Cla97C07G129010 (gene) Watermelon (97103) v2.5
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGAGCAAGCCTAATCTCACAGCCCAAAAAGGGAAAGGAAAAACCCGAAATGTAAAAATCAGATTTCCATCACAACCAGTCCTCTTCATCTTCAACGCACGGATCTTCTTCCCATTTCTTCGACTAAGCAACGCCATCTGTCTGTCCTACGCCATTCGCCACCGACCATCTCACCGCGCATCTGCCTTGCCTTGCCGCCGCCGGTCAGTTTTAAAGCTCTCTGTTTTTCTTTTCCTTCTCTTTTTTTTTTTTTTCACTCTCTTTTGAAACCTCCTTTAATTTTAACTTAAATTATTACGTAGGTAGTTTGGTAATATGACATCTTCATCCTCAAGCCAAGGTCAATCATCAAATCCTTCCATAAACTCAACCTTCTCCATTGTTGAATTCTGGATGTTTTGTTGGATAAATGTAATATTTATTTGGTGGCTCAAATTAAGTATCTTTATGTTATTAATTTGTTATTTTATGTTTTTTAGTGAATTATATTTAGTATCATTACGTTAAATTTATATATATAATGACGTATCACGACGGATCCGTATCTTAGTTTCTTAGAAATTGATGTATTGTCGAATCCTGTCGAATTCGTATCATCTGTGTCTGTGCTTCACAATCACCAAAAGAATCTGCCACCAGGGATGGAGCACAACATTTTTTTTTTGGAGGGTAACCAACCCTCCGTCAGCCTCTCTGTTACCGCATCTTGACAGACTTTCTCATTGCAAAAAGGCCACAGTACCACTGGCAATAGTTTATGGGACATCTAACTTGGTAGAAATTTGAAGGATGAAGAGGCCTTGGGAGTGTGGGCTGATCTTAGTCTCGACCTTGCACCTCAACTAACCTATTGGAAATATCTCTTAGGCTACATCAAGTATTTCTTAGCTAGGTGTATTACTTTTGATGTATCATTTAAGTTTTGGACCTTAAAAATGCTTGTAAATGATAAGTTGTTGTACATAATAAAAATTTTAGGGGAAATGTAGTATTATTTACTTAAATTATTTTTATAGATCTAAAAATATTTTCAAATCTAATCTTTGAACCATGTAATTTCTCTCTCTCTCTCTCTCTCACAAAAAAAAAAAAAAAAAAGAAAAAAAAAAAAAGAAACCTTTTAACCATGCACTAATGCTTCATCAAGAAAGAAATTTGAGCTGCTTTCATCAGGACGATACTTTATTGAAGAACCAATCAATATAAAGGGCTAATGAAGATGTATGTATAATGTATGTGGAGTGCAAGATGTATGTTTTAATATCAAATGAAGATGTCTTTCATCTGTTGACAATGAGGAAGGGCTCATTTGTATTTTTCATGAATGCTACTGGTGTTTTTTTATATTTAATATTTTGATTGTTTTTTTTAATAATGCATCCTTAATTATTTGAGTCATATTACATTTGGCAAATTAAAGAAGCTACGGTTCATGACATTAAGTTACTAAAGCATATCAAATGTCTTTTATTCTATTGACAATATGTAACAATCACCATTGCTTGTGTTTCCAGATGGCAGAAGATGAATACTTGATATGTGCTTTTGGATAACTGTATCTTGGAACCGGATAACTAGCTTACAGTGTTATTTTGTGGATGCAGCAGAAAGTGGATAAGCTTAAAGTAAAACCAAAAATAACTGCCAAATCCAGGATCTTCTATCTAGAATAATAGACGTCAGCCAGAAGAGCTTACAAGGAGGAAGCAGGAGGAGAAATGGAGATTGATGATGTTCCAACGGATGAAAAAGCTAAAAGGATGAGGGATCTGCTATCTAGCTTCTACTCCCCTGATGCTTCAATGTCTGGCTCATCCACGGGGTCATCTAATCGATATGCCTCTCCTTTAGAAGCCATTAACACCACCTCATTTAATCCTGATCAGTATATGAGCATTCTAGTACGTCATAAGCCCTGTTTATCTCTCTTTTTATTTATTTATTATTTTTACTTCATTTCTTATATTTTTTTTATCTTTTTTATCTATTATGTTCAGTATGGTTTTTCTTTTACATTTTTTTGGGGGGGGGGGGGGGGGGGGGTACTAGTAACAGTAATTCCCATTCATAAGGTGAAAAAGTACAAAAGGGAACCAGAGTTCCCATGCGAAGATTACCAGAAAATAGGTGCAGATTACCCCTCAAGGTTTCCTCCCTTTTGAATATTTCATTACAATAATAAAATAATCTTTCGATTTGGGAACAAATATCTAATTTATTAGTGCGGTTGAGCATGAAATGTTGCAATTATCAGAAAATAGGTTCCCAATAATCTATTCTTCATGTATAATTCTTCTTTTATTAATTAGTCTACTGATTCGTTTGAGTCCCATCCCTAACAAGGATATTAAAAAGGGAGTTCAAAAGAATTCTTGGCTCATTACTAGTTGATGTATCTCTGCATTTGAACTTTACTATTAGTTGTAATGTAAAATGTAGATTTTTTTTAATCATTTTTAGTGTGGCATGCTATGTAGGTACAAAAGTCAAATTTGGAGGGGCTCCTTCAAAGGCATGTCGAAATGGCTGCCGAGATTAAGAATCTTGACACGGATCTTCAAATGTTGGTTTATGAAAATTACAATAAATTCATCAGTGCAACTGATACAATTAAAAGGTTAATTGCTTGTTTTATTTTATTTAATTTTTTTTTATAAGTGTCCGGACCAGCTTACGTGCACCTCGACTAATTTCATGGGAAACCCGCTTGACCTTACAACATTTGGGTGTCAAGGAAACTCATAGAATATTAAATCCTAGGTAGGTGGCCACCATGAATTGAACCCATGACCTCTTAGCCATTTATTGAGACTATATCTCATTTTTTACCACTAGGCCACTTATGATGATTTATTTTATTTTATTTTATTAATTTTCTTTTTTTTTAGACAGTTACCAAAGTGTTTTCCTTGTGTGATTTGTGAATGTTGTTTATATGTTTGTCAACGGAAACCATTTCTCTAGCTGATGTTGTTAGTGTATGAACAAAATTAGGCTTATGATATGAGGAGCCACACGTGATATATAATATGAATAAAATTGTGTACACCAGGAGGTTGGATAAGTCTTGGGTGATTTGGTGAACTTAGAAATTATAATTTGGCTGGAATTATCTTCGTTATCAGCTTATATTTCAGAACTTTTGGTGCATTGGTGGGGATTTTAATATTACTCGACGGCCACACGACAAATTCCTTATGGGAAGAATGGCAAGAGGGATGAAGAAATTCAACAAATTTATCGAAGTTACCAATTTGATGGAGATTCCTCTTTCCATTGGAAGATATACTTGGGAAAGGGATGACAATGTAGATTCACGATCCCTTATTGCTTGATTCTTTGTTTCAAAAGAATGGAACGAAACCTTTGAAAACTCAAGAGTGGCAAAACAAGTACGGTTTACTTTCAGATCACTATCCTCTCTTATTGGAGGCTGGTTCTTTTGAATGGGGATCCTCTCCTTTCCGTTTTTGCAATAGCTGGCTATTCAATAAAGAAAGCTGTCGGTTAATCGAAAGATCATTGACCAATTTCCACTCTCAAGGTTGGGCGGGTTATGTCATCTCTGAAAAATTAAGAAAGCTGAAAATAACCTTAAAAACCTGGCAAACTAATTACAAAACAGAAAGGAGGAGAAAGGAAGAACACAGGCTCAAAGAACTGGAAAATTTGGAAAGCTTGGTAGAGGATGACGAATTTCACATTGCAGAACTGAGTTTGAGACTGGCTCTAAAGGCATAATTACTGGAAATTTTAAAAGAGCATGAAAATTACTGTTCCAAGTTCCCTCTAAAGTTACTTAGGTTTTGGATAAGTTGATTCGTGTCTTTTTTCTAGGAAGGCTTATGGAGTGGGTGGTGTGCACAATGTGAATTGGGCTACTACTCAACTTTCAAAATTGATGGTGGTCTTGGCCTTGGTAATTACAGACACCGTAATTTAGCTTTATTGGCAAAATGGACTTGGAGATTCCTCAATGAAGAGAATTCTTTATGGAGGAGGCTTATTGTTGCTAGATATTATGTTTCAATTGAAAGTTGTTGGCCTTGGCCTAGTCAGCATGGTTTCTTTAAGTCACTTTGGAGGTCTATTTGTCACACTATTGATTTGGTTGCTAGTCGGGCTCAAATTCGTCTTGGAAATGGATCTCGATGGTTGTTTTGGAGAGACCATTGACTTAGTTGTGACCTTATCGCTACTATGTTTCCTCGACTTTTTCGTCTTTTTTTGCACTTAGATGATACTATGGCAAGTATGTAGATTGAGGCCACATAAGCTTAGAATTTGAGGCATGGTCGTAATTTGACTGAGCTTGAAACGATTGAGTGGTCTAACCTTTCACATGTTCTATCTACTGTTAGACTGAGGCCTAGTTCGGATACTTGGGTGTGGCCCTTTGAACGTTCTCTACGATTTATTATCAAGTCTCTTATGAAGACTTGGTGTGGACTTTGTTGGTCCTCTCTTGTAGGTGCTTTATCTTGTGATTTGTTAGGACCATTAACCTAAGAAAATTAAAAGCTTTTTTTGGGAGCTAAGTATTGGAGCTATTAATATGGCTGATCAGTTGCAGCGATATTTGTTTCTGTCGCTCTTTGTCCGATACAAAAGTGATAGATGTGGACAACTTAAGTCTTGGTGATGGGTCTTCTATTTTTTCTAGACTGATTCTTGGCTTCCTTGTGTTCCTATTTTGATGGGGTGTTCCCTAGATTTATTGTCTTGCTCTGTTTCCTAATGCTACTGTGCTTGATTTGTGGGTTTCTGACACTAATGCTTGGGATCTGAGACTTTGTCGTAACCTAAATGATTTGGAAATAATTGAATGGGCTAACCTCTCTCATTTGCGATCTTCGGTTTGTTTGCGGAACACCATTAGTTCTTGGTTTTGGCCTCTTGATTCTTCAAGGTATTAAACTGTAAAATCACTTATGAATGATTTGGTGGCGTTTGAGAATCCTTTCTTCAAGGACCTTTTATGGTGATTTGAAAAGACCATCATCCAAAGAGAATTAAAATCTTTCTTTGGGAGCTTAGTTTGGGTGCAGTCAACACAGTTGACTGATTACAAGGTAGAACTCCTCCTTGGTGTGTTATGTGCAATTCAAATGTTGAATCTCCTAGTCATCTTTTTATGCATTGTCCTTTTGCATCTTGGTTTTGGTTCACTTTTTTGGAAGCTTTTGGTTGGTCTATGTCATTTCTTATGCCTATGACCTTCTTGCTTCTGTTTTGGTGGGACACCCCTTTTGTGGTTTGAGGAAGGCTCTTTAGTTAGCTCTTGTCCATGCATTCTTCTGGCATCTTTGGGGCGAACGAAATGGCCGTATTTTCTGGGATGTATCATCTTCTTTTGAGTGTTTGATGGATAGGGTTTTTTTTTTCCTATGACTTTCTTTTGGTGTAAAGGTCAACACCTTTTATTTATTTATTTATTTTAATGGAAACACACTGTTCATTGAATTACTGAAAAGAGACAAAGTCTCAAAATACACCGTGTAACAAATATCAATAGCTAAGGACCAACAGGTGCACCCAGGCATCGCAACTAGGTTGACACCCCCATAGCACCCTCATCATATCCATGATAAAACACAATAAGGAACAATACAAACCAAATAAACAAATGACCAAAGTTCAAATTGATTACAATAAAGGAAGCTAATAACCAAAAGAGGAGAAAAACAGAAATAAAGAAGCTGCTCTAATGTTGAGGAGAAATGAGAGCCCGCCAATTCAAGTTAAATTCCTGGATTGAGTAGCCTTCAAAGACTTTTGAGAGAGTGCACCAAGAAGAGGCATTTAGTTGAGCAAACTCAAAACGATCTATCCACGGGGAGGCTTTATCATGGAAAACTCGCTGGTTTCTTTCAAACCATAGTTCATATAGCAAAGCTTTAGCCACATTACTCCAAATTAATTTAGGTTTCTTTTTCAAGGCTGGCCCAACCAATATCTGCAGCACATTGTTGCTGAAATCACATCCGAAAACCCAACAAACATTGAAGAGGATGAACAAATGGTGCCAACACTTTTTTACATAAACACATTTGAAAAATAAGTGTTGACTATCTTCCTGGTTTTCTAAGCATAGTGGGCAGATGTGATGTGAAAGGCAATGGGAAATGAGCTTTCTTTGAAGGATTGCAGCACAATTTAGGGATCCAAACAATATGATCCAAACCGTGATATTCACTTTCTGTGGGCTTTTGGTTTTCCATAGGCCCTTCTCCAATTCGTATTCAGTAGGAGAAGCCATGGATAAATGCTTAACAAGAGATTTAATAGAGGAAACTCCACTTGCTTCCAGTGACCATATTCTTTTATGCGGCTCATACCCTTTTGAATTTTATAACTTATCTTTCTTCATTTCCAATTGGACTTCGTTCTTAAACTCACCAATAAGATGTTTATTTCTTTCTACATTATCAATGAAATCATTTTTCTATATATATATATATATATATGGTCTATTTAGATCTGAAGATCTTTACTCAATTTGACTTTAACTGGAACTATTAAAACTTGATCCCTAGATTGAGATCATATCTCCCCTTGTCTTACCCTCATTTTCTGGGTCTATTTGGATTCTGGAATGACTTTCTTCAATAATATAGTCTATTTGGAATGACTTTCTTCTATATATATATATATACACTCACACATATATACATATATGTAAAACGTATGTATTAATTTAAAAATACCTTTTAAAGCTGTTAGAAGTCATTCCACACATGCTCTTAGTATGATGCCCATTCCTGGATGACAAACTTCTTTCTCTTGACAATCTATCAGCCTCAGATTAACCTAGATACCTCTCAATTTATTTTATCCCATTTTCTTTTCTTTTTACTTTTTCCCTCACAATATCTATTATTTTCCATATTTAGTGAAGTATTACTCAAATTCTTTACTTAATACACATATGAAGTTTTGTTTCCCTAGGATGAACAATAATATCGTGGGGATGGAGACAAACATGGAACAACTCCTAGAAAAAGTACGTGATATTTTTTTTAAATGGGTGCATTCAGAATGTTTACTTTTCTTTAGCAGTGTATATGGACTATCATTTATATGCAAATTCTTGCAGATACTGTCAGTGCAGTCTAGAAGTGATGGAGTCAATACCTCTCTTTTTGAAAAAAGAGAGCACATTGAGAAATTGCATCGAACACGAAACCTTCTTCGTAAAGTTCAGGTACTAGAAGTATAGGGCATATGGTGATATATTCTAGTGCCTCAAGTCTTTTTTTCATGCATTCAATCCTTAACTTCTCTTTTTCTATTTTCACACTGATATGCTAGAGCATAACTTAGAATGTTACAATTTAAAAAGTATAGATGACATCTAATGCTGGGGCCTCTCCTGGGCTTTCCATGAAACTAAGCAAATATAGAAACGGGGATTGCAAAACCTGTTTTATTTTCTAGTTCATTGTGATGGTATTCCCGTGCTTTTAGAAGTTCCTGTAGATGTAAGTTACTATTTATATGTGGTAGTCTATCTTCTTTTATGTTTCAGGAATCTGGATTCTTGTTAATATTTATTTTCTTATACTTTTATGTGAGGCTGGTATGTGGCTCTACATGGGATCTTATTATCATCTTTTTCTCTGGGAATGATTCATGAACAGTTCATATATGATCTACCTGCTAGACTTGGAAAGTGCATCAAAACAGAAGCCTATGCTGATGCAGTCAGATTCTACACTGGAGCCATGCCAATATTTAAGGTGCCTTTTGCCCTTTGCCCCACCCCAAAAAAATGGGTTTATAAATCATAAAGCAGGATTCCATTTTTTGAATGTGGGATTTTAGTTCTTCCATCATCTCGGTATAAGTCTAAAATGAACTTCATTATCTGGTTGGTAGGCATATGGAGCCTCCTCATTCCAAGATTGCAAGCGAGCATCAGAAGAAGCGATAGCAGTAGTTTTGAAAAGTTTGCAGGTATATTAACATGCATGAAATTTGGTTTTTTGTCCTTTGGTCTTTTGAGCTCCTGTGGTGGTTTGGTGGTGTGGTGTCCACTTAAAGTGCTTGTTGGTTTTTAGTGTGGTTTCAGTGGGCTGTTTTTGGTTTTTTTGTGTGGTTTCTCAGGCTCTTTAACGCCCTGGTGGTTTGGTGTTTTGGTCTGGTTGTTTGGTGGTGTTCTCTTCAAGTGGTTTCAGGCTCTTGTTTAGTTATTTTGGTGCTTGTGCTCTGTTTTTGCTGTCTTCTTTGTTTTCTTATTGGTCGTCTTGGGCTTTCCTCCTCAGGTTATTGTTCTTCTTTTGGGTTGCTTGTCCTGTGCTGTTTGGTTCTCTTATCACTCCTGTGTGGAGTTTATATCCTTGAACATAAATCTCTTTTCATTTATTCAATGAAAAGTTTTGTTTCTTCTGAAAGAAGAAAACAGGGCTGTGCTCCAATTGAAGACTCCTAGAATTAAGGACCTGTATTTGTTTGAATGGACAGCAAAAATAGGTTCTTTGCAATTCATTCTCTCTATAGCATGTGCTACACCAATTTGGCAAAACGGCAATGTAGTGGGCTCTTTATGTACATTCTCAACATGCTTTTGTAATTATTCTCTCTTTGTAGTTAAGTTAAACAAGGTTCTTTTATACTCTTGCAAGACAATTCTTGTTTTTGTTTATAACTTCACACTATATCAATGAAACTTTTTGTTTTCTTCAAACAGTAACTCGATTTCTAAAAATAGCGATAAACCCAGAGCTTTTGATTGGACTGGTTTTGAGTGCGAACTACTCAAGCTGTTTAGTGGAGAAAGTTCCCGATGAGAAAAGATATGCACTGCTGCTCCTTGACATCCCAAAATGTAACCTAACTAGGCAATTAGATTTGGATTCTCTAGACATGTAGAATGACACGTTTTTTTAGTTGGCTTGTCCTATGATGTTACTAATTTTTTTAAAAGGTAGGAATCGCATGCAATATATTATATCCAGAACTCTCTCTTACCCGTCTCTATGTTCTTACATTATCAAAATGTGGGGTTGGACAGGGTTGTTTGGGCCTTTAGAAGCATCACTAAAACAGCTTTCCTATAGTTGTCTGAACGACCCACAAATACAAACCCCTATGATTAATGTAATCCGGAGGTTTAGTGTTCCAAAGAAAGTTAAACTGTCTATTTGGAGATTGTCTTTTAGAAGCATCAACGCATTTGAAAGAGTTCAAAAAAGAAAAGAAGTTTGGTAATGGGTTACCCTTCACTTTGGTGGTGGTGGTGGTGGTGATGGTGGTGGGGGGGGGGGTGTTTAAAAGAACCTTTCATTGAAAGGAAAACGAACTTGGGCAAAAACCAACAAAAGGAGCCAACCTACAAGAAAGGGCTCTAGTCAAGAAAAATAAGACTTAGCTTATAATAACAATAAGAAAAGCTTATCAAAGTTGGATAAATGGAGGAGATACAGCTTATCAAGGGGAGGAAGGGCCATGCTTAGCAAATCAGTCCTAACCAACCTTCCAAATTACTGCATGTCCACTTTCCTAATCCCAAAGAAGGTGGCTGCCATGATAGAGAGAACCATCAGGAACTTCTTTTGGGAAGGGCATTAGGGTGGTAAATTAAATCACCTAGTCGATTGGAAGCTTACTGTTAAAGATCTAATTGATGGGGGCCTCAGTATTGGTAGCATTCAGACCAGAAATTTAGCCCTCTTAGCAAAATGGGGCTGGCGTTTTATGAAAGAGGAATCTTCACTTTGGAAGCAGGTTATTTTGACATTCATGGCAGCAACTCTTTCAAGTGGCATACAGCTGGCAAAGAGGGTGCAAGTCTAAGGAGTCCTTGGCTGAGTATTTTACGCATTTGGTTGAAGGTAGAGTGCTTGGCAACATTTAAATTGGGAGCTGGAGATAGAATTGCTTTTTGGCTTGATACATGGACAGAACCTGCTTCTTTTTCCATCTGGTTCCTTAGGCTTTTCCAAATAGCTACCCTCCCCAACGGCTCAGTAGCAAACCATTGGAATTCCTCCACCAATTCTTGGGCTATTTCTTTTCGAAGACTACTTAAGGAAAATGAGGTAGAAGAATTCCAAAACCTCATGGGCATCATTCATAAGCAAAGAATTTCCTCTTCTCAAGATAGGAGAATTTGGTTGCTGGAGCCAAATGGTTTTTTCACGATGAAATCCCTTATCAAGCACTTGTCTTCGTCCACACCAATAGACAAACTCTTAGAGAAGGCTTTATGGAAATCAAAAAGTCCTCGTAGAGTCAACATCACGATTTGGATCATGATCTTTGGAAGCTTGAACTGCGCATTTGTCCTACAAAAGAAGCTCTAGTCACATTGCTTATCTCCCTCTATTTGCCACCTTTGTTTGTCAGATTTGGAGGACTTGCAGCACCTATTTTATACCTGCAGCTTTGCTAAAAAGTGCTGGCAGCGACTATTACAAATTTTCAGCTTTTCTTGGGTCTTCAGTAACGATTTCAAGGATAACACCTTGCAAATCTTAATTGGACCAGCCCTTAAAAAGAAACCAAGACTGTTATGGACAAATGCTACAAAAGCCATGCTGTCTGAAATATGGTTCGAAAGAAACCAGCGGGTCTTCCACAACAAAGCATTGTCTTGGCTAGACAAATTTGAGATTGCAAAACTAAACGCTTCCTCCTGGTGCACTCTTGATCGTGTTTTCAAAGACTACTTAATTCAAGCTCTAAATCTTAACTAGAAAGCATTCCTCGAGGCATTTGAATAGCTTACTCTATCATAGGATCTTATGTTCTGATTTGTAATCATTTTACTTTTGCAAATTCTTCCCTTCTGCATGGCCTATTTTTAGTCTTGTAATGGGTCCTTCCTCCAAGCATCAATAATGTATTATTCTCTATGTTATTTTCGTTTGGGAGATGATGAGAGTGCTAGGGAGGTGTCAACATAGTTGAGATGTCCTAGTGTACTCACTGATCCTTCTACATACATATTTATATTGAGAATTGTCTCAATTCATTTTATCAATGAAAGAGACTTGTTTCTTTTTCAAAAAAAATAAAAAATAACAATAAGGAAAGCTAGAAACCGAGAGCTAGAGAGACAGAGAATCGTACAAAGGACCAAACATCCAGAGAAGAGCTCTCACACCCTTTGAAGATGAAACTTCATTCGAACCTTTTTCTTCAGATCTCCTTGGGCTCCAATTGTCCTCTTTTTGATGGAGAGGCGATTGATGTGGGGGCTTTGCTTTACCTTTTGCGGAACCAACTTGTGTCTGTAGGGAGAACATGAAAATGGTGGCAAGCAAGTAATGGTCTTATCTTCTAAATTTTCTATTTCTTTTTTTCCATAATTCCCACATTAAAAGGACACTCCAAAAAACTCTGGCTTTCCCTTTTATATTCCACCCTTGAAGCAGTTCATTAGTTCAATCATTAATCGAATCCATCACGGGAACAACAAACAAGTACGGAGGCCAGGTTCATTTGAAATAAAATTCTATCCCTTTGTAGAGTGTCCTTGTCGATGTCTAGTTTCTTGTCAATTTTAATGTTTTTTTTCGGGTGTTAGTGTCAAGTTTCTTTTGTAATTATTTGTTAGGTCGCATTTTGTTAGATTTGAGGCCTTTCCTCTAGGGTCCTCTCTTTTTCTGGCTTTTTCTGTTTTTTATTTTTTATTTTTTATTTTATTTTTATCTTTAAATTTAAATTTAATTCTTTTTTATGTGTGTGTATGCTCTTGTATTCTTTCATTTTTTCTCAATAAAATTGGTCTTTTATATATTGAAAAAACTATTTTGTAACTGTAATATTTGTTTGAACAATCATGGGTTGACCTAGTGGTAAAAAAGGAGACACAGTCTCAATAAATGGCTAAGAGGTCATGGGTTCAATTTATGATGGCCACCTACCTAGGATTTAATATCCTTTGAGTTTCCTTGACACCCAAATTTTGTAGGGTCGTCAGGTTGGCCCTTAAAAAAAAATAATATTTGATTTTTTGGATTGAAGCCCCTTTGTGTAGTTATTTTTGGACTCCTTCCTACTTTTTTTGTTTGGTCGGGCTCTTTGTATTCCTTTTATTCTTTTTCAAAGAATTTGTTTTCTTACCACCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCAAAATAAAAATAAAAAATAATAATAAGGCCAATTCTTTTGATAGTTTTTGACTTTTTGTAATTATGTACAACTTACATCTTTTTAATGGTGCCTTAAGCACGAGTAACTCGTTTGTAACTATAGCCTAGCTTTAGTCCTTCAAAATTGGAAGGTTCTGCTCCACTAGTTTCCTCTTTGGGGAAGGCCCTTCTCATCCCTGGCCCAATGGTTTTTTAATGTTTTTTTGTTACAATTTTGTGATTAATTCCATACTTCAATGGTTTTCCATAAAAAAAGTATTATAGTGATATTAATATATTTTAATGTTGCTGAATGTTTTGGAAGTGTTATTTATCTATCTATCATAATAGTCTGTATTATACACTGATGTGTTTTCAGGAAAAGCTATTCTCAGATTCTGAATCCATACAGATGAGAGCAGAGGCTGCAGTCCTTCTTAAGCAATTAGATTTCCCGGTTTGTACTTCTTTTAATGGCAGAAGCGGTACCTTGATAATAAAACAAAATTTTACACAGCATGCAATGATTAATGAATGGAAACTTTTGTAAGGATGTATGTTGAAATGTCAAAAGTTGATATCTTGTTCTTTTATGCCTATTGTGAGCAATGGGCATTTTGTAGCACTTGTGGCGAGTGAAGCATGTATAAGATATTGAAAATTAATTACTTTTGATCGCTCAAGTACAATCAACAATTTTCTATATATGCAGTAAGATGAAAGTTCGCCAATATATTGACAGGTGGACAGCTTAAAGGCAAAGTTGCTTGAAAAGTTGGAACAATCGACGTTGGATCTTCAGCTTAATGCTGAAGATTTGAGTAGTGCATTAGTAAATGGCTCTTCAAAAGACGGAAATACTTCTGAGTTAGTTTATGGTGCTTCCCATGAGGTAAGCTAACTTCTGGTTGTGGCAGGTAACTGTAGTATATTTCAACCTTTTTGGAGCCATCCTTTGATAGGCTGAATTGAAAGAACTGGTGGATGAAGCTTCAGGAAAAAAATAGCGAAATTTATCCTCTATTCAATTCAATAAATATCTACATTTTGTAGCTTGGTCCATTGGTTGTCATGGAGAATACCTTGTCCTCCCTTCTTTTGCGTTCATTTTTTTTTATTATTGAATGTTTCTACATCATAATAAATAAATATTATAATTGTTTTTTTTTAAAAAAATTGAAATGTATGGCAAGTAACAACATGAATTTTATGTGTTGGAATCTTTCTTTTGAAAACTTGAGAAAAAGTGCAATCATTTTTGGATGTAGTCAACCGTAATACTAATTATGACATTTCTCTTTCTTTTTCTTCGTTAGGCATCTGTTCGGGAGTTTGCGGAGGCAGTCCGAGCTTATCGTGTAATATTTGCAGATTCAGATAGGCAACTGATAAAACTTGCTATGGATTTGGTTACCAAGTACTTGATCGTCCATGTTTGTTCTTTTAGGCGTTTAAATTTAAGTTCTATTTTTATTGGTTGATATCTATAGCTAGAAGTTTGGCTTCACGGATATTTTTGTCATGAAGGGATTTTCATCTTTTTTCTTCTATAGGCATTTTGATGCCACTGAGCAATTTATCAAGAAACAGATTTGTGCTGCAGATCTTCTCCTTGTTTTTGGTAAGTTGTATGAGTTAGCGGTGGACATCTATCCTATATCTCTTGAAGTTGTTAGGTTCCAACTTATCCATTTGTTTATATTTATTGATTTATTTTCTTTCCTGAAATGTTATTGAAGTTTTTGACAAATTGCATTCATTGTATTTATTGGAACTCATACCTTTTTCTCCATTAGGTGCTGGCTTCATGTTTTTTATGTTTTTACTTTTGTTGATCTTCATTACAATATCTTGGGTTGCTAGTTTCATTTGGTTTTCAAAATTTCTGGCCATTTTGCGTGGCAATCTTCTCATTTAGAGAATTTGCATTTATAATGGGACTGCCTTCAGAAGAAAAGTTTTCTTCTGTCGCATCTGTGTGTTGCAGAAAAGCTACCGACTGTAGACATTGGTTGTATTTGAACAGCTGGGATTACACATGTTTGGACAAGAATCTGTATGAAAATTTTGTTGAAAGTTTCTAGCCAGAAATTCTGAAATCTTTTTTAATTGCAGGAATTATATGGACAGATGTGCTTTTACTTGGAGAAGTATTGAATGATGCCGGTCTGCCTGATTATTCCTTGAAGGTCTTATTTTGCATAATTTTTGCACTTGCACTAATTTTGATCCGGCTTCCCCCCCCCCCCCCCCCCCTCATTTTCTTAGCCTTTCCCTGTCAAATATGTTTGCATTTTTTTTTCCAAGGATAGATGTCTGAATTAGGGAAGAAAGAGGATGTTTAAGATTGAACTTTTGACTTTTCATTTGTAATATTCAGGCTGCCCTGGTTGCTGTCAAACAGTACGTCACATGCACATTCTCTCGTCTCCTGCAAGACATCTCAGGTCTTCTACTCCCACTATCATCTCCCCCTTAACCACTAAACAATATATGAAAAGAAAAAAACATAAAAGTCAAGTGAGAATTAAAGGTCTGGTGTTGGTATCAATTAAAACTTCAAAATTAAAGGTCTGGTGTTTGCAATTTGTATAAATGTGGAAACGGTTGAACGTTGTTGGTACAACTTACTTGAGATCATGCACAGGCAAATGACATACAATCTTCAAGATTTTTTCAGGAAGCAGAACTGTGTCCTTTGAGCTCTAAAAGTTTGAGTTAAATTCTATTTGAATTGACAGATGCACTCACACAGGTTCATACTAGGAAAAAAGAGGGCGTTCTAGAGTACTCCTTGCAGCTTGCGCTGGAGGCCAGCCAGAAGGCAGTGCTTCAGGGCAGCATGGATGTTTTACTAGTAATATATGAAAACTGTTTGAATTCTGATTCTCTTTACTTGAAGAGTCCCTGATCTTTGAACTTTGATTCTCTTGTACAAGCTACCAATGATCTTATTTATCACTTTTGAAGCACTAATATGAATTGTGTTGGCATTGTGTGAAAGCTGGGTTCCTGTCACTTTTATTCTCTTTTGTTGAAGAAATTATCTATGATCTTACTCATCATTTTTGAAGTACTAGTATGAATTTTGTTGGCATTATGTGAAAACCATACCACATCCTATTAAATGTAAAGGCCTTTGAGTTTATTGAATTTAGTTTGGTATCTTTTTATTGAGCTAGTAATGGCATCGACAGTTCTGAACTATTATTCATTTACTTTGCAAATTATGAAGATTGTTTTTCCATCCTCTTGATTTATTTCTCTCCCCAGCGCCCAGTTTATTTATTTATTATTTTATTATTAATCTTTTGCAGGACTTCCGCCACCTTCTTGAAGATCAGTCAGGGCTAATCATTAACCAGAGGGACTCAATTGTTGATTGGGTTCAAGAAGGATTTCAGAACTTCTTCAGGGCACTTGTTGACCGGTTCATATTGCTTTCAGGAAAAAATAATTCTTATAGTCAAAGTCAAGTTTTGACTGAGGCAACCCAAGCTGAAAAAGTTATTGCTGGTCTTGTCTTGGTGCTTGCTCAAATTTCAGTTTTCATTGAACAAACTGCCATCCCTAGAATCACTGAGGCAAGGCATCATTGAAATTTTTAAATTCATTCTCTAGCAATTTGAAGTAGCCTGATCGAATTCTATTCCCAATAAGGCGATAAGGTCTTTAAGCTTACTAAAGAATGAGACTTTCTGCATTTCATTTAGGTGTTTTTGTACCTGTGCATTCTGTGGATTCACATGGATATTTTCATGTTTATATCGTCTTCATTTCAGGAAATAGCAGCTTCTCTTTCTGGTGGTGGTATTAGGGGTTATGAATATGGTCCTGCCTTTGTACCCGCAGAAATTTGCCGAATGTTTCGAGCTGCTGGTGAAAAGTTTCTACACCTTGTAAGGCTCAAATTTCTGTCATTCCTATTATGGTGTAAAGAAATATTTTAAGCTTGCATTGCGTTATTTATATAATGGAGGAATTTGGATGATTATTATAGTAACAGTAGTATTAAAAAATAACAATTTGGAACTTCTTATTGTATAATGTATAGGTTATTATTTCCTTTTCTTTTTTTGTTTTTCTTCTTTGAATCTTTGTTACTGCACGATCTCATGATGTTCGATATTTGCATTTTTATCTTCTTTAAGCATGTTGCTAATTGTTTTTTCTTTGAACAGACAAAGAATATCTTAATAGGACTATTTGCACTTTGTTTATATAAAGTCAAGTGTATCAATGTTTTCTCCGATAGTAGGAGCACAAAAACTTTTTGGCTTAATATGCAAACTTAGGTCATCAAAATTTTGAGCCCAAAATGAAATATGCACCCCTCTTTGAAAGGAAAGTTTTTTTTTACCTTTTTCTTGCCTTATTATCGGCAGAAATGACCGAAATGACTTTGTTGTGCATGAGTGCTAGACTCTCAACTCTAGTCTCACTTTTGCTACTGTACATCTTTGCTTTGAATCCTTATTTTTGACTTTCGCTTCTCACTCTTGATACTTTCGCTCTTTGCTCTTGGTACTATACATCTTCGCTTTTGATCCTTGCTCTTGACTTTTGTATGAAAAGAGGAAGACCGAGACCAAAAAAAAATTGAGAGTGAGTGGAAAAACCTGAACCCTAGGGAGCGAGAGCGAAATCCCAACCTGCTTGCACAATGTTTCATTTCAATAATTTCACGAAGGTTAAAAAATATACTTTTTAAGAACTAGGTCAAATTTCATTTGTGCCTTCCAAAATGAGCCATTCGTATGAAAACCATCCACAAACTTTCCATATATTGAACGTATATAGTTTTTGTCTAAAAGAATCTTATTGGATTGTGTTTTGTTGCAATTCAATATGACAATTGTAACTGCCATATTTATTAAATGCATTCACTTGGTGGATCACAATTACTTATTTTTGTCATCTCAGTATATAAACATGCGAAGTCAGAGGATATCCATTCTTTTAACTAAGAGGTTTAGAACGCCAAATTGGGTTAAGGTAAGTTTTAGTAATTACGTCCATGGGACAAGAATATATTTTTACACTTGCTACTATACTATTTATTATTATTATTCAATTCTCTCTTATCTTTTATTATCTTTCCCACAGCACAAAGAGCCCAGAGAAGTTCACATGTTTGTCGATTTATTCCTTCAAGAGGTTAGGGCTATTGTTTTACCATGCTAATTGTTAATGCTATAATTTTCACGTTATTGTGATGCTGTTCTGTTTTGAATAAATGAACGGATGACTTTGGAAGCCTACAAACTGTCAATTAGTTTGTTTATTTGGGAAAATCATGATTCTGACTCTTAAGCTGGCCTCTTTCGGATCAGCTGGAGGCCATTGGAAGTGAAGTTAAACAGATTTTACCACAAGGGACTCGTAAGCATCGTCGGACTGACAGCAATGGAAGCACGACCTCATCACGTAGTAATCCAGTCCGAGAGGAGAAGTTGAATAGGTCAAATACACAAAGGGCTCGGAGCCAGCTGTTGGAAACCCATCTAGCAAAGTTATTTAAGCAAAAGATAGAGATCTTTACTAGAGTCGAGTTTACTCAGGTACCATGTTAAATCCTTTCTGTTTCCAACAATACCTGAATCCAAAATCAGAAGGTTTAGAGTGTTCATGTAATTGCAGGGATCGGTTGTAACAACTGTAGTGAAACTTTCCCTTAAGACTTTGCAAGAATTTGTCCGACTCAAAACTTTTAACCGAAGTGGGTTCCAACAAATTCAGTTAGATATGCAGTTCTTGAAGACTCCGCTGAAGGAAATTGCGGACGATGAAGCAGCTATTGACTTTTTGCTTGATGAGGTAACTCAGAAAACTTTTCTAGACATTCTACTCTTGAAATTTGGTTTCTAACTTCTTTGATTTGCACTTGATTACTATTTTAGTCACTTTTGAGCTTCAATAGTTTCATTTTGTAGTGTGGCAGCAAGAAATAACTACCTACAAATCTGTTCTTGTGCAGGTGATAGTCGCAGCATCAGAGCGTTGTCTAGACCCCATTCCTTTGGAGCCTCCCATCTTAGACAAACTCATACAAGCAAAATTGGCGAAGGCAAAAGATCAGAATTCAACATCTTCATGAATGAGCAAGCCTAATCTCACAGCCCAAAAAGGGAAAGGAAAAACCCGAAATGTAAAAATCAGATTTCCATCACAACCAGTCCTCTTCATCTTCAACGCACGGATCTTCTTCCCATTTCTTCGACTAAGCAACGCCATCTGTCTGTCCTACGCCATTCGCCACCGACCATCTCACCGCGCATCTGCCTTGCCTTGCCGCCGCCGCAGAAAGTGGATAAGCTTAAAAAGAGCTTACAAGGAGGAAGCAGGAGGAGAAATGGAGATTGATGATGTTCCAACGGATGAAAAAGCTAAAAGGATGAGGGATCTGCTATCTAGCTTCTACTCCCCTGATGCTTCAATGTCTGGCTCATCCACGGGGTCATCTAATCGATATGCCTCTCCTTTAGAAGCCATTAACACCACCTCATTTAATCCTGATCAGTATATGAGCATTCTAGTACAAAAGTCAAATTTGGAGGGGCTCCTTCAAAGGCATGTCGAAATGGCTGCCGAGATTAAGAATCTTGACACGGATCTTCAAATGTTGGTTTATGAAAATTACAATAAATTCATCAGTGCAACTGATACAATTAAAAGGATGAACAATAATATCGTGGGGATGGAGACAAACATGGAACAACTCCTAGAAAAAATACTGTCAGTGCAGTCTAGAAGTGATGGAGTCAATACCTCTCTTTTTGAAAAAAGAGAGCACATTGAGAAATTGCATCGAACACGAAACCTTCTTCGTAAAGTTCAGTTCATATATGATCTACCTGCTAGACTTGGAAAGTGCATCAAAACAGAAGCCTATGCTGATGCAGTCAGATTCTACACTGGAGCCATGCCAATATTTAAGGCATATGGAGCCTCCTCATTCCAAGATTGCAAGCGAGCATCAGAAGAAGCGATAGCAGTAGTTTTGAAAAGTTTGCAGGAAAAGCTATTCTCAGATTCTGAATCCATACAGATGAGAGCAGAGGCTGCAGTCCTTCTTAAGCAATTAGATTTCCCGGTGGACAGCTTAAAGGCAAAGTTGCTTGAAAAGTTGGAACAATCGACGTTGGATCTTCAGCTTAATGCTGAAGATTTGAGTAGTGCATTAGTAAATGGCTCTTCAAAAGACGGAAATACTTCTGAGTTAGTTTATGGTGCTTCCCATGAGGCATCTGTTCGGGAGTTTGCGGAGGCAGTCCGAGCTTATCGTGTAATATTTGCAGATTCAGATAGGCAACTGATAAAACTTGCTATGGATTTGGTTACCAAGCATTTTGATGCCACTGAGCAATTTATCAAGAAACAGATTTGTGCTGCAGATCTTCTCCTTGTTTTTGGAATTATATGGACAGATGTGCTTTTACTTGGAGAAGTATTGAATGATGCCGGTCTGCCTGATTATTCCTTGAAGGCTGCCCTGGTTGCTGTCAAACAGTACGTCACATGCACATTCTCTCGTCTCCTGCAAGACATCTCAGATGCACTCACACAGGTTCATACTAGGAAAAAAGAGGGCGTTCTAGAGTACTCCTTGCAGCTTGCGCTGGAGGCCAGCCAGAAGGCAGTGCTTCAGGGCAGCATGGATGTTTTACTAGACTTCCGCCACCTTCTTGAAGATCAGTCAGGGCTAATCATTAACCAGAGGGACTCAATTGTTGATTGGGTTCAAGAAGGATTTCAGAACTTCTTCAGGGCACTTGTTGACCGGTTCATATTGCTTTCAGGAAAAAATAATTCTTATAGTCAAAGTCAAGTTTTGACTGAGGCAACCCAAGCTGAAAAAGTTATTGCTGGCGATAAGGAAATAGCAGCTTCTCTTTCTGGTGGTGGTATTAGGGGTTATGAATATGGTCCTGCCTTTGTACCCGCAGAAATTTGCCGAATGTTTCGAGCTGCTGGTGAAAAGTTTCTACACCTTTATATAAACATGCGAAGTCAGAGGATATCCATTCTTTTAACTAAGAGGTTTAGAACGCCAAATTGGGTTAAGCACAAAGAGCCCAGAGAAGTTCACATGTTTGTCGATTTATTCCTTCAAGAGCTGGAGGCCATTGGAAGTGAAGTTAAACAGATTTTACCACAAGGGACTCGTAAGCATCGTCGGACTGACAGCAATGGAAGCACGACCTCATCACGTAGTAATCCAGTCCGAGAGGAGAAGTTGAATAGGTCAAATACACAAAGGGCTCGGAGCCAGCTGTTGGAAACCCATCTAGCAAAGTTATTTAAGCAAAAGATAGAGATCTTTACTAGAGTCGAGTTTACTCAGGGATCGGTTGTAACAACTGTAGTGAAACTTTCCCTTAAGACTTTGCAAGAATTTGTCCGACTCAAAACTTTTAACCGAAGTGGGTTCCAACAAATTCAGTTAGATATGCAGTTCTTGAAGACTCCGCTGAAGGAAATTGCGGACGATGAAGCAGCTATTGACTTTTTGCTTGATGAGGTGATAGTCGCAGCATCAGAGCGTTGTCTAGACCCCATTCCTTTGGAGCCTCCCATCTTAGACAAACTCATACAAGCAAAATTGGCGAAGGCAAAAGATCAGAATTCAACATCTTCATGA ATGAGCAAGCCTAATCTCACAGCCCAAAAAGGGAAAGGAAAAACCCGAAATGTAAAAATCAGATTTCCATCACAACCAGTCCTCTTCATCTTCAACGCACGGATCTTCTTCCCATTTCTTCGACTAAGCAACGCCATCTGTCTGTCCTACGCCATTCGCCACCGACCATCTCACCGCGCATCTGCCTTGCCTTGCCGCCGCCGCAGAAAGTGGATAAGCTTAAAAAGAGCTTACAAGGAGGAAGCAGGAGGAGAAATGGAGATTGATGATGTTCCAACGGATGAAAAAGCTAAAAGGATGAGGGATCTGCTATCTAGCTTCTACTCCCCTGATGCTTCAATGTCTGGCTCATCCACGGGGTCATCTAATCGATATGCCTCTCCTTTAGAAGCCATTAACACCACCTCATTTAATCCTGATCAGTATATGAGCATTCTAGTACAAAAGTCAAATTTGGAGGGGCTCCTTCAAAGGCATGTCGAAATGGCTGCCGAGATTAAGAATCTTGACACGGATCTTCAAATGTTGGTTTATGAAAATTACAATAAATTCATCAGTGCAACTGATACAATTAAAAGGATGAACAATAATATCGTGGGGATGGAGACAAACATGGAACAACTCCTAGAAAAAATACTGTCAGTGCAGTCTAGAAGTGATGGAGTCAATACCTCTCTTTTTGAAAAAAGAGAGCACATTGAGAAATTGCATCGAACACGAAACCTTCTTCGTAAAGTTCAGTTCATATATGATCTACCTGCTAGACTTGGAAAGTGCATCAAAACAGAAGCCTATGCTGATGCAGTCAGATTCTACACTGGAGCCATGCCAATATTTAAGGCATATGGAGCCTCCTCATTCCAAGATTGCAAGCGAGCATCAGAAGAAGCGATAGCAGTAGTTTTGAAAAGTTTGCAGGAAAAGCTATTCTCAGATTCTGAATCCATACAGATGAGAGCAGAGGCTGCAGTCCTTCTTAAGCAATTAGATTTCCCGGTGGACAGCTTAAAGGCAAAGTTGCTTGAAAAGTTGGAACAATCGACGTTGGATCTTCAGCTTAATGCTGAAGATTTGAGTAGTGCATTAGTAAATGGCTCTTCAAAAGACGGAAATACTTCTGAGTTAGTTTATGGTGCTTCCCATGAGGCATCTGTTCGGGAGTTTGCGGAGGCAGTCCGAGCTTATCGTGTAATATTTGCAGATTCAGATAGGCAACTGATAAAACTTGCTATGGATTTGGTTACCAAGCATTTTGATGCCACTGAGCAATTTATCAAGAAACAGATTTGTGCTGCAGATCTTCTCCTTGTTTTTGGAATTATATGGACAGATGTGCTTTTACTTGGAGAAGTATTGAATGATGCCGGTCTGCCTGATTATTCCTTGAAGGCTGCCCTGGTTGCTGTCAAACAGTACGTCACATGCACATTCTCTCGTCTCCTGCAAGACATCTCAGATGCACTCACACAGGTTCATACTAGGAAAAAAGAGGGCGTTCTAGAGTACTCCTTGCAGCTTGCGCTGGAGGCCAGCCAGAAGGCAGTGCTTCAGGGCAGCATGGATGTTTTACTAGACTTCCGCCACCTTCTTGAAGATCAGTCAGGGCTAATCATTAACCAGAGGGACTCAATTGTTGATTGGGTTCAAGAAGGATTTCAGAACTTCTTCAGGGCACTTGTTGACCGGTTCATATTGCTTTCAGGAAAAAATAATTCTTATAGTCAAAGTCAAGTTTTGACTGAGGCAACCCAAGCTGAAAAAGTTATTGCTGGCGATAAGGAAATAGCAGCTTCTCTTTCTGGTGGTGGTATTAGGGGTTATGAATATGGTCCTGCCTTTGTACCCGCAGAAATTTGCCGAATGTTTCGAGCTGCTGGTGAAAAGTTTCTACACCTTTATATAAACATGCGAAGTCAGAGGATATCCATTCTTTTAACTAAGAGGTTTAGAACGCCAAATTGGGTTAAGCACAAAGAGCCCAGAGAAGTTCACATGTTTGTCGATTTATTCCTTCAAGAGCTGGAGGCCATTGGAAGTGAAGTTAAACAGATTTTACCACAAGGGACTCGTAAGCATCGTCGGACTGACAGCAATGGAAGCACGACCTCATCACGTAGTAATCCAGTCCGAGAGGAGAAGTTGAATAGGTCAAATACACAAAGGGCTCGGAGCCAGCTGTTGGAAACCCATCTAGCAAAGTTATTTAAGCAAAAGATAGAGATCTTTACTAGAGTCGAGTTTACTCAGGGATCGGTTGTAACAACTGTAGTGAAACTTTCCCTTAAGACTTTGCAAGAATTTGTCCGACTCAAAACTTTTAACCGAAGTGGGTTCCAACAAATTCAGTTAGATATGCAGTTCTTGAAGACTCCGCTGAAGGAAATTGCGGACGATGAAGCAGCTATTGACTTTTTGCTTGATGAGGTGATAGTCGCAGCATCAGAGCGTTGTCTAGACCCCATTCCTTTGGAGCCTCCCATCTTAGACAAACTCATACAAGCAAAATTGGCGAAGGCAAAAGATCAGAATTCAACATCTTCATGA MSKPNLTAQKGKGKTRNVKIRFPSQPVLFIFNARIFFPFLRLSNAICLSYAIRHRPSHRASALPCRRRRKWISLKRAYKEEAGGEMEIDDVPTDEKAKRMRDLLSSFYSPDASMSGSSTGSSNRYASPLEAINTTSFNPDQYMSILVQKSNLEGLLQRHVEMAAEIKNLDTDLQMLVYENYNKFISATDTIKRMNNNIVGMETNMEQLLEKILSVQSRSDGVNTSLFEKREHIEKLHRTRNLLRKVQFIYDLPARLGKCIKTEAYADAVRFYTGAMPIFKAYGASSFQDCKRASEEAIAVVLKSLQEKLFSDSESIQMRAEAAVLLKQLDFPVDSLKAKLLEKLEQSTLDLQLNAEDLSSALVNGSSKDGNTSELVYGASHEASVREFAEAVRAYRVIFADSDRQLIKLAMDLVTKHFDATEQFIKKQICAADLLLVFGIIWTDVLLLGEVLNDAGLPDYSLKAALVAVKQYVTCTFSRLLQDISDALTQVHTRKKEGVLEYSLQLALEASQKAVLQGSMDVLLDFRHLLEDQSGLIINQRDSIVDWVQEGFQNFFRALVDRFILLSGKNNSYSQSQVLTEATQAEKVIAGDKEIAASLSGGGIRGYEYGPAFVPAEICRMFRAAGEKFLHLYINMRSQRISILLTKRFRTPNWVKHKEPREVHMFVDLFLQELEAIGSEVKQILPQGTRKHRRTDSNGSTTSSRSNPVREEKLNRSNTQRARSQLLETHLAKLFKQKIEIFTRVEFTQGSVVTTVVKLSLKTLQEFVRLKTFNRSGFQQIQLDMQFLKTPLKEIADDEAAIDFLLDEVIVAASERCLDPIPLEPPILDKLIQAKLAKAKDQNSTSS Homology
BLAST of Cla97C07G129010 vs. NCBI nr
Match: XP_038887792.1 (vacuolar protein sorting-associated protein 51 homolog isoform X1 [Benincasa hispida] >XP_038887793.1 vacuolar protein sorting-associated protein 51 homolog isoform X1 [Benincasa hispida] >XP_038887794.1 vacuolar protein sorting-associated protein 51 homolog isoform X1 [Benincasa hispida] >XP_038887795.1 vacuolar protein sorting-associated protein 51 homolog isoform X1 [Benincasa hispida] >XP_038887796.1 vacuolar protein sorting-associated protein 51 homolog isoform X1 [Benincasa hispida]) HSP 1 Score: 1360.1 bits (3519), Expect = 0.0e+00 Identity = 726/781 (92.96%), Postives = 741/781 (94.88%), Query Frame = 0
BLAST of Cla97C07G129010 vs. NCBI nr
Match: XP_008461504.1 (PREDICTED: vacuolar protein sorting-associated protein 51 homolog [Cucumis melo] >XP_008461505.1 PREDICTED: vacuolar protein sorting-associated protein 51 homolog [Cucumis melo]) HSP 1 Score: 1349.0 bits (3490), Expect = 0.0e+00 Identity = 719/778 (92.42%), Postives = 737/778 (94.73%), Query Frame = 0
BLAST of Cla97C07G129010 vs. NCBI nr
Match: XP_004139639.1 (vacuolar protein sorting-associated protein 51 homolog [Cucumis sativus] >XP_011659140.1 vacuolar protein sorting-associated protein 51 homolog [Cucumis sativus] >KGN44805.2 hypothetical protein Csa_015985 [Cucumis sativus]) HSP 1 Score: 1346.6 bits (3484), Expect = 0.0e+00 Identity = 717/778 (92.16%), Postives = 739/778 (94.99%), Query Frame = 0
BLAST of Cla97C07G129010 vs. NCBI nr
Match: KAG6577400.1 (Vacuolar protein sorting-associated protein 51-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1335.5 bits (3455), Expect = 0.0e+00 Identity = 715/782 (91.43%), Postives = 734/782 (93.86%), Query Frame = 0
BLAST of Cla97C07G129010 vs. NCBI nr
