![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
Sed0015193 (gene) Chayote v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GCGGGATTTTTATTTTTCCTTCTTTCCCTTCGGCACGCGAACTGGAAAGAAGGGAAAACCAAACCGGAGACGAACCAACTGCGACGAAAGATTTCAGCCAATTCCAAAGCTCACTCAGCCTCATCCATGGCGATTAGGGTTTCTCAATTCACGTCTCACTGAAATCTTTGCCCTATATTCAGCTTCCTTCGTTCCTTCTTTTCGCCGTCTCGGAAACCCTAATTCTTCATGCAACGATTTCCGTTGCTGCTCACTCCACTTCAAGATTGTCGTTGAAGTTGAGTCGGTTTTGGTGTAGTTGACATGGGCGCGCCTGATAGATCCCCGGCGACCTCCAATTCTATGCAGGTTAGTTGTTTTTTGTTACAGTACTAGGCGCGGACTTCTGATTCAACTTGTGATTTTTGTGGCTGAGTTTGTTTCTATTTGTTTATGTAATTGATACTGCGTATGTACGTTTTTTATGGAATTTTGTTCTGTGGAGAGTTTGTGTTCGAGTGTCGATTGGGCATTTGTGGAAATTTAACTTGCTCTGCAACCCGGAATTTATTTCTCAAAATAGTACGAACTATGAAGCGATTTTTTTTTTTTTTTTTTTTTTTTAATTACTTACTCTAGATTATGATTGCGCTGAATTTGGTATTAAGACGATTCTGCCTACTTTAGGATGAAGGGAGGTGATATTCCAGCTTATAAGGTGCCTTCCCCCTTTAACACCTTCTCCTGTTCAATGAAAGTAATTTTTTTGTTCTAATGTTTGGGTAGGTTTTAATTTTTTTGAGAAGACAAAGCAAATATGGTGGGATTCTGCATAAAAATAAACTAGACCAAGGCCAACTTGCTCTCTTTAGGCTAACCTGAGCACAATTCAACTGGTTGAGGGATTTATCCTTGACCAACTGGTTTCGGGCTCCTCCCACATGTTCAACTCAAAACTTGTCTCCTTCAAAAAGTCGCGCTTCTCCATTTGAAAGTTATATCACCCCCACACCATTGGATTCCAAAATCCAGCTTTATTCAGGCCAGTGTTTTAAAAGGCACGCCTTGGCTCAAGTCCCACCTCTAGCGCCTCACTTCTCCCAGGCAAGGTGGGTGTAATATGGTGCGCGCCTTACGTGAAGCCCTGGACGCCAAAAGGCATGCGCCCTTTGGGATTTTTTATTTTCTTTGCAATTTTTGTGTTTTAGATCCCCGTACTAGGCCATTCGAAGCGCGCGAAGGTTGATAGTTTATTATTATGTATGTTTTATACATTATTCTTGATTAAAACTTCATTTATGTCCATGAAAAGTGTTTTTATTGTGTATACACGCATATACATATTTGTTTTGTGTTTTTTTATATAGTGTGCCTTAAGTACAAAAGCCCTCGCCTTTTGGTGCGCCTTGCGCCTGAGGCTCCAGAGGCCCTTGCGCCTTAGTGCGCCTTGCGCTTTTTAAAACACTGATTCAGGCTCGGGGCTTCCACTATTGGTCATTACAAGTTAGGACACCAACAATCTCCCTAGTTTGCAAGATATCTAGCTGCTTCTGGTTCACCTTGTGCTGGTCAATATTTTTCTTACATACTATTCTTACAACTTCTCTGCTTAGTTTCTCTCAGTGGATTATTTCATGCATTCAGATTGTCCATTTAATTGACTTGTCAAATACTGACTGGATTTAAGAACATTTCGGTCCCTTAGAGAAGTCCAAACTCACTTTTGTAATTTTAAATTTCATATGTTGTAAGAGATTGTACTTGCACTTATTGTTTACAACCTCAAATTTCAGCGTGTCAAAGTATATCGTTTGAATGATGATGGAAAATGGGATGATCAAGGAACAGGGCATGTTACTGTGGACTATATTGAGGTTTGTGACTGAATTTTCCCTCTTTTCTTTGTTTTAGATTTAGATAGGAAAGAAAAATTAATTGAAAAGAGGTTGTGCAGTCTAGTTAACACGATCTTCACTGATATGAATGTTAATTTAATTGTACTCAGAGATCGGAGGAGTTGGGATTGTGCGTTGTTGATGAAGAAGACAATGAGACTCTACTTCTACATCGTATTAGTTCAGATGACATTTACAGAAAGCAAGAAGGTTTTTCTTTATTTTCTTGTAAACTTTTAGCAGTCTCATCAGCATGAATCTTCTTTTTAATGTGTTCATTTTTTAAATTTCTGGTTTATATTGACTTTTGAAGTACTAACAAAGCCAGCTACTTAAATTTGCAGATACCATAATCTCTTGGAGGGATCCAGAATATTCTACAGAGTTAGCTCTTAGCTTTCAAGAGACAACTGGATGTTCATACATATGGTAACTATTGAAGATTTACCAGTCACTCTCTAATGTCTTGTCCCATGACAGGCTAACTGAAAGCTGGTTTTATTATTTAGGGATCACATCTGCAATGCCCAAAGGAATCTCCATTTCAATTCTCTCAACAGTAAGTACCCAATTATTTGAAGCCTTTTCTGAGGTGATTTCTAGCTTTGAGTAGGAACCTTTCTTTGAACTTAGTACCAGTAGGAAGCTATAAATAGGGAAGGGCTATGTTGAGGTTGACGTGCCATTTGCCAAAAATCAAAACATAAATCTCTGTTGAGGGTTGCTGTTACTAAGGCTTCAAAATATGATGTATACCTTTGACCTATGCAGGTTCAAAGAGAAAATTGTATTTCTGTTGAATGAAAACTTTAATCTGTTTGGTAGTGTATGGTTTGATCTTTTTTTTTTTGCATAATTTATGACTATAGTTTAAATAGTTTGTCAAAGAAATAACGTTCAGTAGTTTTCTCTTTCCATTTCTTCTAACCAAATATCTGTCAATAATTTGAATGTCATGATAACCAAACTACAAGATAAACACTAATGTATTTCAGTTTAAGTAGTAGCTTTCCTAATTAATGAACAACACTCCTCCATTGATTCTGACCTCATACTCTCTGATTCTCCTCTGAAAGTTCTTGTCTGCTTCATCATCTCAATTCACTGGTGTTGTTTGTTTTTCCATATTTTATATTTATTCTCTCCCCCGGTGGCTTTTGCCTTTTCTTCTATTTGGAAGGTAGAAATCCCCAAGAAAGTTAAATTCCTTGTTTGGTAGGTTTTGCATGAGAGAGTGAACACTTTAGAGCGTAACTAGAGACACTTCTTTTGTGTCGTGTTCGCAATGGCGTGCCCATTGTAGGCAACATGAGGAGGATATTGAACATTTATTGTGGGGTTCCCAATTCACCTATCTATGTTCAATTCTTAAGATTGTTCAAGCTTTTTTTGACTCGTATAGAAAACTGCTACTCCGTGATTAACTAAGTGCTTCTGAACCCTTCCTTTGCAGGGCAAGATCATGTGGCATGTTTTCTTTTTTTGGTCTATTCTATGTGGTGTTTTTTTCGTAAGAGGAGTTATATGATTTTAGAGGGATTTAGAGATCATGGGAGGAGGTTCCTAGATTTAATGCATATTTATGGGCATTTGTAATTACCATCTTGGTCTCATCCTATCGGATGGGAGTTCATTCTTGAAGTTAGCATTTAGACTCCTTGCGGGCATTTTTATTCTTCTCAATGAAAGCTCAGGTTCTTACCATGAAAAAAAATTGTTCCCATGGCTAATTTATAAACTGAAGTTACATTTATTTTTGCAAATATTAGTTTTAAATAGTTCTTTGATTCCATTCTATATGACCAGATGATACGTTCCACAGCATGAACAGTGAGTTGAGGGAGCTGCCTGCAATTGAGCTTTCAACATTGCCACTAATACTTAAGGTTAGTATGAACGTACCAATAGAAAAATAGAAACCATGTTTAATTAAATAAGAAACAAACTTTCATTAACATGATGAAAGGAGTCTAATATGCTCAAGAACACAAACTTCCAAGAAAGTGAAACATAAAAACAGAAACAAACCGAGGAGACAATATAAACAGAATGTAAAATTCAAAAAGGGGAAAAAGCACTAAGAGGGAGTTATAAAAGCATCCCAATAAAAAAAAAAGTTTCCTGCTAAGAGTATGATACGATCCGGACCTTGGAGTTTTTAGGAATATTAGTATTAGTATTTATTATTGATTAATTAATTGTTATTTCAATTGTATTGGGCTTTTGGGCCTTATTAGAGATTATTATTCAATTAGGTTATTTTGGGGTGTACTTGGGGAGCAAGTAAAAGGCTAGGGTTTAGAGTTATTATAAATAGGAGAGGTTAGGTCTTTGTTATTCATCGATTGAATTTTCGTCATTGTACTTTGGCTCTTTGTGAGATCCTCTCGAGAGAATTATCGTAGTTTAATAAAAAGTGTGGTAGATTCTATCATTTTGGTATCAGAGCCGTTTACCGATCCGGGATTGGTCTCGACTAAGATGGAAACGAGGATGCGAAGTTGGGAAGATAGTTCAGTCGAATTAACGAAGAAACAACGGGAAACAGAGGCACGGTTAGAGTCGTTGGAAGAACGATTAGGGAAAAAGATTGATTTGAAATTCGAACAACAAGATGCGAAACTGGAATCAAAACTCGAACAGATGAATCGGAACATCCAGATGTTGTTAGAACGCACTTCGGGACTGCCGGTTGTCGAATCAAATCCGTTGGTCAAAGGAAAAGGAATCGCGAGTGAAACCCTAGGGCAAGGAGAAGTGCGCCGGCCGGGCGGCTAGGGTCGCCGAGGGGACGCCGCGGGGTCGGTCCAGATCGTGGCCCAGGGCGAGTGGGGTGGGCTCGGTCGGAGGCGAGGGCTCAATCGCGGGCGTGGGGTACGTCGCAGGGCACGGGGGCAGCGACGCAGGTCGCGGGGGCTGGGGCCTCGGCGCGGGCTCGGGAGGGGCCGATTGGGGTGCAGGAGGGGGCGACACGGGCTGGGGCGTGGGTGCGGGAACGGACGGGGCTGGGCGAAGGTCAGGCGAAGGGGGCTGGCACGGGGATGGGCGTGGTGCGCGCGCCGGGCTGGGCAGAGGTGGTCGAGGCTCGGGAGGGGGTGTGGGCTGGCACGCGGGTGAGCGGGGCGCAAGCGCCGGGCTGGGCGGTGAGGGGCGCGGGGAGACCGGGTCGGAGTGGGCTAACTGGATCGGGTGGGTCCGGGCTAGTCGGGTTGGACCAGAGAGATGGGTTCCAAGGGCCTGGGGACGGGGAAAGGTTTCCAGGGCCGGACATCGATCGAAGGGAGGACCCACGGTTTGACGGAAGGGGGAACGGTTTCCCAGAAGATAGGAGGGTGCGCAATGGTTACGACAAACCGATAGCACATGACGGTTGGAATGATCGAGGCTGAAATTGGGTTAACGATTTACCGGGACCGGAGTTCGGCCAAAGGGGAGATCCAAGGGTCGTGGGGAGAGAAAACAGGGTTCTGGAGGAGAGGAGGTTGCGCATGGGCTATGATAGGTCGTTGGCGCATGACGGTTGGAACGATAGGGGGTGGAATGACAATGTCCGAAATAGGGGACGAGATTTCGGGTGGGGAGGAGAAGGAAGACTCGAACGGGGAAGTCAGAGAGTAGGAGGAAGGGAGGGACCGGGATGTGACAGGAGATTCGGAAATTGGAGATCTTTGGTTTTCAAGGGTCTTCTTGACGAGGATCCGTGGGATGGTTAAGTCGGGTCGAGCGTTATTTCTGTAAAACAAGTGATCAATATGAAGGGGTTGAGGCGGCGGGTTATGTTTAGAAGGGGAGGCATTGGAGTGGCTTCAGTAGGAGGAGGATCGTGCTCCTTTTCGTTCTTGGAACGAATTCAAAGATGGGTTGTTGGAGCGTTTCCAACCGACAGCTCAGGCAAATAAGTGTGCCAACTTCATGAGTTTGAAGCAAATAGGTACGGTGAAGGAATATCGCTGGAGTTTTGAGCGATTTGCTAAGGGAATGCGCGATATCAGTGTGAGTGCATTGGAGGGGAAGTGGGAAAGTGGACTAAAAGAGGAGATACAGAGCGCGATGCGTAAACTGCGGCCAGTGGGCATCGAAGAGAAAATGTTTATGGCCCAAGTGATTGAGGATGATTTTGCTTTTCAGGCTACCCAAAATGAGGGAAGTACTTTTGCAACGGTCAAGGCTAAAGCAGGAACGATTGTTTCGGGACCTGGAAGCACAAAGACTCTTTCTCACAGGACTACAACCATTCACCCGGCGTCCTATAAAAAACTCACTGAAGCCGAAATTCGAGCACGGAAGGATAAAGGGTTATGCTTCCGTTGTGATGAACGATTTGTCCCAGGACATCGTTGTCAGAAGAAAGAGCTTCAGAATTTGGATGTGTGAGTTGTTCGGGATGCGCACGATTACCAGGATGTTGAGGTGACTGACTTTTTGCCAGAAGATGGAGCTGCAGAAGGTGGCATCGGAGATGGAACACCTTGAGGACAAGGTGGCTCTTGGGGGGAAGTATTGATACGATCCGGACCTTGGAGTTTTTAGGAATATTAGTATTAGTATTTATTATTGATTAATTAATTGTATTGGGCTTTTGGGCCTTATTAGAGATTATTATTCAATTAGGTTATTTTGGGAACTTGGGGAGCAAGTAAAAGGCTAGGGTTTAGAGTTATTATAAATAGGAGAGGTCAGGTCTTTGTTATTCATCGATTGAATTGTCGTCATTGTACTTTGGCTCTTTGAGAGATCCTCTCGAGAGAATTATCGTAGTTTAAAACAAGTGTGGTAGATTCTATCAGAGTAATTAGAAAAAGCCTGTGAGAAAGAGCACCAAGAAGAGGCCTATAAAATAGCACTGAGAGGGATTTGAAAGATCCTTTGGTTTCTTTCCCACCAAAGCTCATATAAAATAACCTTCATGTCATTTACTCAAAGGTGACTAGATTTCTTGCCAAGATAGGACCAATCAGGAGGTGCAGAATGTTATCCAAAACGTTATTTGGAAAGACCCAGTTCTAGTTGAAATTATCGAAGAGTTTCAACAAAATTTTGAATAGGAGCAATCAAACAGAACATGGAAGGAGTCTTCAGCCGAGAAACACAGAAAATAAATGGTAGGCATGAGACAATTATTGGGAAGCTTGACTGTAATACATTGGATTAGTTAAGTTTTCCATTCAACTAGATCCACAGTAAAATGTTAACTTCCTTAGGCTTTTTGACTTCTATAGTGCTGAATAAAAAGAGATGTCCACTGGAGGTGACAAGGATAAAAAATCAGTCTAAGACGAGACTGAAAATTTACCTGAAGTTTCAATAGGCCAGGTTCTGGAATCTGGTGCAAAGCTTGGGAAACAGCTGACATACGCAAAAGAAGATGCTGAAAATCATCAATTTCATTGTCTTTAAAAGGTCTTCTAAACATTATGTTCAAAGACATTATGGCATTTCAACAAACTGAAACTGATCCTTCTGTAACCAATGCAATGGAGTATAACCGAGGAAAAGGTCTTATAGGTTTGAAGTGTCAAGCCAAGGGTCCTGCCAAAAAAACTTTCCTACCATTTCCAAGTTTAAACAAAGCAAGGTGTTTCACACTCTTCAAATATTTATAAAGGTTCATGTAGGGGGTTCTCATGCTAGATTTAGATCTCCCTGATGTGTGCCGACCAAATAAATTAGAGCCACAGATACTTGCCATAAGCCAAAACTTACATGTTCAATTTCTATGGATACTAACTATTTTCTTATTGATAAAGAACAAGCTTTCATTGAGAAGAATGAAGGAGCATGTCTACCTTTTAATGAAGAACATGAACGAACATGTTTTATAAAACAGTTAGTCAATTTAGAAAATTGTTTTTGAAACTACCCAAGCCTGTCAACCTTTTAATAATCGAATACAAGAGCATGCTTTTGTAGATTTTTTTTTCTTGAAAACATAAAAAAAAAAAAAAATTGACTCTAAAATAATTTCTCTCTCTGCAAGTGCACCCTCAAAGAAAACATATCACAATCTAAAAAAATTGATTCTCAAAGTGGTTAGCTTCTAAAATAAATACCGTTCCTGCTTCCCTGGTTTAATTTTTTTTTTTTTTGATTTTTTGGATGTGGACTGGCTTTCATATTAATTGATACATTTTGTTTAGATTGTTGTTGAAAGTGGCATTACGGATCAGGTGCGGTTAGTGGAACTCCTAGTTGCCAATGTAAGATTTCAACAACTTTGTGATTTTCATGTAAATTTGTGTTCTCTTATGACTTGCGTGAAATCTTTATCTTTGTAGGAACAATAATGAGTGTTTTGACTGACATTTTTTCCTAAATGCAGCAAGATTTTTTCAAAAAGATGATGGACATATTTCATATCTGTGAAGACTTGGAAAATCTGGACGGCCTTCACATGATACATAAAATAGTCAGAGGAATCAGTTAATACTTTTTTCTGGTCCTATTTACTACTATTACCAGCAATTTGTTTATGTTTTTTTTAATATTTATTTCTTGTGTAAAAATGCAGTCCAGCTGAATAGCTCACAGGTTTTTGAGAAAATATTTGGAGATGAATTAATCATGGATATCATTGGTTCTCTTGAATGTAAGATTTGTTATTATTTCAATGGATGATAATTCATAACTGTTTCTTTATCTTCAAACCAGAAATATGTTGCTTTCTTGTGGGTATTTACTAGGGTATGAATGTTTCCTATAAAAAAAAGATACACATTGTGAACTCTGTACTTGTAGGCTAATTTGGAAGGTACTTTTTTGTAGAGCTTTCTCGGCGTGGGTTGACGATTTCTATACTCTCTTTTATTTATTTATTTGTTTTTATGTTCTTGTTTTGTTGAGTGAAAAGTGGGCTTTGCTAATATCTCTTCCTATATATATTGTTCTTCCCTGCCTATATGATATAAGTTTTGGGACTACTCTCAATGACTGTACTACTTTTTATGTGATTGCCAGACGATCCAGAGGTACCTCATGTCGAGCATCATCGTAACTTTTTAAAGGAGCACGTCATTTTCAAAGAGGTAATGCTATTTCCTAGCTATATATATATATATAATAGTGAGAGCGAGGTAATGCTATTTCTTAGCTATCTATATATATAAGAGTGAGAGTGAGGTAATGCTAGTTCTTTGCTGTTTATATTTAAGAGAGAGCGAACAACAGTTGGCTGCGGGGTCTCATTATGTAGTCTTGTAGAGGCTTATACTTGTATGTTAAATATTTATTCACTTTCACTTTTGTAGGCCATGCCTATTAAGGATCCATTGGTCTTGTCCAAGATACACCAAACTTACAGAGTTGGCTATCTTAAGGTTTGGATTTTTAATTGATGCAATTTCTCTATCTTTTGCGCTACTCGATAATGTGCTGTTACCTTGGATTGCTTTGCTAGGATGTTGTATTGGCTAGAGTATTGGATGAGTCCACAATTGCAAATCTAAATTCCATTATCCATGCAAACAATGCGCTGGTAGGTTCCTGAAATTATGTGATTGTTTTTTACCTTATGTGTACACACTCTAACATCAGGTTTCATTGTAGGTTGTTTCTTTGTTAAAGGATGACAGTACATTTATTCAGGAGTTGTTCGTCAGGTTAAAATTGCCCACAACCTCTGAAGAATCTAAGAAGAATTTGGTACTTTTTCGCCCCAAGCATTGTCTTTTCCGTTGCTATATTGTGGCTCTTGTGTGCTTTAGTTCAATCTATGAATTTCTCATTTTATTTGATAGTATTATTTGAATGCTTTGTCATGGTGTAAGGTCTCCCCTCTCTTTAATCTTTATTCTCTTTCAACCCTCATATCTAATTGGAAGGATCTATTGTAATCATCTCCTTTGGGGCGACACCTTCTTTTGTAATTTCATACATCAATGAAATTGTTTCTTATCCAATTTTTTTTTTCTTGAGGTATATTTTGAGTCTATTTGAAATGACGTGCTCTTCATTGTGTTAGGTGCATTTTTTGCACGAGTTTTGCAGTTTAAGTAAAAATTTGCAGATGGTTCAGCAGCTACGTCTATTTAGGTAACCTTCCGCATGGTATACTATTATTTTTTCTTTTGAAAATGATCAAAGCCAACAACGTAGAATATTTTTCTATTTTAATTCAAGATGCTGATAACTAGTTCTGTTTTCTCAAGGCTTCTCATTGAGTTGTTTCGAATGGAAAATCTGCAGGGATCTTATGAATGAGGGGATTTTTGATGTCATTGCAGATGTATTACAAAGTTCAGATAAAAAGTTTGTGTTAACTGGGTAATGACTACCTTCCAATTAAATCTTTTGTATTGTTTGAGTGCGTTTTTATAAAACAATATATTTAGAATTGTGAACCGTTTTACAAATCTATGTTTAAGAGGGAAATTTTATATTGCCCTCCTATTTGTACTACTCATTGCAATTTTCTTTGGTTCTTAAAAAAGAACACTTGAAGGGTTTTATTTCACAATTCTATCAAAAACATTTTAAGAATCAGCAATTCAATTTGTTTGTGTTTCCTATCAAAAACATTTTCCATTCTATCAAAAACATTTTATGAAAGTTTGTGTTTCCTATAAAAAAAAACATTTTAAGAATCAGCAATTCAATTTGGGTTCTTGCAAAAAGCAAAAGTTCGTCTTAAGAATCTAGCAGACTATTCTTTACTCCATTTTAGATCAACATACCTGTCTTCTGTTTTGCTCCTTCTATTTTTATTTCAATCACTGTGTAGGCATCTCAGTAAGGCATTGTTTGATGGGTGCAGGACAGATATCCTTATTCTTTTCTTGAATCAAGATCCAAATCTTCTACGTTCTTATGTTGGTAGGAAAGAAGGGATTCCACTCCTAGGACTGTTGGTACGTATTTCTAATCAGCTATGATTGATTTGAACTTTTTTGTATTTGTAAATTAAAAGGAAAACTTTCATTAAGGAAAGTGAAATAAAAATACTTGTTAATGTCGACACTACAAAGGAGGAAAAGATGAGGTCCAGTTGGAAACAGCCCACGCAGAGGAGCCCAACCAAAAATACAAAGAAACAAGTATTTCAAGAAAAGGGCTCCTCGTTTTTTAAAAATAAATTTAACCTTGTTTGATTAGTGCTTATCTTCATATAATGGACAATATTCCGAAAGTGATGCAAGTGGAACATAGTAGAACCAGTGAGGCACTAACCACAAGTTATCCGATAAATGAATTATTAAGTCAGATTTTTTGACATTTAGTAACCCTTTTTTTAAGTTGAAATTTTAGCAGAGGGTTAAATCAGTGAGAACGATAACTTATTATTACTTGTAGGTTGAAGGCCTGATTACAGATTTTGGGGAGGCGATGCACTGCCAGTTTTTTGAAATCCTTCGATGTTTACTTGATTCCTACACACTCTCAGGAGCAGCCCAGGTTTGCTTAGCCATCTTTTTTCATCCATGTTTACTTTGGTTAAAAGTTTCAAAATGATCTCTTTTAGTTTAGTTCTATCTTTTATTTAGAATGTAGCTTTACTTGGGTCATCTCACTCTACTTTGTCCATACGTAGGTTGCATGCTTATAAAATGCTGTGATTATGAAGACCTGAACTGTACAATATTACAAGTAGAATCTAAGGCGGTTTTTAGAATTTAAAAAGTTATTTGATTTCTCACCTCCTAAGAAGTCGGAAAAGAGCTCTCGATACCCCCTACTCAAGAGGCCCTTGGCTTTGCCTTGCCTTGCCTTTGGATTGCGAATCCTTGAGGGATTCTAAAAGCCAATTACAATGACCTCATTTTATAAACGTTATTGCAAAGACCTCCTGCTCTATGCCTCATTATAGGACTTCTCACCTTGTCTTGGTTCCTAACTATAAAGTCCATGCTGTCTGTTTGTTTGTATTGGGTCATTTTTTAAAATTATTTTAGTTATATTAATGTCATTAATTGTTTATATGAGATGCAATCTATATTTATACTTGCACAGTTTCCACCTTGTCCACTATTTTTTTTTTTTGAAGAATCCACCAGGTCCACTTTACATTGACAGATTGACTGCAATATTGTGTTTTTGGTGTGACAGAGAGAAACTGTCGTTGAGGTATTCTACGAGAATCATTTGGGCCAATTAATTGATGTTATATCAGTTTCATGCCCTTCAGAAGGCCTTCATACATTGAGCAAGAAAATTGAACACTCTGGTGTATTAAAGAACCAGAGCTTAGTAAAGCCTGAAATACTATCCAACATTTGTGAACTTCTTTGCTTTTGTGTTCTCCACCATCCTTATAAAATAAAGTAATATTTTTTCCCTTCCTGATTATTTTGGAATTGAAGTTTATTTCAACCATAAAAGTTACTAATTTGTGCTATTTTCCATTCTGTTTTCAGGAGCAGCTTTCTCATGAATAATGTCATAGATAAAGTGTTGTTACTGACTCAAAGAAAGGAAAAGTATTTGGTTGTTGCAGCTGTTCGATTTGTTCGTACTATTTTAACTCGCCATGTAAGTTGAATCAGCCGTGAATAACATTCATCTTTTATTTCTTTTTTAATGGAAATTTGACTGATGAGATTATGGTCTTTTTCTTCTTCTCTCTACCTGGGGGAATTTTTTTTGAATTGTAATTACACTGAAATCACAGTTATGAGCGATCATGCCTTAAGTCATGTCTTTCCCTTCGGATTAAACGACAATAGTTGTTCTGTTACTAGTGGTCTTGTCTAATTTTCTATGTTTGAAATCAGTAAATGTACTGAATTATTTTCTGTCGATATGCAGGATGATGATCTGATAAGTTATTTTATCAAAAACAATCTTCTAAAACCAATTATAGATGCCTTCGCTGCTAATGGGAATCGTTACAATCTGCTCAACTCTGCTGTTTTAGATTTATTAGAGTATATCCGCAAGGTCTTCCATATTTCTTACTATACGTTTGTTCTTTGGTGATTTTGATTGAACATTGACTTAATGGTTGTGGTTGATGCAGGAAAATTTGAGATCCTTAGTTAAGTACATAGTCGATTCATTCCGGAATCAGTTGGTGCAGTTTGACTATTTGCCTTCAATCCAGTCTCTAAAAGTTAAATATGAGCAGGTATTTTCAAACTTTTCTTGAGATAATATCCTATTCTGATTTCTGCCTTCCAAAAACGGCTATTTTGTGTTTGACATCTCTATTTTCAGTGCCTAGATGAGCTTGGTACAAGAGGCACAACTAGTAATGTGTTAGATCCTAGAAAAATAATTGAGGAGCGTGCTTTAGAGAAAGAAGAGGACTATTTTAATGGAGAGAGGTAAGTATTGTTTCTCTAATTTAGGTTAAATAAAATACCTTTTTACCAATGCATTAAGCTGAAATGGTAATTTGTTTTTGATAGGAAACAATTTCTTTCTTTGATGTATTAAAAGTTACAAAATGGATAAAACCACAATAATTCATTAAGGGTAACATACAGAAGTCACAAAAGTTGCAAGATGTCAACTTAGAGATCTCTAATTCATTAATGAACTGGAGGAAATCTGTGACTTTTTTCTGCATTATATGCAACAGATTTTAGCGTAGTTATTCACATAAAATATTAAATCTGGCTGTTGTTAACTCGTTTCCAATCATCCTTAAAAAAATCATTTCCGTAGTGATGAAGAGGATACTGCAACTGCATCTGTTTCAAATGTACAAAAAGCACAATCTCCGTCTGCTCCATGTAATGGAGTTGCTGCAAGTCATCCTCCACCAAGGTACGGTAATTCGCTTTAACTAGAAAAATTTGATTACAAAAGCAGTTTTTAATTGTCCTTAACTCTTTACAGTCCTCTACCTGGTGGTGGACTTGTCGACTATGACGACGATGAAGATGAAGACTACAGGCCACCACCAAGAAAACAATCAGAAACAGTGGACGATGAAGATGAAGGAGCATTGCATACCCTCAGGTTGAAGCGGAAACCTATTCACAAGGATAAGGATGTTGAGAAGGTGAAAAAACAGCGACTGGGAAAACATCCCAAGGCGAAAGATGGCGTATTTGCTGCCTTGTGTTCAACACTTAGCCATACAATTCTGCCCAATAAGAATACAGTGACCTTCCAGCAGTCTAAGCCCCATTCAATAGATGGAAACAATATTTCAGATGAGGAGAGTCCGAAAGTGAAAGATCAGAATGCTTTAAGAAGCTCAACCGATGGTGACAGTAGTTTGGACGTGAAAAACCATCCATTAGATGGAAACGATAACGAGAGTTCGAAAGTGAAAGATCAGAGTGCTTTAAGAAGCTCAACCGATGGCAACAGTAGTTTGGACAAGGAAAACCATGCATTTGATGGAAACAATATTTCTGACGATGGGAGTCTGACTCTGAAAGATCAGAGTGCTTTAAGAATCTCAACCGATGGCGACGAGGAAAACCATGCACTTGATGGAAACGATCTGGACGTGAATCCAAAAGTGGAAGATCAGAATGCTTTAAGTAGCTCAATCGATGGCGACGAAGAAAACCATGCATTTGATAGAAACGATCTGGACGGGAATCCAAACGTGGAAGACCAGAATGTTTTAAGTAGCTCAACCGATGGCGACGAGGAAAACCATGCATTTGATGGAAACCATATTTCAGACGACTGGAATCCAAAAGTGAAAGATCAGAATGCTTCAAGTAGCTCAACCGATGGCGTCGAGGAAAACCATGCAGAAACGGCACCCATTTCTTCTAAAAAGGGCTCTGATCCATCGCTTAAACCTTCAGAAAATAGACAGTTGAATGGAGAAGAGTGTTCATTGATCCCTCCAAACTCCTCACCTAAAATGACTGTAAATGGATCGTAGCCGTAGGTTCTCTCTTCATGGCAGGGTGATTGCAATTTCCTTCAATTTTTGTTTGCCTTGTGAATATGCTTTCTGCAAAAAGGGACCCAGGCTAGTCTTGGATCGACAACTTCGAACCTGGAATGAATTGGCTTTGTGGCTTTTCCATCAAAAGGCAAGGGAGCTAATTGATGCCTGTATAATTACGTACTGACAGAATGGTGGATCGGTGGCTTCTCATGTAGCATTCGAGCGCTCGAACATCCTCACACCAGGTCTTTCTTTTATCGCTGCTTTAAGTTGAACAGTTGTTGGCATCAATTTTGTTATCTGATTTCAATCCTCTCTCCTTCATCCCAAACGTGAAAAGAGAAAGGGTGTATACAAATATTTATATCAATGTCATGCAGTAGATAGGACACGGTCACGGACACGAACACGCCCCTTGCGAAAACGACATGGATTTAATATTTTCATTGCTCATTCATTCGAGTATGATTCTGAAACAGATTTCTACTACTGGGTTGGGTTAAAATTTATCTTGATGTTCTACTGAGTTTAGGCTCTTGAAATTTAGACGCCTGTACAGCTGACTCTGAGTTCATTTACTGATGTGATGTTTTTTTCTTTTCTTATCTCTGCCTTTTGGGGGGTAGTTAGGGAGCTGTTCACCTGTCTTTTGAAGTTTCTTATTCATGTTAAATTGCAATGATCATTATTTTTAAGCCTTGCGATAAGGTTTGGATTTTGAACTGTGTGTTCTTTTCAAGGTCTCAATTTCGAGATTCACCTGTCACATTAATTTATAGACACTTTTTATATTTCTATTCTTTTGATGTGTCTCGGTGTCTGACTAAGGGATGGACGTAATTACTCTGAGTATAGTGGAGGGAGACTTTGATTTTTTTGTTTTAAAAAAAAAAGTTTTTAGCCTTCTGATATTTTTTTATAGTTGACATTCACACAAATCCTGCCATGGAATTATGTTGTGATATTTGAATGCCTTGGCTACTTACAGAACGTGAGAAAAAGAAAAATAATTTATTTATTTATTTTTATCTCTAGGGAGTCTTAGGATGGACGACCGAGGCAGCTGAGGATAGACCTAAGGGACGTGTCTGTTGCGTCGAGTCATGCAGTGTCTTTACATTACAGCTTTGAGTTGTACTGCACTTTGTTTTGCATGGACTATTGTAAAAGCTTAGCATTTAAACTGTTTTAGTTTTGAAACCAAGATCTTAGGACTTGTATGTTTTAACTGCCTAGATAAATTACTTGATTTGTTTGCAACCTGCCAGTTATCTGAAAAGTATATGAAATATCAAGGTGTAGGATTTCTTATGGTAATTTATACCGAAATTTTTACCAATTTTACATGTATTATAGTGGCATCTCGGGTTGACCTTACAGTTAAAAATCGGGATGTTAGATGGAGAATGACTCTCGAGTGCAAAGGCAGAAGAGAGTTTTTGCAAGGTCCATCAGTCAGAGCATGGACAAAAGTTTGTATTTGATGGTGTCAAGGGGA GCGGGATTTTTATTTTTCCTTCTTTCCCTTCGGCACGCGAACTGGAAAGAAGGGAAAACCAAACCGGAGACGAACCAACTGCGACGAAAGATTTCAGCCAATTCCAAAGCTCACTCAGCCTCATCCATGGCGATTAGGGTTTCTCAATTCACGTCTCACTGAAATCTTTGCCCTATATTCAGCTTCCTTCGTTCCTTCTTTTCGCCGTCTCGGAAACCCTAATTCTTCATGCAACGATTTCCGTTGCTGCTCACTCCACTTCAAGATTGTCGTTGAAGTTGAGTCGGTTTTGGTGTAGTTGACATGGGCGCGCCTGATAGATCCCCGGCGACCTCCAATTCTATGCAGCGTGTCAAAGTATATCGTTTGAATGATGATGGAAAATGGGATGATCAAGGAACAGGGCATGTTACTGTGGACTATATTGAGAGATCGGAGGAGTTGGGATTGTGCGTTGTTGATGAAGAAGACAATGAGACTCTACTTCTACATCGTATTAGTTCAGATGACATTTACAGAAAGCAAGAAGATACCATAATCTCTTGGAGGGATCCAGAATATTCTACAGAGTTAGCTCTTAGCTTTCAAGAGACAACTGGATGTTCATACATATGGGATCACATCTGCAATGCCCAAAGGAATCTCCATTTCAATTCTCTCAACAATGATACGTTCCACAGCATGAACAGTGAGTTGAGGGAGCTGCCTGCAATTGAGCTTTCAACATTGCCACTAATACTTAAGATTGTTGTTGAAAGTGGCATTACGGATCAGGTGCGGTTAGTGGAACTCCTAGTTGCCAATCAAGATTTTTTCAAAAAGATGATGGACATATTTCATATCTGTGAAGACTTGGAAAATCTGGACGGCCTTCACATGATACATAAAATAGTCAGAGGAATCATCCAGCTGAATAGCTCACAGGTTTTTGAGAAAATATTTGGAGATGAATTAATCATGGATATCATTGGTTCTCTTGAATACGATCCAGAGGTACCTCATGTCGAGCATCATCGTAACTTTTTAAAGGAGCACGTCATTTTCAAAGAGGCCATGCCTATTAAGGATCCATTGGTCTTGTCCAAGATACACCAAACTTACAGAGTTGGCTATCTTAAGGATGTTGTATTGGCTAGAGTATTGGATGAGTCCACAATTGCAAATCTAAATTCCATTATCCATGCAAACAATGCGCTGGTTGTTTCTTTGTTAAAGGATGACAGTACATTTATTCAGGAGTTGTTCGTCAGGTTAAAATTGCCCACAACCTCTGAAGAATCTAAGAAGAATTTGGTGCATTTTTTGCACGAGTTTTGCAGTTTAAGTAAAAATTTGCAGATGGTTCAGCAGCTACGTCTATTTAGGGATCTTATGAATGAGGGGATTTTTGATGTCATTGCAGATGTATTACAAAGTTCAGATAAAAAGTTTGTGTTAACTGGGACAGATATCCTTATTCTTTTCTTGAATCAAGATCCAAATCTTCTACGTTCTTATGTTGGTAGGAAAGAAGGGATTCCACTCCTAGGACTGTTGGTTGAAGGCCTGATTACAGATTTTGGGGAGGCGATGCACTGCCAGTTTTTTGAAATCCTTCGATGTTTACTTGATTCCTACACACTCTCAGGAGCAGCCCAGAGAGAAACTGTCGTTGAGGTATTCTACGAGAATCATTTGGGCCAATTAATTGATGTTATATCAGTTTCATGCCCTTCAGAAGGCCTTCATACATTGAGCAAGAAAATTGAACACTCTGGTGTATTAAAGAACCAGAGCTTAGTAAAGCCTGAAATACTATCCAACATTTGTGAACTTCTTTGCTTTTGTGTTCTCCACCATCCTTATAAAATAAAGAGCAGCTTTCTCATGAATAATGTCATAGATAAAGTGTTGTTACTGACTCAAAGAAAGGAAAAGTATTTGGTTGTTGCAGCTGTTCGATTTGTTCGTACTATTTTAACTCGCCATGATGATGATCTGATAAGTTATTTTATCAAAAACAATCTTCTAAAACCAATTATAGATGCCTTCGCTGCTAATGGGAATCGTTACAATCTGCTCAACTCTGCTGTTTTAGATTTATTAGAGTATATCCGCAAGGAAAATTTGAGATCCTTAGTTAAGTACATAGTCGATTCATTCCGGAATCAGTTGGTGCAGTTTGACTATTTGCCTTCAATCCAGTCTCTAAAAGTTAAATATGAGCAGTGCCTAGATGAGCTTGGTACAAGAGGCACAACTAGTAATGTGTTAGATCCTAGAAAAATAATTGAGGAGCGTGCTTTAGAGAAAGAAGAGGACTATTTTAATGGAGAGAGTGATGAAGAGGATACTGCAACTGCATCTGTTTCAAATGTACAAAAAGCACAATCTCCGTCTGCTCCATGTAATGGAGTTGCTGCAAGTCATCCTCCACCAAGTCCTCTACCTGGTGGTGGACTTGTCGACTATGACGACGATGAAGATGAAGACTACAGGCCACCACCAAGAAAACAATCAGAAACAGTGGACGATGAAGATGAAGGAGCATTGCATACCCTCAGGTTGAAGCGGAAACCTATTCACAAGGATAAGGATGTTGAGAAGGTGAAAAAACAGCGACTGGGAAAACATCCCAAGGCGAAAGATGGCGTATTTGCTGCCTTGTGTTCAACACTTAGCCATACAATTCTGCCCAATAAGAATACAGTGACCTTCCAGCAGTCTAAGCCCCATTCAATAGATGGAAACAATATTTCAGATGAGGAGAGTCCGAAAGTGAAAGATCAGAATGCTTTAAGAAGCTCAACCGATGGTGACAGTAGTTTGGACGTGAAAAACCATCCATTAGATGGAAACGATAACGAGAGTTCGAAAGTGAAAGATCAGAGTGCTTTAAGAAGCTCAACCGATGGCAACAGTAGTTTGGACAAGGAAAACCATGCATTTGATGGAAACAATATTTCTGACGATGGGAGTCTGACTCTGAAAGATCAGAGTGCTTTAAGAATCTCAACCGATGGCGACGAGGAAAACCATGCACTTGATGGAAACGATCTGGACGTGAATCCAAAAGTGGAAGATCAGAATGCTTTAAGTAGCTCAATCGATGGCGACGAAGAAAACCATGCATTTGATAGAAACGATCTGGACGGGAATCCAAACGTGGAAGACCAGAATGTTTTAAGTAGCTCAACCGATGGCGACGAGGAAAACCATGCATTTGATGGAAACCATATTTCAGACGACTGGAATCCAAAAGTGAAAGATCAGAATGCTTCAAGTAGCTCAACCGATGGCGTCGAGGAAAACCATGCAGAAACGGCACCCATTTCTTCTAAAAAGGGCTCTGATCCATCGCTTAAACCTTCAGAAAATAGACAGTTGAATGGAGAAGAGTGTTCATTGATCCCTCCAAACTCCTCACCTAAAATGACTGTAAATGGATCGTAGCCGTAGGTTCTCTCTTCATGGCAGGGTGATTGCAATTTCCTTCAATTTTTGTTTGCCTTGTGAATATGCTTTCTGCAAAAAGGGACCCAGGCTAGTCTTGGATCGACAACTTCGAACCTGGAATGAATTGGCTTTGTGGCTTTTCCATCAAAAGGCAAGGGAGCTAATTGATGCCTGTATAATTACGTACTGACAGAATGGTGGATCGGTGGCTTCTCATGTAGCATTCGAGCGCTCGAACATCCTCACACCAGGGAGTCTTAGGATGGACGACCGAGGCAGCTGAGGATAGACCTAAGGGACGTGTCTGTTGCGTCGAGTCATGCAGTGTCTTTACATTACAGCTTTGAGTTGTACTGCACTTTGTTTTGCATGGACTATTGTAAAAGCTTAGCATTTAAACTGTTTTAGTTTTGAAACCAAGATCTTAGGACTTGTATGTTTTAACTGCCTAGATAAATTACTTGATTTGTTTGCAACCTGCCAGTTATCTGAAAAGTATATGAAATATCAAGGTGTAGGATTTCTTATGGTAATTTATACCGAAATTTTTACCAATTTTACATGTATTATAGTGGCATCTCGGGTTGACCTTACAGTTAAAAATCGGGATGTTAGATGGAGAATGACTCTCGAGTGCAAAGGCAGAAGAGAGTTTTTGCAAGGTCCATCAGTCAGAGCATGGACAAAAGTTTGTATTTGATGGTGTCAAGGGGA ATGGGCGCGCCTGATAGATCCCCGGCGACCTCCAATTCTATGCAGCGTGTCAAAGTATATCGTTTGAATGATGATGGAAAATGGGATGATCAAGGAACAGGGCATGTTACTGTGGACTATATTGAGAGATCGGAGGAGTTGGGATTGTGCGTTGTTGATGAAGAAGACAATGAGACTCTACTTCTACATCGTATTAGTTCAGATGACATTTACAGAAAGCAAGAAGATACCATAATCTCTTGGAGGGATCCAGAATATTCTACAGAGTTAGCTCTTAGCTTTCAAGAGACAACTGGATGTTCATACATATGGGATCACATCTGCAATGCCCAAAGGAATCTCCATTTCAATTCTCTCAACAATGATACGTTCCACAGCATGAACAGTGAGTTGAGGGAGCTGCCTGCAATTGAGCTTTCAACATTGCCACTAATACTTAAGATTGTTGTTGAAAGTGGCATTACGGATCAGGTGCGGTTAGTGGAACTCCTAGTTGCCAATCAAGATTTTTTCAAAAAGATGATGGACATATTTCATATCTGTGAAGACTTGGAAAATCTGGACGGCCTTCACATGATACATAAAATAGTCAGAGGAATCATCCAGCTGAATAGCTCACAGGTTTTTGAGAAAATATTTGGAGATGAATTAATCATGGATATCATTGGTTCTCTTGAATACGATCCAGAGGTACCTCATGTCGAGCATCATCGTAACTTTTTAAAGGAGCACGTCATTTTCAAAGAGGCCATGCCTATTAAGGATCCATTGGTCTTGTCCAAGATACACCAAACTTACAGAGTTGGCTATCTTAAGGATGTTGTATTGGCTAGAGTATTGGATGAGTCCACAATTGCAAATCTAAATTCCATTATCCATGCAAACAATGCGCTGGTTGTTTCTTTGTTAAAGGATGACAGTACATTTATTCAGGAGTTGTTCGTCAGGTTAAAATTGCCCACAACCTCTGAAGAATCTAAGAAGAATTTGGTGCATTTTTTGCACGAGTTTTGCAGTTTAAGTAAAAATTTGCAGATGGTTCAGCAGCTACGTCTATTTAGGGATCTTATGAATGAGGGGATTTTTGATGTCATTGCAGATGTATTACAAAGTTCAGATAAAAAGTTTGTGTTAACTGGGACAGATATCCTTATTCTTTTCTTGAATCAAGATCCAAATCTTCTACGTTCTTATGTTGGTAGGAAAGAAGGGATTCCACTCCTAGGACTGTTGGTTGAAGGCCTGATTACAGATTTTGGGGAGGCGATGCACTGCCAGTTTTTTGAAATCCTTCGATGTTTACTTGATTCCTACACACTCTCAGGAGCAGCCCAGAGAGAAACTGTCGTTGAGGTATTCTACGAGAATCATTTGGGCCAATTAATTGATGTTATATCAGTTTCATGCCCTTCAGAAGGCCTTCATACATTGAGCAAGAAAATTGAACACTCTGGTGTATTAAAGAACCAGAGCTTAGTAAAGCCTGAAATACTATCCAACATTTGTGAACTTCTTTGCTTTTGTGTTCTCCACCATCCTTATAAAATAAAGAGCAGCTTTCTCATGAATAATGTCATAGATAAAGTGTTGTTACTGACTCAAAGAAAGGAAAAGTATTTGGTTGTTGCAGCTGTTCGATTTGTTCGTACTATTTTAACTCGCCATGATGATGATCTGATAAGTTATTTTATCAAAAACAATCTTCTAAAACCAATTATAGATGCCTTCGCTGCTAATGGGAATCGTTACAATCTGCTCAACTCTGCTGTTTTAGATTTATTAGAGTATATCCGCAAGGAAAATTTGAGATCCTTAGTTAAGTACATAGTCGATTCATTCCGGAATCAGTTGGTGCAGTTTGACTATTTGCCTTCAATCCAGTCTCTAAAAGTTAAATATGAGCAGTGCCTAGATGAGCTTGGTACAAGAGGCACAACTAGTAATGTGTTAGATCCTAGAAAAATAATTGAGGAGCGTGCTTTAGAGAAAGAAGAGGACTATTTTAATGGAGAGAGTGATGAAGAGGATACTGCAACTGCATCTGTTTCAAATGTACAAAAAGCACAATCTCCGTCTGCTCCATGTAATGGAGTTGCTGCAAGTCATCCTCCACCAAGTCCTCTACCTGGTGGTGGACTTGTCGACTATGACGACGATGAAGATGAAGACTACAGGCCACCACCAAGAAAACAATCAGAAACAGTGGACGATGAAGATGAAGGAGCATTGCATACCCTCAGGTTGAAGCGGAAACCTATTCACAAGGATAAGGATGTTGAGAAGGTGAAAAAACAGCGACTGGGAAAACATCCCAAGGCGAAAGATGGCGTATTTGCTGCCTTGTGTTCAACACTTAGCCATACAATTCTGCCCAATAAGAATACAGTGACCTTCCAGCAGTCTAAGCCCCATTCAATAGATGGAAACAATATTTCAGATGAGGAGAGTCCGAAAGTGAAAGATCAGAATGCTTTAAGAAGCTCAACCGATGGTGACAGTAGTTTGGACGTGAAAAACCATCCATTAGATGGAAACGATAACGAGAGTTCGAAAGTGAAAGATCAGAGTGCTTTAAGAAGCTCAACCGATGGCAACAGTAGTTTGGACAAGGAAAACCATGCATTTGATGGAAACAATATTTCTGACGATGGGAGTCTGACTCTGAAAGATCAGAGTGCTTTAAGAATCTCAACCGATGGCGACGAGGAAAACCATGCACTTGATGGAAACGATCTGGACGTGAATCCAAAAGTGGAAGATCAGAATGCTTTAAGTAGCTCAATCGATGGCGACGAAGAAAACCATGCATTTGATAGAAACGATCTGGACGGGAATCCAAACGTGGAAGACCAGAATGTTTTAAGTAGCTCAACCGATGGCGACGAGGAAAACCATGCATTTGATGGAAACCATATTTCAGACGACTGGAATCCAAAAGTGAAAGATCAGAATGCTTCAAGTAGCTCAACCGATGGCGTCGAGGAAAACCATGCAGAAACGGCACCCATTTCTTCTAAAAAGGGCTCTGATCCATCGCTTAAACCTTCAGAAAATAGACAGTTGAATGGAGAAGAGTGTTCATTGATCCCTCCAAACTCCTCACCTAAAATGACTGTAAATGGATCGTAG MGAPDRSPATSNSMQRVKVYRLNDDGKWDDQGTGHVTVDYIERSEELGLCVVDEEDNETLLLHRISSDDIYRKQEDTIISWRDPEYSTELALSFQETTGCSYIWDHICNAQRNLHFNSLNNDTFHSMNSELRELPAIELSTLPLILKIVVESGITDQVRLVELLVANQDFFKKMMDIFHICEDLENLDGLHMIHKIVRGIIQLNSSQVFEKIFGDELIMDIIGSLEYDPEVPHVEHHRNFLKEHVIFKEAMPIKDPLVLSKIHQTYRVGYLKDVVLARVLDESTIANLNSIIHANNALVVSLLKDDSTFIQELFVRLKLPTTSEESKKNLVHFLHEFCSLSKNLQMVQQLRLFRDLMNEGIFDVIADVLQSSDKKFVLTGTDILILFLNQDPNLLRSYVGRKEGIPLLGLLVEGLITDFGEAMHCQFFEILRCLLDSYTLSGAAQRETVVEVFYENHLGQLIDVISVSCPSEGLHTLSKKIEHSGVLKNQSLVKPEILSNICELLCFCVLHHPYKIKSSFLMNNVIDKVLLLTQRKEKYLVVAAVRFVRTILTRHDDDLISYFIKNNLLKPIIDAFAANGNRYNLLNSAVLDLLEYIRKENLRSLVKYIVDSFRNQLVQFDYLPSIQSLKVKYEQCLDELGTRGTTSNVLDPRKIIEERALEKEEDYFNGESDEEDTATASVSNVQKAQSPSAPCNGVAASHPPPSPLPGGGLVDYDDDEDEDYRPPPRKQSETVDDEDEGALHTLRLKRKPIHKDKDVEKVKKQRLGKHPKAKDGVFAALCSTLSHTILPNKNTVTFQQSKPHSIDGNNISDEESPKVKDQNALRSSTDGDSSLDVKNHPLDGNDNESSKVKDQSALRSSTDGNSSLDKENHAFDGNNISDDGSLTLKDQSALRISTDGDEENHALDGNDLDVNPKVEDQNALSSSIDGDEENHAFDRNDLDGNPNVEDQNVLSSSTDGDEENHAFDGNHISDDWNPKVKDQNASSSSTDGVEENHAETAPISSKKGSDPSLKPSENRQLNGEECSLIPPNSSPKMTVNGS Homology
BLAST of Sed0015193 vs. NCBI nr
Match: XP_038907193.1 (serine/threonine-protein phosphatase 4 regulatory subunit 3 isoform X2 [Benincasa hispida]) HSP 1 Score: 1484.2 bits (3841), Expect = 0.0e+00 Identity = 795/1044 (76.15%), Postives = 840/1044 (80.46%), Query Frame = 0
BLAST of Sed0015193 vs. NCBI nr
Match: XP_038907192.1 (serine/threonine-protein phosphatase 4 regulatory subunit 3 isoform X1 [Benincasa hispida]) HSP 1 Score: 1479.5 bits (3829), Expect = 0.0e+00 Identity = 795/1045 (76.08%), Postives = 840/1045 (80.38%), Query Frame = 0
BLAST of Sed0015193 vs. NCBI nr
Match: XP_023514070.1 (serine/threonine-protein phosphatase 4 regulatory subunit 3A-like isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1459.5 bits (3777), Expect = 0.0e+00 Identity = 781/1044 (74.81%), Postives = 833/1044 (79.79%), Query Frame = 0
BLAST of Sed0015193 vs. NCBI nr
Match: XP_022930435.1 (serine/threonine-protein phosphatase 4 regulatory subunit 3A-like isoform X2 [Cucurbita moschata]) HSP 1 Score: 1451.4 bits (3756), Expect = 0.0e+00 Identity = 776/1044 (74.33%), Postives = 832/1044 (79.69%), Query Frame = 0
BLAST of Sed0015193 vs. NCBI nr
Match: XP_023000120.1 (serine/threonine-protein phosphatase 4 regulatory subunit 3A-like isoform X1 [Cucurbita maxima]) HSP 1 Score: 1450.3 bits (3753), Expect = 0.0e+00 Identity = 779/1044 (74.62%), Postives = 831/1044 (79.60%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy Swiss-Prot
Match: Q4S6U8 (Serine/threonine-protein phosphatase 4 regulatory subunit 3 OS=Tetraodon nigroviridis OX=99883 GN=smek1 PE=3 SV=1) HSP 1 Score: 407.9 bits (1047), Expect = 3.4e-112 Identity = 251/713 (35.20%), Postives = 399/713 (55.96%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy Swiss-Prot
Match: Q6DFT3 (Serine/threonine-protein phosphatase 4 regulatory subunit 3 OS=Xenopus tropicalis OX=8364 GN=ppp4r3b PE=2 SV=1) HSP 1 Score: 405.6 bits (1041), Expect = 1.7e-111 Identity = 253/713 (35.48%), Postives = 403/713 (56.52%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy Swiss-Prot
Match: Q6P2K6 (Serine/threonine-protein phosphatase 4 regulatory subunit 3A OS=Mus musculus OX=10090 GN=Ppp4r3a PE=1 SV=1) HSP 1 Score: 404.1 bits (1037), Expect = 4.9e-111 Identity = 247/713 (34.64%), Postives = 402/713 (56.38%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy Swiss-Prot
