MELO3C010002.2 (gene) Melon (DHL92) v3.6.1
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.TATATTTCCCACAAAATAATTCTAATCTTCCTCCAAGCGAAGAAAAACGTAAAAGAAAGAAAAGTTTAACAACGTTAACAATGGAGCATTTCCTCATTTCTCTCTTAATCCTCTTGTTCTTCTTTCTTTCTCTTACTCTCTTTATCCTCTTCCACAATCACAAATCCTTGTTCTCTTATCCCAACACTCCTCCCGGTGCCATCGGCCTTCCCATACTCGGCGAGAGCCTCGAGTTCTTATCATCAGGTTGGAGAGGCCATCCTGAGAAGTTCATCTTCGATCGTTTGAACAAGTACAAGTCAGATGTGTTCAAAACCTCGATCGTGGGCGTTCCAGCTGCCATTTTCTGCGGCCCTATTTGTAACAAATTCCTCTTCTCTAACGAGAACAAACTGGTTACTCCTTGGTGGCCAGATTCCGTGAACAAGATCTTCCCCTCTACAACTCAGACTAGCTCCAAAGAAGAAGCTAAGAAACTCAAGAAACTCCTTCCGCAATTCCTTAAACCCGAAGCGCTTCAGCGTTATATTGGAATTATGGACGAACTTGCAGAACGCCATTTCAATTCCTTTTGGAAGAACAGAGAAGAGGTCCTCGTGTTTCCTCTTGCTAAAAGGTAAATGATTTATCTTATATTTAATTTCTTATACGAATAAAATTGGTGAGGAATCAAGTTTTATTAAGATCACAACAAAACTGAATGATTTACAATATCTCACTCATGAATAAAGACAAATTGAAATACTAAAAGAAAAGATGAAAAGGATAAAAGAAAATTCACAAAAAACTCTAACCTAATGCTAATTAGTTACAACAAACTTCAATAATTCCATCACACCCCCTCAAGCAGGAGCATAAATAAAAAAAAATGTCCAACTTGCGTAAAATTGAGGATAAAGCCGAAGATGTAAATGCCTTTTGTAAAATGACAATCGATCTCGATGTACTTTGTTCGTTGATGAAATGTTGGATTGGAAGCGATAGAAATAGCTGCTTGATTGTCACAATAGACGACATTGGGAAGCAAAACTGTGAAATATTCAAATCAAGAAGAAGTTGATGAATCCAAATGATTTCACTAGTAATAGAAGCCGAAACTCAATACTCAGCTTCAGCAGAAGACCGAGACATTGTCGTCTGCTTTATGGAATGCCAAGAAACTAAGGAATCGCCCAAAAAAAATGCAAAAGCTAGTGATTGAACGTCACACTCCCTAATCAACATCCACAAAGACCCAAATTTGAAACGAGGAAATTGGTTTAAATAAAATGCCTTGTCCAGGTGCTTTCTTTAGATAACATAGAAAATGATGGACAGCTTGTAAATGAGCCTGTGTGGGAGCTTGTAAGAATTGACTCAAACGATGAACCAAAAAAAATATTGAGTTTGAAGATACAATAACCGACCAATTACTAATCGACCATACTCAGATGAGTCAGCAGCAGACAAGAATTCACCCGCTTCTTTGACTTACTTTAAGTTCGTATGCATTGAAAATGATGAGGGTTGTGGTGCTTAACCAAAGTCTAATCTTTTACTTTTGTATGAAATCTTCAATGAAATCTTGACTCTCTCTTACGTAGAGATGTTTATTTATTGAGGAAAATGTAATACAAGTTAGTTATTTAATGACTAAGTAGTTGTAACAATAATATTTATAATAGTAAACTATAACGGGAAAATAGTAAGGCAGTAGGTTTAAGCATAGATTTTAGTTATTTGGATTACATCATTCCACCTCCTGAGTATCAAACTTGTCATTAGGAGCATTGTACCTTTTAAGGTATGCAATGTGAAAACTAGGCTGATGTTGAACCCTTCGTCTTTTAACTTTCCATAGGTTCCATCTGGTAACCTCTTCTTCTTCAAATGAGAGGTCTCCAATTTGAAAATGGACTTCTCTTATTTTCTTGTCTTTCTCTTCTTTGTAAGATTAGGTAGTCTTAGTTATATGCTCAATGACTTCTGTAGTTTTTAATTTCTTTCGGCCAATTCTTCTACTTCCTCTTGGATTTCCACTTCTTTCAGTATGCTAGTTAGATCAAACGTAAGTCTTGGAGCTTTGGTATACACTATTTCAAAGGGACACTTGTCTGTGGTTCTATTCTTCATATTGTTAAACGAGAATTCAACTTGGGCAAGAATAATACCTCATTGCTTAGGATGATGTCCACTTAGGCATCGAATCAAATTTCCTTAATGATCTATTATAAACCTACTGTTTGTCCATCTGTTTGTGAATGAGCAGTGGTACTAAATTTCAAAGTGGTGTCGAATTTCCTCTACAAAGTCTTCCAAAAGTGGCTAAGGAATTAGTATATCGGTCGAAAACTGTGGTTTTAGGAATGCCACATAGCCCTACTATCTCTCTAAAGAAGAGAGTGGTTATGTAAACCGCATCAATATTATTCTTATTGCAGGACAAAAAGTGTGACATCTTGCTGAATCTATCAACAACTACCATAATCGAGTCAAATTCTCTTTGAGTTTTAGGTAAACCTACTACAAAATCAATCGATAAGTCTTCCCATATATTTTTTGGAATAGGCAAAGGAGTATAAAGACTAACATTGGTTGAAGTCCTTTTTCTCTTTGGATAATAACACATCTCTTCACGAAATTGTTGGTGTCTTAGCTTGCGACCAATATAATAACCTTTTGTTGATAACATGAAAGCTCTAGGCTTGATTAAAGTGCCCTGCTAACCCTTCCGAGTGTGATTCTTTTATTAAGGCTTCCTTTAAGGAAGTATGAGGGATGCATAGTTGTTCTCCTTTGAAGAGGAATCCTTCCATCAAGTGATAGTCTCCTTCTCATATATGGTTAGAACAATCTGTTGTCATATCATAGTTTTGGGATATGGTTGAAGGCTATAATCTCGGTTGAAAGAACAGTCAGTAGGATCCCTTTTCTACTTAGAGCATCGACAACCTTATTTTCTTTCCCGACATGATGTTTGATTGTAAAATAAAAAAGTTGAATAGATGACACCCATCGAGCATGCATCCTGTTGATGCTTTTTTGAGCTTGTAGATACTTCAACGAAAAATTGTCAATGAGTAGTATAAACATTTTAGATAAAAGATAATATTCCCACTATTTTAAGACTCTAACAAGACATATAGTGCTTGCTCATAAGTGCTCCAAGCTTGTCTAGGAGAACTCAATTTTCACTGAAAAACTTCACTAGATATCCCCTTCTGATAGGACTTCCTCAATTCCAGCTCCATTGGAATCTATTGCCATTTCAAAAGGACTATCAAATTCTGGGAGTTTGAGAATTGGCTGGCTGCTAAGTTTTTCTTTAATCAAATCAAAGCTTTGTTGTTGGTTCTTCCCCAAAATAAAAGCTCATTTCTTTAAACATTCAATTATTGGGGTTGTTGTGGAGCTAAAATTCTTTTATGAATTTTCTACAAAATGAAGCAGCCTATAAAGGGTTGGATTTCCTTCACCGAATTAGGAGTTAGCAAATTTGCCACAGCTACAACTTTGTTCTCATCTATCCTCACTTGGTTTTACAGATAATAAACCCTAGGAATGAAACTTCTCCAGTGCAGAATGTGCATTATTTTCTAGGACTTCAAAAACTAGCTTGAGATGCTGTAAATGGTCTTCCTCATTTCTGTTGTACACTAAGATGTCATCAAAGTAAACCACCACAAACTTGTTTAGGAAAGGATGGAGCACTTGATGCATTAATCGCATGAAAGTGCTTGGTGCATTGGATAAGTCGAAAGGCATTACTAGCCACTCAAATAGCCCCTCATTTGTTTTGAAAGTCATTTTCCATTCATCTCTTGACCTTATTTGGATTTGGTGGAAGCCACTGTTGCCACGTGGCCAAGACGACGTGGAATGATCGGCGTCCTCAAAATGGTTTAGTTTTAAAACAAAATAGGAGTCGTCACTAATCTTTTTTACAGTGTGATTGGACATCAAAATAAAGTAAACATTTTCTAAATAAAATCATTAAAAAATGGTTTGCAAAAACTAGAGTTGAGTTCGGGAGTCATTTGTGTATGAGGAAGGTGTTAGCATCTCTAGAAAACGGTGACCAAATTTTAAATCTGAATTGAAAATATTCTTTAATTTCTTTTAATACTAATGTCTTATTTTACCCCTCATTACTCTAATATTGGAAGCAATGATCTCATAAAATAAGTGGAGAGCATTCCATCAATTAGACTATATCGAAGAAAATCTTCTCACATTAAGAAAGTTGCCACATTTAGTATTTCTCCACCAACTTAGTTACCCTAACTAAATGGTTTAGTTACTTTAATCAAACTACCTACAAAACTTAAAAAGTAGTTAAATAACATTTTTTTTAAGAAAACGATAATTAATTACAAAATTTAAAATTAGCCAAATTAATAAAATTAATCTAGTAATTAAATTGATTTTAAATAAATCTGGACAAAATTAGGTGGCTACCACCACTTTTTAAGTCTACCTTAGAAACAATGAGTGCTCCTCCAAGTTGATCAAGTAGATCGTTGATTCGAGGGATAAGGAAACGATATTTGACAATTATCTTATTGATGGCTCGACTATCAACACGCAATCTCCTGCTACTATTTTTCTTTGGAATCAATAGGGTTGGGACTACACAAGGGCTGATACCTGGCTGGATATGTTCCTCTTTTAGTTGTTTTTCAATGTGTGGCTGCACGATGTCGTACTCTTTCAAACTCATCCTGAAGTAAGGAAGGTTAAGAAAGGAAGAGCTTGGAATCAAGAATGTTATGTTGAATATCTCAAAGAGGAGGCAATTCAAATGACTATTCCTTGATGCTTGGAAATTGCTTCAGCAATTTTTTGAAGAACGACATGCAACAAAGAGGCCTAAAATATTAGATTCTCTATCTTTAATAAACTTTTGTGAATTAACTCCATCATTTTTATTGCCAAGAGGCAGTATGACAATCTTCTTATTCATCCACTGGAATGTATAGATATTCTCCCTTCCTCTATGGACTGCTTGAACATTATACTGCCACTGTCTCCCAAGCAAGATATGACAGACATGTTGGAAAACGATCTAGGGCTAGACGCAGCAGAATTAATATAAAAAATGTTCTCTATCCCTTAGAACGTAAATAGACCATGAATAAACAATTAAATCACGAATAAACATACCTTTGTGCCAACGTGAGTAACTCTCCAAGTTCGAATTACCTCTGTACTAATAGGGATGATCCTAAAAAATTGTATCACCAAAACGCTACGAAATCACTAGTGTTCTCTTACAGTATCCACACATGAACTGGAAATTCGACTATTCGAATTTGAGTTTGCTAGAACCTCACATAGTGGAAATTTCGACTCGCCAAATTCTCTCTCTATGACAAACGGATTTTTTCCTTCTGCTATGTGTATTTAAAATAAGACGCTTATGGTCTTATTTATAACGTCTCATTTATAGGCTTCTTGGGGTTTCCTAATAACTTAGGGATTCCTAATATGCTTGCAATTCTCTAATTGGGCTTATTAATTATCCAGCCCAAAGACAAATTCGACCTAGTTTCATCGTGTGTGACCCATTTGGTTAATTTACTATGGCAATAGGTTCCTAACTTGTTTTATGGCCCATAAGTCATAAGTTGGGAAATCCGTGGAAATAGCAAATATGAGGATAGAAAAAAGAAAAATAGCAAACTGTTATATTATTTTGATTTATGGCAAAACTAACTGCCATAAATATTTTTCCACTCTTTTTGGCCCGAATTTACCCTTTCATGGCTGACAATTGTCCATATACAAATACAGTATATTTGTTAAGATCAAAAAATCAAATAAAATATCACATATCACGAATACAGTGTATTTGTAAACACACTTATTTATGATAATTCTTAACTAAATAAAAAATATATTATATTGTTCCTACAATCCCTAAAGATATGTCATTAGTTACAATCCTTAAAGATATGGCAAAACTGCCTGTTAGATATTTTTTTTTTCAATTTTTTTTTTTGCCTGAGCATACCCTTTACAAAGGGCAATTCCTTGCATACAACAGTATATTTGTATAAATAAAAAAAACAAACAAAATATCACATATAGTGTATTTGTAAACACATCCACTTTTGGTAAATCTTAACTAAACTAAAAAATATTTTCTTGTTGCATAAGATTTCACCAACATCCCTGAAGATATGGCTTTAGTTTTTACACCCCTAATTATTAGGATTTAAATCAACTAATTCACAATTTTTTATATTTCATATTATTTATCAAAAATTTATTAAATAATACATATTACAAAATTTTAATAACAATTTTAATCTACAATTTAAATTTTCCCCTAGAATCGTCAATTTGAATTCAAATTTTACCTCATATCCCTAAAATAACATAAGGATAAATTCAACTATTTTGTATTTTTTATTTTTCAAACTATTTATCAAAAAATAGACATAAATTATGCATAATACATATTTGATATTTATTAACCTTTTGAGTTTAGAAATATATATCTCACCCTAAAATATTTAGTTTTAATCTCAATTTTTAACCTTATTTTTAAATCCAATTTTTACACTTTAATTTTAAATAATTAGTTTGAATCCCTAAAATTATGGTAAAGATACCAAACTTAAATTTGTAGATTATCATCCCTAAAATAATGCTAAAACAACAAACTTCATTTACACCATTTTCATTCCTAAATTTTGTTGATTTAAAAATAATTTTATGAATTGTTATTTTGAATTCAAATTTTATACATTATCCCTAAAATGACCCAAATATATCTCCAAAATTATGGGATTTGTTATATTTTAAACAATTTATTAAATGGCCTTAAATATGCCTTAATAGCATTTTTATAATTAATTGAATCTTATTCTTAAGAGAATCGTTGACTTCTCTCCTTCCATGAATTTTATCAATTTGAAAGACAACGTCTAGTAAGTTTGAAGTAGGACGAGATCTATATGAAATCAAATTTTCAAATCCTTCGAGAATTGCCAAAGGTTCTCTCTAATCAACCTACTCTCAAGAGCAAATTCCTTCGGCACGATGGCGGTAATCCGAAGAACCGGCGAAACAACATTCCTAGACTTTTCTTTTTCGACGATCTCCTTCATAAAAGATGCGTACAACCCACCACAGATGCGTACTCTCCTCTTCTGTTTCTACTCTTTGTCAACGTCGACTTGTTTCCTATTCAAAACTTTCATTTACCAGGAGGAAACGAGCTCGAGTTCTGGGTTCTGTCCCAAATGTGTCGAAGCATGTTCTTCAAACCAAAAACTAGCTGACGACAGCGGCGACAAGATCTTCGAGGAAATCAAGCGATGGGTTGTTGGGATTGAAGGAATTGAAGGATTAGAGGATGGTGGAAGAGTGATTTGAGAAGGGTTCAGAGAGGAAGAAATCAGGGGAAAGAAGGAGTAAGACGAAAATCCCAAAATTTTTTGTCAGAGGAGCTAACAAGAAGTAAATCTAAAGACTTTGAAAATTTTGAAGGAGACGAGCTGGAAGCTCCAATAGTTTCTGCAAAAGAAATGAAAGTTTGATTTTGATGTGGTAATCATGTGTTGAGAGTTTGATTTTTATTATAGGGTATTTGTAGTTTCTTGAATAATTGTATTTAGGATTCAATTTTTTCAGCTAGGTAGGGCTATTTAGGACATTATTCCAACAATTAGTTTTCCATATTTTCTGATTTTGCTATTTTATCAATTTAAATAAAAGTTTATCATTTATCCAAAGTAACCTTCTATTTTGCTATTCTTCTTGTCAGCCCTAATTGGTTTCTAGCAAAATGTTATGGCTATCCATATTAAATTAAGTCGGTGAGCCAACATAATCTAATATAATTATTGCTCTAGTCCTTTTATTGCACGATATCTATAATTGAATTTAAAGCATGGACAAAGTCACCTTATCTAATTCGATTGCTTTCTCGATCAATGAGCATTCTAAAATAATAAATGACATTAATACCCTTATTAATTCATTTATAGCACAACCATGCATTTCCACCGTCACGCTTAATCAAGGGAGCCAGGGATATCTCTCCATAACAAGAGCAATCATTGTCCACTACATAATTCATAACCTATTCGAGTACAATCTTTATAATTATCAGGTTAAAGATAATGTTTAATTGCATCAGAATAGATTAATTCTTAGGTTTGACATTATGATAATCTCAGGTCTAAGAATCAAACGAATCAATTTTTGAGATTATTTATGAAACATGTCCATGTAATAATCTCAAAAAAGGGTCCGTCCAATTCTTATTCTCTAATAAGAAAATATGATTATAATTTATGTCTCTACATATATAATCATCCTATGATAATCAATTATAACTCATATTAATCTTAACTTACTATTGTTCCCACAATAATAATTGATTAGGGCCATTTATAATATAATAACATATTCATGGACATTATTATACAATAGCATGCAATTGAATAATAATGAAAATGATAACTTTTATTAAGTAATAAACCAATTATCCATAAAATTATTATAGAGCACAATAAAAAACCAACAAAATATCTATATCTAAAATATCACACACGATTTGATCTTTATAACTTCCTCCGATTGATAAAGGAACCGAGCAAATCTCATTAATCTAAATATCTCCACCTTTCTTGATCCATCATATTTTGTAGGGATTGGAATGAGGCTCTGTTTTTAGTTTAAGGGTAGTAAGTAGCTTCTTAGAAACAAAACTCTCATTGTTGTTATTGTCAATAATCATGTCGCTTATCTTACTATGGATAGTGCAACAGGTCTTGAAAAGATTATGCTTTTAAAGGTGGAAGTTGTCGTTTTTTGGTGCAATTAGTACTCTGGAAAGTACACAAGACAGACTTTTCCCTTTATTAGGCTCAAGGATCTCTTCATCTTGATCAAAATTTCCTTCTTGCTCCTTAAGAAGATCTTCATCTTCTTCTAGAATGGCTACTATCTTTCCTTTAGGGCAAGAATGGAGAGATGACTAGTTTTTCCACAACGAAAGCATTTATTCAGATTAGACCTTTGATACATGTTCTCTATTTGTTTCATGGGAATTGCTTTGGTCTTCTTCCCATTTGGATCACTTGTCTTGACTTTCTCTTGCTCTTTAGTGGACTAAGCAAGAGAAGACTTTGTAGTTGTAGCCTTGTTGCTAGTAGTGGCATTCCATGTGCTTCTTCTTGTATTCTTTCTTGAACTTAGTTTAATAATCTCCTCTATAGATTTTGCATAAGTGATGGCATCAGGAAAGGTTAAGAAAGGATGAAGTTTTGCCTTTTCCTTTATATCAAACCTTAATCCTCCAACAAACTAAGAAATGAGGTGTTGTTCATTCTCCATCAAATTCGTTCTAGCCCCTAAATCGGTGGAATTTTTCAGTATAGTCTGCTATAAATCGAGTTCCTTGCCGGCAGTTTTGGTATTGGTTGTGGAGGGTTTGTTCATAGTTGGATGGAAGGAACCGAGCTTTCATCAACTTCTTCATTTTCTTCTAAGAAGCAATAACTATTTTCCCATTTCTCCTCCTATTGACTTCGATCTGCTCTCACCAAGCTCAAGCTCCAACTTTAAACTTTAAAGCCACTAAATTCACCTTCTTTTCCTCAGGTGTGTTTAAGTAATTAAAAAAAATCAGTATTCTTGAGCCAATCTAAGAAAATCTATATATTTCTCTTACCATCATAGCTAGGTAAGTCTACTTTCATTTTATATTCGGCCAACTCTCTTCTTTTATCATCAAAACGTGGTCGAAACCTTCTATCTTGATCATTTACTGACCTTTGTTAAGGTTCATCATTAGTAGAGCTCTATCCTTGAAGTTCTTAATAGTAATCTTGGATTCTTTGAGGGAGTTCTTGATACTTTTAAACTGGTATTCTTCTTTCTTGCACTTCAAACCTTCTTTCTTAATGATTTCCCCCACTCTTTGAAGTGCGTCCCCTCAAATGTCTCACTATCCCTATTCTTGAACAAGTTCTTGACATTCTTCATGCACTATTTGAGGAGGAACTATAGTTTCTAAACGTTGCAAGACTTCTAGAAGTGTTGCTTGTATTTCCTCTATCGAAGCCTCCAAGGATAAAAAGCATCATGAGGTGGTTCTTAGAGAGATGACGGAAATGATACGACCTCTTGGTTTTGAGTAGGATGCTCCATCGCCTCAGGATTTACTCATTGGACAACCATGGACCCAAGAGCTTTATGGTACTCTGATACCAATTGGTGTGTAACCAAAGTCTAATATTTTACTTCTGAATGAAACTAAATGTTATCTCTCAATGTGAGAGAAGATTTTTATTTATTAAAGAAACTATAATACAAGTTAGTTATTTACTAACTAACTAAGTAGTAGTAACAACAATTATAACAATAAACTATAACATAAAATAGTAAGGTAGTAGGTTTATAGTTATTTTGATTACATCAGCCATCTTGGCATTGAGAAATCACATATTCTTTTAAATTTGTAACAATATTTACTTTGTGATAAAAACAATCCTTCTTTTGATCTTGCCACTTCCAACACGAGGAAATATTTGACTTGCCCAAGTTCTTTTAACATTAAATGGGATTTCACTAAGGCTTTAACCATGGCAATCTCATTAGTATAAGGGCCAATAACATGTCATCAACATAAACAAGTAAGGCAATGAAAATAGATCCTGTTCGTTGGGTGAATAACGAATAATCTAATTTGGATAAGGAGAATCAATAAGAAAGCAACCAAATCAATGAGAATCATTGTCTTAACACTTGATGTCCATATATCAAATTATTCAATTGACAAACAACCTCAAAGATGGTGTGTAACCCAAAGGTAAGCCATATAAACTTCTTCTAAAAGGTCCCCATGAAGGAAGGCGTTGTGAATGTTCATTTGAGTTAATGGCCATCTATGAGTAGTAGCCAATGTCAAAAGTACTTTGACCACGACAAGTTTAGCTACAAGAGAAAACTTATCCATAAAATCTATACCCTTCTATTGATTGTATCCTTTGGCAACCAACTATGCTTTGTAACGATCCACAGTTCCATCAGACTTATATTTAAAAAAAAATTCCATCGAGCAATGTCTACTTATATAATGTTGTGCTTAAGCAAAGGTGTTTGATGACTTGAACTAACCTTTACGTAGTGACAATAATTTAGAATAATGTAAAGTAACTTGTTTTGAACTTTACCTCTAACAAGATTGCACAAACAACATTATTCGAGTGAAGTTCTAAAATGCCCATGCTTTAAGGCTTTGCACGTATATCCCAGTTTAGTAGACGCCCTAGATAATTTGCATAGAATTCCATAGGAAGCGACCCTCACTTCCACATCCACAAGGTAAATTTATCAAGAGTACTTCTATAACTAGGTACCCTACTTGACATTGAGTATAAAATTCATTAGTATAGAATTCATTAAGAACTAAGTTCAACCTTTTCATTGACTTCAAGATATCATACTAATCATTGAATTATAAGAATGGAACTTCTAGGTATTTTAGCATGATTCTCTTCATATCACTTGTGATCAACTATTACCCGTTGAACTTGTTTCTTAAGATCTCCAGTGTTCAAGTTGTATTTACCTCACACGTGATTCAGTTTTCTATAGGCTTGAGTCCCATTATGAGATTTTAAAAACCTTTTCTCTAGTCCTTTCGTCAAAGAATCAACCAAGTTATCATCCGTTCGTACATGATCCACTATCAATGCACCAGTAGTGAGAAATTCTCTAATGGTACTATGTTTACGACATATCTATTGTCTCTTGCCGTTGTAATAACGATTCTAAACATTTGCTATAGCTATAATACTATCGCAATGAATCAGTATGGATGGTACCAGTCTTTCCATGTAGGAATCTCTAATAGTAAGCTTCAAGCCAACTTGCTTCTTCACTAGTAGTAGCTAGTACTATCATTTTTGACTTCATCGTTGACTAGGCTAAAATAGTATGTTTCTTGGATTTCCAAGCAACAACTCCAGTTGCTATATTAAAAAAAATATCCTTTTGTAGCCTTTCAGTCATCTGAGTGGGAGTTCCAATTAGCATCGTTGTAACCTTTTAGTATAGCAGGAAACTTTTTGTAATATAATCTAAGGTTTTTGGTTTTCTTAAGATATCTCATTACTCTTTCTACAACATTCTAGTGTTATTGTAAACATACATAGTAACCCTACAACATATGTTATATCTGGTCTAGTGCAGTCAGCTGCATACGACTTATTGATTAACATTGTCATCAGTGTTTGAACAACGTAACACTAGAATCATAGGGTGTACAGACTAGTTTTCTATCAAAGTAGTTGTATTTCTTTAGGATCTTTTCTATGTAATGGGATTGATCCAAAGAAATTCTTTTTTCAGTTTTAGTAATTTAGATACCTAGGATTATAGTAGCTTCTCCTAAGTCTTTTATGTCAATATTTGCACTCAACATTGATTTTAAATCATTTATGACGTGCAAGTTTGATCCAATGATTAACATGTCATTTACATATAAGCATATGATAGTGCATAAGCCATTCTCAGTCTTATAGTAGATGCATTTATCACTCTTATTAACTTTCAATCTTTCAAACATGATTAAATTATCAAACTTTTCATGTCATTGCTTTGGAGCTTATTTTAGACCATAGAGGGATTTATCAAATTGACCAAACTTTAGATTCTTGACCATGAATAATGAAACCTTCAGGTTGTTCCATATAGATATCTTCTTCTAAACCACCGTTTAGGAAGGTAGTCTTAACATTTATCTGATGTATTAAGAGATTGTTTAGGACAACTATAGAAATCAATACTCTAATTGAGGTGATTCTAGTAACTTGGGAGAAGGTGTAAAAAAAATCTATGTTTTCCTTCTGTCTAAAACCTTTTGCTACTCGTGCAGCCTTATACTTATCTACTAATCCGTTAGGTTTGAGCTTCTTCCTCTAAACCCATTTACAGCCTATTGCTTTACAGCTAGGGGGCAGGTCAACTAGGTGCTAAGTCCTATTTGATTCAAGAAAGTCGATTTCATCATTGGTAGCTTCTTGCCATAAGTTGACATCTGTTGAGATAAGGCTTATGTTAGATCTTTAGGATCTTCTTCTACATTGAACATTTCGATGACTTCTCCAAAGTATTTTATAGTTCTCGCTCTCTTGCTTCTTCTAGGTTTAGGATCTACTTCCTTATCATGGGTTTGGATCCTAATTGAAGGTAAACTACTAGAACTTGAGGCCCCACTAGTTTGACTATTTAGGCCCTCACTAATTCTAGATTTAAAAGAAAATCTATTTTCGAAAAAATCGACATCATTTGATTCTATGATTACCTTATTTTCTAAGTCATAGAACCTATAGACTTTACTATTTCCAGCATATCTTATAAAGACACACTCATAAGCTCTACTGAGTAGTTTTCTTATTTTAGGATCATGAATTATAAAATAGGCTAGGCAACCTCAAGTTCTGAGATAAGACAAGTTTGGTGTTTTATTTTTAAGGACTTTGCAAGGTGAGGTTTTTTTTTGTTTTTTTTTATTATTTAGGAATCCTATTAAAGACATAATCAACTACTTTAATTATTTTACCCTACTAGGATGGTGTAGCTCCTAAATCAAGCAAGATAGCAACTACTAACTCAGTTAGAGTTCTATTCTTCCTTTCAGCTTTTCCATTCATTTCAGGAGAATAAGGTGCAATTTTTTCGTGTATTATTCCTTTTGAGTTATAAAACTCATTAAAGGTAACTGAATCATATTCAGTTCCTCTATCACTAAGAAATCTCTTAATTCTTTTATTAAATTAATTTTCTATTACAGTTACAAACACCTTAAACATGTCAAAAGCATTGCCTTTATTTTTAAAGTAAATCAATAAAAGTGAAGTCGGAATAGTCATCTTTAAAGGTTATAAAATACCTTTTATTATTCTTAGTTAACATGCCATCAAATTCACATAAATCAAAATGAATTAATTCTAGAAGCTCAATTACCCTAGTTACAGATTTATGCAAAGTCTTAGTTATCCTAGCTTGACTACAACATGCGTAGTTTTCAAATTCATCTAAAGATAACTTAGGAATTAAGTTTAATCTACTGAGGTTGCTAATTAACCATTTATTAAGGTGACAAAGCATAGCATGCAAAATGTTAAAGGAAGACAACATTTAAGCAGAAGACAATTTCCTATTCATTCCCAAGTTTAGTATAAACATGCCATCAGTTGCGTATTTTCAAAAATTATTTCGTGTGCCATCTTTTGTAACTCGTATGATTGGGCCTCCACAGATCTATAGTTAGTCATTTGATATCGTAGATATCGACTCACCGCATACTTCTTGAAACTAGCTTCTTCAGTGTCATATTTCTTTTGTAACATGTTCCAAACCCCTTTTGCAGTAGACATGGTACTATAATAATCGTATAACTCATCAGTAAGTCCATTCAAAATTAAGTTCTTAAATGTGAAGTCTTTCTCTGTCCATGCGTCATGATTTTTAATTGGCTCCTTCATTAGATTATTAGATTCTAGAACATTAGGTTCTTCAGTGGTACATGTGGTAGCAACTTTCTTTAAAGTTAAGAAGAACAACCTCTTCTGCTTCCAACGCTTAAAGTGTGCTCCTTCGAAGCGAAATGGTCGGTTGAGATCTGAACACATCACATTGTTCTGGAATGAATCGGCCATCGCACCAAAATTCAGAATGTCTTAAAATTGTTGTAACACTTGGAAGGAGAATCACTTAGACAGAATGACTAGACAAAACGCGTGATATCTCGCCTTGTATTTCCCCTACTTAGAATGCCACATGTTATCTTGCCTAGACAGAACGTGTGCTATCTCACCTTGTATCTCGCCTACTAGTCAGATCGCTTACTGTTTGACTCGCCTGGTCTAAACACATACAGAACAGCTCACCTTGTGATCAGATTACCTGGTCAATTCGACTACTGCAAAATAAAAACAAGTGAAGATAAAGAGGTTGAGTCGCGGATCGTCTTTAAGACGCTTCATGGTTCTACTCTTTTGTGCAAATAGATTTGTATAGCTCCTTCGTCCCTAGGATAAAACAACCATGTTTCATCAATCAGAATTGCACTGGATCACAATACCAACACTCAAATAAAGACTATTGCACCGGATACCGATAAGAATACCAACACTCAAATTAAGACTATTGCGCTCGGAAAACTCAAAGAAAGGAAGTACGACAGTGATTCTCTTTTTATGATATTTTTGAAATGAAGCGAAGAAGGTGTTTGCATAGTGGAGGAAATAAAGAATCATTGGTAATTAATTATGGAAAACATTGGTAATTAATTGCAAAAACAGAATTAAAACATTTATGGAATAATGAGACAATAGTAAAAAATATTTTATCTGGTAAGAAATAATAATATCACTATTACACCTCACTACGCCCATCCAACCAAACAGTAGTGGTGCACACATGGAGATTTGAATGTGTAGATATTTGAAGACTTTCAGCAGGGACAAACCAAAAGGTGAACAATTATATTTTAAAAAATTTTCATCAACAAGAACAAATCACATGATGACCAAAAGGCAAAGGGCAATATTCCATGTTTCAGTACGTTCCATTGCATCAAGTTCATCTTTCATAGCCTTTTGCCAATGAGGAAACAGGGATGCTTGATGATAAACACTGGTTCATATTAAGTCGAGACATTCAGCAAAAACTGCCTATGTGGTGAAGAACGCAAACTGTAAGAAGTGTATTTTCCAAAGAAATATGGATTTGATGAAGAGGCAACATCTGAATAATCAGCAAGGAGATTACAATGTTAATCTTTTAGATAAGCAGAAGGACACCTATGCCTTGTAATGGGCAAAGATGAGACATTATATTTTCAATAAAATCGCTATTGTTACTTTGGAGTAACAATTTATTCTGATGGAATAACAATTGTCTGAGACGAAGTGCCCATATCTTTAGCACCAAGTAAAACACGTGGATTAGGAGGTAGAACAACATTCTCTTCTGGTAAAGAAACATTAATTCTTGGAAAACACGAGCTTGTAGCAATTGATGTGGTACTGTTACGGAAATAAGATGTATCTTCACCAAGTATAGGTTGTGGTAAAACCAAATTGTCCAAGAAAAAATTTAGAACAGGTTGTTCTATTTATTAAGAATGCTGCAATTAAAGCACAATCTCCCCAACATTGCAAAGTAACCTGAGACTCTTGCAACATTCGGTAGGTGCTGATGTTTATGCTCAACAATTGCATTTTGTTGAGGTGTATAAACACAAGAAAACTGATGTTGTGTACCCGTAGATGCAAAAAATGTATCAAATTTTCAATTTTGGTGCATTATCAGATATAAAAATCTTGATAGTTTTTGAAAACTTAGTCTCGACATACTTAAAAAAATGAGGTATAATATTCAATACACCACTCTTGCGTCTCAACAAATAAACCTAAGTAAATCGCAAACAATCAACTAATATAACAAAATATGAATATCCAACATATGTAGGAGTATTGAAAGGACCCAAAATGTCGCTATGAAGCAAGTCTAACACATGTTTGGATATTTTATATGACAATCAGAATGCTTAGAAAAATTAGAGAGATTTAAACTATGTTTCAAAATGTTTAAACGACTCAAAGAAGGGATGGCCTGCGATGCCAAATATCGACTGAAATAACGTGCTTTTTTCAACTACTAACAGCAAAACAAGTAGAACCAAAAACAGTGAATAGATAAAGGTCTTCAAGGGAATCAACCTTGCCAATCGTCCTTAATTGGAACTTGTCCTGAATTTTACAAGAATTGCCCACAAAATTAATACACTATCTGTGTCATTCTTGAGAAGTGCACTAGTGGACATGAGGTTATATGCAAATTGTGGAACATATAGAACATTAATAAGGCAAAGGTCTTTTGATAAACGGACATTACCAACATAGTCAACTTTATATCGATTTTGATCAGGCAAGATCACAGAAACATTATATGCAGGACAAAAGCTAACGAATTTGGTTTTGTCATATGACATATGTGACTGAATCCTCCAGAGTCAACTATTCAAGTAGTTGTATATGAGAAAGCTTGAACACATATACCTGAGACATGACTAACATTATGGATGGACTTATCTCCTTGGCCAAGATCACTTTGCAGAATGGTCATTAATTGTGAACATTGAGCGACATATAGGCTAGCAAAGAAAGCAGAATCATTTTTGGAATTTCCTGAGGTTGTGTCAATCTTCTTGCCATTAGAATTGCCAGTCTGGTTTATGAAATTCATGTCCAAGTGAATATCCATGTAACTTGTAGCATTTTTCAATAGTATGAGTGTGAAACCTACGTCCTAGTAAAGGGGTTTCTTGTATATTAATTTTTGAAGTTAGCAAAATTAAGCTCGAGTAAGCGTTTTGAGATAACATGAGGAAAGAGACCGAAGGTGGAGAATTAGACAACATGTTGCGAAGAAAGGCAATGCGATACAATAAGATAATTCAAGAAGGGAAGGTGACAACGAATACTTAACCGATTATCAAGTGACTAGCTAGGCGAGGAGGATGATTAGATCAATTATCAAGTGACAAGCTAGGCGAAGAAGAGTCTAATTAGACCAATTATCAAGCGATGAGTTAGGCGAGGAGGAGTCTGATTAGTCAACTAAACACGGGTAAAGTTTAAGTTAAGCATGGTTTAAGAAGGATACTAAACTAATACGTGTAACACACTAATCAGGATTAAGGAAAATGTAATATTGACTAACCTGATTTGGGAGAAGTATAAATAGGTTTGAAGATGTTAATTAATTCAAGTGTTTAAATAAAAGAAAGTTCTGCCAGAGGAGGGTGAAGCTTTATTATAGGACTAGGTGACAAGAGGGAAGAAAAGTTAAGCAACAAGTGGGAAGAGGAGGGTGAAACTTCGTATAGGACTAGGCGCCAAGAGGGAAGAAGAGTTAAGCGACAAGAGGGGAGAAAGAGTTAAGTATTTTTACTACCAAAATCATGTCATATTTCCATGTTGTTAGATATTTTCATGCTTTAATTTCATATATACATATAAAAGAATATGACCAATTTAAACTATTTATATATTTGTGAAGTTGTATTATTGTGATGCTTGTATGTATACAAAATCATTAGCCTTTATTCCTGATAAAAAACTAGCTATTAGCTATTATGTGCACATAAAAGCAGAGATTGCCATGCACTTGGTAGAAGGATGGTTGAATGTGTTGAGTGGTCTGTGTTCAAGTCAATTGTCGGAGCAACTGGTATTGAGTGAGGGTTCGTAGCAACTGGTATTGAGTGAGGGTTCGTAGGGATGCTGATGGCAAAGTAGTAATCATTACAATGGTCCTTGAGTTGAGGAATCAATATACAGGAGTTAGGAGTAAGTAGAGCCTAATGTGATTATTGTGTTATTTTGAGGCCTTAAGACATGTCTGAAAAATAAGAAAGCTTTTATGGTATGAAATTGAATTTTCCAAAACATATTTCTAAATTCTTGTAACTCACTAAATGGGTATTTCTAAATTCTTGTAGGCCCAAATAGCATTGCATGTACAACCCAAGGGTTAGGTTAAGTTTAAAGAAGTAGCAAGTGTTTCACATCGAAATGTCGGTTCGGGGTGGGGGTGTGACAACAATCCTGAAATCCACGATTTACACAAATAGGAGGAGAACGTTGCCCATCTTTCTTTTTGTAACGATCATTATTTCCTTTTTTATTATCCGTAGCAGCAAGAAATGATGCAGTTTCAACTACATTAGGATCTGCATTATTTCTTTGATGGAGTGAAAAAACTTTAGTAATGGATGGCAAAGGATCCATCAAAAGAATTTGTGCGCGACTGCTTGCATAAGTCTCATTAAGGCCCATAAAGAAGATCATCACGTACCATATTCAGATTCCATGTAAGAAAATAAAGATTTAGCGACACCACAAGAACATTCATTAATAGGTCTAAAATCATAGAGGTCTTGCCAGAGAGTTTTAATTTTAGTAAAATAAGCTTCAATCGACAATGAACCTTGAGAAGCAGTAACCAATTGAGGACGAAGTTGATAGATCTTAGGTCCATTTGATTGATGAAACGCTCCTTCAATTCCTCCGAAACAACTTTTGTTGAACCAGTATATACCAAGCTTCCAGCAATTTCTTTAGAAATGGAATTAAAAATCCAGGAGGTAACAATATCATTGTTACACTGCCAGTGGGTAAGAAGGCTCCCCGTTGGTTTTGGTATGTCACCATTAATGAAGCCTAATTTGTTCTTACCAGAACGAGTAAACAACATAGCCTTGCTCCATGAGATATAATTGTCAGTGCCAACTAGCACTTGTGTGACTAAAACAGTCGTAGGAGCCATAGTCTAATGCAACATATATGGATTAAGTTTTGCTTCAATAGCTGCTGAATCCATAGAAGAAGAAGAAGTCGAAGATTGTGTAGACGTCGCTCAAGAGGAATAGAACAGAAAGAAGTCGCGAAAGAAAACGCTAAGAGGAAAGCGTGTAAAAATCTTGTTCTGATACCATTATACGTATAAAATTGGCAAGGAATCAAGTTTTATTAAAATCACAAAAAAACTGAATGATTTACAATATCTCACTCATGAATAAATACTACTTGAAATACGAGTAGAAATAAGAGAAAAGATGAAAAACTGAGTTAAAAGAAAATCCACAACAAACCCTAACTTAGTGCTAATTTGTTGCAACAAACTTCAATAATTTCATCAATTTCAATTTTCCAGTTTGTTTTCTGAACTGATCGTTTTCCGATAATGGTTAGCTTCACTTTCTCACTAGCGTGCCGATTGTTCATGAGCGTGGAAGATGAAATCCATGTGGAGAGACTATCGGGACCATTCGAGCACATTGCAGCAGGAATCATATCGATGCCGATCGATTTACCAGGAACGCCGTTCAATAGAGCAATAAAGGCGTCAAAGTTCATCAGAAAGGAAGTGGTGGCGATCGTGAGGCAGAGGAAACAGGATTTGGCGGAAGGAAAGGCGTTGGCGACGCAGGATATTTTGTCTCACATGCTTCTCACGTGCGATGAGAATGGTGTGTACATGAACGAATCAGATATCACCGATAAGATTCTTGGGTTGTTGATCGGCGGCCATGACACTGCCAGTGTCGCATGCACCTTCATCGTTAAGTTCCTCGCTGAGCTTCCTCATATCTACGATGCTGTATATACAGGTAATTAAGCTTAGTTTATGTATATATACAAAAGGACCAAACAGCCATACCCTACACTACTTGCTCACATAAAATAATAATGTTGCAGTAACCATTCTATTTTATTTTTTTCAAAATCAACCATGCATTTAAAATTTTTTATTTTGTTTAGAACGAGTTAGAAAGAAATGTATTTAAAATTTCAAAATTTGTTTAAATTGTAATTGAAAAAGAAAAAAAAAAAGTTGTTTTACTAATATAGCCTTCTATCTATCGAAAAAATTTGGAAAATAATGATGTCTAATGTATTTAATCTTATGAAATCATGTAAAATTCGTCCCCAACATTTTGACTGCAAAAGTTTCTAAGTAAAAGTATGATTTGAAATCATTTCAAAATTTTAAAATTGTTATTTTTTCTGAGTTAACAAACGGAGATTGTTCATTAGGAAATCTACTATGAATTAACATTCAAAATTCTGAAAGTTTGGAAGTTTACAACCTTGACTACTACTCTTAAAAAAGAACAGATTAAGAAATAAAATTAGAAAATTTGGAATTGAACAGAGCAAATGGAAATAGCAAGAGCAAAAGCGGAAGGGGAAACGTTGAAGTGGGAAGACATTAAGAAGATGAAATATTCATGGAATGTGGCCTGTGAGGTTCTAAGACTTGCTTCCCCACTCCAAGGTGCCTTTAGGGAAGCCTTAAATGACTTCGTTTTTAATGGTTTCTTCATTCCCAAGGGTTGGAAGGTAATTTTCCCCCTTCAATTAAAATAACATTTTGCTTGCGGTACTTTCAACCTTTTTTTAATTTTAATCTATTTACTATAAACAATTTGAGTTTTAAAGATTTCTTGATTTATCGATTTCATAACCATGATGGTGATAAAGCAAACATTATATTGGACATTGATGCTTGGTTTTTGCAGTTATATTGGAGTGCAAACTCGACACACAAAAACCCCGAGTACTTCCCGGAACCTTATAAGTTCGAGCCGGGAAGATTTGAAGGAAATGGACCATTGCCCTACACATTTGTGCCGTTTGGGGGAGGGCCAAGGATGTGCCCCGGAAAGGAGTATGCAAAGCTTGAGATTTTGGTGTTTATGCATAATTTGGTGAAGAGATTCAAATGGACAAAGCTACTTGAAAATGAAAACATCATTGTTAACCCAATGCCAATCCCTCAAAAAGGTCTCCCAGTTCGCCTTTTTCCTCATCAACCTCTTTCTCTTTAATTTACCCTAAATAATAATTCCCATAAATATAATATAATATACTCTTTTATTTCAAGTACTCTTCCTCTTATTATATGTTATCAATAAATTTTTCATACATTG TATATTTCCCACAAAATAATTCTAATCTTCCTCCAAGCGAAGAAAAACGTAAAAGAAAGAAAAGTTTAACAACGTTAACAATGGAGCATTTCCTCATTTCTCTCTTAATCCTCTTGTTCTTCTTTCTTTCTCTTACTCTCTTTATCCTCTTCCACAATCACAAATCCTTGTTCTCTTATCCCAACACTCCTCCCGGTGCCATCGGCCTTCCCATACTCGGCGAGAGCCTCGAGTTCTTATCATCAGGTTGGAGAGGCCATCCTGAGAAGTTCATCTTCGATCGTTTGAACAAGTACAAGTCAGATGTGTTCAAAACCTCGATCGTGGGCGTTCCAGCTGCCATTTTCTGCGGCCCTATTTGTAACAAATTCCTCTTCTCTAACGAGAACAAACTGGTTACTCCTTGGTGGCCAGATTCCGTGAACAAGATCTTCCCCTCTACAACTCAGACTAGCTCCAAAGAAGAAGCTAAGAAACTCAAGAAACTCCTTCCGCAATTCCTTAAACCCGAAGCGCTTCAGCGTTATATTGGAATTATGGACGAACTTGCAGAACGCCATTTCAATTCCTTTTGGAAGAACAGAGAAGAGGTCCTCGTGTTTCCTCTTGCTAAAAGCTTCACTTTCTCACTAGCGTGCCGATTGTTCATGAGCGTGGAAGATGAAATCCATGTGGAGAGACTATCGGGACCATTCGAGCACATTGCAGCAGGAATCATATCGATGCCGATCGATTTACCAGGAACGCCGTTCAATAGAGCAATAAAGGCGTCAAAGTTCATCAGAAAGGAAGTGGTGGCGATCGTGAGGCAGAGGAAACAGGATTTGGCGGAAGGAAAGGCGTTGGCGACGCAGGATATTTTGTCTCACATGCTTCTCACGTGCGATGAGAATGGTGTGTACATGAACGAATCAGATATCACCGATAAGATTCTTGGGTTGTTGATCGGCGGCCATGACACTGCCAGTGTCGCATGCACCTTCATCGTTAAGTTCCTCGCTGAGCTTCCTCATATCTACGATGCTGTATATACAGAGCAAATGGAAATAGCAAGAGCAAAAGCGGAAGGGGAAACGTTGAAGTGGGAAGACATTAAGAAGATGAAATATTCATGGAATGTGGCCTGTGAGGTTCTAAGACTTGCTTCCCCACTCCAAGGTGCCTTTAGGGAAGCCTTAAATGACTTCGTTTTTAATGGTTTCTTCATTCCCAAGGGTTGGAAGTTATATTGGAGTGCAAACTCGACACACAAAAACCCCGAGTACTTCCCGGAACCTTATAAGTTCGAGCCGGGAAGATTTGAAGGAAATGGACCATTGCCCTACACATTTGTGCCGTTTGGGGGAGGGCCAAGGATGTGCCCCGGAAAGGAGTATGCAAAGCTTGAGATTTTGGTGTTTATGCATAATTTGGTGAAGAGATTCAAATGGACAAAGCTACTTGAAAATGAAAACATCATTGTTAACCCAATGCCAATCCCTCAAAAAGGTCTCCCAGTTCGCCTTTTTCCTCATCAACCTCTTTCTCTTTAATTTACCCTAAATAATAATTCCCATAAATATAATATAATATACTCTTTTATTTCAAGTACTCTTCCTCTTATTATATGTTATCAATAAATTTTTCATACATTG