACAGGAGGGCTCACTGCAGGGTGAAAAAGAGTTCCTAACTGAAATACAATTACTCTCAAGGTTACACCACCGAAATCTTGTGGCTTTGATTGGATATTGCGATGAAGAAGGGGAGCAGGTGATTTGAGGAATCCTTTATTTATTTATCGTTTTTATAAGGATAATTGCAAAACATGCCACTGAGCTACTGGTGTTACAGTTACCCTCTTGATTTTTAAAATTAACCTACTCAAACTTGTGAAATTGTTACAACTAAATCATATCAATTGAGAAATATGAGGTGCAATAATCTCAGTGTCTTGGTATTTTCTTTTCCAATTTTGTATATAACATCTACGAAAGTAATTTATTTTGTATTGGCTTTGCATATAAATATATTTTCATTGGATTTGTATGCAAATATATTTTTATTGGCTTTGTAGATAAAAACAGATTTAATGAAGTTTCCATTCAGTCCATGAACATATGCAACAATATAAAAATTGTGGGAAATTGAGAAAAGTAAAGGCTGCACTAAAAATATGGAATGGAAATCTCCAGGAAACACTCATAAGGAAAGAAGAGGAGTTGTTAAAAGAAATTGAAATTTGTGACAGCATAGCAAAACTCTCCGGCCTAAACCCAGATGCATTAGCCTTCTGTTCCTCATTGAAAGCTGATTTAATGAGCATTCATAGGGTGGAAGAAAGAAATCATGTTCAAAAAAGCAAGCTTCATTGGCTAAAAGAAGGGGATGAGAATTCAGGTTTCTTTCACAGATTCTTAGCTGCAAAAAGAAGAAGGAACTTAATTTCAGAATTAATCAATGAACAAGGAGAAGCAACCAAGTCTTTCGAGACATAGAAAGACTAATTTTGGGGTTTTATACCGATCTATACAAGAAAATTCTAGGTTTAAGATACATACCTCTAATCTTTGACTGGCCGTGTATTACTCCAATTCAGAATGTGGCTCTTACTGCCACTTTTACTGAAGCAGAAACATTCAAGGCTTTAAAGCCGTTGGAAAGAACAAAGCTCATGCCCTTGACGGTTTCACAGCTGAATTCTTCGTAAAAAATTGGCATTTGATTAAGGAGCCCTTCACTGCCCTATTTGAAGATTTTTATGAGAATGGAAGGCTCAACGCTTGTGTGCAATTTTATCTGCCTAATACAGAAGAAGGAGGATGTGGTCCTTGTAAAGGACTTTAGACCAATCAGCCTCACGACCTCAACTTACAAGGTAGTAGCAAAAGTCTTAGCGGAAAGACTGAAATCTGTTATGGTCAGCATTATCAGCCCCTCTCAATGCGCTTGAAGGTAGGCAAATCCTTGATCTGGTCTTAATTGCAAAAGAAATTGTGGAAGAATACCGAGCTAAGAGGAAAAGAGGGTGGATTTTGAAGCTTGATCTTGAAAAGGCCTTTGATCGGTGGGCCGGGGTTTCCTCGAAAAAGTCATGTACGTAAAATTTTTGACCAGAAATGGATATCTTGAATTATGGGCTGCCTAAAAATGCCAAGATTCTCCATTCTCATTAATGGAAAGCCTCAAGGTCGTATTTTTGCTTCTAAAGGAATTCGGCAAGGATGGCAAGGTGAACATGCTAGTTGTAAACGGGCATTATGAAGGCTTTGTAGTTGGTAAAGAGAAGGTTCATGTACCAATGCTCCAATTCGCAGATGATACCCTTCTGTTTTGTAAGTATGATGAAAGCATATTAATGAAACTAAAGGATACAATTGCACTCTTTGAATGGTGCTCCTAGCAGAAGATAAATTGGGCAAAATCAGCCTTACGTGGAGTCAATGTAGATGAGGATGAGCTGAAATTGATGGCTGAAAAGATGGGCTGCTACGCAGAAAAGATGCCCTTTTTATATTTAAAGCTTCCATTGGGGGTACCAAAGACAGGTTACTTTTTGGCAGCCCATGACTGATCAAGTGCAGAGAAAGACAAATAGAGGAGTCAATTTGTCACGAGGAGGAAGAGCAACCTTATGTCAATTAGTATTGGCCAATCTCCCCACTTATTACATGTCCTTGTTTGCAATGCCTATCAACGTAGCATCCTCTTTAGAGAGATTAATGAGGAATTTCTTCTGGGAAGGGCACACAAGAAGCAAAATCAACCATTTAGTAACATGGGCTAAAGTTACTCAGCCCCAACTTGATGGAGGTTTGGGTTCGGGAGTGCTGCAAAATAAAAACATGGGCTTTACTTCCTAACCAGGGATGGAGGTTTATGAATGAAGAAACTTCCTTATGGAGACAAGTCATCCGAAGCATCCATGGAAAAGAATCATTCAACTGGCACACAGTTGGAAATTCTGGTCATAGCCTAAAACCCCCTGGATTAGTATCTCACGAGTATGGAGGAAGATGGAGTCCTTAGCCTTTTTAAAACTTGACAATGGTACAAGGATTGCTTTCTGGACAGATGGTTGGATTGACAATTTTCCCCTCTGCACTCAATATCCCCATCCCCATTTTTTCATGATTACATTCTTACCAAAAGGATCCATAGCAACCATCATAGGTTAGCCTTGTAATAAAAAAAAGGAGACATAGTCTCAATAACTAACTAAGAGGTCATGAGTTCAATCCATGACTACCTTTTGACGAAATAATTTCCTACGAGTTACCTTGACACCCAAATGTTGTTGGGTCAGGTGGTTTGTCACGTGAGATTAATCGAGGAGCGCGTAAACTTGCCTGAACACTCATGAATGTTAGAAAAAAAAAAATTTGATCTATAGCAGCACATTAGGAATTCTCGACATCCTCTTGGTCCATAGTCTTTAGAAGGCTTTTTAAAGACGATGAGATTCTGGACTTTCAAAACTTGATATCTCAACTAGCTTCTAAAAGTGTTTTGGACAATCTTGATAGAAGGGTATGGTCTTTGGAAGATCTCCTTTGGACAAGGATCTATATAAAGCTTTGTAGAAATCTAAATGCCCAAGGAGAGTAAACATTCTCATTTTGGGTTATGATCTTCGGTCCCCTGAATTGTGCTTCATTCATGCAAAGGAAGTTATTGAACAGTTGCTTATCACCCTTGAACTGCCCACTGTGTAAGCAAGAAGGAGAGGATTTACTGCATCTGTTTTTTAATTGCTCTTACTCTGCTAATTGCTGGTGGAAGCTCCTCTCTTTTTTTTTTTTTTTTGATGTAGTATGGGTTTTTGGGGAATCTTTAGTCTAAATGTTTAGCAAGTTTTCATGGGGCCTGTACTTAAGAGGAAACGAGATTAATCTGGGAAAAATTATCGAAGGATGTGCTGGTAGAAATCTGGTTTGACGAAACCAAAGAACCTTCCATGATAAGGAATCTGGTTTGACGAAACCAAAGAACCTTCCATGATAAGGAAACACATTGGCTAGATCGTTTTGAAGTAGCAGGTAGGAATGGAGCAGCTGGGTGCACTCTTCATAAAGACTTCGAAGCATTTTCCATTCAAGGTATCAGTCTCAATTGGCAGGACATAATTTCTCCAGATCACTGAGGCACTTCTTTCATGAAATCATTCTTGCATTCATCATTGAAAGACCCACTGCTTTATCCTGTTGTTCGGCTGCTGTTCTTCATGATGTTTTTATATCTTTTACTTTTTTCCATTTTGGTTCTACAACTGATGCTTGTTGTAATCTGGATATTTATATTTTGTATTTGTGGACTCTGTTTTATTTGAATATGATGAGGGGACTAAGGGGCTGCAACCTAGTTGAGATGTCCGGGTGTACTTGTTGATCCTAGATGGTCTTTTTTTCCTTTTTGTTTTAGCTCCTTCTATAAACCTTTTGTGCTTTGGGTTTAATTATTATCAATAGAGACTGGTTTCCGTTTCAAAAATAAAACAATTAAAAATTGTAACGATTTAGCCTCTAGATTTCGGTTTGTTACAATTTGGTCTGGAAGTTATATAATTAAACCATCAAGTTCTTAAAGACTATCAAATCTAAAAACTTAAACTGGAAACGGATTGATTACAGTATATTTAAATTAAAGTTTCTGTTTGTCAAATTCTGTCACAAAACTTATTAGTTTGGGAACAACTAATCTTATCAGCTCGTAGGACATTTTTTTTTTTTTCAATTTCTTACCCTGACCTTGGAATTTATCGTTGAACAGACTTCTTGATTTTGAATTTGTACGCAGATGTTGGCTTATGAATTTATGTCAAATGGCTCGCTGAGGGACCACCTTTCTGGTAGAGTTCAGCTAATTTTCCTTTAATTTATTTTTCAAAGATTCTGTTTCAATTGTCCATGGTTTTTGTTCCATCATTTTTATGTCAACTGAAAAAACATGGTTTTCTTTTTCCTTCCAAGCATCAACTTACTAAGCATCCTTGTGTTATTACAGTAAATTCTGCAGAACCCTTGAGTTTTGCCACAAGATTAAAAGCCGCCTTGGGTGCAGCTAAGGGAATTCTGTACCTGCATACGGAAGCTGATCCTCCAATATTCCATCGAGATATCAAGTCCAGCAATATATTATTAGATTCTAAATATGTAGCAAAGGTTGCTGATTTTGGACTTTCACGACTTGCACCTTTACCCAATGCAGAAGGCGACGTGCCTGCTCATGTATCAACAGTAGTAAAAGGGACACCGGTAAAATTCTATTAATATTTATAAAATTCTTAGAAATATAATGATAGATTTAATTTTTTCTGACGATATTGTTAAGATTTCAGGAGATTCTAGGTTTTAGAAGGAAGAAATCTTTTGTTATAACAGGTCTATTAGGTTTTAAAGGAAAAGATCATTTTTAATAACTAGTGATTAGAGACATGAAAATTTAGAAGTTGGTTGGGACACTAAGTTGGTTATTATATTCGTTTTTATAGTCTATGGTTATTATATTGAAAGCAATAAACACCAAACCAAGCTTACGTGGAAACTCGAGAACCGGGAGAAAAACCACGATACTTTTAGTTTTATTATTTTTTGATAATCATACAATAGGTACAAGAGGGGAATAAATAGAAAAGTACAAAAAGATAAAAAAGGAATGAATATTTAGGGTAAATCTCCCCAATGGGCTAAGTCCACTAATTCTAACACTCCCTCTCAAGTTGGGACGTAAATATCAATGAGGCCTAACTTGCTAGCACAAAAGTCAAAGTTTGGTCTGAGAAGTCCCTTGGTGAGGACATCAGGAACCTGTCGGCTCGAAGGGATGTACGGAATGCATATGCTCCCACTGTCAAGTCTTTCTTTGATGAAATGCTGATCAATCTCAACATGTTTAGTTCTATCATGCTAAATTGGGTTGTTAGCAATACTAATAGCGACTTTATGATCACAAAAGAGCTTCAATGGAGTCTCACATTCTTGATGAAGACCGGACAAGACTTTTTGGAGCCAAATTTCCTCACATATTCTCAAACTCATAGCTCTATATTCAGCCTCAGCACTACTCTTGGCCACAACCCTTTGCTTCTTACTCCTCCAAGTTACAAGATTGCCCCAAACAAATATATAATAACCCAATATCAAATCCTGCCCAGTCTGAGTCAGTATATGCCTCAATGGTCTGTCTTTCAAAACATCAACCCTTTACCATGTGTCGTTTTTAAGTATCTCAAAATTCTTTTGACAGCTTCCATGTGTTCTTTATAGGAAGCCTGCATAAAATGACTGACACTCCAGCAAAGGAAATATCAGGACGAGTATGGGATAAGTAAATTAATTCACCCACAAGGCGTTGATATAAAGTCCCATGCTATGCCGAGCAGTGCCAATCGCCCTCCCCAAACTCAAGTCTTGAAAGCAAACAGATTCAGGTAAGAAAGTAGCTTTACAGTACAGCTCACGGGTGATCTTACTGATAGATAATAAATTGTAAAAAAGCTTAGGTACATGCAAAACATTATGGAGAGAGAAACCGTCAAATAGAACTATTTGTCCTTTTCCGGCAATCGGGGCTAAAGAGCCATTGGCTATCCAAATTTTCTCATTACCGGCACAGGAGGTATAAGAGACAAAATGCTCCGAAAAACCTGTCAAGTGATCTGTGGCCCTCGAGTCCAAAATCCGGGGATTCTGCCCATCAACACTAATAAGGCTAAGGGACTGAGACATACCTGACTGAGCAATGGTGCTTAGAGTAGGAGAGCTGGTCTGGCTAGCAATAGGGCCAGTTGGCTGAGAGGTGCTGGCAGTCTCCTTAACATCGGTATGCCTTGAGTTCTATTGCTCGTTGGAGGAACGTTTGTTATCTCTTGGGGGCCGATCGTGGAGTTCACAACACTGATCTTTAGTATGCCATTGTTTCTTGCAGTGCTCACAAACGAGAATTGGTTTTCCATTATTTTTTTCATTATCATGGGTCAAAGATTAAGCACTAAAGGTAGCAGAGTTAGTTATATAATTTGAAGGCACATTAGGAAGGGAAATTATCGGGTTCTTGGAATACATCGATAGATCAGTCGATTTAGACTGTGCCGAGGATGCATCAACTTAAAAAACAGCTCTCATGTAGGTTTGGTTAAACCCGAGAACAAAAACATATGGCTGTCCGACTCGCCCACTTTAATCCCCAATCTGTTATGGAGTTGGTCAGCCTCGTTCCTATAGAAGAAAGGTTGCTGTAAAGGGTTGACGGACAGATTTGCATTGCTGTAAAGGTTTGACAGTTTTGTAGGTTGCTGTCTGGCGGCAGATGACCGAAAGGGTGAGATGGTTGGACAGGCGACAATGCATAGAATCGAATGGGATGGGTGGTGAGATTAACGAACGGTAGCGCGTGGGCCCACGCGCCCGATAGAGGCGACTCGTGAGGTTGTTTCTGGCCGGAAGGTTGTGCGAAAGTCAGCGAAGGTTGGCCCATTGGATAGATCGGCGGCATCTAAATCCTTTGGAGTAGTTTTTCCATGCTGATGTCAACGGTGGCTGCGGCAGCTTCTATTTTGGTCTGAGTTTTTTCTAAACTTTTTTCTAAGGTTTCGTTGTTGCTTCGCTTTGATACCATATTGAAAGCGATAAACACGGAACCAAGCTTACGTGAAAGCCCGAGAACCGAGAGAAAAACCATGATGTTTTTAGTTTATTATTTTTTGGTAATCATACAATAGGTACAAGTGGGGAATATTTAAGGTAAATATCTCAAATAGGCTAAGCCCACTAATTCTAACAATAGTCTTTAGGTATTGTTAGAATTAATGGGCTTAGCCCATTGGGAGATTTACCCTAAATATTTTTTTCTTTTTTTTTATTTCTTTGTATTCTATTTATTCCTCTCTTGTACCTATTATATTTTTATCAGAAAATACTAAGAACAAAAATATCATGGTTTTTCTCCCAGTACTTGGGTTTCTACCTGGATATGTATGTTCTTTGTCTCTACTTTGAATATGGAATCAAAGCAAGACATTGAACAAACCCTAGACGACACAACTAGTGATGAAAATCAAATAGAAGAGATTCGTCGGTTTTAGCATCACTTCGTCAATGATGAATCAGTGCTGTCATGGACGAATGATTCTGCTGCCATCAGACAACACTGGCCAATGTAATCTTGTTAATTCTGCCATCGTCTGCATTGCTAAAACCCTCTCGCACCGTCGTCGGAGCTACACGTGCCGGTCCATCCTCCCCAGACAGTGCCGACCATCCCATATGTGCAACCCTCTTCTTCATCTGCAACCTATATTGCTCCATACTCCCCAATTCATGTACTGCTACCATCGCTTCTGCTGTTAAATATGTATGCCCTGCCACCCACTGATCTTAGTTATCATCCCGATGTTAAGGATCCTCAAATTTACTCTACATATGAGGTTGGTGAATCTTTGGTACATTCCAACCCTAACGTGCAAGCTTCCTTTTCCTTTCTTCAGGAATAACTCAACAGCAACTGGAAGGGCTTCGACAACATATTGCAACAATTGAGGCACCTTAAGGACGACATCCAATACTCTTGTATTGATGTATTCTGAGAATCTGGTAACCTCGTTCCCTACTTTATCTTCTTCTTATGTGACTAATACAGTGGCTCCGTCTACCAGATATCATCTTTCAGGGATAAAGTTGAATCACAATAACTATTTTTCATGGTCTTAGTGAGTGAAAATGGTCCTCGAAGGACGATATAAATTTGGTTTTCTGACAGGAGAAATATCTCATCCTTCATCCTAAATCCAGATGAACGATATTGGAAGGGAGAGGACCCTCTTCTTTGATCCATATTGACCAACAATATGGAACCCCAGATTGGCTAACCATTACTGTATACTGCAACAACCAAAGATATTTGGAGCATGACCCATACACTCTACTTCAAACGTTAGAATGCCTCTCGCCTATACACGCTAAGAAAGTAGGTCCATAAATGCAAACAAGGAACTATGGATGTTACGTCCTTTTTTAATAAGCTCTCTTATGTGGCAGGAAATGCACCTATGCAGAGTAGTCCTAGTGATGGTTTGCAATACTCTAGAATTGAAGAGATAGACAGAATTCATGACTTTCTTGCTGGTTTTAATCCTAAGTTTGATGTAGTTCGAGGGTGTATACTAGGCCAGAGACTGATTACCTCCCCAATGGAAGTCTGTTATGAAATCCGTCTGGAGGAAGGTCGCACAAGTGCTATGAGTATTTCAGCAACTTCTACTATTGACTTTGCTGCTTTTAGTGCGAGGTCCTCTACCAGTGGCAGTGACAAGTACAGTGTAAAAACAATTCCTGTCTGTGAGCATTGCAATAAACAATGACACACCAAAGAACATTGTTGGAAGTTACATGGTCGTCCCTTAAGAGGTAAAAAATGCCCTCCAAACGACAAATAGAACATAGGATAGGCGTATGTGAGTGGGTCTGCTGGACCTTCTCAACTACCTGATTTACACAGAAACTAGACTGTTCCCAATCCCGTTACTTTAGGTGCCATCCAATCAGGTATATTTCAGTCCTTCGATCTTATTAATGTTGATGGGAAGAACCTCTAGATTCTGGCGCCACAGATCATTTGACTGGGTCCTCTGAACATTTTATGTCTTATATTCCTTATATTGGCAACGAAACAATTAGAATTATAGATGGCTCCTTGGCCCCCATTGCTAGAAAGGGGAAGATTTATCCCCGTGCAGGGCTCTCCTTACATAATGTTTTGCATGTGTCCAGATTGTCTTATAATTTACTTTCTATAAGCAAGATACTCATGAATTAAACTGCAAAGAATATTCTTACCTGATTTTGTCTCTTTTCATGACTAAGCTCGGGAAAGATGATTGACACTACCCGACATAGTAGTGGACTCTAACTCCTTGATGACGATACCTCTTCTAGTAGCATTTCTAAAACTACTATTTTATCTTCTTATTTTACTACTGAACAAGACTGTATGTTGTGGCATTTTCTTTTAGACCACCCTAACTTCCAATATATGAAACATTTATTTCCTTATCTCTTCTCTAAAATTGATGTGTCTATCTTATCTTGTGATGTATGTATTCAGGTCAAACAACATCGGGTTTCTTTTCCTTCACAACCATACAAACCAACCCACCCTTTCGCTCTTGTTCATATTGATGTCTGAGGACCATCCAAGATAACAACCTCATTTGGAAAACAGTGGCTTGTAACCTTTATTGATGACCATACCCGACTTACTTGGGTCTTTCTTGTCTTTGACAAATCTGAGGTCACTTCTGTCTTTCGGGACTTCTACCACACCGTAGAAACGCAGTTCAATACAAAGATTGCTATTTTGCGGAGTGACAGTGGTCGAAAGTTCCAAAACCACACCCTCAATGAGTTTGTCTTCCAAAGTCATTGTTCACTGAAGTTCTTGCACCTACACTGGCCAACAAAATGGAGTAGCCGAGCGCAAAAACCATCACCTTTTGGAAGTCGCTCGTTCTCTTATGTTGTCTACTTCCCTTCTTTCCTATCTCTAGGGCGATGCTGTTCTCACTGCAGCCTATCTTATCAACCAAATGCCTTCTCGTGTCCTACATGTCTAGACCCCCTTAGAGTGTCTTAAAGAGTCATATCCCTCTATCCGCCTCATCTTCGATGTTCCTCTTCGGGTATTCGGGTGCACAACCTATGTTCATAATCATGGCCCTAACCCATCTAAGTTTACTCCTCGGGCTCAAACACGTGTTTTTGTTGGTTATCCTTTGCATCAACAAGGCTATAAATGCTTTCACCCGTCTTCCCGTAAATATTTTGTCTCCATGGATGTCACCTTTCTCGAAGGTCGTCCTTTCTTTCCCGTTAGCCATCTTCAGGGAGAGAGTGAGAGTGAAGAGTCTAACTCTAACTGGGTGATATCCTAAGAGTCTATCGTTCCTACTCTTGTTACCATACCAAGTTCAGATCCTCATTACACAATCCTACCTACGAACCAAGTTCCCTAGAAAACCTACTATATAGGAGGAATCTTAGAAAGGAAGTTGGCGTGTCCTGCTAATCTGCCAACTCGAGTCCAAGATTCTGAACCTTTATGAGATCAAGGCATGATTGATTCTATTAGCTCACATATTGACAGTAAAATGAGTGAAAGTGACAGGTCCGAGACAACTATTCCTGAAAATATAGGTGAACGGGGTTATGTTGATATTGAGGTCATCCTAGATAGAAAGGGCAGTAATGATGAAAATGAGGTCGGTGTAAGAGTTACTAAAAATGAAATTAGGAAAGATCGTTTAGAAAATATTAGTTAGTCTGAGCCCTCTCTTAATATGCCTATTGAATTAAGGAAGGGTTCCATGTCCTGCACTAATCACTCTATTGCAGGCTTCGAAAATCCTTATATGGGATGAAACAATCACCAAAAACGTGGTTTGACAGATTTTTCACTTTCATCAAGTCTCAGGGGTACAATTAGGGGTACTCTGATCACACCTTGTTCACTAAAGTCTCCAAGGCAGGAAAAATTGCAGTATTGATTGTCTATGTCGATGATATGTGCTATCTGGGAATGATATTGATGAGACCGTTCAACTAAATAAGAAGATGGGGTTTGAGTTTGAAACCAATGATTTGGGAAATCTGAAATATTTCCTTGGAATGGAGGTGGCAAGATCTAAAGAAGGCATCTCTGTGTCTCAAAGAAAATACACCCTTGATTTGCTAATCGAGACAGGTATGTTAGGATGTTGTTCCGCTGACACTCCTATTGAATTCAATTGTAAACTAGGAAACTTTGATGATCAAGTTCCAGTTAATAAAGAACAATATCAGCGTCTTGTGGGTAAATTAGTTTACTTATCCCATACTCATCCTAATATTTTCTTTGTTGTAAGTGCTGTTAGCTAGTTTATGTAGGCTCCCTATGAGTATCACATGAAAGTTGTCAATAGAATTTTGAGATACTTAAAAACAACACCTGGTAAAGGGTTGATGTTTTGAAAGATTGACAGGAAGACCATTGCGACATATACTAACTCGGACTGGGCAGAATCTGTTGTTGACAAAAAGTCTACCTCCGGTTATTGTACATTTATTTGGGGCAATCTTGTAACTTAGAGGAGTAAGAAGTGTTGTGGCTAGAAGCATCACTGAGGCCAAATATCGAGCCATGGGTTTGGGAATATGTGAGAAAATTTGGTTCCAGAAAGTCCTTCCTGATCTTCATAAGGAATGTGAGACTCCATTGAAGCTCTTTTGTGATAATAAAGCCGCTATTAGTATTGTTAACAACCCAGTTCAACATGATAGAACTAAACATGTTGAGATTGATCGACATTTCATTGAAGAAAGACTTGACAATGAGAGCATATGCATTCCATACATCCCTTCGAGCCAACAGTCTACTAATGTTCTCACCAAGGGCTTCTCAGACCAAACTTTGACTTTTGTGTTAGCAAGTTGGGCCTCATTGATATTTACGTCTGAACTTAAAGGGAAGTGTTAGTTTATGAAAAAATTAGTTATGAAAAGTTTACCAAAAATATTTTTTCCCTTTTTTTCTTTTGCCCTTATGTATTCTATTTAATCTTCCTCATTGTACCTTCGTAATTCATTAGAAAATAATAACAACAAAATATCATGGCTTTTCTTTCGGTACTCAAGTTTTTACGTAAATCGGTGTGTGCTTTTTGTCTCTACTTTCGATACTTTTGCAAAATTATATTTAAATGAAGTATGATATCTTGGTTCTCTTGCTAAATCCTGATCATACTCGCTATCTCTGGTAGCAAACTGTATCGTGGTGATAATTTACCAGGTAAACTTGTATAAGGTTTGAGTGATGGTCGAACTGGTCTTATCTTCCTTAGATTAGAGTTAATTTATGGAGGTAAAGATGTTATGGAAAGTACCACTGCACGTATTTAAGGACTAATTACAGCCTGAAATGTGGGCATCAAGATGTGAAACATCCACTGGAGAAGGGTTCGTGATAAGAATAATAATTTACCCGTGAAAAGCATATGCTCAACCTGGGGCTATGGAGCTTGAAAGATCAAGAAAGCTCACAGCAGTTGGATTAGTTATCCCAGGGCTGACACTAGTGAAATAAAAAACAAATCCAATTACCGTTGTTCAATTGGTAAACAAAGAAACCTTGTCAAGTAGGTACTTTCAGTTCTGATGAACTCTATAGAGGTCCTGTCAAAACACTTACATTTAGTGAGATGGTAAGATGGCGCTGAATGCAACAATTAAGCTAGCACAAATATTAATATTCTACATTTTCAAGGAAACTTGATTTGCATATTCTAATCCCCTCTCATAGTTGTCATATTCAATTACCATTGTCCATCAATTGGTAAACAAAGAAACCTTGTCAAGGAGGTACTTTCAGGTCTGATGAACTCTACAGAGGTCCTGTTGAAACACTTGCGTTTAGTGAGTGAGATGGTAAGATGGTGCTGAATGCAACAATTAAGCTAGCACAAATATTCTACATTTTCATGGAAAACTGATTTGCATATTCAAATCCACTCTCAAAGTTGTCCTATTAGAATAATTGGGATGGGATGCTGAGATGCAAACGATAATGGTATCCCTACCTGATGTAGAGAAACTAAATCTTCTGTACTAAGACTATTTTCTTTTGGTTGTTCAATAATTCCAGCTCCCGGTAAAATAACTATATGAAATCCTGTATTGAGTTTAGTTAAAGGGTATTTTTGAGTTTAGTTAAAGGGTATTTACGTGCATTTTAAATTGCATGCTCCTTTAATTTGCAGGGTTATCTTGATCCAGAGTACTTTTTGACTCATAAATTGACAGATAAGAGTGATGTTTATAGCCTTGGTGTTGTGTTTTTGGAGCTTTTGACTGGGAGGCACCCAATCTCACATGGCAAGAACATCGTTAGGGAGGTATTACAATTGCATTTCTTATGGCCTCTTTATTTGGAATAGCATTAAAAACTAAACTTTTAGGACATAAATCATGAACTGGATATAATAGTCATATGGGGAATCAATTTTATTCCGAATGCCTAAAGGATATAATATGATGTTTACTTATTTCTCTATATAGTTTCCCTTTTCTTTGGTAAGGTTCCAACCCATGGATTGTAATCTGGTAGGATACTTCCTAACAAGAATCAGTATATTTTATATATTGAGAATTAACTAAGAACTACAATATGATCCAAGTTTATGGTACTCGGGATCCCCTCTCTTGAGAATACTACTCAAGACCTATCTACTCAACAACTTTCCTTTCCTTCTTACTCACCAACTTCTTATTTATAACCACTACTGTTAGTTACCGCCTAAATATCTAATTAACCTTATACCCCTAACCCTATACTAATTTAGGTACTTAACTTACTTTGCCCTTCAAAACACCTTGTCCTCGTGATGTGTTTACAAACATGATCACAAAATTGGGCCTTTTTTATTTTTATTTTATTTACCAACAATACCCAACAATCTGCTCTTCGATGTTGAAAAAGTTCTCCCCTTCAGCTATGAAAAACTCTTGGCTCTAGTAAGGTCCATTGACTTCAGCCCATAGCCTAGAATCTCTTCCTTGACTTCCCCTTAACTCCTTCCGTTGTAGTTAGCAGCCATTCGATAAGCCGTACTCTTCACATACCAACCATTGAATGGCCAACGTCTTCTTTCTCCATAACAACCAGACATTTTCTGCTTCTTTGAGCAACATTTTCTTCACCCGGTCTTCATTTCAGGCCTCACAAGCAATCGCCGCTGACCTTTCTCTATAATTTCTTCTCGGTCACTCTTCCTCAACCTCTTCACCTTCTCCGTATAGCCATTGTAACCATGTTTCCCATGAGATTTTATCTTCGACCATGCTAGTTTTCGCAAATTTCACTTCCTCTTGTTTTGACATATCTCCGCTAGTATTAGGTATTTCTTTATAACTTTCTTCCTTCTCCCACACCTGGTTTTCTTTTTCTATCATGTGAACATGCTCTTCTCTTTGTCCCTCCAACATCAATAAGATCTCAATCTCTCTTCGACCACCTTTGCTTTTCTTTGTCGATATTTTTCTCTTTCCTTGATTCTTCTCCACCTCCTCCTTGCTTTCATTTGTTTTGTTCTGATCCGCCTCTATATTCCACACTTTCTTTTACCAATATTGGAGTTTCTCCCGATTCTTCGTCATTGTTCTTTCCTTCACTCGACTTGTCCACTAACGATGATCCAAAGGCGTGATGATCATCGACCAGTAACTTCCTAATTTCATTTCTTGTGAAGTGTTGTTCCTCCATTTGAATGCTCAATCGCTCAACACTCCTAGCCAAGGATCTCAACTTCTCCTCAACCGCTAACAATTTTAACACATTCGTACAAATTCAGCAAGTTCTTGATCAATCACATTTAGTTGTTCTTCCATCCCTTTTTACACATTTTTTGATTCTCACTTAGGTTGTTGCTTTGATACCAATTTGTTAGGATACTTCCTAACAAGTATCAGTATTTTCATACATTGAGAGTTAACTAAGAACTACAATATGATCCAAGTTTATGGTACTTGCGACCCGCTCTCTAAAGAATACTACTCAAGACCTATCTACTCAACAACTCTCCCATCTTCACTCACCAACTTCTTATTTATAACCACTACTCTTAGTAACCACCTAAATATCTAATTACCCTTATACCCTTAACCCTATACTAATCTAGGTATCTAACATAATCTTGAATGAATAGACAATGGCGTGTACTTACACTTGTATCTCTTTTAAATATATGTATGGTCAATAACAGGTTAACGGTGCATATCAGTCCGGGAAAATTTTCTCCATAATTGATGGTCGACTGGGTTCTTATCCTGCTGAATGTGTAGAAAAATTCGTGACACTTGCTTTGAAGTGTTGCCAAGATGATACAGATGCACGCCCTTCAATGGTAGAAGTTGTGCGAACGCTTGAAAGTATCTGGCTTATGCTGCCCGAGTCCGATACGAAAATTTCAGAGCCTTTGATCACCGATGTCATAAAAGTGACCAGTCCCCCATCTTCATCATCCAATATGAACTATTACATATCAGAAGTCTCTGGTAGCGATCTCGTGAGTGGAGTAACTCCCACCATCATGCCCAGATAGAAAACAATATTGCATGATCCAAACCAAGTTTAGGAGCCTTGTTTCATACTATTTCAACAATGTCGGTACGCGGCGTATGTCATTCTTGTACAGCCTCTGTTGCACACGTCAACAAGTTGAATCTTAGTTTGTATATAGTATTTCATATATTGCTGTACTTTTCAAATCCTCCTAATATGTTAAATTAAATTATATCTACTTGTGTTGGAAAAGCATGATTTTGTTTGAAGTAGTTGTAAATATAGCAATCAAGTCTAAAGTAAGAACGCATGTAGCTCAATGTAAAAGAATTTACAAATATAGTATTATACTTTTCATAC ATGGCCCTAGCTACAAACAATTTTCATTGTTCCACGGTAGTTGGTCAAGGTGGTTATGGAAAGGTTTACAAAGGAATTCTAGCAGATAGCACGGCTGTTGCTATCAAACGTGCACAGGAGGGCTCACTGCAGGGTGAAAAAGAGTTCCTAACTGAAATACAATTACTCTCAAGGTTACACCACCGAAATCTTGTGGCTTTGATTGGATATTGCGATGAAGAAGGGGAGCAGATGTTGGCTTATGAATTTATGTCAAATGGCTCGCTGAGGGACCACCTTTCTGTAAATTCTGCAGAACCCTTGAGTTTTGCCACAAGATTAAAAGCCGCCTTGGGTGCAGCTAAGGGAATTCTGTACCTGCATACGGAAGCTGATCCTCCAATATTCCATCGAGATATCAAGTCCAGCAATATATTATTAGATTCTAAATATGTAGCAAAGGTTGCTGATTTTGGACTTTCACGACTTGCACCTTTACCCAATGCAGAAGGCGACGTGCCTGCTCATGTATCAACAGTAGTAAAAGGGACACCGGGTTATCTTGATCCAGAGTACTTTTTGACTCATAAATTGACAGATAAGAGTGATGTTTATAGCCTTGGTGTTGTGTTTTTGGAGCTTTTGACTGGGAGGCACCCAATCTCACATGGCAAGAACATCGTTAGGGAGGTTAACGGTGCATATCAGTCCGGGAAAATTTTCTCCATAATTGATGGTCGACTGGGTTCTTATCCTGCTGAATGTGTAGAAAAATTCGTGACACTTGCTTTGAAGTGTTGCCAAGATGATACAGATGCACGCCCTTCAATGGTAGAAGTTGTGCGAACGCTTGAAAGTATCTGGCTTATGCTGCCCGAGTCCGATACGAAAATTTCAGAGCCTTTGATCACCGATGTCATAAAAGTGACCAGTCCCCCATCTTCATCATCCAATATGAACTATTACATATCAGAAGTCTCTGGTAGCGATCTCGTGAGTGGAGTAACTCCCACCATCATGCCCAGATAGAAAACAATATTGCATGATCCAAACCAAGTTTAGGAGCCTTGTTTCATACTATTTCAACAATGTCGGTACGCGGCGTATGTCATTCTTGTACAGCCTCTGTTGCACACGTCAACAAGTTGAATCTTAGTTTGTATATAGTATTTCATATATTGCTGTACTTTTCAAATCCTCCTAATATGTTAAATTAAATTATATCTACTTGTGTTGGAAAAGCATGATTTTGTTTGAAGTAGTTGTAAATATAGCAATCAAGTCTAAAGTAAGAACGCATGTAGCTCAATGTAAAAGAATTTACAAATATAGTATTATACTTTTCATAC ATGGCCCTAGCTACAAACAATTTTCATTGTTCCACGGTAGTTGGTCAAGGTGGTTATGGAAAGGTTTACAAAGGAATTCTAGCAGATAGCACGGCTGTTGCTATCAAACGTGCACAGGAGGGCTCACTGCAGGGTGAAAAAGAGTTCCTAACTGAAATACAATTACTCTCAAGGTTACACCACCGAAATCTTGTGGCTTTGATTGGATATTGCGATGAAGAAGGGGAGCAGATGTTGGCTTATGAATTTATGTCAAATGGCTCGCTGAGGGACCACCTTTCTGTAAATTCTGCAGAACCCTTGAGTTTTGCCACAAGATTAAAAGCCGCCTTGGGTGCAGCTAAGGGAATTCTGTACCTGCATACGGAAGCTGATCCTCCAATATTCCATCGAGATATCAAGTCCAGCAATATATTATTAGATTCTAAATATGTAGCAAAGGTTGCTGATTTTGGACTTTCACGACTTGCACCTTTACCCAATGCAGAAGGCGACGTGCCTGCTCATGTATCAACAGTAGTAAAAGGGACACCGGGTTATCTTGATCCAGAGTACTTTTTGACTCATAAATTGACAGATAAGAGTGATGTTTATAGCCTTGGTGTTGTGTTTTTGGAGCTTTTGACTGGGAGGCACCCAATCTCACATGGCAAGAACATCGTTAGGGAGGTTAACGGTGCATATCAGTCCGGGAAAATTTTCTCCATAATTGATGGTCGACTGGGTTCTTATCCTGCTGAATGTGTAGAAAAATTCGTGACACTTGCTTTGAAGTGTTGCCAAGATGATACAGATGCACGCCCTTCAATGGTAGAAGTTGTGCGAACGCTTGAAAGTATCTGGCTTATGCTGCCCGAGTCCGATACGAAAATTTCAGAGCCTTTGATCACCGATGTCATAAAAGTGACCAGTCCCCCATCTTCATCATCCAATATGAACTATTACATATCAGAAGTCTCTGGTAGCGATCTCGTGAGTGGAGTAACTCCCACCATCATGCCCAGATAG MALATNNFHCSTVVGQGGYGKVYKGILADSTAVAIKRAQEGSLQGEKEFLTEIQLLSRLHHRNLVALIGYCDEEGEQMLAYEFMSNGSLRDHLSVNSAEPLSFATRLKAALGAAKGILYLHTEADPPIFHRDIKSSNILLDSKYVAKVADFGLSRLAPLPNAEGDVPAHVSTVVKGTPGYLDPEYFLTHKLTDKSDVYSLGVVFLELLTGRHPISHGKNIVREVNGAYQSGKIFSIIDGRLGSYPAECVEKFVTLALKCCQDDTDARPSMVEVVRTLESIWLMLPESDTKISEPLITDVIKVTSPPSSSSNMNYYISEVSGSDLVSGVTPTIMPR*