Match: XP_022929381.1 (vacuolar protein sorting-associated protein 51 homolog isoform X1 [Cucurbita moschata] >XP_022929382.1 vacuolar protein sorting-associated protein 51 homolog isoform X1 [Cucurbita moschata] >XP_022929383.1 vacuolar protein sorting-associated protein 51 homolog isoform X1 [Cucurbita moschata] >XP_022929384.1 vacuolar protein sorting-associated protein 51 homolog isoform X1 [Cucurbita moschata]) HSP 1 Score: 1334.3 bits (3452), Expect = 0.0e+00 Identity = 714/782 (91.30%), Postives = 734/782 (93.86%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy Swiss-Prot
Match: Q0WQ75 (Vacuolar protein sorting-associated protein 51 homolog OS=Arabidopsis thaliana OX=3702 GN=VPS51 PE=1 SV=1) HSP 1 Score: 924.5 bits (2388), Expect = 8.8e-268 Identity = 506/787 (64.29%), Postives = 612/787 (77.76%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy Swiss-Prot
Match: Q54KG3 (Vacuolar protein sorting-associated protein 51 homolog OS=Dictyostelium discoideum OX=44689 GN=vps51 PE=3 SV=1) HSP 1 Score: 253.4 bits (646), Expect = 8.7e-66 Identity = 221/803 (27.52%), Postives = 392/803 (48.82%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy Swiss-Prot
Match: Q4V9Y0 (Vacuolar protein sorting-associated protein 51 homolog OS=Xenopus tropicalis OX=8364 GN=vps51 PE=2 SV=1) HSP 1 Score: 224.2 bits (570), Expect = 5.7e-57 Identity = 196/736 (26.63%), Postives = 355/736 (48.23%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy Swiss-Prot
Match: Q3UVL4 (Vacuolar protein sorting-associated protein 51 homolog OS=Mus musculus OX=10090 GN=Vps51 PE=1 SV=2) HSP 1 Score: 221.9 bits (564), Expect = 2.8e-56 Identity = 208/785 (26.50%), Postives = 367/785 (46.75%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy Swiss-Prot
Match: Q9UID3 (Vacuolar protein sorting-associated protein 51 homolog OS=Homo sapiens OX=9606 GN=VPS51 PE=1 SV=2) HSP 1 Score: 216.1 bits (549), Expect = 1.5e-54 Identity = 205/775 (26.45%), Postives = 354/775 (45.68%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy TrEMBL
Match: A0A1S3CES5 (Vacuolar protein sorting-associated protein 51 homolog OS=Cucumis melo OX=3656 GN=LOC103500085 PE=3 SV=1) HSP 1 Score: 1349.0 bits (3490), Expect = 0.0e+00 Identity = 719/778 (92.42%), Postives = 737/778 (94.73%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy TrEMBL
Match: A0A6J1EMM4 (Vacuolar protein sorting-associated protein 51 homolog OS=Cucurbita moschata OX=3662 GN=LOC111435972 PE=3 SV=1) HSP 1 Score: 1334.3 bits (3452), Expect = 0.0e+00 Identity = 714/782 (91.30%), Postives = 734/782 (93.86%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy TrEMBL
Match: A0A6J1JAN2 (Vacuolar protein sorting-associated protein 51 homolog OS=Cucurbita maxima OX=3661 GN=LOC111483261 PE=3 SV=1) HSP 1 Score: 1325.1 bits (3428), Expect = 0.0e+00 Identity = 710/782 (90.79%), Postives = 730/782 (93.35%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy TrEMBL
Match: A0A6J1K9H7 (Vacuolar protein sorting-associated protein 51 homolog OS=Cucurbita maxima OX=3661 GN=LOC111492889 PE=3 SV=1) HSP 1 Score: 1310.8 bits (3391), Expect = 0.0e+00 Identity = 701/781 (89.76%), Postives = 728/781 (93.21%), Query Frame = 0
BLAST of Cla97C07G129010 vs. ExPASy TrEMBL
Match: A0A6J1GBC0 (Vacuolar protein sorting-associated protein 51 homolog OS=Cucurbita moschata OX=3662 GN=LOC111452610 PE=3 SV=1) HSP 1 Score: 1310.8 bits (3391), Expect = 0.0e+00 Identity = 700/781 (89.63%), Postives = 729/781 (93.34%), Query Frame = 0
BLAST of Cla97C07G129010 vs. TAIR 10
Match: AT4G02030.1 (Vps51/Vps67 family (components of vesicular transport) protein ) HSP 1 Score: 924.5 bits (2388), Expect = 6.3e-269 Identity = 506/787 (64.29%), Postives = 612/787 (77.76%), Query Frame = 0
BLAST of Cla97C07G129010 vs. TAIR 10
Match: AT4G02030.2 (Vps51/Vps67 family (components of vesicular transport) protein ) HSP 1 Score: 910.6 bits (2352), Expect = 9.4e-265 Identity = 506/812 (62.32%), Postives = 612/812 (75.37%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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