ATGGAGCATTTCCTCATTTCTCTCTTAATCCTCTTGTTCTTCTTTCTTTCTCTTACTCTCTTTATCCTCTTCCACAATCACAAATCCTTGTTCTCTTATCCCAACACTCCTCCCGGTGCCATCGGCCTTCCCATACTCGGCGAGAGCCTCGAGTTCTTATCATCAGGTTGGAGAGGCCATCCTGAGAAGTTCATCTTCGATCGTTTGAACAAGTACAAGTCAGATGTGTTCAAAACCTCGATCGTGGGCGTTCCAGCTGCCATTTTCTGCGGCCCTATTTGTAACAAATTCCTCTTCTCTAACGAGAACAAACTGGTTACTCCTTGGTGGCCAGATTCCGTGAACAAGATCTTCCCCTCTACAACTCAGACTAGCTCCAAAGAAGAAGCTAAGAAACTCAAGAAACTCCTTCCGCAATTCCTTAAACCCGAAGCGCTTCAGCGTTATATTGGAATTATGGACGAACTTGCAGAACGCCATTTCAATTCCTTTTGGAAGAACAGAGAAGAGGTCCTCGTGTTTCCTCTTGCTAAAAGCTTCACTTTCTCACTAGCGTGCCGATTGTTCATGAGCGTGGAAGATGAAATCCATGTGGAGAGACTATCGGGACCATTCGAGCACATTGCAGCAGGAATCATATCGATGCCGATCGATTTACCAGGAACGCCGTTCAATAGAGCAATAAAGGCGTCAAAGTTCATCAGAAAGGAAGTGGTGGCGATCGTGAGGCAGAGGAAACAGGATTTGGCGGAAGGAAAGGCGTTGGCGACGCAGGATATTTTGTCTCACATGCTTCTCACGTGCGATGAGAATGGTGTGTACATGAACGAATCAGATATCACCGATAAGATTCTTGGGTTGTTGATCGGCGGCCATGACACTGCCAGTGTCGCATGCACCTTCATCGTTAAGTTCCTCGCTGAGCTTCCTCATATCTACGATGCTGTATATACAGAGCAAATGGAAATAGCAAGAGCAAAAGCGGAAGGGGAAACGTTGAAGTGGGAAGACATTAAGAAGATGAAATATTCATGGAATGTGGCCTGTGAGGTTCTAAGACTTGCTTCCCCACTCCAAGGTGCCTTTAGGGAAGCCTTAAATGACTTCGTTTTTAATGGTTTCTTCATTCCCAAGGGTTGGAAGTTATATTGGAGTGCAAACTCGACACACAAAAACCCCGAGTACTTCCCGGAACCTTATAAGTTCGAGCCGGGAAGATTTGAAGGAAATGGACCATTGCCCTACACATTTGTGCCGTTTGGGGGAGGGCCAAGGATGTGCCCCGGAAAGGAGTATGCAAAGCTTGAGATTTTGGTGTTTATGCATAATTTGGTGAAGAGATTCAAATGGACAAAGCTACTTGAAAATGAAAACATCATTGTTAACCCAATGCCAATCCCTCAAAAAGGTCTCCCAGTTCGCCTTTTTCCTCATCAACCTCTTTCTCTTTAA MEHFLISLLILLFFFLSLTLFILFHNHKSLFSYPNTPPGAIGLPILGESLEFLSSGWRGHPEKFIFDRLNKYKSDVFKTSIVGVPAAIFCGPICNKFLFSNENKLVTPWWPDSVNKIFPSTTQTSSKEEAKKLKKLLPQFLKPEALQRYIGIMDELAERHFNSFWKNREEVLVFPLAKSFTFSLACRLFMSVEDEIHVERLSGPFEHIAAGIISMPIDLPGTPFNRAIKASKFIRKEVVAIVRQRKQDLAEGKALATQDILSHMLLTCDENGVYMNESDITDKILGLLIGGHDTASVACTFIVKFLAELPHIYDAVYTEQMEIARAKAEGETLKWEDIKKMKYSWNVACEVLRLASPLQGAFREALNDFVFNGFFIPKGWKLYWSANSTHKNPEYFPEPYKFEPGRFEGNGPLPYTFVPFGGGPRMCPGKEYAKLEILVFMHNLVKRFKWTKLLENENIIVNPMPIPQKGLPVRLFPHQPLSL
BLAST of MELO3C010002.2 vs. NCBI nr
Match: XP_008443638.1 (PREDICTED: beta-amyrin 28-oxidase [Cucumis melo]) HSP 1 Score: 988.4 bits (2554), Expect = 8.5e-285 Identity = 483/483 (100.00%), Postives = 483/483 (100.00%), Query Frame = 0
BLAST of MELO3C010002.2 vs. NCBI nr
Match: XP_004139087.1 (PREDICTED: beta-amyrin 28-oxidase [Cucumis sativus] >KGN66615.1 hypothetical protein Csa_1G649550 [Cucumis sativus]) HSP 1 Score: 976.1 bits (2522), Expect = 4.4e-281 Identity = 475/483 (98.34%), Postives = 482/483 (99.79%), Query Frame = 0
BLAST of MELO3C010002.2 vs. NCBI nr
Match: XP_022987538.1 (beta-amyrin 28-oxidase [Cucurbita maxima]) HSP 1 Score: 848.6 bits (2191), Expect = 1.1e-242 Identity = 410/485 (84.54%), Postives = 446/485 (91.96%), Query Frame = 0
BLAST of MELO3C010002.2 vs. NCBI nr
Match: XP_023516848.1 (beta-amyrin 28-oxidase [Cucurbita pepo subsp. pepo]) HSP 1 Score: 844.7 bits (2181), Expect = 1.5e-241 Identity = 404/483 (83.64%), Postives = 443/483 (91.72%), Query Frame = 0
BLAST of MELO3C010002.2 vs. NCBI nr
Match: XP_022960871.1 (beta-amyrin 28-oxidase [Cucurbita moschata]) HSP 1 Score: 839.7 bits (2168), Expect = 4.9e-240 Identity = 403/483 (83.44%), Postives = 439/483 (90.89%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TAIR10
Match: AT5G36110.1 (cytochrome P450, family 716, subfamily A, polypeptide 1) HSP 1 Score: 637.5 bits (1643), Expect = 6.7e-183 Identity = 300/478 (62.76%), Postives = 371/478 (77.62%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TAIR10