BLAST of MELO3C020478 vs. Swiss-Prot
Match: Y1684_ARATH (Probable LRR receptor-like serine/threonine-protein kinase At1g06840 OS=Arabidopsis thaliana GN=At1g06840 PE=2 SV=2) HSP 1 Score: 476.1 bits (1224), Expect = 3.2e-133 Identity = 238/340 (70.00%), Postives = 277/340 (81.47%), Query Frame = 1
BLAST of MELO3C020478 vs. Swiss-Prot
Match: Y5374_ARATH (Probable LRR receptor-like serine/threonine-protein kinase At5g37450 OS=Arabidopsis thaliana GN=At5g37450 PE=2 SV=1) HSP 1 Score: 392.5 bits (1007), Expect = 4.6e-108 Identity = 196/334 (58.68%), Postives = 253/334 (75.75%), Query Frame = 1
BLAST of MELO3C020478 vs. Swiss-Prot
Match: Y3359_ARATH (Putative leucine-rich repeat receptor-like serine/threonine-protein kinase At3g53590 OS=Arabidopsis thaliana GN=At3g53590 PE=3 SV=2) HSP 1 Score: 354.0 bits (907), Expect = 1.8e-96 Identity = 191/334 (57.19%), Postives = 236/334 (70.66%), Query Frame = 1
BLAST of MELO3C020478 vs. Swiss-Prot
Match: Y5977_ARATH (Probable leucine-rich repeat receptor-like protein kinase At5g49770 OS=Arabidopsis thaliana GN=At5g49770 PE=2 SV=1) HSP 1 Score: 280.4 bits (716), Expect = 2.6e-74 Identity = 152/302 (50.33%), Postives = 201/302 (66.56%), Query Frame = 1
BLAST of MELO3C020478 vs. Swiss-Prot
Match: Y5241_ARATH (Probable receptor-like protein kinase At5g24010 OS=Arabidopsis thaliana GN=At5g24010 PE=1 SV=1) HSP 1 Score: 247.3 bits (630), Expect = 2.4e-64 Identity = 142/291 (48.80%), Postives = 185/291 (63.57%), Query Frame = 1
BLAST of MELO3C020478 vs. TrEMBL
Match: A0A061GZ11_THECC (Leucine-rich repeat protein kinase family protein isoform 1 OS=Theobroma cacao GN=TCM_042309 PE=3 SV=1) HSP 1 Score: 536.2 bits (1380), Expect = 2.9e-149 Identity = 267/336 (79.46%), Postives = 296/336 (88.10%), Query Frame = 1
BLAST of MELO3C020478 vs. TrEMBL
Match: A0A061H0G1_THECC (Leucine-rich repeat protein kinase family protein isoform 2 OS=Theobroma cacao GN=TCM_042309 PE=3 SV=1) HSP 1 Score: 536.2 bits (1380), Expect = 2.9e-149 Identity = 267/336 (79.46%), Postives = 296/336 (88.10%), Query Frame = 1
BLAST of MELO3C020478 vs. TrEMBL
Match: M5W1Q2_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa000952mg PE=3 SV=1) HSP 1 Score: 535.8 bits (1379), Expect = 3.8e-149 Identity = 267/338 (78.99%), Postives = 302/338 (89.35%), Query Frame = 1
BLAST of MELO3C020478 vs. TrEMBL
Match: A0A067LBA0_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_17284 PE=3 SV=1) HSP 1 Score: 530.0 bits (1364), Expect = 2.1e-147 Identity = 268/337 (79.53%), Postives = 297/337 (88.13%), Query Frame = 1
BLAST of MELO3C020478 vs. TrEMBL
