MELO3C005943 (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.CGAAACGTCCCTCTACAATTTATATTCTTCTTCAACTATTGCCGACGCTTTCTTCTTCTTCTTGCCGATCACCAACCCAACGATCACTGCTTCTCAAAACTCACAAAAGCTGGTTCTAACTTCTACCGGCCCCTCTCTGCTATGGCAGCTGCGGCTTCAGCGGCGGCGCCTGAGATAATTGAACTACCTCGACCACGAGACAAGCTCCCAACCAACCTATCTCCAGACTCTGCTTCTTGCTACCCACCCGAATCATCTTCTTCCTCAGCTGACCGCATATCCGATACCCACGAGTCTTCTTCTTCACCAGACGGTTTTCACGAGGACGTCGAAATTCAGGTACATACTGCCACCTCTCTCCTTTATAAATTCGCACCTGCTTTTGAGAATTATTGAATTAGCTTGATCTTTGGCTGTTGAGAAACGATCGATATGAGTAAACGCTAATGTGAACTTCCATTATTCTATACGCCATCCTTGTTCCAATTTCTGTCAACAGAAGCTGCCAATTATCTCCATCATCATCTTCATCTAAAATGCCACTCTAAGGCGAATTTTGTAAAATTGACCTGGCTCCACAATCTGTTATGTTGATTTTGTCACGTCCCTCTCCATTCTTTTTGAGGATCTCATAACTTATTTTTCACATTCTCCCCCTCTTCCTTCTTTTCTATTGAATCGCGTTTCTTTCATTTCATCTCAACTTTATCTAAATTCTTCCGAGAAATAAAGAATTCAACGTAGGGTTCATCAGATTCTATTTTTTGTCATTCGAAGGCCTTTTTACTTTTCAGTCGAAAATTTCAATTTAAACATTTTATTAAGTGAGGGATTTTATTTATTCATTTTAAAGAAATCTCACAAATTTATTTACTTATTTATGTATCTATCCCATGCACGAATTTTATTGTTAAACATAAATTTGAATTAGAAAAATGGAAGAGGAAGAATAAAAGAAGGGGAAAATTATCTGAAAAATAATGGGCCACTCTCTTTATTCCCTTATATCATCTCTTAGAATATATTTATTCAAATTCGATGACATTAGGGTCAAACATCTTCTAGCTAAGTTTAGATTCTAGAATCACGTTCCCACGGAATTACTTGTCTGTACCCATTTCCTAACCAAAGTTATGTTATTTTACACGAGCCCCTGCACAGCCCCGCTCATTCTTAACACAATATCACTTCTCTATCTAAAATGATAACCAAAAACACGACTTAAAAATGTTTGACTAAAATTTTTAAGATATATAGAAAAAAACACGTGTAATTAATATAATCACTCCAAACAATGTTGTTGAGATGTTTAGAGTCCCACGTTGGAAAAACTAAGGAGATTCATATCCCTTATAAGATAGATTGACTCCCCCTCTTATTGTTAATTGGTTTTGAGATGGAACCCCATACTATCAAACAATAATGTATAGCATATCTAAAAAAAATGAAATATTCCCAAACATCTCGATTTAGATATTTTAAGAAAAATCTGCTTAAACTAGAAGGTACACCAAGCACAGCCTTAGCCTCTCTTGAACATGGAATTGTGCATAAGAGGACCCTACAAGCACTTAGAAATTTATAAATTTCTTTTGGAATTCTAATCCACGGGGAAACTTCATTTTTCTTGTCTGTTTTTATGCTATCTTAGATTCTTGCTACTTGCTTCCCTTAATTCTTATACCCAAAGACTTGGCAAGAAGAAGGTACTCATGTGGTTCTTCATTCTGGATATATTCGGACGTATATAGTCTATAAAATCTATAAGCAGAAAATATATGAAACCTTTCCTAAAGCTTTTTATTTTATATCATCTCTGAAACTTCTTATTTTTTGCAGTCATCTGCATTATTAAGAAGTGAAGAATATCGGCAGTTGTTCCGCCTGCCATTGGATGAAGTAAGTAGCTCCAGTTTCGAGGTTGTTAGTTTATTAATTGAAGCTGAAGCAAAAGAATCGATAAGAAAAAAGGAAAAATATAAAGAAAGAAAAAAGAAATTGTTGCCATTCATAAAGCTAAGTAAACATTGATGTAAGTGGTGATTTCTTAGTGAGATTTCTGAATTTCTTCTGATTTGGAATAAGAAAAATAACATATACAGGAAAATATTTCAGAAGGGAGAGATATGATGAATTAAATTAATCAATTATAACATTTTAATGAAGTATTTTCTACTTATTTTAATATTTCGTGAAGTTTTATTTTCTTTGCCTATTTCAATGCTTCCTGTGACCATTTACTATATTTTCTTGTTCTCCCGTTATTAGCATTGGATAACATACAAATCTACCAGATGGGCTTTAACTTTTGTGTAAAGATTGCTTCTTCATTGTAAAAAGTAGAAATGCAACCCCTTGCTAGTCACTTTGGAAGTGTCAGGACTAGGAGTATGATTAAATGATTAAATTTATAGTAGCCTATTGGTTTAGGCTTTTTGGTAGTTTAACATGGTATTGTAGCTGGATATCCTTTATTCCAGACTTTTAGCATTGTTTCCTCCCAGATAATATTAATAATCCCTCATTGGGCCAAACCTAATTTTCAAGCTCACAGGTGGAGGAAAATGTTAGTAATGTTAATAATATTATTGACTGAGCTGATGTAATCTTTATTGAAATGTTTGATGGATATGTTTCTCTATCAGATTATAGATGGTATGTCTCAGCCCAAGGGATGAGAAAATATGTAGCTTTTTGCAGACTGTTGTAATTAGTATCCCCGGATATCTGCTTTATCCAGGATTCCTTTTGAGATCTTATTTTCTGAAGACTGAACTTCTCTCTTTAGTAATAATTTTATATCTACATGTAATGACTATTAATTCTTGGTTGTATCATGATATCACGTTAATTGGAGCTTGTTCAGAGTGTAAAATTTTGGTAGGCAGGTTATTTACCCCCACTCCACCAACACATAAGCTATATCTTTTTTTGAAAGAACACTTGTGTATATTGAGTCAAATTTTTCTCTAAGATATTATCTTAGTACAAGTTTATTTTGATAATGAATGCTGTATTTCTAGGTCCTTATTGAAGACTTCAATTGCGCTTTCCAAGAAAACATACTAATTCAGGTAGTTTTTATCTTTCATAGAGCCTCGTTCAGGTTCAGAATAAGTTGCGAACTTAAAATTTTACATTTGATTGATTATCTTGGTAGGCATGGCATATATCCCCTTTTGATTTTACCATAAGAAAACCAACTTTCTATCTCCGGTTTTATGCTTTTACTCTTATTGAAATGTAACATACATGAATTTGTAATTGGAAATGAATGGATTATGGTCCAGCCATTTTTTGCCTTTAGTATCATTGTTTTGTATATATGTTTCAGGGCCACATGTATCTGTTCGTGCACTATATCTGCTTTTACTCCAACATCTTTGGGTTTGAGACGAAGGTAAGATCTAAATTCATCTTTTAGCTGCATGAGGTTATTCTTACCTACCAGCTTGATTCATATAAGTTATGATTTAAACCAAAAGCTATCTCTCTCACTTTAGCGCATGGGTTTGGATTATGCAAGCACACAGATCCCTCACAATCATTTCATCAATAAAATCCAGTCTTCTTTCATCTGCTCAGGCTAGAAGTTCTTATTTTTTTGGTGTAGAAAACGTAGATGCATTATGGTAATGAAAGTAGCTTGAGGCATTTCAGACTAACTCAGTACTCAAGTAAAGAATGGCACCTATTTCCGCATTCAAGAAGAATTAATTATAGACATGTAATCTTCAATGCTATGTTTATAAGTTACTATTATTATTTTTGTTAGAATTTAGAAGTATTTTTAGTCTCCAGTTGAATGTGAGAATTTCTGTACACCTTATATGGCTAGCATACTGTTTCACTATCAATCAAGGAAAGAATCCCTACAGTTGCGCTGATCCCCCTACCTCACGCATTGTGTGGTCCTCAGTTGGGTTTCGAGAAGGACCCTTTAGAGGTTTGGTCCTTAGTTAGGTTCCGTGTTTCTCTTAGGGCTGCAGTGTCAAAGTTTTTTCTGTAATTATTCCCTTGGTAACATCTTTCAAATAAGGTTCCATGTTTCTCTTTGGGTTTCGTTTCAAAGGTTTTCTTGTAATTATTCCCTTGGCAACATCATAGTGAATAGGAAGCCTTTTTTGTAGTAATCCACACGGGTATGTTGACTCTTTTAGGGCTCTTAGTTTTCCAAAGTCCCCGAATAAAGTAACATCAATAGGAGAAGCAAATTATAGATGAGTAACCAAGTTTGGAGGTGTAGGACACGAGAAGGCATTCGATCGATAAGATAGGCTACAATTAGAACAACATTGTCCAGAGATAGGAAGGAAGAGAAGTGGACAACATAAGGGATCGAGCAACTTCCAAAAGGTGACGGTTTTTGCGCTCGGCTACATTTTTGTTGGAGGCTGTAGGCGTAAGAACTTTGGTGGACAATGCCTTTGGAAGACAAAAATTCATTGAGAAGGTGAAGTGTGGTTTTGGAACTCTCGACCATTGTCATTCCGCAAAATAGCAATCTTTGTATTAAATTGCGTTTCTACGATGTTATAGAAGTCTTGGAAGACAGAAGTGACCTCAGATTTGTCGGAGACAAGTAAGACCTAGGTAAGACGGGTATGGTCATCAATAAAGGTGACGAACCACCGTTTTCTAGATGAGGTTGTTATCTTGGATGGTCTCGAGACATCACTGTGAACAAGAGTGGAAGGATGGGTTGGCTTGTATGATTGTGATGGAAAAGAAACCCGATGTTGTTTGGCCCGAAGACATAGATTACAAGATAAGGTAGACACATCAATTTTAGGGAAGAGATGAGGAAATAAATGTTTCGTATATTGGAAATTAGGGTGGCCTAAACGAAAATGCCACAACATACAATCTTGCTCAGAAGTAGTAAAATATAAAGATAAAAGACTAGTCCTAGAAATGCTACTAGAAGAGGTATCATCATCAAGGAGGTAGAGTTCCCTACTATGCCGGGCAGTACCAATCATCTTCCTCGAGCTCAAGTCCTGAAAAGAGACAGAATTAGGTAAGAATATTGCTTTGCCTCATTAGTAATCTTACTTATATAAAGCAAATTATAAGACAGTCTGTGTACATGCAAAACATTATTTAAGAAAATCCCTGCACATGGAGAAATCTTCTCCTTTCCAGCAATAGGGGCCATAGAGCCATCTGCAATTCTAATTGTTTAGAGGCCAAAGACACAAAATGTTCAGAGGACCCAGTCAAATGATCTTTGGCGCTAAAATCCAAAATCCAGGGGTTCTTCCCATCAACATTAATAAGACCGAAGGACCTGTATACCTAATTGGACAATGACACCAAAAGTAGTGGGATTGTGATCGATCTGGTTTCTGTGTGAATCAGGTGGTTGAGAAGGTCCAGCTGACTCACTCACATATGCCCGCCCTATGTTTTGCTTGTCGTTGGAAGGGCGTTTCTTACCTCCTGAGGGACTACCATGTAACTTCCAACATTGTTCTTTGGTATGCCATTGTTTTTTTGCAATGCTCATAGACAGGAATTGGTTTTCCATTGTGCTTGTCATTGCCACTGGTAGAGGACCTCGCTCTAAAAGCAGTCAATAGAAGGAGTTGCAGAAATATTCATAGCACTTGTGCGATCTTCCTCAAGGCGGATTTTAGAACAGACTTCCGTCAGGGAGGGAATCGGTCTTTGACCTAGTATATGCCCTCGGACTACATCAAATTTAGGATTAAGACCAACAAGAAAGTCATAGATCCTGTCAACCTCTTCAATTCTAGAATACTGCAAACCAAATCGGTGGGATCTCTCCAGACTAGTTCTCTGCATAGGTCCATCTCCTGCCAGATAAGAGAAAGCTTATTAAAAAAGGATGTGACATCCATGGCTCCTTGCTTGCATTCATGAATATGCTTCCTTAGTGTGTATAGGGGAGAGACATTTTGACGTTTGGAGTAAAGTGTTCGGGTCGTGTCCCAAATATCTTTGGCGGTTGCAGCAAACAGTAACGGCTTGCTAATTTGGGGTTCCATACTGTTGATCAATATGGATCGAAGAATAGAGTCTTCTGCCTTCTAATATCGTTCTTGTGGGTCGTCCGGTGGAGAGCAAGGTATTTCCCCTATCAGAAAGCCAAATTTATGTCGTCCTTCAAGGACCATCTTTACTGACTGAGACCATGAAAAATAGTTATTGTCATTCAGCTTGTCTCCTGAAAAATGATACGCGGTAGACAGAGCCACTGTATTAGTCACATAAGGAGAGGATAAAGTAGGGAACGAGATTACTGGATTCTCAGAATACATCGGTATAGAAGTATTGGATGTTGTCCTTAAGGTAGCCTCAAGTGCTGCAATCTGTTTTCGAAGCCCTTCCAGTTGCTGTTGAGCTATTCCCGATGAAACTTGCACGTTAGGGTTGGAATGTGCCAAAGATTCACCAATCTCAAATGTTGAGTGAATTTTAGTATTCTTTACATTGGGATGATGACTTAGGTCAATGGGTGGTAGGGCATACAGATTTGATGGCAAAAGCGGTGGTTGTCGACCAGATTTAGGTGGTAGTACACAAATTGGGGCGTGGGGAGCAATATTGGTTGCGGATGAAGAAAAGGGTTGCACAGATGGGTTGGTTGACGCCGTTTGTGGAGGAAGGACCGACGCGTGTATCTCTGACGGCGGCGCGTGAGGGGTTGTCGGCGGTGCGGATGATTGCATATTTGACGGGAATGAATTTTTTGGCATTTTCTGAAGGCAGGGAACCATTCATCCATTGCAGCACTCATCTGAGCATCGACGGCGGCGACAACGGCAGCACTAAAATTGTCGGCTGTCTCCTCTGTCTGATTTCCATCATTGGTTGTGTTTTCTTGGGTTTCTAGGGTGTATTCAATGTCCAACGCTCTGATACCATATTGAAAGTAAGACAAAGAGCACACTGGTGTACGTGGAAACCCGAGAACCGGGAGAAAAACCACGATATTTGGTTTTTATTATTTTCTTGTAATTACAAAGGTACAATTGAGGAACTTAAATAGAATACAAAAGATAAAGAAAAAGGAGAAAAAAAATATTTATGGTAAGTTTTTCATAAATATTTTTTCCATAAATACAAAAATCTAACCGAAAGTCAACAACCTCCTCCTCTTTCAATAATCTTCTAATGTAAACCGTCCAAGAACTAGTTTGGCTATCCTAGTCTCAGAAATTGACCCTTTAGGCAAGAGGACAATACGAAATAATCTAATGAACTTGCTGTTTAGGGGAATACTATCCAGCCATGGATCATTCCAAAAGAACACTCTACTGCCATTACCAATTCTGAAAGTTGCTAGAGCTTCAATCTTGTGCCATTCTCTTGAAATACTAATCAACGGACTTCTCAAACTCAAATTCTCCTTCCCGCTAGTGTGCCAAAGGAAGGGGTGGGTATCATGAATACTTTTAACTCCTTTGCACCACAAGGCTTTCAGTTCTGACATAAATCTCCATCCCCATTTTGATAAAAGAGCCATATTTCTTATTCTCAAATCACTTGGGCCGAGGCCCCATCTCTTTGGTTTTTGATGATTTTAGACCATTTAACTAAGTGGTTTAGCTTTCCCCCAGTATTACCTTCCCAGAAAAGTTTTCTCATGATTTTCTCCAAAGTATTAGAAACTGAAATTGGCATAAGGAAAGTTGATATGTAGTAAGTAGGGAGATTGGAAAGGACTAATTTGCATAGTGTGATTCATCCACCACGAGATAAGTTGTACCTTCTCCACTTGCTTAGTTTACCTTGAATTTATTTATAATGGGCAGCCAGAATATGGAGCTTTTTGGGTAGCCTCCAAGCGGTTGACCAGGGTACATTAAGAGAAGCTTTTCTGTCTTACATCTTCATCTTAGTCTTGAAGCCGTTTTAGTGATCATTCTTTCCTCTATATTAATTACACAAATGGCAGATTTTTCCCAGTTGACTTTTTGTTCTGAATTTGTACAGGTGTCGTTAAGGAAAACTTCAACTCTTCAAGTATCTTTTTCATCCATATGCCCTTACAAATTCCAAGAGCCAAGGCTCTAAACTCTACTTCAGCAGTACTTCCGGCCACCACATTCTGTTTTTTACTTTTCCAAAATTTTCTCCAACAAAGTAACAATTACTAGACGTAGATCTTCTATCTGTAGCACTTCCTGACTGATGCAGATCTATTTGTAGCACTTCCTGCCCAATCTGCATCAGTGTAGACTTCTATTTGGAAGCGATTATTCTTTTTGAATAGAATGCCTTTTCCAAGGTATACCTCAACATTCTATAAGCAACTTCAAAATGAGTTGGTCGAGGGGCCTGCATAAACTAACTATGCTTACAACATACGCATTATTAGAGCGTGTATGAAACAGATAGATTAATCTACCAACAAGTCTCTGATATCGTTATTTGCCCATTATTTCTTTAGCTCTGTTTGTTTGAAGTTTCAGATTAGGTTGAAGAAGAGGATTTGCAACCCTAAAAAATCTTACAGATATAAATGTTAAATATAAACATAATAACATCTACTGTTACAAGGGTAACATAAGTAGGAAAAGGTAAAAAAGATAGTAAAGGACAATATGACAAAGATATTTACAATAATATAATAATACTAATATTGACAGTATAACAAATAGAAAACCCTTCAAGTTTGGATTTGGTTTATTTGTTCATTTTATAAACATGTTTCTCATGGGTAGATAATCCGATCAATCAAATTATACTAGAACGTGAGGAATATATGAAAAGTTGCTTAGCCAAAATACTCAACGAATTCACATGCTTGCATTGTTTGGTGTGCACGACTTCTGACATCTATTCATTGTTTAATTTGCATGTGTGATTTTGATACCATGTTTCGATTCCCATTTGAATGTGAACCACATGATTCATTTTGATTTCTTATCATTATTTTCAAAAAGTTCGGTTATTGTCAAGGTTGGATTGCTACATCATTTATATGTCTTTGATCTTGTTTATGGTTATTATTATGCTTCAGAAAATAATCCCATTTCGAGAAATAATAGCTGTACGTAAAGCAAAGACGGCAGGGATCTTTCCTAATGCCATTGAAATTTGTGACGGGGAGAAAAAGGTAGTTCTAAGTTTTTTGAGATTTGCATTTTAATTTTTCTTTAATTTTGAATTTCATCTACCATTATTAGGGGTATCTTTGATATCCTTTATGTTTTTAGTCTTTTTATCTTTATTTTTTAAAATTAAATATGCCTATCTATAATTTAATAACACTTTACTTTGTTTCCTAAATCTACTTTCATCTTGAAGCTTTTGGTGTGCATTTTTTCAGATTAAAGTGAGCGAAGTTTGTGAGAGCTTTTACGTTTTACTTTGTATCTAGCTCTTTCCTGATGTTTTGAATCTCGGTTGCTTTGAATAGCTCGTTAATTTATCTTTTGTGTTCATTTTTAGGTCGTTTTCAATTTTGTGTTGCCTGGGTACTTTCTTTGTTTCAGTTTTAGGCTGTATTTTCTTTTGTTCTTTGTTCTTTGCTCTTGCTCTTTGCTCTTTGCTCTTAGTATATAAGTCTCTTGTACTTTGAACTTTAGTCTCATTTATTATGATTAATAAAGATGCTCATCTCCATTAAAAGAAAAAAAAATAATAAATAGAAGTTAGTTTTCAGAACACCCTTTTTTGTTTTTATTTTAAATTTGAAAAGATTGGCTAAGTTTTCATGAATATTTTGAAAGAGAAAAACTAAACTACCTTCTAAAAAGAAAAAATCTATTTATAAGCATATATTATGAGCTTAGTAAAATAAAACCTATAGATAAATTCATTCTCCATCTCAAGTAATTTGTTGGTTAAATTACAAGTTTAGTTCTCGAACTTCAAGGTTTGTATCTATTTAGCTTCCGAACTTTTAAAAGTGTTTAATAGGTCCCTAAAGTCGTATCAAGTTTGTGTCGGATAGGTCAATAAACTTTCAACTATAGCATATTAACTAGCATAAATAACTCACTTTTTACTTTTGCAGTACTTCTTTGCATCTTTTCTATCCCGTGATGAGGCCTTTAATCTCATTAATGATGGCTGGTTGCAACATGCTAAAGGTACCGAAGCAACTATGACAAAACAGGTGAAGAACTGTTAATTCAATGCTTTGTTTGTAACAGCAGCATTGTTTGAGTTGTAATGCCAAGCTAAGTCTTACCTTATATTATTAGTTCATATGTAGAGAAAGGCATGGAAGTTATTAACTTCTTGGGTGGAGAATCACATTATTTTGACATATGGCATAGCATAACTCAATATAGTTTTATTCTTCTCTATGAGTTTCCCCACATCCTGATGTATTTTAATTATGCCCAGATGATTGAAGTTTTAGGCAGTACATTCTCAGCTTGTTCTGGCTTATGTTAAGTGGTATCTGGGACCAAAATGTGGTTTGAGATCAATAATGCTCGATATCTGGATTTTCCTTTCTTCGTGGCTTTATTTTTTTCACGTGTCCTCATACACGCAGCCTATATGCATGTGCATGTATGCATGAATGCAGACATGTATATGTGGTTTTTTGCATGCATGGATGTGTGAGCTTGCTTGCAATATGTTCACAAAATGGCATTGCTATATTTATGCATAAACCATTAGAGTTGTTTAGAGTTGGCAATGTGTATCTAAGATATCAGTGATAGCTATGAATAAACCCAACTAAAAGAGTGGAGACGTTCCTTTTCTGCTTTTATTTGTCTCTCTTATGCATTAAAAGGTGACTTTTATGTTAGAAATCGATAAATGAATCTAGCAGACAAGAAATTGGCATCCTCGGTGTCGAAAAGGCCAAGGAGCTGGATCCTTCAGATTCTTCTGACAGGTAATTTTGTTTCCACCTTTATCTATGTCGTTTTCCTAGACTTGCTGCTTGACTTCTGGATTATTAAATCATCTTGTGCGTAAGGAGTATGGATACTCCTATTCTTAATGTTTCGGTGGTTCAAGCCAATGTTGAAGAGGTAAATGTGCCAACCACGCTACCACCAGAACCTATTGTTGCCATTCAGGAACCAGAGCCAATTCTTGATACTCATGCTTCAACTTCAAGAGAGACATTAACGTGGAGGCCGGAAGACAGAGATGCTCCCAAGGGTGGGTTTGCAGCATTTTTTCTCTCTTTTCTTTCTATTCAGATCAAGGAGTTAGCCTACAATTCTTGACTAGTGCAGTCCAAAAATATCTTATGTCATTCTTTCTACCTTTAAGCTCACGCTGGCCTTTGAGAGGGGATGCAGAAATTAGTTTAAAAAAATTGTAAGAACATTATTCTTAGTGTAAGTGTTAGATTGAATAGGCATTTTATCATTATATTTTTTCTAATGAGGAACTAAGCTTTCATTATGATAAACAAAAGAATTCATATAGGTAATTCAAGAAAAAGAAACCCATTGCAAAGTTGCCTATAAAAAAGTACCCTAATAATTGCAAAAAAGGGGATTTAGTGGTAAAGAATAAGAGATGAAGGATAGTTACAAAAATTCTTACATACTGACATCCAAAGAGGCATGAAACCTGACCATAGCTCACATCAAGACTTTCGGCCCCATAAGACTTTCTGGCCCTCTCCAGCTAATTGTTGCACAAAGTAGTAAAGAAAGCTGCGCCCTAAAGGATCCCACCCTTATCTCATAACTGCTGATGGGACAAAATCTCTTCTCTCATTGACCAACAAAAGTCAGTGTTGCACCAAAGAAAAGCGTAGGGTACAAAAAACAGTTCCCAAAATCAAGTACCTAAATTGACCATGTCACAGTACATGATCTAGGTTCTCTAAGTATATGGAATCAAGTAATGTGCTTCTATTTTGCATTTTAAGGGTGCTTTTATTTAGTACTTTAGTGACTCACTTTGTACTTGGCTTTTCCTTCAACTGTTATAACAAGTGAAATCCTGTCCTGAATGCATGATCTAGTTTGATTTTGAAATGCAGTACCAGATTATTATACCCAAGTTGCAGAATCAAAGTTTCCGGTACAGTTGCTTTTTCTTTGATGGGTTTGACATCTAATGTGTACTTCACATTCAACTCCTCAAAATTCATAGTTTTTTTGAAATTATTAATCAATTTTGATCAGAAAAGTTGGTTCAACTTGAATGGCAGATAAACGTGGAAGATTTCTTTAGTTTCTATTTTTCCGACAATGCAGTTGATTTTGTTTCTTCATATCATGAAAAATGTGGAGATAAAGGTAGGGTGTTGGAGATATGCAATGTAGAAATCCTCTTTGAATTTTTCTAACTAATGTTACATTGTATGTACTCTGAATTAATATTTGGTCGGTGATACTTTTCCAGAGCTTAAATGTTCTCTGTGGCGTCACGATGACATGTTTGGGCATATGCGTGATGTATCATTTCAGCATCCGATAAAAATATATTTTGGTTTGCTTTTCTTTCATCTAAGATAGTATCTTACCTTTTTCCCCATGTTTCTATTTTAGATATATAATTTTTTAATGATAATACTGATTTTACGTGGCTATAAAGGTGCAAAGTTTGGTGGCTGCCGGGAGACTCAGAAATTTCGAGTTTATCGAGACAGGTTTGAAAAGTTGGTTCTCAGTGATTCTTATTCCTCTCTAGTCATACAGGCTGGTTGCCTTTTCTTGATGTTTTCCTTTCCATTCTTTTCTGAATCATTTTGTGATCAAGATTTCAGCTGTTTTGGGGCTCCGTGTTGAAAGTTTTTTCATTTTGCTTTGTACTAGTTCTAGAAGGTCTTGTCCAGCTCGTTTGTAATTTCATTATGTTCTCTCTTTTGTCGGTTTATGCTGTATTTGTTCTTTTAGTCATTTTTGCTCTTGATATATCTCTCTTGTACTTTGAGCATTAGTCTCTTTTATTAGTATTTATAAAGAGGCTCATTTCTGTTTCAAAAAAATGAAAATGTACGTGACTGTAGTAAATCCTATCGATTTGTATGGGTCTCGTCTTGGCCAAGGTTATGGTCCGTAGCCATTGTGCACTGTTCAATCTTTTCTTAGTTTCTAACTTTCAGGGGGAAGGTAAGGTGCAGGCTGAGGGGGTTGACTGTCCATCTATTTTTACTATTATGCTGATAGTGGTTGCTCATAGACTAATAACATCACAGTACCTAGCTACTTAGCAAGTTTTTTTTAATTAATTTAAATCTTAATTTTTTTATATTACTACTACTACTACTGTCATCATTATTATTTGAGCCAGTTTTCTGTCATCAACGCCTTCTGCAGTTAGTTTGACTATCTGTTCATTTTCTCAGTCATTTGGTCATCGAGGTAACCCAAGAAGTTAGTGAGGTTCCATATTCAGATTATTTCCGTGTTGAGGTATTTGATTAGTACTATTAAGTTCTATTTGGTCCATCTGGTGGCCGTTATCCCTTTTTTATTTTTGGTAATAATTTCCAAACGTGGAAGATCAGTTATGTTTCTAGTAGTGCTATGTCTACATTAAAGCGTCAGCTGGTTTTAAATTGTCCACCATTTAGTTTCTTATAAGTTTGTCTTCTTTGTGAAACGTCATTCACTAGCTCAGGAAGCTCTAGACCTGATATTAAATTTACAAATTAGCTTTTATTTTTGAAGAACCAAGGCCCCAAACATGTGTTTTAGAAGGTTGAACATTAGAATTCCATCCAAATATTTATTTCCAACTACAAATTTGAACCGTTAAAAGGTCTGAGAAACTTTTTGTTCTTCTCTCTTAATTATAAATTTATTTTGATGAGTCAAAATTTGAATGGTAATGATGATCTAATTAAATTAAAACATTCAAACTTCTTTTATCTAGCTATATATATATTTTTTTATAAGAAACGAAGTTCACTGATAAATCATTTATATACTAGGTAGACTTTTGATTATATTATACAAAATTCATCTAATTACACTAAAAATACAAGCTAGTCAGCATTTATATACTCGGCAGACTTTTGATTGTATGTTAATTTTTAAGGACAACCTTAATATTGTAACCAAATATATATCATTATTTCAGAAGACTTTTTTAAGAACCCTGTTTCTCTTTTCTGATCACAAATAAGGTACATAATCTCTTTATGGTCTGGCTCACAAAAAAAAAAAAAAGGTTCATCCTTTGTTTCTTTCATCATTATTGGGACTTCAAATTGTTATTGAAATTAGTGTTAGAGAACCCACATTTCTAATTACATAAGGCAATCATTTCTTAGCTATCCTATGTAATTTGTAAGTGTTTTTCTTGTTATTTTCCATGGTGATTATGTGTGTCTCTGCATAAATTTTAGGCACATTGGGAGGTGAAGAAAGATGTTGATGATAAATCAAATAATGGCTGCATCTTGAGGGTATATGTGAATGTGGCATTTTCAAAAAGAACGGTTTGGAAAGGTATGCATACCTTCGGACATTGACTTGTAATCATAGCAAACTTAAAAAGAAGATTATAGTGCTTTATGTTGGGAATTTACGCTAGATATAAATAAATGCGGAATAAACCAAAGTATATCTCAAATTTCCACTTCACTGGTTAGAGCCAAACAAGGAATCAATCATACAATTGTAAATGATGATTCGTTTTACCCAAACCAATGGAACTTGACCTCTAACTAGTTCCCTTCGTTTTGGCCCCATGATCCCCACAACCTGACCCAACTCAAGGACGGGTTTTCTGAGAAGGGTAGAATGATGTAGTAGAATTACAGTAAATTAGGGTATGTTGGTAAAAATCTTAGTCAATTAGAATTAGAATCAATTTTCTTTTAATTCTCTATCAATAGAGAGATTGTCTTCTTATATTGATAACTTTTGATTCAAGATTCTGATATTATTATAAGAGCTCTCTCCTTTTATCCCTTAGGCTACATCACTTTGCTTTAGGCTACATCACTCTGCCCCTAGTTCATTTATAAAAAGCCATGCTTCAACTTCGAGAAGGTATCTCCCTTTCTTCTCCTTGCTCCACCCTCTGTCTCATCGGCCCTATAATCCATGTCAAAGAAGAAACAATGAAGAAAATGGAGAAGATGTTCTTGGAAGTTATTCTAATGAAGCAAATATAGCACTTAATAGAATTTAAGCTGTTTCTATCTTTCTGATGATGTGGTTTTTGTGGTGCACATTAGAGGAAGATTTGCAGAAAGAAGAGTTTGATTTTCCTTTTTGATCACCAGACGTTTTGAATCTGGCATCAGATTATGCCTGATTTGGAACACACAGAGATTTTGAGCTAGGTTGAAGGAGGAACTGGGTCCAAGTGCAGTCTCTCGGTGACAGAACTGGAGTTCACTGCCATGCCATAGTGCAGCTTTGTTCTAAATCTAGAGATACCATTCTTGATAACTATCTTTGGCTAGATTTGATTCCCTTACTCGGTCAAGATTTAGAACATTGGAAAAGGGGCGCTCTTCAGGGTGGGGTTAAGAGAGGTAATTGGCAGTGTGAAGTTGGGAGGTTTCAGAGCTGGGAATGGCAGAAAAGGTTCATCAAAGAGGAGTGATGGCAGTATTGTTCGGGAGAAGAGAGATGAGAGAAAATAAGTTTTTTCTGTTAGCAACTTAATTGACATAAAATTAATAAACTGATGTCAAATCAACCTAATCATAATCATAATCAACGCTTGATAACATAAAACTTAGAATGAAATGCAATTTAAGTAAAATCTCAAGGAGCAAAACTATATTTTCCTCCTAATTTTGTGATTTGTATCATGTGGTGGTTAGGTCATTTTATTTTCTAGATAAGTAGTTAGACCTATTAATTTAGCCTAAGCAACCTCAAGGAGAAATCCTCCGAGAACCAAGATTGCGGATCTTTTATTAGAATGAATAATGTGCTTCATACACGAGGAGAAGACTCCTATTTATAGGGTTCTATTACAAGTGAGGGGTAAAAAGGGAATTAACCTAGAATTTTATCTAATTACCCAATTAATCCTTAGTCTTCTTACATCACCTATGTATTGTTGCAAACTAAATCTCAGGAAAAATGGAAAAAAATTAGTAACAAATAGAGAAAACACACTATTAGAGCCTCAGAGGCGAGGGTAAAAATTCAGTGTGGAAATTTTGGATAATTGAGATTTGACCTTTTGTCTTTCTCGTTCATATTTATATTCAAGACAGTTAAGGTTCTTTATTATTGAGTTAGTTGAAATATAGCTAATTTTGTAATAAGGTGATGCCATTTTGATTATTAAAGAACTTGGAGTCGAATAACTTAAGGGAAAAAGGAACTGAAGCATTGGATACTAAAGACTGGGAGAGTTCATGATCTCTTTGAAGTTGGAGTAAAAATTAAACAGAGAAATCTTAGCACGTCTGATTAAAGAAACTATCTTCTTTTTGGGACATGAGTTTGATGTCCAAACGGCAGTCATTGTTTATGTGGTATTGTGGTCAATGACAGCAGATATAAAAAAGTTTTGAAGCATGCTAACTATTCTTGTGTATATAATTGTTTTTTTCTTAAAGAAAACATGCTAACTGTTAGTTTTCTTTTAATTTTTATTATAAGTCTTAGCATTCCAATTCCTGTTTGTCTTCTTATCCATGGAGCCTATAATAATTTCTTATTTGAGTGAATGGTTTTCAGAATATGATTCCGATTAAGTGTGGAGTATTGTGGATTGTCATGCACAGGGAAAATAGTGCAGTCTACTCTTGAAGAATGCCGAGAGGCTTACGGACTGTGGATTCAGATGGTATCCCCTTTTCCTTTACAAATTTGGCAAGTATTAATCAAAGTTAAAGTGCTTTCTGATGAAATTTTTTCAGGCAAAGGAATTATTGAAGCAGAAACTTACAGGTTCTGAAGGTTCGAATGTTATATAATTTTACCTTTCTTCTAAACACGATGTTGTGTTCAAACATGCAATTTGATGACCTCAATTTTTTTGGTTATTGATTTACCATACAGAGGGAACAAGTGGTAGTACATCACAGAGTGGTAAAGATCATCATATTGAAAAAGAAAGAAATAATAACAAATCATTGGAAAAGTCAAATGAGAAGAATGACCAAAGAAGATCAACTGCATCACAATATTCCACTGACGTTGATCAACAAGCCAAAAACTCTATTCAAGGAGTCAATTCTACTTCGGCTGCTTCTTGGTTAAGAGAATACATAAAGAAGCTTTGGATTGTGTTACGGAGTCAAAATTATCTTCCTCTTGCCCTAGTTATCACTTTTGCTGTGAATTTTTTTTTTATGCAGGTATGCTTATTTCTTTTACTACTAATCTGCCATGGAGTCGAAATCAGTACACCCAAATGCTCATCTATCCGTGAATTTGCATCATTGTGGCTTGCTTGAATCATGTTAGTTAGGTCATGAATATGATTTCCAAAATGAGATCTTTCAGGCACTTTGCTCTTATTTTATTATTTTTTATCATCTAATTTTACAACAAATCTTTGATAGTTTCTCTGCATGCACCCCATATATATATTTTTTCTTATCTTTTCGGTCTCTCTTACACAGATCTTTGTTATGCTACCGTCATATTTTAATTCAATTATATTACTCAATTTACTTGCTGAAAATGCTGAAACCCCGTGCGGGCCTCTGGTGAGAAATAAAATGCCAAACTCAATCGACTCTGAGCCTTCTCAGTTCTCAGCATCATCTCTTTTCCCTTCCAATTCCATTCAATTCGTATTTATAATTAGTCAATCTTGTGTTCTTCAGCCAACTGGATGTACAGATTCGAGCCTCCTCTTTGCCTCTACATCTATTACTTATGGTTATTAGATTTAACATTCATATTTTATTTGAATTTCAGGTCTAATACTTATGGTCTAGGATAGAAGCTACGTTATCCATTTATGCAACCTATTGGTAGTCTAAAACTTATAAATAATGTCATATGGCGGCAGTTGAGCATGTTTGATGTCCAACTTTCATGCCAACTTAGTCTGTTTGAGCCAAACGTATATGAGATGATATGTTCATCCATATTGGGATAATAATCTATAAGGTAAGATGATAATGAGTAATAGTTATGTTGGGACGGGCAGGCATTATAATGTTTTTACTTTTTAACTGATTTAGCCTGAGAAAATGCGACTGTCTCCAAATTTGAGCAAGCAAGGCATAACTGTTTTTTGGTTGGTCTGAGTGAATTAAGATTGCTCAGCCTAGTTGGGTGGCAGGATATGTTCTGTTCCCCCTCGTTAAGGTGTGCGGCTTTCATCTCTCAAACATTTTGTTCTAGGAATAGGGGGCTCATCTCCTTAGGTATCTACTTCCATCATTGTCCTTTTCAGTCTGCACACAATTCGAGGCCTGTAGAGGACGAGTATCTGCTGGCCAGAGCAGAAAATGTATAAGGGAAAGGGTAGGTACCAAATTGATAGGAACACAGTTTCGTCGAGATTATTTTCAGGAATGGTGAGCAAACGTCAATACTGACACAGGTTTAGGAAAGTTTTGGAAATCTCATTTTGAAGTCTTCAAAGGCTCGGAAGGTCCTATTGCATATCTTCATCAATATTAGATCAGGATACTTTCTCTCTTGTAGTTTAATTCAAATTCCTGAAGTTGCAGTAAATTTTCAATTATTTGAATGTATTATGAAATATTTAATACTTCAATTATTAATTGATAAAAACGTTGTTCAAGTTAGATATTGACGTTGGAGAAACGTTTGAAAGGAATTTACTTCTTGCTTGCATGTGTATTGATTAGTGAAAATCATATTAGCAATTGGTGGTCTCGATGCATAATCTATCTTATTTTTGTAACGTTGAGGTAGCCGGTTGTCTATCTCTAGAATTGTATCTTATGGTTCTTTGCTCAATTTGTTTGCCCCTCCGTTCTAGTTCTATAGACCATTTGAATTTTTTCCCAGAACTGGACATAGAGTAATTGACAGATAATTATGTTGTTTCTAATTGCAGTTGAGCATAGTTATGTTATTATCCAGACCCCAACACATCCATGTGAGTTCTCCCGACTATGGAAGGGGTCTAAAATTCAGTGGTGGAAGATCTTCTGATGCTACGGCATGGTTGGAAAAGCGAATGCACCACCTTAAGGATGAGATGTACATGGTTGAGGCTCGGCTAGAAATGATGCGACGCGAGCATGCCCAATTGAAAGCACAACTAAGAGAGCTTGAGGAATTAAGTTAAAAGGTTTTATTATTATTATTGCTATTTTCAATTTCTCATTGAGATTAATTCATATACGATTCATGTATGGAAAACATCATCGATTTGTATGATTGTTTCAGTGATTGGAAATAATGTAACTAAGGGGAAGTTAAGCAAGAACTGTAGTATGTGGAAACTTTGAATGGAGGGTGTTAAAGGCCAAGGAATTCAAACGAAGAAAGTCTAAGGTGTGAAGTTGTGAACTCTACTACTTGTTTGGTTCAAAAAGTTTGTAGATCCTGACTAAAAAAATCAATCAATTTTATGTTGCATCAAATTCCTACTTAGTAGAC CGAAACGTCCCTCTACAATTTATATTCTTCTTCAACTATTGCCGACGCTTTCTTCTTCTTCTTGCCGATCACCAACCCAACGATCACTGCTTCTCAAAACTCACAAAAGCTGGTTCTAACTTCTACCGGCCCCTCTCTGCTATGGCAGCTGCGGCTTCAGCGGCGGCGCCTGAGATAATTGAACTACCTCGACCACGAGACAAGCTCCCAACCAACCTATCTCCAGACTCTGCTTCTTGCTACCCACCCGAATCATCTTCTTCCTCAGCTGACCGCATATCCGATACCCACGAGTCTTCTTCTTCACCAGACGGTTTTCACGAGGACGTCGAAATTCAGTCATCTGCATTATTAAGAAGTGAAGAATATCGGCAGTTGTTCCGCCTGCCATTGGATGAAGGCCACATGTATCTGTTCGTGCACTATATCTGCTTTTACTCCAACATCTTTGGGTTTGAGACGAAGAAAATAATCCCATTTCGAGAAATAATAGCTGTACGTAAAGCAAAGACGGCAGGGATCTTTCCTAATGCCATTGAAATTTGTGACGGGGAGAAAAAGTACTTCTTTGCATCTTTTCTATCCCGTGATGAGGCCTTTAATCTCATTAATGATGGCTGGTTGCAACATGCTAAAGGTACCGAAGCAACTATGACAAAACAGAAATCGATAAATGAATCTAGCAGACAAGAAATTGGCATCCTCGGTGTCGAAAAGGCCAAGGAGCTGGATCCTTCAGATTCTTCTGACAGGAGTATGGATACTCCTATTCTTAATGTTTCGGTGGTTCAAGCCAATGTTGAAGAGGTAAATGTGCCAACCACGCTACCACCAGAACCTATTGTTGCCATTCAGGAACCAGAGCCAATTCTTGATACTCATGCTTCAACTTCAAGAGAGACATTAACGTGGAGGCCGGAAGACAGAGATGCTCCCAAGGTACCAGATTATTATACCCAAGTTGCAGAATCAAAGTTTCCGATAAACGTGGAAGATTTCTTTAGTTTCTATTTTTCCGACAATGCAGTTGATTTTGTTTCTTCATATCATGAAAAATGTGGAGATAAAGAGCTTAAATGTTCTCTGTGGCGTCACGATGACATGTTTGGGCATATGCGTGATGTATCATTTCAGCATCCGATAAAAATATATTTTGGTGCAAAGTTTGGTGGCTGCCGGGAGACTCAGAAATTTCGAGTTTATCGAGACAGTCATTTGGTCATCGAGGTAACCCAAGAAGTTAGTGAGGTTCCATATTCAGATTATTTCCGTGTTGAGGCACATTGGGAGGTGAAGAAAGATGTTGATGATAAATCAAATAATGGCTGCATCTTGAGGGTATATGTGAATGTGGCATTTTCAAAAAGAACGGTTTGGAAAGGGAAAATAGTGCAGTCTACTCTTGAAGAATGCCGAGAGGCTTACGGACTGTGGATTCAGATGGCAAAGGAATTATTGAAGCAGAAACTTACAGGTTCTGAAGAGGGAACAAGTGGTAGTACATCACAGAGTGGTAAAGATCATCATATTGAAAAAGAAAGAAATAATAACAAATCATTGGAAAAGTCAAATGAGAAGAATGACCAAAGAAGATCAACTGCATCACAATATTCCACTGACGTTGATCAACAAGCCAAAAACTCTATTCAAGGAGTCAATTCTACTTCGGCTGCTTCTTGGTTAAGAGAATACATAAAGAAGCTTTGGATTGTGTTACGGAGTCAAAATTATCTTCCTCTTGCCCTAGTTATCACTTTTGCTGTGAATTTTTTTTTTATGCAGTTGAGCATAGTTATGTTATTATCCAGACCCCAACACATCCATGTGAGTTCTCCCGACTATGGAAGGGGTCTAAAATTCAGTGGTGGAAGATCTTCTGATGCTACGGCATGGTTGGAAAAGCGAATGCACCACCTTAAGGATGAGATGTACATGGTTGAGGCTCGGCTAGAAATGATGCGACGCGAGCATGCCCAATTGAAAGCACAACTAAGAGAGCTTGAGGAATTAAGTTAAAAGTGATTGGAAATAATGTAACTAAGGGGAAGTTAAGCAAGAACTGTAGTATGTGGAAACTTTGAATGGAGGGTGTTAAAGGCCAAGGAATTCAAACGAAGAAAGTCTAAGGTGTGAAGTTGTGAACTCTACTACTTGTTTGGTTCAAAAAGTTTGTAGATCCTGACTAAAAAAATCAATCAATTTTATGTTGCATCAAATTCCTACTTAGTAGAC