Match: AT5G36140.1 (cytochrome P450, family 716, subfamily A, polypeptide 2) HSP 1 Score: 361.3 bits (926), Expect = 9.3e-100 Identity = 178/318 (55.97%), Postives = 231/318 (72.64%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TAIR10
Match: AT2G42850.1 (cytochrome P450, family 718) HSP 1 Score: 276.9 bits (707), Expect = 2.3e-74 Identity = 152/443 (34.31%), Postives = 247/443 (55.76%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TAIR10
Match: AT5G45340.1 (cytochrome P450, family 707, subfamily A, polypeptide 3) HSP 1 Score: 255.8 bits (652), Expect = 5.5e-68 Identity = 153/462 (33.12%), Postives = 248/462 (53.68%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TAIR10
Match: AT3G19270.1 (cytochrome P450, family 707, subfamily A, polypeptide 4) HSP 1 Score: 246.5 bits (628), Expect = 3.3e-65 Identity = 155/475 (32.63%), Postives = 236/475 (49.68%), Query Frame = 0
BLAST of MELO3C010002.2 vs. Swiss-Prot
Match: sp|F6H9N6|C7A15_VITVI (Beta-amyrin 28-monooxygenase OS=Vitis vinifera OX=29760 GN=CYP716A15 PE=1 SV=1) HSP 1 Score: 731.5 bits (1887), Expect = 6.1e-210 Identity = 344/480 (71.67%), Postives = 408/480 (85.00%), Query Frame = 0
BLAST of MELO3C010002.2 vs. Swiss-Prot
Match: sp|A5BFI4|C7A17_VITVI (Beta-amyrin 28-monooxygenase OS=Vitis vinifera OX=29760 GN=CYP716A17 PE=1 SV=2) HSP 1 Score: 729.6 bits (1882), Expect = 2.3e-209 Identity = 345/480 (71.88%), Postives = 407/480 (84.79%), Query Frame = 0
BLAST of MELO3C010002.2 vs. Swiss-Prot
Match: sp|Q2MJ20|C7A12_MEDTR (Beta-amyrin 28-monooxygenase OS=Medicago truncatula OX=3880 GN=CYP716A12 PE=1 SV=1) HSP 1 Score: 716.8 bits (1849), Expect = 1.6e-205 Identity = 341/478 (71.34%), Postives = 400/478 (83.68%), Query Frame = 0
BLAST of MELO3C010002.2 vs. Swiss-Prot
Match: sp|I7C6E8|C7A52_PANGI (Beta-amyrin 28-monooxygenase OS=Panax ginseng OX=4054 PE=1 SV=1) HSP 1 Score: 709.9 bits (1831), Expect = 1.9e-203 Identity = 340/481 (70.69%), Postives = 398/481 (82.74%), Query Frame = 0
BLAST of MELO3C010002.2 vs. Swiss-Prot
Match: sp|Q9LVY7|C7161_ARATH (Cytochrome P450 716A1 OS=Arabidopsis thaliana OX=3702 GN=CYP716A1 PE=3 SV=1) HSP 1 Score: 637.5 bits (1643), Expect = 1.2e-181 Identity = 300/478 (62.76%), Postives = 371/478 (77.62%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TrEMBL
Match: tr|A0A1S3B8H4|A0A1S3B8H4_CUCME (beta-amyrin 28-oxidase OS=Cucumis melo OX=3656 GN=LOC103487187 PE=3 SV=1) HSP 1 Score: 988.4 bits (2554), Expect = 5.6e-285 Identity = 483/483 (100.00%), Postives = 483/483 (100.00%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TrEMBL
Match: tr|A0A0A0LXN3|A0A0A0LXN3_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G649550 PE=3 SV=1) HSP 1 Score: 976.1 bits (2522), Expect = 2.9e-281 Identity = 475/483 (98.34%), Postives = 482/483 (99.79%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TrEMBL
Match: tr|A0A2I4EH28|A0A2I4EH28_9ROSI (beta-amyrin 28-oxidase-like OS=Juglans regia OX=51240 GN=LOC108989520 PE=3 SV=1) HSP 1 Score: 771.9 bits (1992), Expect = 8.3e-220 Identity = 358/479 (74.74%), Postives = 418/479 (87.27%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TrEMBL
Match: tr|A0A061GRY3|A0A061GRY3_THECC (Cytochrome P450 OS=Theobroma cacao OX=3641 GN=TCM_039935 PE=3 SV=1) HSP 1 Score: 770.4 bits (1988), Expect = 2.4e-219 Identity = 363/479 (75.78%), Postives = 418/479 (87.27%), Query Frame = 0
BLAST of MELO3C010002.2 vs. TrEMBL
Match: tr|A0A1Z2WUZ8|A0A1Z2WUZ8_9FABA (Cytochrome P450 CYP716A249 OS=Polygala tenuifolia OX=355332 PE=2 SV=1) HSP 1 Score: 768.5 bits (1983), Expect = 9.2e-219 Identity = 355/475 (74.74%), Postives = 418/475 (88.00%), Query Frame = 0
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.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of melon v3.6.1
Date Performed: 2018-09-25
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:
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