Match: Q6INN7 (Serine/threonine-protein phosphatase 4 regulatory subunit 3 OS=Xenopus laevis OX=8355 GN=smek1 PE=2 SV=1) HSP 1 Score: 404.1 bits (1037), Expect = 4.9e-111 Identity = 245/697 (35.15%), Postives = 396/697 (56.81%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy Swiss-Prot
Match: Q7ZX60 (Serine/threonine-protein phosphatase 4 regulatory subunit 3-A OS=Xenopus laevis OX=8355 GN=ppp4r3b-a PE=2 SV=1) HSP 1 Score: 401.7 bits (1031), Expect = 2.4e-110 Identity = 251/712 (35.25%), Postives = 399/712 (56.04%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy TrEMBL
Match: A0A6J1EWW6 (serine/threonine-protein phosphatase 4 regulatory subunit 3A-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111436881 PE=4 SV=1) HSP 1 Score: 1451.4 bits (3756), Expect = 0.0e+00 Identity = 776/1044 (74.33%), Postives = 832/1044 (79.69%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy TrEMBL
Match: A0A6J1KHG6 (serine/threonine-protein phosphatase 4 regulatory subunit 3A-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111494412 PE=4 SV=1) HSP 1 Score: 1450.3 bits (3753), Expect = 0.0e+00 Identity = 779/1044 (74.62%), Postives = 831/1044 (79.60%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy TrEMBL
Match: A0A6J1CB84 (serine/threonine-protein phosphatase 4 regulatory subunit 3 OS=Momordica charantia OX=3673 GN=LOC111009650 PE=4 SV=1) HSP 1 Score: 1449.1 bits (3750), Expect = 0.0e+00 Identity = 779/1044 (74.62%), Postives = 834/1044 (79.89%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy TrEMBL
Match: A0A6J1ERE2 (serine/threonine-protein phosphatase 4 regulatory subunit 3-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111436881 PE=4 SV=1) HSP 1 Score: 1439.1 bits (3724), Expect = 0.0e+00 Identity = 776/1065 (72.86%), Postives = 832/1065 (78.12%), Query Frame = 0
BLAST of Sed0015193 vs. ExPASy TrEMBL
Match: A0A6J1KXK2 (serine/threonine-protein phosphatase 4 regulatory subunit 3-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111499117 PE=4 SV=1) HSP 1 Score: 1432.2 bits (3706), Expect = 0.0e+00 Identity = 774/1045 (74.07%), Postives = 822/1045 (78.66%), Query Frame = 0
BLAST of Sed0015193 vs. TAIR 10
Match: AT3G06670.1 (binding ) HSP 1 Score: 1053.9 bits (2724), Expect = 8.4e-308 Identity = 565/867 (65.17%), Postives = 671/867 (77.39%), Query Frame = 0
BLAST of Sed0015193 vs. TAIR 10
Match: AT3G06670.2 (binding ) HSP 1 Score: 1041.6 bits (2692), Expect = 4.3e-304 Identity = 565/888 (63.63%), Postives = 671/888 (75.56%), Query Frame = 0
BLAST of Sed0015193 vs. TAIR 10
Match: AT5G49390.1 (LOCATED IN: endomembrane system; EXPRESSED IN: 17 plant structures; EXPRESSED DURING: 11 growth stages; BEST Arabidopsis thaliana protein match is: binding (TAIR:AT3G06670.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 211.5 bits (537), Expect = 3.3e-54 Identity = 147/331 (44.41%), Postives = 198/331 (59.82%), Query Frame = 0
BLAST of Sed0015193 vs. TAIR 10
Match: AT5G49380.1 (CONTAINS InterPro DOMAIN/s: Protein of unknown function DUF625 (InterPro:IPR006887); BEST Arabidopsis thaliana protein match is: binding (TAIR:AT3G06670.1); Has 1807 Blast hits to 1807 proteins in 277 species: Archae - 0; Bacteria - 0; Metazoa - 736; Fungi - 347; Plants - 385; Viruses - 0; Other Eukaryotes - 339 (source: NCBI BLink). ) HSP 1 Score: 204.1 bits (518), Expect = 5.3e-52 Identity = 105/191 (54.97%), Postives = 145/191 (75.92%), Query Frame = 0
BLAST of Sed0015193 vs. TAIR 10
Match: AT5G49370.1 (Pleckstrin homology (PH) domain superfamily protein ) HSP 1 Score: 148.3 bits (373), Expect = 3.5e-35 Identity = 64/94 (68.09%), Postives = 83/94 (88.30%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Chayote (edule) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
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