ATGGCAGCTGCGGCTTCAGCGGCGGCGCCTGAGATAATTGAACTACCTCGACCACGAGACAAGCTCCCAACCAACCTATCTCCAGACTCTGCTTCTTGCTACCCACCCGAATCATCTTCTTCCTCAGCTGACCGCATATCCGATACCCACGAGTCTTCTTCTTCACCAGACGGTTTTCACGAGGACGTCGAAATTCAGTCATCTGCATTATTAAGAAGTGAAGAATATCGGCAGTTGTTCCGCCTGCCATTGGATGAAGGCCACATGTATCTGTTCGTGCACTATATCTGCTTTTACTCCAACATCTTTGGGTTTGAGACGAAGAAAATAATCCCATTTCGAGAAATAATAGCTGTACGTAAAGCAAAGACGGCAGGGATCTTTCCTAATGCCATTGAAATTTGTGACGGGGAGAAAAAGTACTTCTTTGCATCTTTTCTATCCCGTGATGAGGCCTTTAATCTCATTAATGATGGCTGGTTGCAACATGCTAAAGGTACCGAAGCAACTATGACAAAACAGAAATCGATAAATGAATCTAGCAGACAAGAAATTGGCATCCTCGGTGTCGAAAAGGCCAAGGAGCTGGATCCTTCAGATTCTTCTGACAGGAGTATGGATACTCCTATTCTTAATGTTTCGGTGGTTCAAGCCAATGTTGAAGAGGTAAATGTGCCAACCACGCTACCACCAGAACCTATTGTTGCCATTCAGGAACCAGAGCCAATTCTTGATACTCATGCTTCAACTTCAAGAGAGACATTAACGTGGAGGCCGGAAGACAGAGATGCTCCCAAGGTACCAGATTATTATACCCAAGTTGCAGAATCAAAGTTTCCGATAAACGTGGAAGATTTCTTTAGTTTCTATTTTTCCGACAATGCAGTTGATTTTGTTTCTTCATATCATGAAAAATGTGGAGATAAAGAGCTTAAATGTTCTCTGTGGCGTCACGATGACATGTTTGGGCATATGCGTGATGTATCATTTCAGCATCCGATAAAAATATATTTTGGTGCAAAGTTTGGTGGCTGCCGGGAGACTCAGAAATTTCGAGTTTATCGAGACAGTCATTTGGTCATCGAGGTAACCCAAGAAGTTAGTGAGGTTCCATATTCAGATTATTTCCGTGTTGAGGCACATTGGGAGGTGAAGAAAGATGTTGATGATAAATCAAATAATGGCTGCATCTTGAGGGTATATGTGAATGTGGCATTTTCAAAAAGAACGGTTTGGAAAGGGAAAATAGTGCAGTCTACTCTTGAAGAATGCCGAGAGGCTTACGGACTGTGGATTCAGATGGCAAAGGAATTATTGAAGCAGAAACTTACAGGTTCTGAAGAGGGAACAAGTGGTAGTACATCACAGAGTGGTAAAGATCATCATATTGAAAAAGAAAGAAATAATAACAAATCATTGGAAAAGTCAAATGAGAAGAATGACCAAAGAAGATCAACTGCATCACAATATTCCACTGACGTTGATCAACAAGCCAAAAACTCTATTCAAGGAGTCAATTCTACTTCGGCTGCTTCTTGGTTAAGAGAATACATAAAGAAGCTTTGGATTGTGTTACGGAGTCAAAATTATCTTCCTCTTGCCCTAGTTATCACTTTTGCTGTGAATTTTTTTTTTATGCAGTTGAGCATAGTTATGTTATTATCCAGACCCCAACACATCCATGTGAGTTCTCCCGACTATGGAAGGGGTCTAAAATTCAGTGGTGGAAGATCTTCTGATGCTACGGCATGGTTGGAAAAGCGAATGCACCACCTTAAGGATGAGATGTACATGGTTGAGGCTCGGCTAGAAATGATGCGACGCGAGCATGCCCAATTGAAAGCACAACTAAGAGAGCTTGAGGAATTAAGTTAA MAAAASAAAPEIIELPRPRDKLPTNLSPDSASCYPPESSSSSADRISDTHESSSSPDGFHEDVEIQSSALLRSEEYRQLFRLPLDEGHMYLFVHYICFYSNIFGFETKKIIPFREIIAVRKAKTAGIFPNAIEICDGEKKYFFASFLSRDEAFNLINDGWLQHAKGTEATMTKQKSINESSRQEIGILGVEKAKELDPSDSSDRSMDTPILNVSVVQANVEEVNVPTTLPPEPIVAIQEPEPILDTHASTSRETLTWRPEDRDAPKVPDYYTQVAESKFPINVEDFFSFYFSDNAVDFVSSYHEKCGDKELKCSLWRHDDMFGHMRDVSFQHPIKIYFGAKFGGCRETQKFRVYRDSHLVIEVTQEVSEVPYSDYFRVEAHWEVKKDVDDKSNNGCILRVYVNVAFSKRTVWKGKIVQSTLEECREAYGLWIQMAKELLKQKLTGSEEGTSGSTSQSGKDHHIEKERNNNKSLEKSNEKNDQRRSTASQYSTDVDQQAKNSIQGVNSTSAASWLREYIKKLWIVLRSQNYLPLALVITFAVNFFFMQLSIVMLLSRPQHIHVSSPDYGRGLKFSGGRSSDATAWLEKRMHHLKDEMYMVEARLEMMRREHAQLKAQLRELEELS*
BLAST of MELO3C005943 vs. Swiss-Prot
Match: VAD1_ARATH (Protein VASCULAR ASSOCIATED DEATH 1, chloroplastic OS=Arabidopsis thaliana GN=VAD1 PE=1 SV=1) HSP 1 Score: 498.4 bits (1282), Expect = 1.1e-139 Identity = 289/644 (44.88%), Postives = 386/644 (59.94%), Query Frame = 1
BLAST of MELO3C005943 vs. Swiss-Prot
Match: YSP2_YEAST (Membrane-anchored lipid-binding protein YSP2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=YSP2 PE=1 SV=1) HSP 1 Score: 93.6 bits (231), Expect = 8.3e-18 Identity = 102/422 (24.17%), Postives = 173/422 (41.00%), Query Frame = 1
BLAST of MELO3C005943 vs. Swiss-Prot
Match: YGZ7_SCHPO (Uncharacterized membrane protein C20F10.07 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=SPBC20F10.07 PE=1 SV=1) HSP 1 Score: 80.1 bits (196), Expect = 9.5e-14 Identity = 49/136 (36.03%), Postives = 66/136 (48.53%), Query Frame = 1