Match: A0A0D2U7V2_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_013G271600 PE=3 SV=1) HSP 1 Score: 523.9 bits (1348), Expect = 1.5e-145 Identity = 264/339 (77.88%), Postives = 291/339 (85.84%), Query Frame = 1
BLAST of MELO3C020478 vs. TAIR10
Match: AT1G06840.1 (AT1G06840.1 Leucine-rich repeat protein kinase family protein) HSP 1 Score: 476.1 bits (1224), Expect = 1.8e-134 Identity = 238/340 (70.00%), Postives = 277/340 (81.47%), Query Frame = 1
BLAST of MELO3C020478 vs. TAIR10
Match: AT5G01950.1 (AT5G01950.1 Leucine-rich repeat protein kinase family protein) HSP 1 Score: 423.3 bits (1087), Expect = 1.4e-118 Identity = 217/335 (64.78%), Postives = 255/335 (76.12%), Query Frame = 1
BLAST of MELO3C020478 vs. TAIR10
Match: AT5G37450.1 (AT5G37450.1 Leucine-rich repeat protein kinase family protein) HSP 1 Score: 392.5 bits (1007), Expect = 2.6e-109 Identity = 196/334 (58.68%), Postives = 253/334 (75.75%), Query Frame = 1
BLAST of MELO3C020478 vs. TAIR10
Match: AT3G53590.1 (AT3G53590.1 Leucine-rich repeat protein kinase family protein) HSP 1 Score: 338.6 bits (867), Expect = 4.5e-93 Identity = 194/359 (54.04%), Postives = 239/359 (66.57%), Query Frame = 1
BLAST of MELO3C020478 vs. TAIR10
Match: AT5G49760.1 (AT5G49760.1 Leucine-rich repeat protein kinase family protein) HSP 1 Score: 297.7 bits (761), Expect = 8.7e-81 Identity = 164/319 (51.41%), Postives = 208/319 (65.20%), Query Frame = 1
BLAST of MELO3C020478 vs. NCBI nr
Match: gi|659114903|ref|XP_008457284.1| (PREDICTED: probable LRR receptor-like serine/threonine-protein kinase At1g06840 [Cucumis melo]) HSP 1 Score: 665.2 bits (1715), Expect = 5.9e-188 Identity = 335/335 (100.00%), Postives = 335/335 (100.00%), Query Frame = 1
BLAST of MELO3C020478 vs. NCBI nr
Match: gi|449439195|ref|XP_004137372.1| (PREDICTED: probable LRR receptor-like serine/threonine-protein kinase At1g06840 [Cucumis sativus]) HSP 1 Score: 652.5 bits (1682), Expect = 4.0e-184 Identity = 328/335 (97.91%), Postives = 331/335 (98.81%), Query Frame = 1
BLAST of MELO3C020478 vs. NCBI nr
Match: gi|297745743|emb|CBI15799.3| (unnamed protein product [Vitis vinifera]) HSP 1 Score: 538.9 bits (1387), Expect = 6.4e-150 Identity = 269/338 (79.59%), Postives = 299/338 (88.46%), Query Frame = 1
BLAST of MELO3C020478 vs. NCBI nr
Match: gi|225434309|ref|XP_002276020.1| (PREDICTED: probable LRR receptor-like serine/threonine-protein kinase At1g06840 [Vitis vinifera]) HSP 1 Score: 538.9 bits (1387), Expect = 6.4e-150 Identity = 269/338 (79.59%), Postives = 299/338 (88.46%), Query Frame = 1
BLAST of MELO3C020478 vs. NCBI nr
Match: gi|747084285|ref|XP_011089544.1| (PREDICTED: probable LRR receptor-like serine/threonine-protein kinase At1g06840 [Sesamum indicum]) HSP 1 Score: 536.6 bits (1381), Expect = 3.2e-149 Identity = 265/337 (78.64%), Postives = 301/337 (89.32%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
This gene is associated with the following unigenes:
The following mRNA feature(s) are a part of this gene:
The following transcribed_cluster feature(s) are associated with this gene:
Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene: None |