BLAST of MELO3C005943 vs. Swiss-Prot
Match: LAM4_YEAST (Membrane-anchored lipid-binding protein LAM4 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=LAM4 PE=1 SV=1) HSP 1 Score: 79.0 bits (193), Expect = 2.1e-13 Identity = 68/231 (29.44%), Postives = 102/231 (44.16%), Query Frame = 1
BLAST of MELO3C005943 vs. Swiss-Prot
Match: GRM1A_MOUSE (GRAM domain-containing protein 1A OS=Mus musculus GN=Gramd1a PE=1 SV=2) HSP 1 Score: 78.2 bits (191), Expect = 3.6e-13 Identity = 44/107 (41.12%), Postives = 61/107 (57.01%), Query Frame = 1
BLAST of MELO3C005943 vs. TrEMBL
Match: A0A0A0L3J6_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G116750 PE=4 SV=1) HSP 1 Score: 1166.8 bits (3017), Expect = 0.0e+00 Identity = 592/641 (92.36%), Postives = 598/641 (93.29%), Query Frame = 1
BLAST of MELO3C005943 vs. TrEMBL
Match: A0A061E2G1_THECC (GRAM domain family protein, putative isoform 1 OS=Theobroma cacao GN=TCM_005713 PE=4 SV=1) HSP 1 Score: 627.9 bits (1618), Expect = 1.4e-176 Identity = 341/647 (52.70%), Postives = 436/647 (67.39%), Query Frame = 1
BLAST of MELO3C005943 vs. TrEMBL
Match: A0A061DUJ5_THECC (GRAM domain family protein, putative isoform 2 OS=Theobroma cacao GN=TCM_005713 PE=4 SV=1) HSP 1 Score: 622.1 bits (1603), Expect = 7.4e-175 Identity = 341/651 (52.38%), Postives = 436/651 (66.97%), Query Frame = 1
BLAST of MELO3C005943 vs. TrEMBL
Match: D7SLY9_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_15s0021g01530 PE=4 SV=1) HSP 1 Score: 610.9 bits (1574), Expect = 1.7e-171 Identity = 330/637 (51.81%), Postives = 432/637 (67.82%), Query Frame = 1
BLAST of MELO3C005943 vs. TrEMBL
Match: A0A0D2QYY0_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_004G166100 PE=4 SV=1) HSP 1 Score: 596.7 bits (1537), Expect = 3.3e-167 Identity = 330/649 (50.85%), Postives = 428/649 (65.95%), Query Frame = 1
BLAST of MELO3C005943 vs. TAIR10
Match: AT1G02120.1 (AT1G02120.1 GRAM domain family protein) HSP 1 Score: 498.4 bits (1282), Expect = 6.3e-141 Identity = 289/644 (44.88%), Postives = 386/644 (59.94%), Query Frame = 1
BLAST of MELO3C005943 vs. NCBI nr
Match: gi|778676604|ref|XP_011650620.1| (PREDICTED: protein VASCULAR ASSOCIATED DEATH 1, chloroplastic isoform X4 [Cucumis sativus]) HSP 1 Score: 1171.0 bits (3028), Expect = 0.0e+00 Identity = 591/627 (94.26%), Postives = 598/627 (95.37%), Query Frame = 1
BLAST of MELO3C005943 vs. NCBI nr
Match: gi|778676602|ref|XP_011650619.1| (PREDICTED: protein VASCULAR ASSOCIATED DEATH 1, chloroplastic isoform X3 [Cucumis sativus]) HSP 1 Score: 1166.8 bits (3017), Expect = 0.0e+00 Identity = 592/641 (92.36%), Postives = 598/641 (93.29%), Query Frame = 1
BLAST of MELO3C005943 vs. NCBI nr
Match: gi|778676598|ref|XP_011650617.1| (PREDICTED: protein VASCULAR ASSOCIATED DEATH 1, chloroplastic isoform X1 [Cucumis sativus]) HSP 1 Score: 1160.2 bits (3000), Expect = 0.0e+00 Identity = 591/644 (91.77%), Postives = 598/644 (92.86%), Query Frame = 1
BLAST of MELO3C005943 vs. NCBI nr
Match: gi|778676600|ref|XP_011650618.1| (PREDICTED: protein VASCULAR ASSOCIATED DEATH 1, chloroplastic isoform X2 [Cucumis sativus]) HSP 1 Score: 1153.7 bits (2983), Expect = 0.0e+00 Identity = 590/644 (91.61%), Postives = 597/644 (92.70%), Query Frame = 1
BLAST of MELO3C005943 vs. NCBI nr
Match: gi|659074735|ref|XP_008437768.1| (PREDICTED: GRAM domain-containing protein 1A isoform X4 [Cucumis melo]) HSP 1 Score: 1094.0 bits (2828), Expect = 0.0e+00 Identity = 542/543 (99.82%), Postives = 542/543 (99.82%), Query Frame = 1
The following BLAST results are available for this feature:
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 |