BhiUN159G11 (gene) Wax gourd (B227) v1

Overview


Name	BhiUN159G11
Type	gene
Organism	Benincasa hispida (Wax gourd (B227) v1)
Description	C2 domain-containing protein
Location	Contig159: 279647 .. 333426 (+)
RNA-Seq Expression	BhiUN159G11
Synteny	BhiUN159G11

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptide

Hold the cursor over a type above to highlight its positions in the sequence below.

ATGGCTTTTCTTCTCCACAACCACAGCCATCTTCACTACAATTCTTCTCTCTCCACACCCATTCCCAACCTCCATTGGACCCGAAATCTTCTCCCCTCCCGCCGAAGACCCAAGTTTTCTCGGAAACCTAGGGTTTTAACTTTCCGGGTAAATCATAAGGGTCGCCTCGGCGTATCCTCTTTTCCTTGCTTCTGCAGATCAGGGACCGAAGTTGAAAATTTACCTCTCCTAGAAGAAACTGAACGACGGCCCTTTGATATCAATCTCGCCGTTATTCTTGCCGGTTTCGCGTTTGAAGCATACACTAGCCCCCCTGTAATTTGATTACTGCTTACTTCGTTTATTTTTGTTGTTGTTGGTATCATTTTTTGTTTATTAGGAGAGGGTTATGAAGATGCATTTTAGTGTTTAAGTTCGATGAAAGATATTGTTTGAAATTTTTTGTGATCTTTTATTTATATATTTTTCCTTTTTTTGGTATAGGAAAATTTTGGGAAGCGTGAAGTTGATGCTGCAGGCTGTACGACTGTATATCTTTCAGAGTATGTAATTGCTATAATAAACTTTAAATTGACGAAAATTGTGCAGAAGGAAGTCTTGGATGTTTTAGTTGCATATTGGTCTTCCTGAACTCGTAATTGTTTTTGCTATTGAATGCATATAAGTTCTTTTGACTTCAACATTGGACGTGCCAATTTTTATTCATGAATCCAAATGCAGGTCATTTGTTCGAGAGATATATGATGGTCAACTGTTCATAAAATTGAAGAAGGGCATTGATTTACCTGCAATGGATCCGTGGGTAACTCCTTTCCCCTTATTATTATCATTTTTTGTTCTTTTTTGCCATATGAAATTTAGTTTTAATTTTCTAACTTCCGTGGTAAAGCAGGGTTTTAGGAAAAATTAAATTTTGTAGTGGTTCCTCCTCATCGGAAAACATAATTATGAAAAAAATGCAAGCTCTTTCACCGTTTCACCTAAACCCAGAATGACTGAGATTGCTTTATGTGAAGGAAAAAGCCAGAAATGCTGACACAGTTCCCCAAATGGCTTGAGCAGACCATAATCATCTCTTCTTCCATGTCAACCATTTGGGGAATTGTGTTAGCATTTCTGGCTTCTTTACATTTCTGCCATTGGTTCTGAAACAGGGACAAAGCCAAAATCGTCTTTGATTGACGCCATCTTTCTAGGAAGTTTGGAAAGAAACGAATAGAAATATTTTTTTTTGCACTCACTTTAAGAGTTTTTAACCCTTAAACACTTATTCCTTTTCATTATATTAATGAGAAGTTGTTTCTTGTTAAAGAAAAAGGAGAAAGAGCTTGTTATTCTTTTTCTTCTAAATTTTTCATTGTTTCTTTTGATCTCCAACACAAAACAAGGCACAATCCTTACCATCAGTATCACTTAACTATTATCAAAGTGTTCTGATAAAGAGCTCGTCCCTTTCTTACCCCTGCCCCCCCCACAGGTGAGAAGAAAAACATTTTTTTTAAAGAAATGTCTCAACTTTATACAATCACCACTTATTGTTTATCTTATTTTATTTATTTTAGTGATAAACATATTTTTTTCACTGATGAAATGGAAAATTACAGAACCATACCAACCATACAAAAAAAATAAAAAAACTAAAACTTAAGTTCTATTGCACCACTTTAAACCCAAACTTAGAACTAAATAGAATGATCTTAAGGATAACTCAAGACATCTATCCCTACTAAACAAAAGGCACAGTAAATGACAACTGCTAGATCTTTTCTTGACCAATTACTACCGTGGTCTTCTTTATAGACTTCTAATGCTTTACGTTCTTTGTATTTCCTATTTGATTGTATTTGTTCCTCATTTTGACATGCTTTCAGGGAACGAGCGATCCATATGTGGTGTTTCAATTGGATGGTCAGGTTGCTAAAAGCAAGACAAAATGGGGGTGAGCAATGTATTCATACTGAAATCCTTCATCGTGTTAAAGTGGTATTTCACGTCGTGACAGTTAACAAATAATATTGCCTTAGTAAGCAAATAACAATGAATGAATATCAGTTGGTCTTCAAGTCTTCAAACTTTGGGTCTTGGAAGAGCTTTGGTAAGGGTTTTTATGGTATGAAGCTATGTAGGTGTTCAAATGAGAGAGCTGCAAACTTTTTCTCTTCAAGGAAATGTAATCAATTTAATATATTTCATACAATCATGAAGAGCTAGATTTTTTGTGATATTTATAGCAGCATGATTATCATTGAAGAAATGGATAGAGGCTATGCTCTGAAAGTAAAAAAAAGGTTCAAAGGTAAAATATAAAAGCTTCCTAATTCAGACATATTCCTGCAAATAAAAGCCTAAAAAAATTAGACATATCTCTGAAATTAAAGCTTTGACTACATTGATCCACATAAGGTGTGATCTTGGAGGCAAGTTAATCCTAGTGAGAAGATGAAATACATTGCCCTTTTTGGGAAAAAAAAAAAAAGTGAAATACATTGCTCTCGGTGTTATTCGAAAACACCCAGTTTTGTTGTGTTAAAGATTTACTTAAGAACACACCAGAGGATTCCAAAGCCAGCTCCTTAATTCATCGTGATTATTTTACTTGGCAACTTCCAGATCTGTAAGAAGAGAATAAATCATCTATTTCTTCTTCCTTTAAGATCCATTCACAAGAAATATTCCAAGGAAGGCATGAAGAATCTTTTTTTAACAAGATACCACACTTTTCATTAAGAGAATGAAAAAAAACTATTGCTTAAAGATACTATTAAAATATAGAGATAGAGCACACAAGGTTTACGTGGAAAACCCTAGTACAAGGAGAAAAAACTACAGTAGAAAGTCTCTTTTATTATTTTTAACACACACTGAAAGTTACAATAGAAGTCATATTTATAGGCTCTAGCAAGCCCTAAAATGAAAAAGGAAATAAACCTAGGGTAAAGTAAAATACTAAAATACCCTTGAGACTATAAGCTATCAACAAAATCCCTTATTTCCAATACTCCCCCTCAAGTTGGGGTGTAGATGTAAATCAAACCCAACTTGCTAACACGAGTCTAAACTTTGCCTGAGTAACCCTTTGATGAGAACATCAACAACTTGTTGACTAGGTGGAATATACGGAATATAGATACTGTCATTGTCCAGTTTCTCTTTTATAAAGTGTCTGTCAATCTCCACATATTTCATTCTATCATGTTGTACAGGATTATTGGCTACGCTTATAGCCGCTTTATTATCACAATAGAGCTTTATAGAACACTGTCTTAGTGTAGATCAGATAGAACTTCTTCAACCAAATTTCTTCATAGATTCCCAAATTCATAGCTCTGTATTCAGCTTCAACATTGCTTCTAGCAACAACTCTTTGCTTCTTACTTCTCCAAGTAACTAGGTTACCCCATGCAAAAGTGATGAAGAAAAAGACAGAGTAGAGATAGAAAAATAGCACACACATAGTTACATGGAAAACCCTAATAAGGGAGAAAAAACCACAGGATAAAGAATTCTTATTAGAATTTGATACAAAGTATACACAGAGACTACAAGCTTAAATAGAAAAAAAAAAAAAGGAAACCCTAGGGTACAGTAGAAAAGACAAATATGCCCTTAGGGTAAAAACCCTATTTTCAACACTCTCCCCCAAGTTGGGGTGTAGATATCAATGAGACCCAACTTGCTAATACAAGAGTCAAACAATTATCTGGGCAGCCCCTTTGTCAGGACGTCTGCAATCTGTTAACTGGATGGAATATAGGGACACAAACGTTGCCACTGTCAAGCTTCTCCTTGATGAAATGCCGATCAATCTCCACATACTTTGTTCTGTCATGCTGTACTGGATTGTTTGCTATGCCTAGTGCGGCTTTGTTATCACAATAGAGTTTCATCAGACCATTGTGACCTTGATCAAGATCACTTAGAACCTTTTCTAGCCAAATTTCCTCACATATCCCCAGACTCATGGCCCTGTACTCGGCTTCGGTACTACTTCTAGCAACTACCCCGTGTTTCTTACTCCTCCATGTGACAAGGTTACCCCATACGAAGATACAATATCCTGATGTCAACTTTCTGTCTACCACAGAACCTGCCAAATCTGCATCTGTGTATGCCTCGATGCACCATCTATCGGATTTTCTGAACATCAATCTTCTACCTGGAGATGTTTTCAAATACCTCAGGATGCGTTCCACTGCCCTCATATGTTCTTCGTAAGGAGACTGCATAAACTGACTAACTACGCTAACCGCATATGAAATGTCGAGTCTAGTATGAGAGAGATAGATCAGATTCCCAACAAGCCGCTGATATCTCTCCTTATTAACTGGTACACTGTCACTCACATTACTTAGCTTAGCATTCACTTCCATAGGGGTATCAACTGGTTTGCAGCCTGTCATACCTGTCTCCATAAGCAAATCCAGAGTATATTTCCGTTGAGAAACCGAAATCCCTTCTCTCGATCGAGCCACTTTCATTCCAAGAAAGTACCTCAGCTTTCCAAGGTCCTTGATTTCAAATTCCTCAGCCATTTTCGTCTTTAAGCGGTCAATCTCTGAAGCATCATCACCTGAAATGACAATATCATCTACATACACAATCAAAATTGCAAGCTTCCCGGATACTGGCCTCTTTGTGAAGAGAGTGTGATATGAGTGTCCCTGACTATACCCTTGTGACTTTACAAAGGTAGTGAATCTGCCAAACCAGGCACTTGGGGACTGTTTTAACCCATACAAGGACTTCTTTAGTCTACATACTCGGTGATTGAACTGTTTCTCTAATCCTGGGGGAGGACTCATGTAGACTTCTTCCTCCAACTCTCTGTTAAGAAAAGCATTCTCACATCAAGGTCAGTCTTTGTTAACTGCAACTGAGAGCAGAACCCGTACTGTATTCAACTTTGCTATTGTTGAAAGTCGCGGAATAATCAACTCTGAAGGTCTGAGTAAAACCTCTGACAACTAATCGGGCCTTGTACCTATCAATCATTCCATCGAGCCTATACTTAACCATGAACACCCATTTACATCCAACTGCTTTGTGTCCATTTGGAAGAGTAACTTGGTCCCACGTATTATTTTTCTCAAGCGCCCCCATTTCTTCCATGATTGCGGCTTTCCATTTGAGAATCTCCATTGCTGTGTGTATACTGTTCGGTATTACAACTGTGTCTAGGCTCGTAGTGAGGGTCTTGAACCCTGGAGACAAGTTGCTATAAGACAAGTAACTCTACAGTGGGTACTTTGTACATGATCTGGTACCTTTCCTCAAGGCAATAGGGAGGTCAAGGGATGCATCACAGTCTTTATCCTCCTCAGACTCCCTACTGCACTCAACCTCCCGCTCATGGGTCTCACGCTCTGACATATCTTTTCCACTTTCAACAGTGTTCTCTACTGGAACAAATGTCCCACAATTATCACTACCTGCCTCAGTCACATTGTTCTTGGTGCACTCATTCATGCTATCATTGTCTCTCCTGTCTTTGCTCTCATCATTTTCAACACAAGCATCAGTTTCAACATAAATGTTACCATTGTCAGGAATAGAAGTACTAGTACCTAGAACTGATACCTGTTCTAACTCAGGACTGGAGCCGGAGAAATAACAAGCAACACTTTCCTTTCTGAGATTCCTCCTATAATATGGGATCCATGAGACTTGTTCAGTAGGCAGAATGGGTTTGTTGATACTTATGTCAAGAATAGGTTCAGGTAAGATGGACAGACTTGGGCCCCAATTGGTTTCTTCACTAGTATTCTCCCCCTGAAGAGAACTATTGGGAAAGAAAAGATGATCTTCAAAGAATGTCACATCCATTGAGACAAAATACTTTCGGGAAGGATGGTAATACTTGTACCCACGTTGATGAAGAGGGTATCCCACAAAGACACATTTCTGGGCACGAGGAGTAAACTTGGTTCAGTTAGAACCATGAGTATGGATGAACACGATGCACCCAAACATCCGAAGGGAAACATCAGAAATAAGCCAGTTATTAGGGTAGGACTCTTTGAAGCAATCTAAGGGGGTTTGAAATTTTAGAACCCGGGACGACATTCGATTTATCAGATGAGCTGTTGTCAAAACAACATCTCCCCACAAATAGGACGGGAGAGAAGTTGACAACATAAGGGACCGAGCAACTTTGATAAGGTGACGGTTTTTTCGTTCGACCACTCCATTTTGTTGGGGAGTGTACACACAGGAGCTCTGATGGACGATTCCTTTAGAGATTAAGAATTCCCTAAAGGAATTATTAAAGTATTCCTGACCATTGTCACTATGAAGGATAGCGATTTTTGCATTGAATTGGGTTTCTATAGAGCAATAAAACTGTTGGAAGACTGATGTGACTTCGGATTTGTCTGTTAGAAGAAAAACCCAAGTTAACCTAGTATGGTCGTCAATAAAGGGTTACAAACCACCATTTGCCAGTGGCGGTAGTAACAGGTGACGGATTCCAAACGTCGCTATGGAAGAGGGTGAATGGTTTGGAAGGCTTATAAGGTTGAAGTTTTAATGATGCACGAGGCTGTTTGGCTTGGACACACACATCACAATTTAATTTAGAAAGATTAACATTGTGGAAAAGATGAGGAATTCATATAATGGAAACTAGGATGCCCAAGGCGATAGTGCCATAGCATATAATCAGTTTCAGAAATAGAAAAATGAGATGAAAGTAAACTAGTCCTATCACATATGAAAGTAAACTAGTCCTATCAAATATCCTAGATGAAGCTTCTTCCATGAAGAAATAGAGCCCCCTATCATGCCGGGCAGTGCCAATCGTCGTCTCCGAGTTCAGATCCTGAAAAACAACAACTTCGGGTGAGAAAATAACTCGACATCTCAAATCTCTTGTAATTTTACTAACAGATAAAAGGTTGTAAGAGATTTTAGGCATTTGCAACACATCTTGACGAACTAAGCCCTCAAAGTGTGACAAATGTCCTTTTCTGGCAACAGGGGCAAAGGACCCATCAGCAATTCTGATCCTCTCATTCCTAGCACTTGGTTGATATGAAAGAAACTAGTCGGAAGAACCGGTCAAGTGGTCTGTAGCCCCTGAATCTAAAATCCACGGTTTACTACCAGTTATACTAACAAGGCCAAAGGAGTGAAGGGTACCTGATTGAGCGATTGCACTTACTCCCACTGTACTAGAAGTGCTCTGACTGTTTTCCTAATTCTGAGATTGCAGACCTCCAGTTGCTGATTCACCTACCAGTGCTCGACCCGACTGTCGTTTTTTACCATTCAGCGGACGGCCATGCAACTTCTAGCACTGATCTTTCATGTGCCAGGGCTTCTTGCAATGTTCACACTAGAGTCGGCTTACTGTTCTGTTTATCATGGACAGGACCTGAGGTTTTGAAGGCAACGAAATCTGTCGACGACACCAGTGTATTATTCATTGCCTTGGACTTGTCTTCCTCGAGACGTACTTCAGAGCAAACCTCCATTAGGGATGGTATTGGGCGGGTTCCCAGTATACGACTCCGTACTGCATCAAACTTAGAGTTCAGCCCGGCAAGGAAATCGTATACTCGATCAGTTTCCTCATACTGATAATGCAAGACTCCTCCACATGGACAATTTCAGATCATCTCATGACATAAATCCATTTCCCAGAGAAGCGACAATTTATTAAAGTAGGCTGTAACATCCATTGCCCCTGCTTACACTCATGGACTTGCTTGCGTAAGGTATATAACCGGGAAGCGTCCTATCTTTTGGAGTAAAGCTTTTGGACTGCCTCCCAAATGTCTCGAGCCGTGGCGGCATATGGTAAGGGTTTCCTAATCTGAGGCTCCATACTCCCTGCCAAAATAGACCGAAGTAGAGAGTCTTCTCCCATCCATATTCGTTCTTGGGGGTCGCCTGGTCTTAGCTTTGGTATCTCACCCGTCAGATACCCGAATTTGTGACGACCTTCAAGGGCCATTTTAATGGATTGGGACCAGGAAAAATAATTATCACCATTTAACTTTTCTTCTACAATAAAGCTAGCAGAATTTCCTATTGCTTCAGAAAATAAATTTGAAGATGAGATAGGAAAGGAGGTTACCGAATTTCCAGCATAATTATGTTGATTCGGGTTTAGATCTGGTTGGGCACTGGATGTTGATCCCAGTGCTTCCCCAATGGCAGCTATCTGTTGCTGGAATATCTCATTTTGCTGCTTGATCTGGACTTGTAATTGAGTAAACTGGTTTTGAATTATACTCTCTTGATCTCGATGGTGAGACGATGATTCCCCACCTTCGAACCCACCGATGACCGGTGACGATTGACCCAAACTACTATTCGAATCCGGCTGGAACAGAGGATTTCGGTTGATGAAGTGGCAGCCACTGGTTGATCAATTCTCGGCTGGTTTGGCTGATGAGACCTGCTGTGGCTCGGACCAGCTCCAACAATATTGAAGGCGGCGTCGGTCAGAGGTCTTCGGTTCGGCAGCGGTTGTGGGACCAGTGCCGATCGAGTGAGAGATACCTGATGGATTCGCGCCGATTGGTTGCAGCGGCTGGAACTGGCCAGAGAGCGTCGATCGACTGGACCGCACGTGAGGGATTGCGCCGGTCTGGAGCTGCATGACCTGGAAGGTATCGACCGGCTGAAGCTGCGTCGAACCCGAACTACGCGGCACGGAAGGGATCTGCCGCAAGGTGTCGATCGTCTGTTGCTGGAAATGGCTGCTCGGATGATCTGCTACACCGATTAATGGCGCTGTGGTCACGTTGTCACGAAGCTGATCGGCTCTGGTCGGTTGATTGTCACGTTGAAGGTGTGGAAGAACGGATTGAAAATAACGATCGATGGCATTTTGGATAACAATGGCTATATCTATACCATTGGTTTCACATACTGGTAATTGGGATTCTCCCATTGGGTTTTCCTCAATGGTGACCAGGGTTTCGTTTCTATGCTCTAAACCATGATGAAAAAGACAGAGTGGAGATAGAAAAATAGCACACATAAAGTTACGTGGAAAAACCCTAATAAGGGAGAAAAAACCACGGGATAAAGAATTCTCATTAGAATTTGATACACATTATACATAGAGACTACAAGCTTAAATAGAAAAAAAGGGAAACCCTAGGGTACAGGGGAAAAGACAAATATGCCCCTAGGGTAAAATCCCTATTTTCAACAAAAAGTACAATATCCAGAGGCAAACTTTCTGTCAATAACTGGTTCTGCCCAATCAAAGTCAGTATAGGCCTCAATGCATGTCCTGTCAGTCTTTCTGAACATCAGACCTTTACCTGGTGAGCTTTTCAAATATCTTAGAATCCGATTCACAGCTTCCACATGTTTTTCGTAGGGTGCCTACATAAACTGACTAACAACACTGACAACATAGAAAATATTTGGTCTAGTGTGAGATAAGTAAATCAACTTTTCCACTAGACGTTGATACCTCTCTTTATCAACAGGAACTTTGTCAACAGAATCTCCCGGTTTCGTATTGAATTCAATAGGAGTGTCAACAGGTCTACCTCCAGTCATACCTATTTCTTTTAACAGGTCAAGAGTGTATTTCCGTTGTGAGACAGAGATCCTTTCCCTTGATCTTACCACCTCCATTCCAAGGAAATATTTTAGATTCCCTAGATCTTTGATCTCAAACTCATAAGCCATTTTCTTTTTCAGCAGCATCATCTCCTGACAGGACAATATTATCATCATACACAATTAGAACAACAATTTTCCCAGATGTCAACCTTTTTGTAAACAACGTGTGATCAGAGTGTCCCTGAGTGAAACCTTGGGACTTAACAAAGGTAGTAAATCTATTGAACCACACTCTCGGTGACTGTTTCAAACCATACAAAGACTTCCTGAGTTTACAAACCTGATGATCAAACTAAGCTTCAAAGCCTGGGGGTTCATATACACCTCTTCTTCTAATTCACCATTCAGAAATGCATTTTTCACATCAAGTTGATGGAGAGGTCAATCTTTATTGATTGCAATAGAAAGAAGGACCCAGACCATGTTTAACTTTGCTACAGGGGGGAAAGTCTCAGAATACTCTATCCCATAAGTTTGAGTATACCCTTTCGCTACAAGTCTAGCCTTGTACCTGTCTAGAGTTCCATCTAATTTATACTTCAAAGTGAACACCCACCTGCACCCAACTATTTTATGCCCTTTAGGAAGAATAACAAGGTCCCACATATTATTTTTTTCGAGAGCTCTCATATATGATGGCAGTCTTCCTCTCAGGAATTTCCATAGCCATATGTATGTTTTTCGGTATTGTTACTATATCAAGGCTAACAGTGAATGCCCTGAACTCAGAAGACAGATTATTGTAAGACATATAGCTATACATGGGGTACTTGGTGCAGGATCTGGTGGCCTTTCTCAATGCAATGGGCATGTCAAGAGAGATATCATAATCCTCTGATTTGTCTGATTCCTCATCTATAATGGGATTTTGATTACATTTTCCAGCCTGATGAAGAATCTCACCCTCTTGACCCTCTTGTGTTTCTGTCGAAGTCTCATTACTGCTTGCAACCCTGTTGTTCTCTGGAACTAACATATCATTCCTGTCATTTTCAGCCAAATCAACAATATCATCCTCAACACACAAGTTAGTATTATCAAGGCCAATAGTACCTTGAGCTTGCGTTGGTTTAGATTTATGGATCGGAGCCGACGGAGCAATATGGGACACCATTTCCTTTTTGAGATTCTTCCTGTAGTATGTTATCCAAAGGACTTGTTTAGTGCGTAAAATAGTGTCATGGGTACTCAGGATGGATTCATAAAGGAGTTCAGGAAGGTCAGTAGGGACTGAAGATGTGGACCAGTTAGTCTCTTCACTAGTACTCTCCCCTTGAAGAAAACTAATGGGGATGAAAGGCTTATCTTCAAGGAACATTACATCCATGGAGATGAAGTATTTTCGGGAAGAAGGGTGGAAAACATTTATAACCTCGCTGGTGAAGAGGATACCCAACGAAGACACATTTCTAAGCATGAGTGGTAAAATTAGTTTGGTTAGGGCCATGATTATGGATAAAGGCGGTGTGTCACGGTCATGCTTGTCCAAGGCCTGTTGCCCATGGCCGCATGCCCGATCCAACCCCCTTCTAGCATACTTTCATATCTTGTATTGTATTAGGAGCTTAGTTAGTTTGCTTTCTTTACATTTTCATTGTAAGTGACCACTCGCCCTTTTGCATATGCAAGGGCGCCAGTTGACTTTTTGTTCAGAATGCACTATATGGGGATAAGACTAACCATCACTTCCTCATACCCGGAGTAGTACTCTATAAAGCTGTTGTTGTTGCTTTATTGCTTTCTAGTCTACTACAATCTTTCTTTCTTTATTCACACTCACAAAAACTTCTTACGAAAACCTTTTCTCCAAACCCGTTTTCTAAAACCGTTTTCCCTAAAACGGGGGTGGAGGTTGCGAAGAGGCACTCGGTGTGCCATCGGCAGTCCGTATTCGAGTTGACTGACTTGTTCGTGAGCGGAAACAAGTGCCGCACAATCGCTAAGAGAAGGCTTCCGAAAGAGCGATTGTGACAGTTGGTATCAGAGCCAAGTCGGCTTATAGAGGGAAGATCAGTGATCATGTCGGCGACGAAGAACCTGAACAAGTCCTATGTGGACAGATTGGTAGAGATGGAAGAGCAAATGCTCTACCTGAGAGAGGTCCCAGATAATGTCCGTTTCCTAGAGACTCGGCTACAAGAAGTTGCTGAGAAAGCCGATGGAATTGATGCGGTAGTAGGCCGCCTAGACGGATTACCCGTCAGAGAATTGATGATGAGGGTAGAGACCCTCGAGACCAAAACAGTACGGTCCGGCAGCTTTTTGAACGAGGCGATAGCTCCTCGGGCTCTGTGCCCACATATGGAGCGTGTCGAAGAGCTGGACAGCTCCCAAAAAGCAATACTTCAGATGGTAAGCGATTTGTCTGGTCGGTCCTTGACGTTGTCAAAGCCGAGATAGCGGATGTGAGTGCTAGGGTGAATCTCACATCCAAGCGGTAGGGAACCAAGCCCCATCTGGGGAGCAATAGCAGTAAGCAGAATAAAAATCCCAGAACTGAAGCCCTTCGTGGGGTGCGAGAAGCGAAAGCCCTGGAAAATTTTATCTTTCGACTTTGAAGCAACTTCAAGGCGACGAACACAGTACTGAAGAGTCGAAAAGTCACACTAGCAACGATGCATCTAGCTGAAGATGCGAAACTGTGGTGGAGATTTCACGATTTACAGACATACAGGAAAGGACACTGCACTATTGATACTTAGGATAGATTGAAACAAGAACTTCGCCCGTAGTTTCTTCCCTGAAAATGTCGAGATCTTGCTCGACGAAAACTCCAAGAGCTGAAGCCAAATAGGTAACATTCGGGACTACGTAAAACAGTTTGCAGGACTCATGTTGGACATACGAGATATGTCTGAAAAAGACAAGTCTTTTGCTTTTGTTGAAGGGCTGAAACTGTGGGCGAAATCAAAACTATTATGGAACAGAGAGTACAGGATCTCCTTCTGCCTATGCGGCAGCTGAACGGCTATACGACCTTAGCACTGACTCACAAGATGTGAGGAAGCAGTCAACTTCCTCAAATGGGGGAAAACAGAAACAGTCGTTCCTGTCCTCCAGACTTGGGGGAGGAGACAAAGAACATAGGAGGACCGTTAAATCATCCCAACCGAGATTAGGAAACAACTGGCGGGGGCCGCCGGCAACAGCATAACAATTACAATCGCCCCCTGTCTTGTTTCATATGTAGAGGACCACACAGTGTTGGGCGAATGTCCAAATCGAACCGCGTTCAATGCTTTTCAAGCCACGTTAGCCTCTACCTCCGGACAAGGCTGAACTGGAGGAGACGGTAACCGAGCCAGCTGCAGAAATTGAGAATCCCAGGATGGGAGCATTGAAATTCTTATCTGCGCTCCAGAAGAAGATGGGAAAGCGACGAGCCACTAGAGAAATGACTCATGTATGTGGACGCTTGGGTCAAACCAAAGATCGGCCAAAAACAACTATGGTTGACTCTGGGGCTACCATAACTTCATGGCTGAAACGGAAGCTCGCCGCCTGGAATTTGACTTGGGAAAGAGATGCAGGGAAGATGAAAGCTGTGAAATTCCGCAGCCCTACCAATTACGAGGATAGCGAAGAGAACTCCGGTGAAGTTAGGAGACTGGAAGGGCTTCGTTGACATTCGTGATTGTCAAGATGGATGATTTCGACGTGGTAACTGGGGATGGGAATTCCTACTGTGAACATAAAGTCATACCAATGCCCCTCGCCAAATGTTTAGTCATTACGGGATTTTACAACCCACCGTAGTCCAAGCCAGTATCAAGCAGCCAAATGGGGTGAGAATGATCTCAGCCCTCCAATTGAAGAGAGCCTGGCCCACGACGAACCCACGTTCATGAACCATCCCGATAGAATCAGTTGAGTCACTGAAGAGGAGATCCCCCAAGACGTTCTATTTGTCTTGGAAGATTATCGGGATGTCATGCCGAAAAGCTTGCCCAAGTCCTTACCCCCACGAAGGAGATTGACCATGAGATTGAGTTGTTACCAAAGGGCAAAGCCGCCTGCCAAGAATGCATATCGGATGGCCCCGCCAAAATTGCCGAACTCCGGAAACAGTTAGACGAGTTGTTAGATGCAGGATTTATCAGACCGGCGAAGGCCCCTTACGGAGCCCCAGTACTGTTCCAGAAGAAGAAGAATGGGAGCCTCCGGTTGTGCATCGACTATTGGGCCTTGAATAAGCTCACAGTCAGCAACAAATATCCCCTTCTTATCATTACTGACTTATTTAATCAGCTTCACGGTTGCTAAAGATATTTCTCAAAGCTGGACCTACGGTCTGGATATTATCAGGCCCGATTGCAAGGAGACGAACCTAAGACGGCCTGTGTCACGTGATATGGAGCTTTCGAATTCCTCGTGATGCCCTTTGGCCTCACCAATGCTCCAACAACTTTTTGTACCTTATATGAACCAAGTGTTTCACGAATACATCGACAAATTCGTCGTAGTGTATCNNNNNNNNNNNNNNNNNNNNNNNNNAATCTCCCTTCTGCCTATGCGGCAGCTGAACGGCTATACGACCTTAGCACTGACTCACAAGATGTGGAGGAAGCAGTCAACTTCCTCAAATGGGGGAAAACAGAAACAGTCGTTCCTGTTCCTCCCAGGACTTTGGGGGAGGAGACAAGAACATAGGAGGACCGTTAAATCATCCCAACCGAGATTAGGAAACAACTGGCGGGGGCCGCCGCAACAGCATAACAATTACAATCGCCCCCTGTCTTGTTTCATTATGTAGAGGACCACACAGTGTTGGCGAATGTCCAATCGAACCGGTTTCAATGCTTTTCAAGCCACGTTAGCCTCTACTCCGAAGGACAAGGCTGAACTGGAGGAGACGGTAACCGAGCCAGCTGCAGAAATTGAGAATCCCAGGATGGGAGCATTGAAATTCTTATCTGCGCTCCAGAAGAAGATGGGAAAGGCGACGGAGCCACTAGAGAAATGACTCATGTATGTGGACGCTTGGGTCAACCAAAGATCGGCCAAAAAAAACACTATGGTTACTCTGGGGCTACCATAACTTCATGGCTGAAACGGAAGCTCGCCGCCTGAATTTGACTTTGGGAAAGAGATGCAGGGAAGATGAAAGCTGTGAAATTCCGCAGGCCCTACCAATTACGAGATAGCGAAGAAGAACTCCGGTGAAGTTTAGGAGACTGGAAGGGCTTCGTTGACTATCGTGATTGTCAAGATGGATGATTTCGACGGTGGTACTGGGGATGGAATTCCTACTGAACATAAAGTCATACCAATGCCCTCGCCAAATGTTTAGTCATTACGGGATTTTACACCCACCGTAGTCCAAGCCAGTATCAAGCAGCCAAATGGGTGAGAATGATCTCAGCCCTCCAATTGAAGAGAGGCCTGGCCCACGACGAACCCACGTTCATGAACCATCCCGATAGAATCAGTTGAGTCACTGAAGAGGAGATCCCCCAAGACGTTCTATTTGTCTTGGAAGATTATCGGGATGTCATGCCGAAAAGCTTGCCCAAGTCTTACCCCCACGAAGGAGATTGACCATGAGATTGAGTTGTTACCAAAGGGCAAAGCCGACCTGCCAAGAATGCATATCGGATGGCCCCGCCAAAATTGCCGAACTCCGGAAACAAAGTTAGACGAGTTGTTAGATGCAGGATTTATCAGACCGGCGAAGGCCCCTTACGGAGCCCCAGTACTGTTCCAGAAGAAGAAGAATGGGAGCCTCCGGTTGTGCATCGACTATGGGCCTTGAATAAGCTCACAGTCAGCAACAAATATCCCCTTCTTATCATTACTGACTTATTTAATCAGCTTCACGGTGCTAAGATATTTCTCAAAGCTGGACCTACGGTCTGGATATTAATCAGGCCCGATTGCTGAAGGAGACGAACCTAAGACGGCCTGTGTCACGTGATATGGAGCTTTCGAATTCCTCGTGATGCCCTTTGGCCTCACCAATGCTCCAACAACTTTTTGTACCTTAATGAACCAAGTGTTTCACGAAATACATCGACAAATTCGTCGTAGTGTATCTTGATGACATTGTGGTCTTATAGTGCCTCGCTGGAGGACCATCGACATCACCTCCAATAGTCTTCGAAAAGCTGAGGGAGAAATCAGTTGTATGTAAAGAGAGAAAAGTGCTCCTTTGCCAAAAGCGCATAAATTTCCTCGGCCACGTGATTGAGTGTGGTCAGATTGGTATGGAAAGAGGGCAAAAGTGGCCGCGATTAAGAGACTGGAGGGTACCATCATCCGTGACCGAACTACGATCCTTCCTCGACCAGCAACTTATATAGGCGGTTCGTAGAAGGATTCTCGAGAAGAACAGGGGCCATTAACTATGAACTGTTGAAGAAGGATAGCCAATGGAGCTGGACTCCTGAATGTCAAGCCGCCTTTGAGGCTTGAAGAAAGTGAATGATTGAAGGGGCCGGTTCCTCGGAAATTGCCGACGTGACCAAGCCATTTGAAGTAGAGACTGATGCTTCTTACTTCGCGTTAGGTGGTGTTCTCCTCCAAGACGGGACACCCCATCACGTATGAGAGTAGGAAAACTAATTGATGCCGAACGGAGGTATTGCCGCCTCCGAGAAAGAGATAGTTACAGTAGTTTCACTGCTTGAGGGCCTGGAGACAGTTATCTCTTGGGGGCCAAGATCGTGGTCAAGACCGAACAACAACTTCATTTGTCACTTCTTCAACCAACCGAATATAGTCGTTGAAACAGGCACTAGTAGCAGGAGTGTCTAGCGGAGTTCAACTTCCAATTCGAACATAGACCAGGGAAAAGTAACCAAGCGGCCGATGCTCTTAGACGAAAGAAGCGAACATGCGGCCTGTGCATGTTCGCCCGCCTAACAGCAAGTACGTTGAGTGCAACAGTACGAGAAACTGTCAAAACTCACTTGACAGTTGGCCAAAGAGGGAAGACACGTCAGTCTAGGTGGAAGATGATCTACTATACACCAAGGGCAATCGCCTCTACATACCCAGATCCGGGAGTTACGAAGGTCGCTGATGGAGTGCCATGACACACGCGTGGCAAGACATAATGGTTGGCAGAGGGCTTATGCCCTTCTGAAACAGGCTACTATTGGCCAAGCCTTCGGGACGATGTCATGCAATTTACAAGACTTGCTTGTCTGCCAAACAAGATAAGGTCGAAAGGGCGAAATTAGCGGGTCTGTTGGAAACCCCTACTGTGCCCTCTAGACCATGGGAAGAGCGTGTTCTCTCGACTTATCACCCATTTGCCCAAAGGTGGGAGAGTTTTGAATCGATCCTTGTTATCATTGACGCGGTTACTCAAAATATGCCACTTTCGTCCCAACGCCGAAAATGTGCACAGCGTGATGACTGCCAGCTGTTCTTCAAACACATCTGGAAATTATGGGGTGTCCCCGCGAGCATTGTTCACGATCGGGACGGAAGATTCACTGGGACATTCTGGACAAGAATTGTTCAAAATATTGGGGTCATACACTGAATCTCTCTAGCTATCATCCCCAAATGACGGCCAGACGGACGCTTCAACAGTATGCTCGAAGAATATTCTGCGTCACTTTATCGACGCTAGGACAGAAGAACTGGTTCCAGTTGTTTAGATGTTGGCTCAGTTCAGCTTCAATAGCAGTAGAGTTCCGCGGACCGGAAAAAAACGCCCTTCGAAGTGGTGTGCGGCAGACAGCCACTCATGCCACACTTGTGGACCACCCTTATGCAGGCAAAAGTTCCTCAGGCACATAACTTCACTAAAGAGTGGAGCAAAACCTCTGAGAAGCTCACGCCCTACCTAGAAAGAGCATCAAGAAGGATGAAGAAAGTGGGCTGATAAGAAGCGGAGGGCCCTCGAGTTTCAAAGTCGGGACAAGGTCCTGATCAAGCTACGACCGAAACAGTTTCGTTTCCGAGGCCAGAGAGACCAACGGCTAGTAAGGAAATTATGAAGGTCCAGTGGAGATAATTGAGAAGGTCCGAGAGAACCTCATATTAAGGTTCAGTTACCCTCATGGATTGAAGATTCATCCTGTTCATCCATGTGAGTATCCTGAAGCCCTATCATCCCGATCCCGAGGATGAACAACGAAACATGCTAAGCGCCCACCGGTCCGATGAAGAGTTCTGCTGAGAAAGAAGTTGCACAAATCCTGGATAAACGTACGCGCCGTATTGGAAGACCCAGACGAGAACTGACAGAGTTCTTAGTGAAATGGAAGGATCTCCCAGACGAAGAGATCAGTTGGGAGCGGGCCGAAGATTTGAAGAATGTAGCTCCAGCCATCGCAGATTTTGAACAAGGTCAGTTGACGGGGACGTCAACCAATTAAGTGGGGGAGAATGTCACGGTCATGCTTGTTCAGGGCCTGTTGCCCATGGCCGCATGCCCGATCCAACCCCCTTCTAGCATACTTTCATATCTTGTATTGTATTAGCTTAGTTAGCTTGCTTTCTTTACATTTTCATTGTAAGTGACCACTCGCCCTTTTGCATATGCAAGGGCGCCAGTTGGCTTTTTGTTCAGAATGCACTATATGGGGATAAGACAAACCATCACTTCCTCATACCCGGAGTAGTACTCTATAAAGCTGTTGTTGTTGCTTATTGCTTTCTAGGCTACTACAATCTTTCTTTCTTTATTCACACTCACAAAAACTTCTTACGAAAACCTTTTCTCCAAACCCGTTTTCTAAAACCGTTTTCCCTAAAACGGGGGTGGAGGTTGCGAGAGGCACTCGGTGTGCTATCGGCAATCCGTATTCGAGTTGGCTGACTTGTTCGTGAGCGGGAACAAGTGCCGCACAATCGCTAAGAGAAGCTTCCGAAAGAGTGATTGTGACACAGTGCACCCAAAGACTTGGAGAGGGACACCAGGAATAAGTCGCGTGGTAGGGTATGACTCCTTGTAGCATTCAAGAGGGGTTTGGAGTTGGAGGACATGGGAAAACATTCGATTAATAAGATGAGCTGTAGTAAGAATTGTATCCCCCCATAAGTAAGATGGCAGTGAAGTAGACAGCATGAGAGACCGTGCAACCTCAAGGAGGTGACGATTTTTCCTTTCAGTCACCCCATTTTGTTGAGGAGTAAAAGCACACGAGCTTTGGTAGACAATACCTTTAGAAGGCAAAAACTCATGAAGGATATTACTAAGGAACTCACGACCATTATCACTATGAAGAATAACAATTTTAGTGTTGAACTGAGTCTCAACAGTAGTGTAAAATTGTTAAAATATCGAATGAAACCTCAGATTTATCAGTGAGAAGAAAAACCCATGTAAGACAGGTATGATCATCAATAAAGGTCACAAACCAATGTTCCCCAAAGATGTAGTAATACTAGAGGGACCCCAAACATCACTATGAATAAAGGTGAAGGGCTGAGAAGGTTTGTAGGGTTGAGACGGAAAGGTGACCCTATGCTTTTTTTGCACGAATGCACACATCACAAGACAGAAAAGAGACATCAATTTTATTGAATAAATGAGGAAATAAATATTTCATATATTGGAAATTTGGGTGACCAAGGCAAAAATGCCACAACATACGATCTTTTTCGAAAGTTGAAAAATAAGAAAACGACAAACTAGTCCTATTACAATTCCTAGAGGAAGCATCATCATCAAGGAAATAGAGTCTCTTATTGTGTCGGGCAGTGCCAATCGTTTTCCCCAAGTTTAAGTCTTGAAAGAAAACATTATTTGGTGAGAAGGCAACTTGACAATTCAGATCTCTAGTTATCTTACTAATAGATAGTAAATTGTAAGATATTTTGGGTACATGCAACACATTTTGTAAAGTTAAACCATCAAAAGGAGAAATATGACCCTTGCTTTTAATAGGAGCAAAGGACCCATCTGCAATCCGAATCTTTTCACTACCAGCACTCATAAGATATGAAAGAAAATTATCAGACGATCAAGTCAAATGATATGTAGCCCCTGAATCAAGTATTCATGGTTTCTTACCATTTACACTAAGGAAACTTAAGGATTGAGAAGTACCTGATTGGGCAAGAACCCCAACGGTCCCAACAGCACCAGGGTCACTCTGGCAATTCACCTGGGGTTGTGACTAGGAGGCAGCACTTGCAGATTCACTTACAATAGCCCGTCCAGGATTGATCTTGTCATTCGGAGGACGACATATGCCATTCGGTGGTCGACCATGTAACTTCCAACACTGATCCTTTGTATGCCAAGGTTTCTTGCAATGTTCACAAATAGGAGTTTGTTTTCCATTTTGCTTGTCACCATCAAAACCAGATAATTTTGCACTTAAAGCAGCAGAATTAGGAGCAGCTACAACAGTGTTGTTCATAGCACTAGATCTATCTTCCTCTAGACGAACCTTAGAGCATACTTCCATAAGAGAGGGTATAGGTCTCTGTCCCAGTATACGGCCTTGCACTGCATTAAACTTGGAGTTTAAACCAGCAAGAAAATCAAAAAACGCAATCAATTTCCTCAATTTTCAAATACTGAACACCTCCATAAGGATACCAAACAATTTCACGACATAGATCCATCTCCTACCAGATTAGGGACAACTTATTAAAGTAGAAAGTAACATCCATCATTCCCTATTTGCACTCGTGAACCTGTTTACACAGAGTGTACAAACGGGACAAATTTTGCCTCTTAGAGTATAATTTCTGAGCTGCATCCCAGATATCTCGAGCAGTCGCAACATACAGTAATGGTTTTCCTATCTAAGGTTCCATACTATTAATCAATAATGATGATCGAAGCAGGGAGTCTTCTCCTCTCCAAATGCGCTCTTGAGGATCCCCTGGCCTAGGTCTTGTTATCTCATCAGTTAGATACCCAAACTTGTGATGTCCCTCGAGAGCCATTTTAATGGACTAAGACCAGGAGAAATAATTCTGGCCATTCAACACAATTTATCAATGGATATAATCCTTTTGGTATGAATAGTTTATCTTTTCTCAAGCAATGAGCCCTATGGAATTTTCCATAGATCCAGACAAATAGTTTGTAGTAGTTAAAGTAGGGAAAGGGGTTACCGAATTCTCTTGATACATCGATAGATCGGAAGAGATATCAGAATTTACTGGACTCGATTGGAAGTTTGTGGAAGTGTCGAGGGCTGCCCCAAGGGCGGCAATCTGTTGTTGAAAACTTGCCTGAAGGTTAGCCAACTGTTGTTGAAACACTACCGGAGACAGACCCACCGAGCCTGGATTTTCATGGCTAAGTGGCACATGTTGAAGGAAGTTTGCCGATGATAAGTGGGGAAAGAAGTTGGCGACACGGCTGGCAGACGTGGCTGGATGCTGTCCGTCATGGTAGGAAGATGATTCACCTACTTCAAGGAGAGTCCTTTGACTGCCGGCAGCAGGAACACCCACGAGATTGGTGGCGCTAGGGTAGGCAACACTAGGGTTAGCAGCGCTAGGGCTTCCATGGAGGAATTGTAGCGGCAGCAGGGTTGTCAAACCAATATGCAGGGATTGGAGGTATTAATCTATAGCAGCTTGGATGGCACTTGCGGTGGCAGCAGCGTCATCCATTGTCTTGGTAGAAGCGGGGTTGATGAAGACCTAGAGTTGTCTTGCACCGGTTGGTTTTCGCCGACGGCGGCTAGGGTTTTGTCACCATGCTTTGATACCATGTTAAAATATAGAGATAGAGAATACAAGGTTTATGTGGAAAACCCTAGTATAGGGAGAAAAAATCACAGTAGAAAGTCTCTTTTATTATTTTTAACCCACACTGAAAATTACAATAGAAGTCATATTTATAGGCTCTAGCAAGTCCTAAAATAAAAAAAGAAATAAACCTAGGGTAAAGTAAAATACTAAAATATCCTTGGGGCTATAAACTATCAACAAACCCCCTTATTTCCAACAGATATAAACTCCAAAAGGAGCAAAAGAAAACGAATCTGAAAATAGAAGGAATAAAGCATTAGGAAAGAAAACATAAGGAAACATAAAGTGAAAACTAAAAAGGATCATTGAAAACAGCCCCAGCTGCAATAGATATCCTGAATAGAAACCCCTGCAAACTTGCCAATAAAATCTGAAATCGAACCATCGGGTAATGAAGATATATTGAAGGGATGCGGATAACAAGATTTCCTGACCACTTGCCAAAAACTCTCTTGCCATTTCCAATTTTGAAATGATTAAAGCTTTCCTTAGGTGCTGATCCACAGGCGTCTTTTCTTTCTAGCAGTATCCCAATCAAAGTGATCAAAAGATTCCAAACCATGTACACTAGCCAACACCTTTCTCAAAAGATAATTAGGTTCATTTTCTTGTCTACTTGTGGTGATGTTCAAATTTCGTCTGTTGAATCCTTAGAACTTTCTCGGTTAAATCTTTATCAGGTCATTTGGTGGCTTCATCTTTTTTGGATGATGACTTGTTTACAGCTATTTGGAAGACAAAAGTGGGGGAATCTCTCAACCACATCTTCGTTGAATGTTTATACTCTATGAAATTCTGGTTTTTATTTTTTGATCTCTTCAACCTCAGTTGGGTACTCCTAGAGTCTGCGAAGGGAAATCTGTTCTACCTTCTTTGTGGTATTAGGTGGAATTCACAAAAGCTTATTTAGTTGGGTGAATGTTGTCAAGTCATTCTTTCTGAGCTTTGGTTGGAAAGAAATCGATGCATCTTGTATTGTAGAACTCTTCTCAAACTTCTTGTGTTTGATTCAATTTGGCTCGATCAAAGTCTTCTTCATGGTGTTCTCTTACTAAGAAGTTTGAAAGGTTTTCAATTCAAGATATATGTCATGGTTGGAACACTTCTATTGTGGCTTTTAATTTTCTAGTTTTAAATCTCTGTTTTCGTTCTGTTGCGAGATCTATGTTTTTTTTTTTTTTATTATTTTATATTTTTTATATGGGGGAATTTTGATAGTCCCAGAGCAAGTTGGTAATTTTTAAATGTATTCTTTCTTTTTTATTGGTTGGAATCCCTATATTATTTCATTTTTTTCTTAGTGAAAATATGGTTTTTCATACCCCCTCCCCCCCAAAAAAAAGAAAATGTTTACATCTTGGTGTTCTCACCATAGCTTTTGATGGATAACTTTGCTCTCATTACCATGCTAAAATGTTATGACAGGACAAAGCAGCCAACATGGAACGAGGACTTCACTCTTAACATCAAAGAGCCTTCAACTAAATATGTTCAGGTACACTAACTTGTGTCAGGCTTCATGGCAACAAATTTTTGCTCAACCATTCCATTCTTAGAAAGTATATCGTTCTGTACTTGATAATTAAGATGTTCTATGTTTGGTATTGCCAGGTAAAGTTGAGAACATTCATTATTCAACTGCTATGAGTTAACGGGTTGCCTACTTTATGATATATGATTGTCATCGGGGTATTCTGTGTCCTATCAATTACATGTTGTCTCAAGTGGTTCAAAATCCTAGGTCTTATGGTTAAAATTAGTAGAACTTTTGTCTGTTTTTTGGAAAATTGGAAAGAGATAACCAGAAGGAATTTTGCATTGTTTTGAGATTTCAGTTTATCTAGTTTATTAAAGGCATGATCAGTAGTACGTCTGCAATGAACAAGTATTTAAATATTGATCCAGTTGAGGAATCGATTGTCAGCACTAGTAGTGAAGAATCAGAGTCAGATTCTCTAAGAATAGAGATTTCAGAGCTCATTTTGGAATATTTATATGAGGAGGATTTTGAAAATTTATATGGCGGATGAAGTTGCAAATCATAGCTTAATAGAATCAAGGGTGGAACTCCCTTTCTATCCCCTTCTCAAATTCCGTCCAAATTTTCTTATTTGGTTGACATTTGTGGGCTCCAATTGAGAAGTATATCACCCAAATCTCCATCAATATCAACTTGAAAGTGCAAAGCTCTTCTAGCATGACTTGGAATAACTTCTTGGATCTCTCATGGTCTTGGGGTCAATTCAATTCGTGTAGCTTTAAAGAAATTCTCGCAAATAAGAAAGCTGTTAATTTGTTTTTGTTGCAAAGTTTCTGGATTTATGCATTGTAGGCCTTGTTCCCAGTAATTTGGTTTGCTAGGCCTGAACAACTTTTTCAAGTTTAGCTCCTCGCTTGTTTTGATCGTCTGGAGTCGGCTAGTCTCAAATTTATTCCATCATTTGCTGACTTCTCTATTCATGTTTTATGTCTTATTTGGGATGCTTAATATTCCCTCTATCAGTGTTGTATTCTTTATCATTATATTTGTTGCTTTGTGCTTCTTGTTTTTCATCTTCTTATCTTCCTTCGAGATTTATGTAAGTTGAACGTTTGTCTCTTTTCATTTCATTAGTGAAACATTTTGTTTCCTTTTCAAATAATAATAATAATAATAATAATAATTAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGCTTAATTTCCAGTAAACCATTTACATATATGTATGTATATAAGCCTATTGTACTATATAAAAAATAGATCGATTCGTAAATCTTGAATGTTTATGTATCAAGCAAATCTTAGGTTGCTGCGTGGGATGCAAACTTGGTGACTCCACATAAACGAATGGGTAATGCAGGCATCAATCTGGAATCTCTTTGTGATGGTGAGGACTTATTTCAAATTTATTACTTTATACATTTTGGAACTGGAAAAAAAAGAGAAAAAACTGAAGTTTAATATATTCTATGACTAACATCATAGATTGAATGTTGATATATGGCATTCTATAACGAGTTTTGAGATTTCAATAAGCTTTTTACTCAGCTACTCAAGTTCTTCTGCTATCAAGTCATTAGAATCATGGATTTAAATAGATTGTATTGTTGTTGAAGGGTTAATATGTTTAATTTACTGTAATTCATCTGCTAAAGCTTTTGGCTTATTGGTGATTAAACATGGTATTAGAGCAAGAGGTCCTGTTATAGTTTCCACCAAGTTGTGGTGCGACTTGCAAGCAATCTTTCATATTGCATCCATATTTCATAAACATATTGAAATTAATTGTCAATTTGTTCGTGAAAAAATACAACAAAGTTTGGTGTCTTCTAGATATGTGAACAATTAGGAGATATTTTCATGAAAGCTTTAAAAGGGGAGCTCGAATAGGTTACCTTTGCGACAAGTTGGACATGATTAACATAATATATATGTGAATATTGGAGCATATTGGTCTTTTATCCTTTCTATTTTCCATTTAAAGTTTTACATTTTGCCTATTCTGTGTCAAACTCGTGGTATGCCATAATATATTAAACTCTAAAACTCGAATGAGTGAAATTCTCTCATATTCTGGTCTCACCTCAGCTCATTCATATTTATATCGATCACTAGTATTCTATTTCCTTTTCTTTTGGCCTCTTGTAACTCTTAGTTAACTTACTTGCTGACCTCCTGCAGTATTACTTTCATATAGTCACCAACCACCAGAAAAAAGGTTTCATTTCTCCTTTTTAATAACCTTGCGCTTCTTCTTGCTTCCTTCTGTATTTTTCTAAAAATTATATTTGTTCCTTCTATCTCCCTCTGAAAATCACCAAACATTTCCCAGGGAACTTCCCAAAACGTGTTGTTTCTCTAGCATGGACTATATTGCCACTGCTTACCCCTTTGTTAAGTGGTGGCTCTACATACCAATCGTGTTGAGTTGAATTCTTCTGTTGCTAACATGTATCCCAGCAAATTTAGGGTGCTTTTTTTCACTGGTCTGAAAACATAAATTTGAAAACAAGGAAATTCAATGCAAACATAAGTTGTATTTCATGTTTTTCAATGTGTTTGGTAATAGCTTTAAAAATTGGATCCCAGTTTAAATAATTTTTCAAAATATATTTGATAATATGCTTATTAATCATGAAACTACCGGTAATTACCAACTAAATAATAGGTTGAGTTTAAAGTGTTATTAATTAATTAATATTTAAAAAAGTATCATTAATTAATCCATGGTGGTCACCTATCTAGAATTTAATATCCTACGAGTTTCCTTGACATCCAAATGTTGGAAGGTCAGGCGGGTTGTTCCGTGAGACTAGTCAAGGTGCACACCTGGACACTTACAAATATTTAAAAAAAAAAAAGAAGCTATTAATTAATTTATGAACGTTGCCTGGACACTCACAGATATTAAAAAAAAAAGAAACTATTAATTAATTTATGAACGTATTTTATGCTATAAATATTGTAGAATTTTATTTTATAATATCATATACTTTATAATAGGTTATATTATACATATTTTAATTTAACAAAAATGAATTGAGCTATGGATGTGATGAGGGGTGTTAAGGGGATGTCAACCTAGTTGAGATGTCCGGGTGCACCTGTTGATCCTTATGACTTCCTTGTAAATTGAGCATTAGTCGCACTTCATTTTCTTAATGAATAAAGAGACTTGTTTCCTTTAAAAAAAAAAAAAACAAAAGGAAACAAAAATGAATTGAGCTTATAACATAAATACTATGTTTATTCAAGTTTTTATCCTTTTTTAAACATAATTTTACATTTTATAAATTTCAAATCCAAAATCTAGAAACACCGAAATCGTAAAAACGTTATTTTCAGAATTTTTACAATTTGAATCACAAAATTCTAAAATAGCTAATATATAGATTTAGCAAACACAATCACTGAACTCAATGAAGCTGAAACTATAAAACTGAATCTAGTTTCCTATCAAATAGACTTTTAGCATGATTGAATAACATGAAATTAATAAAACAGCATAGCAGGTCAATGAAGGCTTCTTTCAGCCAGAAGATCTTCTCTTGTGCAAGCAAATGATGAAAGCAAATAATGACGGAAGAGAATCTCATCTCTTCCACCTTAATCACACCCTAGGATCATTATCTAATATAATTGAAAATACTTATATTCATTTATACACTGATGGAAATCTATTGAATATCTTCAGCTTATACTTCATTGTTGCAATGACATGAGCGAGCAATAGAGAGAGAGCTAGAAAAGAGAATCGTCTGCATAGTGTTGTTTGTGGTTCAAGGAAAATAAACCTGTTAAACTGGTGACAAATGTGTGTTTTGCAAGGAAATTTGCATGATGTAACAGTGGAGTTAGAAGGGATGGGTGGAGGTGGAAAGTTGCTGATGGAGGTAAGCTACTCTAGCATTTTATAACAACTAAATATAGAATGCTCGTGATGTTTTCTTAATATACTGCTACTTTGTAATAACTGCTGGGTTTAGGAGCTGTACTATACTTGTGTCTGTTTTCTATGTTTGTAACTTAAGTGGTAAAGTTTCTTTTCCAATATCTGGTAGGATAACAAACTTTTGAAGGTTATTAATTTTTGTTGGTTAATTAAGTCTTGCTTTCTTAAAACCTGTTTGTTTTTATGTGATTGATATTGGTTTGTTAATGGTGTCTCTCAGATCAAGTATAGGACTTTTGATGAAATTGAAGATGACAAACGATGGTGGAGAGTTCCCTTCATTTCTGAATTTCTTCGCAGCAATGGTTTTGTATCTGCTTTAAACAAGGTTGTTGGATCTGACACCGTGCCTGTGCGTCAGTTTGTAGAATATGCTTTTGGAAAGTTAAAGTCATTCAATGACGAGTACCAATCAAGTCATCATTTATTAAGCAAGCAAAACAACGCAGAGGATATACCCTCATACGTGCAGACGAATACCAAAGTCTCTATAACTGATATAAAGTATCCCAATGAGGGAAAATCTGATGAGGTTGAAATAAATGATAATACTGTGGAAAGTGGACAGTTGCTGAAAGAAGTGACGCAAAGTCTCTTAACAAAGCAATTCGATAAACAATTTTGGACAAACTTGGCTGATGTAACAAACCAAAATATTGTCAAGAAGCTAGGTCTTCCTGCTCCTGAGAAATTCAAGTGGGATGGATTTGAGTTACTAAATAAAATTGGTTTGGAGGCACGAAAGAGTGCTGAAGCAGGTTATATCGAATCGGGGCTTGCAACGCCCAAAAGTTTGGATGTTGATCACGAACAGAAGAACATTAGAATGGTGGACTCAACACTAACTGATGTGAAGAAAGTAACAAAAGATCTATTAAGTCAAACTGAGTCTGTTTTAGGGGCATTGATGGTTCTGACAGCAACAATTTCTCAATTGAACAAGGAAGCGCGGCTTGTAGGAAAGAAAGATACTAAAGATGAGGGCTCTAAAAAAGAGGGAGAGAAGCTTGGTAGTTCAGGGGATGGATCATTGTTGGATAATAGGAATTCTGAGGAAATGAAAGCACTTTTTGCAACTGCAGAAAGTGCGATGGAAGCTTGGGCAATGCTTGCTACATCACTTGGCCATCCTAGTTTCATAAAGTCGGAATTTGAAAAGTTATGTTTCTTAGATAACGAGTCTACAGACACACAGGTAAAGTATTTGGTTTCCAGAATGGCTCTTAACATTTGTAAAGTTGTCTCTATTTTCAGTAATTCAATGACATCGCATTAGCAAATTGTCCCAAAGTTATTGTTTTCATTCCTAACTGTAGGAGTCTACAGGTTGCAATTTGGCGTGATTTTATGCGGAGGAGACTAGTTGTTGCCTTCAGGGGCACAGAACAAGTAGGTTATTATGTTATATCGATATTCTGTTCTCTGGAGAATAACTTTCCGTGTAATAAGTTCTGACCTTTTGACTTCTCCAGTCAAGATGGAAGGACTTAAGAACAGACCTGATGCTAGTCCCTGCAGGGTACTTATTTTTCTTTCCCTCGAGGATAATCCTTTAACCGTTACTTTGAATTTTTATCATTCTCCTTGTTTCTTATGGAATGATGGATAATAAAAAAGAACGTTATGCATGGGACAAAACTTTCGAATAGAAAGCCATATACCATAGAAAGGAAAACTGTGGTAGTGCAGTTTGAGTTAGCTAATTTAAATCAAGGGGAAAAAGAACTATTGAATTTTAAACGTGCTTAAAATCTTTAGCCTAATTTTCGCAATGCTTTACACTATATCTGGTTGTATATTATTTGACCAATGGATCTCAGGAGGGGCTATTTGACCCTTCATCCTTTGGTTTTAAGATAGGAAGACCCACCCTTGCTTTTGAATTTTGGGTAGAAAGAAGCTAATTAGAAAGACCCACTCTTGGTAGAAAGAAGCTAATTAGAAGAGTATATCTTTCTCCATTCCATAGTTGGCATAGTTATAACACAACTTGGCTATAATATTTCAGCAAGCAAGGACCAAAAAACGGTAAATGAGTGAGCATGTGGATCTCTGAAGGCTTAAAAACTTGTGTGAATAACATGGCGTTTTGTTATGGTTTCATATCAGCTTCATTTTCACAAAATTTTAACATGTCATCTATTTTCCTTTGACTTAGGTTAAATCCTGAAAGGATAAGTGGAGATTTCAACGAGGAAGTTCAAGTAAGAAATATTTTTATTATATTACAAGATATGTATTGTTCTGAACTCCATGCACTGTAGTCTTCGTGTAATGTTTAATGATGAAGATCTGACTATTCCAGGTTCACAGTGGGTTCTTAAGTGCGTATGATTCAGTACGAATGAGAATTATTTCCCTCATTAAAATGGCCATTAATTATAAGTGAGTCTGCTTCACTTTTTTTTCTTTTACAAGAAACCAAACATTTCGTGGAGGACTGATGCTCAAATGATACAGACTTAGAGTGAAAAGTAAAACTTTAAAAAGAATTACAAAAGACTAATAAAAACATTCAAGTTTAAATAAATATCTTACAAAGAGAAATCATTGAAGGTCTATTTGTTTCACAGGTTTTCACATGAAATTTTAGACATATTTAATATCTTTGTTTAAAAGAATTTTAATTTTTAAAACTCAAGGTATTATTATCTAGGAAATTTCAAAACTATCTGACATGGGTTTTTTAATTCTCTGCAAAAGTGTGGGATTTTTATGCCTGGGAGATGACAAGTAAAAATATAGCTTAATTAATTAGTTAACATCAATGACTCATTATTATTGATTTTAATTAATTATGAAATATAAATATATTAATTGGACTTAATAAATTTCAACTAATATCTTTACCATTAATATTTTATGACATTTTAACTATTTAATATTTATTATTATTATTATGATGATTATCAATATTCTAATTAATTTACAATAATTTAATTATTTTTAGTAATTAATTTAAATTAATTAATTATGTTTAATGTAAAAGTATTCATTTATTTTTATTTTTATTGATTAAATAATGCTAAATTTATTTGATGACTATAATAATTGGTCTATTGTATTTAATTAAGTAATTATTTAATTTTGGTTTCCACAAACAAAATTGTAAATTTAACACACATATTTAGCTACCAGACATTAATTATCATGCATATCCAAATACAAACATTAATTGTTCCAGACATTCAAATCCTAGATATTTGTCCTAGTGCATTTACTAATCCATTTTGTACTTTTTAGAGTGCTTGTTTGTAGTGCACTTTTTGTTTGTTTCCTTCTTGTCACTTGTAACATCTTTCATTATCTTAATGAAGTGGATTGTTTCTTGTTCAAAAAAAAAAAATCTATACCCATGAAACAATGTCTACGATCCAAACGGGCTCTAAAGGTCTTAGCAAGACATTAATCTTGTGGAGGCAGTAATATGAACTGACTCAAAATGGTCCATCCAAGAACTACGCTTGTCTTACAAATTTGATTTCTCTATAACCACAATTCTTAAAGTAACAATTTGACTTCATCCATAATAATTGTGACCTCGAAGGTAATGATACTCCCTTACGAGCTGAAGAAGTCTTTAGCAAATGAGAACTCCCATTGCAAATTGAAGACTTGGATGATCTTATACTAGCAAGCTATTTAGAAGAAACAACCAATAAATAAGTGATTAGATTCCCTATCTGTATAAGAAAGACGGCAAAGAGAAAACATGATATAGGCATCTTCTGAAGCACTTCCCAAGTATACTGACTACTATTAAGTAAAATTCATGAAAGAATATTGATTCTTCTAGGACTCTCTTGTTTCCAACTAAAAGAAAACAGGTCTTTAGGCATAATCCTTTTGGGGTGAGAGGAACACTAGAATCTTTCGAGGGAAGAAGATTAATCCTTTTGATGTTTGGCCCTTGCTTGATTCCATGTTTCTTTGTGCGCTTCAAAGTTTTTTTTTTTGTAATTATTCTCTTTGTTTTATTTTTCTTTATTGGAGGTCTTTCTTTTAGGTAGGCTCCTTTTTTTCGGGCTGACAGGGTTACGGGAGATTTGAACAGAACTACAAAACCATAACAAACTGTTAGGCTTCCTCCTCCGATTATATATCAATACAAGAGGAGGGGTAAAAAGGTAACGACAAGGGAAGCAAGTAATTAGTTACGTGGGAGTGAGGAAGTGAAATGATAATGTTGGTGTGGGGATCATCGATAGTGATTCTGAAGGGTATTAGTAGGGTTGTTATTTCCTTTCGTAGTTTCCATATTATTATTTTTTTTAGTTTGAGTTCTTCTCGAGAGTGGGAGGAAGAGGGCCATATTGCCTTAGAGCAAACTATTATCATATCAATACATCTTGAGGAACCCTACATAAACCCTCTCCATGTGAATACAAGGACTCCTCCATCTGGAACGAGGAAGGCACTCATGCTTTTGAGAAGCTGAAGCAAGCGATGATGTCCTTATCCGTGCTAACTCTACTGGATTTTAACCTGCCATTCATAATTGTAATGGGTGCTTTTGAAACAAGGTTGGGAGCTTTGCCATCTCAAAATCATCGCCCCATTGCTTACTTCAGCTATACTCTTTCGGCAAGAGCGAGGTTCAAATCAATTTATGATCGTGAATTAATGATGGTTGTGGTATTGGCTATTAAAAAATGATTATATTTATTTGTTGGGATTGAAGTTTACTGTGATAGCTAATTAGAGAGCTATATAATTCTTGTTGGAACAAGGAGAAATCGAACCTCAGTATCATTGGCAAGCCCATAAATCCTTGTGATCCAAAAACATAAACTCTTCGACAAAATGAAGAAAATAGATAAAGAATAGACACCTTGGGTGACGTTTGATGTATTGAAAGAGGCATCATTTATTAGAATTAGAAGATTCCCTAGCCCACCATGGGCATCCCATGCAACCCAATTGGAGCTCTAAATTGTCTTGATGAAAAATTGATCAAGACTTTGAACTTTAATTTCTCAAAGGATTACAATGGCAACAAATTTTGATGAAGATAAAATCTTCCTCAAGTATTTGGCTATCTGTGTTATAATATATATTTAAATTCATATGTATAGTCGTCCTTTATCGTAATTTTGTATATCCTATACTAGGTCTTCTCATTCACCTATATGTGTATATATATATATATCTTTTGTCTAATTAAATGATAAGAATTTCATTCTCTGAAAATACAGAATACATGGTATTAGAGCATTCTTTGTTTAGGGTTTTAGAATATTCTTTGGCGGCTTTGTGAGTTAAGAGTTTGAGATTGGGTCATCAACTTTGAGTAGCTGTTTGTCGACACCACTCACCTCAGGAAGAGCACTACCACCGTCCGCCTCAGTCTGCGTTTGCTGTTCATCGAATACAGCCACACGTGAGGTACACGCACAGCCAGATCAAGTCTGTTCCATCGCCACGTGCCAACGTGTGGGAGTGCCTGAGGCCATTTTCTTCGCTTCTATCGGTTGGGTTTGTCTCAAGTTGCCTTTTCTGGTCAATCTGTGCCTTTGGTTCTACCAACATCTACTTGAGTGTGAGGCTGTTTAGAAAATACCCTTTTGTTCCTATGGTTTGTGACTGTTTTGTTCTAATTTGGGGCTGTTTTGCTCTTTGGTTTACCTTTCTTTCGATTCTCATTTGTTTAATTCTACTTGTGGGATCGTGTGTTAGTTCTTAATGGATGAAATGAAGCATATGATTGTATCCAATGTAATTCCCTTAGCATCAAAGATAACAAAACATAAGTTAAATGGAGCTAATTACCATGATTGGCATTGCACGATTTAATTTTATTTACTTAGTACTTATATGGATGATCATGTGACTAAGAATCCATCCCAAGATGATAAGAAAAAGGGTTGAATTCGTGATGATGCTCGAATTTATCTTCAGATTAAGAATTTCATTCAGAGTGAGACTATTGCTTTGGTAGATCATCGTAATTCTGTTAAGGAACTCTTAGAGTTCTTAGAATTTTTGTACTCGGGAAAAGAACACATCCATCGAATGTTTAAAGTTTGTATGCAATTGATATCTGAGCCATGCCCCGTTGGTAAAAATCTTCAGTTGTCAAACAAGATGTAGTCATGTTTAGAGTATCCGTTCATGGTTAAGCCTTTAGACGAGCAGTGTGCTCAAGTGTAATTCGAATGGATGACTAGTCTGTGGTTGAGTTAGCACGGAGATCAAATGATTGTTTGAAGGAAGGATCGGTGGTCCTTTATTCGAGGGGAGGACTGTTGGGTGGGAATGCGATTAAAGTCCCAAATTGGTTAAATAAGGGAATGATCTTGGGTTTATAAGGGAGGAAAACTATCTTCAATGGTATGAGGCCTTTTGGGGTGGTTCCAAAAGCAAAGCCATCATGGTTTATACCCAAAGTGGACAATATCATATCATTGTGGAGATATGTGGAGGTCTATTGTCCCCAACAAATTGGTATCAGAGCCATGCATCGTTAGTAAAAGTCCTCCGTTGTCGAACAAGATGTAGTCATGTTCAGAGTATCCGTTCGTGGTTGCCCCGATTGCCCTTTAAAAAGGTAAATGCACTTGTACTTACCCTATTTCTACATTTATTTCTTATGATCGGTTGTCTTCGCCCACTTATTCCTTCATTACATCTCTTGATTCCATCTCTATTCCTCACTCTGTTCATGAAGCTTTATCTCATTCTAGGTGGCGTAGTGCAATGATTAAAGAGATGACTGCTTTGGATGATAATGGTACTTAGGATTTAATCTCGTGTCCGACAGGAAAGAGGCTATTGGATGTAAATGGGTGTTTGCTATAAAAGTCAATCCTGACGGAATAGTGGCTCAGTTGAAAGCTCGTCTTGTTGCCAAAGGTTATGCCCAATTTATGGGACTGATTATTCTAATATATTTTCTCTCATTGCTAAATTAACTTCCACTCGACTATTTTTGTCCATGGCTGCTACTCACAATTGGCCTTTGCATTAACTCGACATTAAGAATGTGTTTCTGCATGGTGATCTTCAGGAGGAAGTTTACATGGAGCAACCACCTGGGTTTGTTGCGCAGGGGGAGAGTGATAAAGTGTGTCGTCTTCGAAAATCTTTGTATGGACTAAAACAAAGTCTTCGTGCATGGTTTGGTAAGTTTAGTCAAGCACTTGAATGTTTTGATATGAAGAAAAGTGCTTCTGAACATTCTGTATCCTATCAACAATCTTACAATGGTATTACTTTGCTTATTGTGTATGTTGACGATATCGTTATCACTAGAAATGATATATCAGGTATATCTTCTCTCAAGACTTTCCCTCAAGGTCAATTTCATACTAAAGATTTGGGACAATTGAAGTATTTCCTGGGTATTGAAGTACTAAGAAGTCTGTCACAACGGAAATATGTACTTGATTTATTGTCCGAGACTGGAAAACTAGGAGCCAAACCATGTAGTACTCCGATGATACCAAATTTGCAACTTGCTAAAGAAGGAGAATTATTTAAAGACCATGAGAGATATAGAAGATTAGTTGGAAAGTTGGACTATTTAACAGTGACACGACCAGATATTGCTTATTCTGTGAGTATTGTGAGTCAATTTATGTCTTCTCCTTCAGTGGATCATTGGCCTACAGTAGAACAAATTCTATATTATCTAAAAGCTGCACCTGGACATGGGATCTTTTATATAAAGATCATGATCATACAAGGATTGAATGTTTTCAAATGCTGAATGGGCTAAATCTCGAGAGGATAGGAAATCAACCTCTAGATATTATGTTTTTGTAGGAGGAAACTATGGAAAAGTAAGAAACAAAATGTAGTTTCTCGTTCGAGTGCTAAGTCAGAATATAGACTATGACACAATCTGTGTGAAATAGTGTGAATACATCAACTATTATCTGAGATGGGTTTCAGTATTACCATGCCAGCTAAATTATGATGTGATAATCAAGTTGCACTTCACATTGCATCCGATCCAGTGTTCTGTGGACGAACTAAACATATTGAAGCGAATTGTCACTTTGTTCACGATAAAATACAAGAAGGGTTAATATCTCTATAGGATATGTGAAGACTGGAGAACAGTTGGGAAATATCTTGACCAAAGCTATAAATGGAGCAAGAATAAGCTATCTATTCAACAAGTGGGCATGATTGACATATTTGCTTTAGCTTGAAGGGGAGTGTTATAATATATATTTAAATTAATATGTACAGCCGTCTTTTATCGTAATTTTGTATATCCTAGATTAGGGTTTCTCATTTACCTATATATATGTATCTTTTGTCTAATTAAATGATAAGAAATTCATTATCCAAAAGTATAGAGTTTGCACTCACCAATATTATCACTTCTCAAAATTAGAAGGGAAGCATCAAACTGTGTTCAAATTTCAGCTTGAAAATTGTAAAAGTGAACACAATTTAGAACAATTTTTTTTATAAAATATAACCAAGACTTGCGAGAGCTTAAGCTTAAGGGATGACATCAAAGAGATCTTTAATTGCAAACGAGGTAACTTTGGCTACCAAGATTGAGAATCAAAATGAGTTTTTAATATTTTGATTGAAATATCATATAAATATATATAGAACATGATCATTTGAGTGGGGCACGCTCCCCTGCCTCCAACGTGGATCCCTTTGTACAAGGGTAACCTTATGTAAGAGAGTAAAACAACATTACTAAGATCTTTGCAATAATATAACCATACTAATATAAGCACAATAACAAAAACAAACAAACTAGCGAAGTTGTAACAAACCCAATAGACACAACAAAAAGCTATGTTTGCTGCATCCCTTCTATTGTTCGATTTTCTTTGAGGTTCATGTGGGAAAACACTATTTTTTCTACGCAATATTCGAAAATCAAGATGGGTTATTCATTCAAAACTCTTTTTGTGCACTCTGTTTGACTTATATCCCTTTTCTTGCAGTGATGAATGTGCTGAGCCACCAGTCAAATGGCATGTTTATGTTACAGGTCACAGTTTGGGTGGTGCATTAGCTACACTTCTTGCTCTTGAACTTTCGTCAAGTCAACTTGCAAGGTGAGTGTTTATTTTCTACATGAATAAGTGATGCTTCGTGGGCTTTGGACGTTGTCTTGGACAACTCTCAACATATAGCATAGAAAAAGGAAGTAAAGAACATGAAACACTTAACTAAACAAATGAACAGTACAATGAGATTGTAAAAGAACAAAAGAATGAAAAACTCTTTAAAGCTTACTCCTTTATTTACGTTGATTCAATCTTTTTGCAAGATGAATTAGACCTTTACACTTGTTCGCATACAAATTTACATCAGGCAATAATCTTAGTCTGAAAAGAATGGCAATGTTACAAAAAACTAAGGATTTTGGGTCTATTCATGTTGAAATCGCTGAAGAAGACAAAAGGAGCACGATACCCTATTCCAATATAGAAAAAACAGAGCATGGAGGACATTAATTTCAGCAAGTAGTATGCCCCTATTTTAGCATCCGATAAACAGAGCAAGTTGTTTTACTGGATTCAAAAGAACTTTGACGTTTTTAAGACAGATTTTAACAATCTTTGGATTGTATCACGACTGTTTGAGTTTGATGAATGGCCAAAAATAGCGAACACACTAAAGTTATACTTTGATACAGATGTCATTAGCAATCCTCGGTCCGCGGAAAATGTTTTGATTCATTTGGATCAAGGAAATGTGGGAAAAATAATTGATTACCCCGGGAAATGGCAAGAGTGTGGTCAGTTTCATTTGAAATTTGAAAAATGGAATACGCAAGTGCACAGTCGACCGAATGTGGTGAAAGGATACAGTGGGTGGACCTCGATTAAAAATCTTCCATTAGACTATTGGAGCCAACAAACATTTGAAACTATGGGGTCTTATTTTGGCGGTTTAGAATCAATTGCATTTGAAACATTGAATCTTATTAATGTTGCTAAAGCAAAAACTCAAGTTAAAAGAAATTTTTGTGGTTTTATGCCATCTACTATTGAAATTATAGATAAAAATGGAGGAAACATTTTTCTGAATTATGGTTATATAGAATTTTTTTACCCTCCGATCAAAGTTAAAGGCGCCATGTTTCTTAAAGATTTTTCCAACCCAATTGATTTATTTCGACTAAAGCAAGTTATAAACGACAAAGAAATAGATTCTTCTAGCTTGAATCTAGATTGGGCTTTTCTTGCTGCCCCCAGTAATCCACACAATTTTTCAAGAAACCCGTTTGCATCTTGTTTGAAGATAATGCAAAAGGAAAAGTTGACACAGGGTCCACCGGAAAGTAATAACAGAGATTATCCGGCAAGTGTCTCCCTACTACAGACGAAAGAGCAAGTCAGTAGAGATCCAATCTAGGTAGATGTGAACACAGATAACATTTTAATGAGGAGAGAGATTTTGGCTGCACTTCAAAGTTTTGAAAGTAGTCCAAGGGACGCCCTTGATTGTGGTGTGTGAAATTATTTTCAAAAAATGTCCATTGATAGCTATTCGAAGGAAATCCAAAAGATAAAGGCAACTGAACACACAATTGTCCATGTAGATTGCCATTCACCTTTCAGTAATAGTCTGCAAAATAACAACACTCAAGCTCCCCCCTCATTCCTTCAAAGGTCGCAAATTGTGCTTCTTTCAATGCACCTTCTCATCTTCCTTCTATTTCGTAGTGATGTTCAAATTTTTTGAAGCTTTATCCCAAACATTTTCCTAGTAAAAAGAGAACCATCTTTAAGGCATGTGCAGTGATTAAAAATTCAATTTCGTTGATGAATCGTGGGGTCAGAGCACAAATTCCGGCCTTTGCTAACAAAAACAAAAACAAAAAGAAAAGACCTATCTTCAAGTCAAGTGTCACAGATAATAATCCAAATTTGTTAGAAGAGTGTCGTGCCTGAGCTCAGGCCCCTGCTCTTTCTAAGAGAGAGACCATACCTTCCTTCAGATTCTTTTCAGAAAAGGAAGTCTGAATTAGGTCTCCCAGCTAATCTTCCACGTAATACTCATCACAAAAAGCAAGATTCAGATTCAGATTCAAATGAAGAATCAATAGTAAGTGCTAGTAGTGAAGAGCTTGAAAGTTCTAAAATAGAGGAATTACTAGATGAGGAAGAGACAATTGATGGGTTTGGTAATGATATTTTTCAATTATTTCAACCGGAGGAAGCTCAATTGATTGGTAAGACTGATGTTTCTTTATTTACTCCTCTCAATAAGGAAGATATTCCCAAGCATCTGCATTCAATAATCGATGTTTGTGGTGTCGTTCTTGGTTGAGTTTTGGCTATAGTTGTTTGTGAGATTTTGGGGTCTCTATCTTGCTTTATCTTCTTCTTTGAAGTCCTGCCATGGAACTCAGGAGATCTTGGAGGTCTTTCTAGTTGGTGGGTGTTTTCATGTTGCTTGATAAATTATTCTGGTCTTGGAAGTGGCTTCAAATTTTATTCTCTGTAAGATGGCTAGTTCGAGAGGATTTATCTTGTCTTTTTGGAAGCTTCAGATGGGAGGGTCTGGTCTGTTGTTGCTTATCTGATTGTTTCATCCTTGTGTTGTCTGTCGAAGTCCTTGGATGTCCTTCTCAAGACTTCTTGTTCTTTTGTACATGGTTGCCCAGAAAGATTGGTTGGCTCTGTTTATAGGGGGCTTCTTCGATGGCAGATTTCTAGTCAATCTGGTTTAGAGTTCAGCTTCACGCTTCAATTACTTTAATCTGCTTTCAAAGTTCTTTGTCACTGATGTTTTCAAGCTTCGGTTCTTTGTCAGAATTTTTTGCTTGGAAAAGTTTGTCCCCTCCAGGAACTTGTTCAGAAATACTGTAATGAAAGGAAGATAGTTGTCGCTAGGTATTTGACCAAATAGGATCGTGTCTGTTTTTAGTTTAGTCTCATTTGTCTCTAAGGATTTGTCCTTTGTATTTGTATTTTGTTTCTGTGTATTCTTTGAATGTTTCACTGTACTCTGAGCTTTTGACTCATTTCATTATATCAATGAAAAAGTCTTGTTTCTGTTTCAAAAAAAAATAAGGCCGGGCAAGATAATAGAGAGGATGGTGCACCAACAGTCCACTAAGGATCTCGAACAAAAGAGGCCAAAGTGATGGATTTTCAAGAGATTCCTCCAAGGACTAAGCCTGATGATTTGGGGGAGTCTTGGCTGCTTATTATAGATCTCCTAGAGCTAGGATTTTTTCCAAATCAGCGTGGATATCTTTCCTTGTCGGTTCAGCTGAGAATGAAGGTGATTTGATTTGATTTCATCAAAGATTCTACAAATCTCATGATTTCTTTGTTTTTTTGTTTTGTCATCTATCGTGATTGCGGCCGCAATATGAGCGCAATTTTGACAGTTTACTGCAACACAAAAACATAAGAATACATTAAAATCCTTGACACCCAAATGTTGTACAGTCAGACAAGTTGTTCCGTGAGATTAGTCAATGTGCGCATAAGCTAGCCGTCTACTCACGGATATATAAAAATATATATATATATTAAAATAATTTGACTCTATGTACACTTTTTTTGCTCCATTTCACGGCTAAGAATGCATGCTTGTTTTATTTTTACCTAAATTCGCAATATGATATAGAATATTATGTTCAACACGTGCTTTCCAAGTAATAAACTTAGTTTTTAAGGTTCAATAACTCTCGTAGAGAACTATACAATATGATATCAGCTGTACAGAAAATTGGGTTTGCAGACTAAATAAAAAAAATTATCCTACTTGATCTTTTGATTGGCAAGAATTGGAAGTTAATCCTCTTTTCAATACCCTGCAATAGAAAGTCTTTCTTATCCTTTTCTTTTCTATTTTTTCTTTCCTTCTCTAAATTAGGCACGAGGCAGTAACTGTGACCATGTATAATTTCGGATCTCCTAGAGTTGGCAACCGGCAATTTGCAGAAATTTATAACAAGGTATGAAATTCCCTTGTTTCCTTTGTAAAATAGAAAATTCTTATCGTCTTAATTTGTTCATGTTGTTGGCTTCCGTCTTCTGGGTGGAAGTCCAATATATTTGGAGAAATGATTTTTCTTATTTCTCAAAGAACCCATTAGTAGGTAAATATGATACAAAGAGAAGTTTAAAATAAAGAAACTAATTATAAAAGGAAAGAATATTAAAAAATATTCAAAGATCAAAGAGCCCATCAAAGGTTCATCTTTAGTAATTTTAAAAGTTAGAACTTGATATTCAACTTCTGAATTACTTATTACTACAACTGTTTGCCTTTTTCTTCTCCAAATGACTAAGTTGCCCAAACATAAAAGCCTCATCTAGATGCGGTCAATTAATTTTCCAACTCAACTAGTATCAAGGTAGAGTTCAACATTATGTTTGATGACTGTTTAAACATAATCCATGATCGGCAAATGGGTTATAATTGGAGTAGTACACTGACTTCTAAAACTCTCTCCCCAATGGCTTCCCTCCCCCAACCCATCCCTAACCTTTCAACCTAATCCTAGTCTTCATCGTCAAAGTCTTCGCCATTGTCCATTTTTTGGTCTTCGTCTATCGGCTCCTTCATCCCCCGATACCATCCTCGTCAAAAACAAAACAAAACTTTGTTAAAGCTTTGGCCCATCCCCGTCAGAACCCAATCTTTCTTTCGTTGACCTTTTTGCTAAAGCCCTTAGCTCTCTTCTGTTGTCCTTTCTCGTTGCCGTTGTCGTTTGTGTTGATTTATGCAAATATTTTATTTTATTTGGTTTTATTTGCTGTTATTATTCTATAGGATTCTTTCCTTCTCTGTCAATATTTTCCTTATTTCATTAAATTTGTATTCTATTTAAATTAGGGCTTTGTACCCTTGTAATAATAAGAGAAAAAGTTAAATAATTTCATATGGTATCAGAGCCTCAAACAAAAAACTCTAACCCTAATTTTTGCTACCGTCGTACCCAGCCCCCGCCATTTTCGTCATCGATTCGCTCATTTTCTCTCGTCGTCAACTTGTGAATGTCAATTTTGCTTAGATTTGACATGATTTCGCTCCTTCAGATCTTCGCCGATCGTTGTCTCCGATTTCGCTCGTTCAGATCCGACGTTGATTTCGTCGTTGTCAATCATTGGTTTCGCTCCTTCAGATCTACCATTGATTTCGCTCATTTCCACGCCATTTTCACCTACCACCTCGGATCTGACGCAAGTGGAGGTGTTTTTCTCTCGCGATTTTATCTTAGGTCTACTCATCGACACCACTGAACGACTACCTTTCCTCTTCTATCGTCGTCAATCGTTTTCTTGGCCACCAAGATCTGATCTGCCACGAGTATTCTTGTTCTCTTCTAATGAGGCTATTGTTTCTGTGAGTAATTTTTATTTTTTAACTCTATTTTTTGTTAGTGGTGTTGTTATGATCTGATAGCACACGTCCGACAAAAAATCATCAATGGCCAAAGTTTCCAACAATCGTCAACTTCCAAATGTCCAAATCACCACAATTCGACTTAATGGAGACAACTTCCTTCGTTGGTCACAAAGCATTCAGATGTATATTCGTGAACAAGGAAAGATTGGGTATCTTACCGGTGAAAAAAAGGCACCGACCAAGACATATCCGTTGTTTGCTAGTTGGGATGAAAATTCCATGGTCATGATGTGGTTGGTCAATTCCATGAATGAGGAAATATGTTCCAATTACATGTGTTATTCTACAGCAAAGGATTTATGGGTCAATGTCAACTAAATGTATTCAGACCTTGACAATCAATCACGAGTACTGGAGTTGAATCTCAAGCTAGGTGATATCTGACAAGGAGGAGATATAGTTACACAGTATTTTCACAAGCTGACAAGAATTTGGCAAGACTTAGACCTTTTTGAAAGTTCTGAATAGGAATCGACCAAGGATCAAGCACACTACAAGAAGGCGGTGGAGGACGATCATGTTTACAAATTTCTCACTAGCCTCAATGATGAATTTGATGAGATTAGAAGTAGAGTTACTTGTAGAAAACCTCTCCCCTCCATCAATGAAGTTTTTTCTAAGGTTCGCAGGGAGGAAAGTCGTCGAAGTGTTATGTTGGACAAGAAAAGCACACACTGTTGAGACATCTGCTATGATGATTGAAACCAAAGCCAATAATGCTTCCCTGCCACCAAACAAACCCCGGATATGGTGTGATCATTGTAACAAAGCCCGCCATACTCATGAGACCTATTGGAAAATCCATGGAAAGCCTGCAAACTGGAAGAACAACAAGCCAGGTGTCAAAGGTAATAATCAATCCACACCCCCATTGCTAATAGTACCGACTCCAATCATCCAGTAAAGAGCAAGTTGATTAACTACTGAAGCTGTTGAAGATCAATTCGTCATCGGCTAATCCTAGTACCTCCTTGGCACAAACAGGTAACTGTCCTCAAGCTTTTTCTTTTCTTAATTCATCTCCTTGGATCATGGATTCCAGAGCTTCAGACCATATGACCAGTACATATCACTTTTTTTATTCATGTTTCCTATATATAGCACAGAGAAAATTCGACTTGCAGATGGTAGTTTCAATTCTATTGCAGGAAAAGGAACTATTCGTCTGACAGAAAAAATTACATTACACCTTATGCTCCATGTCCCTAAATTAACCTATAATTTTTTATTTCTGAGTAAACTTTTTAAAGACACTAACTGTCATATCATTTTCTCTACAACTCACTATTGGTTTCAGGATCAGGACTCGGAAGAGATGATTGGAACTGCCAGTCTACTTGATGGTCTTTACTACTTTGATGACTCTCTTACTAGTGATAAAAAAAATTCAGGGCTTTAGCACATGGCATTTGTGAGGGTATATGGATAAAAAGATTATTGGAAGAATTGAAGTTTATCCAGGTAATGCCTATACGGGTTTATGTGACAATAAGGCCGCCATCTCCATAGCACACAACCCAGTCCTACATGATAGGACAAAACATATGGAGGTTGATAAATACTTTATAAAGGAGAAGATTGATACTGGAGTGTTATGCACTACCTATATCCCTACAGCAGAGCAAATTATTGATGTACTGACAAAGGGGCTTCCAAAATTACAATTCGACAAATTGATTAGCAAGCTAGCAATGGATGATGTCTTTAAACCAGCTTGAGGGAGAGTGTTGATTTATGTAAATATTTTATTTTATTTGGTTTTATTTGTTGTAATTATTCTGTAGGATTCTTTCCTTCTATGTCAATATTTTCCTTATTTCATTAAATCAGTATTCTATTTAAAATAGGGCTTTGTACCCTTGTAGTAATAAAAGACAAAGTGAAATCATTTCACAGTTTGCCTCTCCCACCATGTCTGACTGCTGCAATTGCTACCTTTGACCGCCACCTCGGCCATGCAGATCTTTGTTTCCAATTCTCTTTCGATTTTCATCTATTTCATTTTTGTCCTCACTCCTTCACCTTCTTTCTCATGCCTATAACCTTGGGCCTTCTCGACCTCTCTCTTTTCCTGATGAGAATCCGATTTCTGCCATTTTGTGATGATGGAATTTCAAAGTTGTTGCATCTGTGATACTTTTTTCATATTTGGTATAAGGAGAGCGGGTATTTTGGTGGACGATATGAGCTACAAGCATAAGATTTTCCTTTCTTTCTCCCTTCTGGGTTGGTTTGAAGCTAGTTTGGATGAGCTTTGAAATCTTCCAGAGCAAGCCTTTTTTTCATAAGAAAGATCGTGGAGCTTCGGGAGTTATCCAATTATTTAAGGGTGTTTAGTATGTGATAAAAGTAGAGAGTTGAGTTGAGTTGAGTTGGGTTGGTAATTATTATATGGAGAGTTAAATTATCTAGGAAGTTAAATTGTCTGTGTTTGTTGTGCAGAGTTGAGTTGAGTTGGAGGATTTGATGCAGTTTTTTTTTAATGAGATTAGTTCTATTTTTTTGTTTGTTTTTTATTTCATTCTTTTATTTTTTTTAGTTTTATGCTTTGCTATTGTTGATTAATTTTCAAATATACACGTATTTTCTCAAATCATTTATGACATAAACTGGACGATCTCAATTTTTTTTCTCAATTTGTAGAACATAATAGATTATTTTTCATATATTCTTTTCAAAAGCTGTAATAATTCTAATTCTCTTCAATCGGTAAAACATACCAACAAAATATATTTCATATTGCTGCTCAATTAATTGGTATATTGTATATTGTATGTATATATATTGAAGGTATATATATTTCATATTGAATGTTTGTATGTATATATATCCAAAAAAAATTTACAAAATATATGTTCTTTTCGATACTTATAATATTAGTTATATTTACAAACACAAAAATTACATATTTTCAAGTATGCAAAAGTTATCATTATTTTCGACATGACAGTCCATTGTCCATTTGCTGTTATCCAAAAGAACTATAAACAAAATATAGGGTTGTGGTCAATCTACATGTTTCTTCCTAGTAGACGGAGGCAGTACCTCTTCCGTGCGTGTTCTGGTACTGCAAGGAAGCAATCTGTCTTCTGAATGTCTGTGACAACGAGGTCAATAAGGGTGACCTGATCATCCTCATCCAGGCCATCAATGTTGTATATGACATTTACTACTTCCTTCCGACGCCCGAACTCCAGCTCATACTTCTCCTTTTGCTACGATGCAAGTCTACCCATGTGTGTGCTCTGCATTTCAACATTCGATCTCATGATGTCGATCATTTCAGCTTGGAATGATGACCTCTTCCTCTTACTGCCTCGAGATGACTCAGTAGGTACACTCGCTCTACTTATAGATTGCTCTGCTGGCTCTTCATCTATTTCATCTTGATTTAATGGTGATTCTGTCTGGCGAACCTCAGGGATGTGACAGTCCTATGATCCAAGTTGAATCTCATCTTCAAACTCTCTGAATGCATTCGTCGCCATCACGTATGGGTCCTCACTGGATTGCCCTACTGCTCTGTCTTTCCCAAATACGGTGGAGAGGTCATCGTAATGTGGGAATGGCTTGTTCCACATCCCCTTCGCATTGGGATGACTCTGCATTGATACACATACACATTATTAATATTTATATTATAACACGTATCCGTACATTTTTTTTTTCTAGAATCTTACCCGAACCCAAAGATCGAAAATCTCCCTCTTGACCTAGACACATTTGAACTCCTTGTTCCAGCCGAACCCTGACTGACTTAACATCTCTGATACTGCGTTGTATTGTTTCTTCAGACTCCTCTCCTTGCACTCAATGGTGTTCTGATTCAATGCACACTCAGGCACTTTCTCATGCAGAATTCGCTCTAAGTGTTGTAGGTATCCTGGTCGAAACGTCCCATTATCGGACCTCCAACCGGTCTCCACCAAATACAATAGAGCTTCCACCAACTTAGCGTCCTCCACCTTCGACCATACGTGTTTAGACCTCTTACCATTACCCGCCATTATGCTGCATGCATACGTTTGTTGAATGAAAAGATGCTATAAATTAAATACATGCACAAACAAAGGATAAACTGCTGAAATTATATGTTCCAATTTAACTTGTTCACACAGAGACTTGGCACAAAACATTTTCACGACATACTTGGAATGTTCCATAATTAAATTCCATTCAATAGTAAAAGAAAAGTAAGCAATGAACATTGAATAATCAGGCTCTTTGCCATTGAGTAAACATTTCGACTGCTAAGTCATCCCTGAACTTAGTCCATTCCTCTGATGATTCAACAAATTCAATATGATCCCCATCAAGATCAACTGATGCAGAATTCTCCTCATCGGGCACATCAAGCATTGCACCGATTCCCATCTCCCTTGTGATCAAGTTGTGAATAAGGCAACATGCAGTTATTGTTTGACATTGGACTTGTATTGGGTAGAATGATTTTCCCCTAAGAATAGCCCACCGCCCCTTTAGCAACCCAAAGCTCGCTCGATAACATTCCTTGCTGAAGAATGTTTCATGTTGAAAAATTCTCTTGCAGTTGTCGGTACGTTTCTTGCTCCACGTCAATCAGAGAGATGGTATTGTTTTCCTCTGTACGGCGCCAAGAATCCTTCAGCATTGGGGTATCCAGCATCACATAGGTAATAGTATCCTGTACACGTTTCGAAATGTCATGCACATGTGTTGTGGCAGGTACGCATGTTTAAATAACGTATACGGTTATTATAATACCTTTTGGAACCCTCCATCCGTACGGTTCGGCGAAACCGCATCCCTAAGAACCCTTGAATTGGCTGCAAACCCTTCCCACCCTGGCAAAACAAAAGATGAACTCCCCATTTTGATCACACACCGCAAGAACGTTTGTGCAATCTCTCCCTTTCTCGTCCTATATCGAGGTCGATCAACGACACTAACATTCACTTTAACGTATGTGCCGTCTAACGCACCTAGACAATTCTGTTTCTCTCAAATGATCAGAATGAATTAAAAAAAAAAAAAAAAAACTATCGTTGCATGCATATTTATTGACGTATTCATGTAAAAACTGAGTACTTTTTTGTACCTGAAACCACTTCTATCTTCCATCGGTGCATGTATTGTTTGATCGGTTTCTGGTTTTCTTAACAAAATAGTGTGAAGTTGTAAGACTGCCCAAAGAACTGCGTTGAAATATCTCGAAACTGCCTCACCAGACTCGAAAAGTTTCTGCGTACCACTCGATTCTTGACATCGTGTACAAGAATGTGTAGGAAAATATCACAAACCATGCTCTTCTACGTCCATACATCTTGTTGGTTTCAACAAACCAGTCGACCGTAGCATATTACATAGAATCGTAAAGGTACATCTATCCATTCAAGGTGCTTTTCACGACATGCCAAGTCACTCTCGTAATTAGGCGAAGAAGGTCACTGCCTAAATGCAGTGCCCTAGCATATGTCGGTTGTCTCTCTATCCTTCGGTAGTTTTTCAATAACGTGGTTAGTGTTATGAACACTGTATTTGAGAGTGTGAAATAATTCTCATGATCGAAAAGAGGTCTTCAACAGTAATCCATCTTACAGGGAAAGGGATACACAAGTTATTCCTGAAGGGTAACGTATTTGGCGGATTATGTTTCATGATTAAGAAAGAATAGCAAACGATGTCAAGCGTCGGTATTGGACATATTGGGTTATAGTTTAGATTTAATGGTGTTATTTCCCAATGAGAATTAAGCGAGATCCCCCTCATGAGCGAGATCCTCATTGTTTTTTCACCATTGTAAATGAACTTATTATTAGATAAAAAAATTACATAATAGTACTATTTCACCCATAATTCATAAAAAATTTGAGAAGTATCAGATTAAAAAAAATATTAATGTCGCCAAATTTGTAACTAAGTATTCAAAAAATGTGTCAACAATTAACAAATAACATTATTTCCATAAAAAAATAAGTCCTAAAAAAAAGGGAGATACTCTGAACCTCAAAATAACAAACTCCTCAAACTAATTAGGAAATGATTTGTGCAATTAGTTTTAGGACCCCACAAGAAACACAAAATAATGATAGTTAAATTAGAAATAAAAATAAAATAAATTGAACTAAGAAGTAACCCACAAAAAAAAAAAATTGAACTAAAGAGTAACCAACAAAAGCATACCTTTTTTTAGTGGAGAAAGACAATGGAAATATAAAACGTATGAGTGTGGGAAGTCATCTATAAATAGAAGAGGGAGAAAGAAGTGGTTGTTGGAGAGAGTTGGGTGCATTTATTAAAGAGTGAAATTAATTTTGAGTGTTAGGTTGAAAGTAAGTAGCAGCCACGTTGGAGTAAAGCCAATAAATAGAAATAACATATTTCCAAAAAAAAAAAAAAAAAAATGAGGATCTTCATGAGCGAGATCCTCGTTTCTAGCGAGATTTCCTTCTAGAGCAAGATCCTCATCACAAAATTAGCGAGATTCGCTCATGAGGAGGATCTCGCTCATGAGGCTGCTCTCACTCTCTCCCACTTTTTCGTTGGTCTCGCTCTCTCCCACTTTCTCGTTCAAAATCTTGCTCTCTCTAACTTTCTCGCTGGTCTTGCTCTCTCCAATCTCGCTCTCTCCCACTTTCTCGCTCAAAATCTTGCTCTCAATGATCTCGTTGGTCTCGATTTCAAGGATCTCGCTGATCTCACTCTCAACGATCTCGCTCTTAGCTCATACTTCTCATTTTGCCACGATGCAAGTCTACCCATGTGTGTGCTCTGCATTTCAACAGTCGACATTTCTAGCGAGATTTCCAGAGCGAGATATTCATCACAAAATTAGTGAGATTCAGCCCACATTTCTAGCGAGATTTCCTTCTATAGCGAGATTTAGCCCACATTTCTAGCGAGATTTCCTTCTAGAGCGAGATCCTCATCACAAAATTAGCGAGATTTCACTTGTCCAGGGTTGAAGTTTCGACTTATGTACAACCCTTTATACATATTGTTTCCAAGTTTTTTTTTGTTTGTCGAGTTATTTATGTCGAAACTTCAACCTACGACAACTCTAATATATATTGTTTCCAAGTTTTTCTTTGTTTATCGAGTTCTCAACGTTCGACCTCTACATTAATCCAATCCTCAACCCTCGACTTCTAGCAAAACAACAATATTTCTCTAATATAATAAGTTTTGAAAACAATCATATTAATATAAAAGGTCCTAGTTTTGAGGGGATAAAAAATGAGTTTTGAGTGGGTAAAAAATGGGGTTTTAATAACCCAGGTTTTCTTTATGGGCTTAACAAACATGGGTAATAAATACCCACCCAACTCAACTCAACTCATACCCATTTATCAAACACCCCCTAAATTCAAATCTTTTTATGGAAGGTTTTATGAGTGTGTTTTTTGGCTTAGTGGTGGGGGAAGAATGAATATCCATGTCCTAGTTGGTATTTGGGGAAATGGTTAGAGATTTTCTTTCTAAGGTTTACAAGATGAGAAACTTGAACATCAATTTTGTTTGAACCTTATGAGGATTTGCAGACTAGCTAGTCAAAGTTGTGAAGTTTTGCAGAAGCAGTTTGCCAAACTTGTGAGTCGAGGCAGTCTATTGGTCTAGTTGAAGCAAATTCTCACTTTCCTTGTTTTCAAGAGTCTTCCTTTTGGGTTGTGGATTTTTAGTTTGACTCTGTTACTGTAGTTATTGGACTGTTCGCACATTGTTTTTGGAAGGAAATTCATTTTGCTTTAGAGATTATTTCCGGTATCAGATTTCCATTAATCCCTTTTATGGATGACAAGGCCTTGATGAAGATTGATGAAGATTTTGCGAATCTCAGATTTATGAGAAAATGACAACTTTATAGGGACTTACATCTAGATGGGAGCATTGGTCAAGTAAGTCTCATTCTCGTATGGAATTTATTAGGAGTTACGAGGGTTTGATTAGTATTAAGAATTTACCTTTGATTTACTAGAAGAAATCAGTCTCTGAAACTATTGGCATCATTTCGGTGGTCTAGTTAGCTCCTCGTCACAAACCCTCAATTGTTTGTTCCTATGCAGTGATAGAGGTGCAAAAAACATTTGTGATTTTCTTCCTGCAGAGATGCTAAACAATTGAGGGTGATGGAAGCACAACAATCTTTGGTTCTTTCTCTCGAGATTGATGAACAGATTTTAGATCCTTCTAGGAGGTATGTTCTGACTTTTCCTCTACATTATACTCGGAGAATGGTTAATCAATTTCTTCCAAAGTTTTAGTTGATAATTCTGACTCGTTAGTGGAGAAGTGTGTACGAGCTCAAGTTCAAGTTCCTATAGTGTCTGAAGGAAATTGTCTTCACAACTCCTCAAAGAGTCATCATTCTTCAAAGGTTTTCAGTCATGACTCTTTTCATCCCAGGTTCTAAGACTCAATTTACTGGAGGTATTGCTTGTCATTCTTCATCCAATGATCTCTCTCGCTCCAATGATTCTGATGAGGACTCAGTTGTTAGTGTGAGTCTACGGCTCCTAGGCTTTTGCATTCCAGGCTCTAATTAGACAGAAAATCTAACTGGTGGCATCTGTAAGTGTTGACATTGTCTAATGTATTATGTATAAACTCATGGAAACCACCCAAATCGTAATCCCTGAATGATTAAGAGTCTGTTTACAAATTGCAATGACTTGTCAAGTATTTAAAAACTGTTCTTTTTCACTTAAAAACATTTTTCTACTTAAAATGTCATTTCAAACCGATCTTTATTCAATCTTAGTTACCTTTGCAACTTCATGAATCATCACTAAATATTGCAGAAAGTGAAAGACAGTTGGAGAGTTGTGAACCACAGAGACATTATACCAACAGTTCCTCGTTTGATGGGTTATTGCCACGTGGCTCAGCCTGTGTATCTAGCGGCTGGAGATCTGAATGACGCATTAGTGAGTACTATTATGGCCTTCTTTCTTTTATTATTATTACTATTTTCAATTTTTTTTGTGAATTTGACCTCATGGTAATAAGGGATGCATGTGATAAAATTTTCAAATCTGATATATTTGTTAGGTTAAAGAAGAAGAAAAGGGAAAATTGCAAAAAAAAAAAAAAATGATAGTAATAATTATACTCTAACCCTTTCAATTTGTATAAAATAAACCCTCGTACTTTTTAAAGTGAAATTTGTATCCATAACCTTTCAAATGTATAAAAAATAAAAAAATAAAGAATAAACTTTCAAGTTTACAAATGAAACACACTCAATCTAGATCTAAGTGCTAAACCAAAGCGAGCAAACCAATGAACAGTTAGTTGATGTCAAGTTCAATGACCTTCCTGTTTAGACTCTCATAGAAGCTTGTGAAAATCTTTTTTCAATTGAGGATAGAAAGCATTCAGATACGGCTTTATAATGAGCAGGATCAGTTGAAAAGTGTCCTTCAATCCCACCAAATTTCATTCCTTAATTGCATGTGTGCTCATAGATGAAAGAAATCATGACCACAAATTAAGATTTAACTGAGACTTTGGGGTCAATCGTTTTGTTGATCTTCAGTATTCTTTTGTCGTTATAAGCTATTCAGTTGAAGCATCTTTTGAAGCCTTTAGATTTTGCTTTTACACTCTGCAGAGGAAGCTTCATCTCTTTGCTTGTCTCGATCTATGTTTCGCTTTGCATGGCTAATTTTTAAGACCTTCATCACCTATTTATTGAGTGCAGACTTATTGGGCATTGGTTCTCCATTTTTCGCATTTAGTGGAGATTTGGTAGTTCATTTAAGAACAATGATTTTTCAGTTTAGTTGGCCATTTTAGAAGTCTTATCCTTAGATGTTTTGATCACTTGCAATTACAGTTTTTCTTGGTTTTTTTTTTTTTTTTTTTTTTTTAATAAGAAACGATTTCATTGATTGAATGAAATATCCAAAGATGACAAAGGAAAATTCATCTAGTTTTTCAAGACTAGTCTAGTTTGCTTGTTTTTAGATCGCTCAAAGTTTCATCTTCTCATGGTTTTCTCTACAACGATGTTACATTTTGGTGTTCTCTCTCCAAGCGTTGTGCATTCTACTTTTTTCAAGATTTTTTTTTTTTCTTTTCTTTTTTGTATTATTTGGATTGCTATAGTTTTCTCTACACATATTTTACACTTTCTTGTATAAGGGTTTGTCAATTTGTTGTATAAGGGTTTGTCATCTTTGTATTTCGAACATGTGTCTCTTTTCATTATTTCAAATGAAAAGTTTTGTTTCTTTTCAAGAAAAGGGAAGGGAGTAAGCAAGGGAGGAAGAGGTGGAAGGTAGAGGTAGAAATTAGAGTGAGAAAAAAGAAATATGAGAGATATTGAGTAAAATGGATTTGATTTCCTTATCATGATTTGAGGGTTTATTTTTTTACATTCATCATAATTTGAGGTTTTAATTTGTACACATGAAAGGTTAATGGTACAATTTTTACACTTTTGAAAAATTTGAGGACTTTTATAATGGAAAGTTAATTATTGTACCCTTGAAAGGTTAAGGGTGTAATTCTTGTTAAAGTTAATTATTCAATAAAAGATACAAAATTAACATGGTAGCAGAGCTTTAGGGTTGTCTCATTGAATTCTAGCCACCATAGCCCCGTCTGATCTCTGCCTCAATCGATCAGCCGTCGACGGAGGCAGACTCGTCGCCCATTAAGGTTTGAGTGTAGTTATTCCTACTGTCAATCTGCCGCCTCAGATCCACGCATAGATCTAGCACCACTCAAACTATCAAGCATCACTCAGTTTTAACGTCATCGTCACCTGTTCTGACATCGGCCACATCCAGATTTGTTGACTTCTACCCAGGCCACGCAGATCCTGCCTCAAGTTCGATGTCACCTATTCAGATCTGAACAGGTCAGATCTACGTAGATCTGGTGCAACTCAACCACGTCCGTGCCTCGTCTCTGTCAGTTCGACGTCTCACCGACGTCCAAATCCACGACCAATGTCCATCCATCAACCAAATCCACTGCAATGTCACTTTGTTCACGCACAGTCGCAATAGTTCATCGTCTATCTCTGCTCCGCTGCCTCAGACCCGCCTCCTCAAATCCATGGCCGCTTAGATCCTGCACTACACTGCTCCGCCCACACCGCCACTGACAAGATCCACGCCTTGATTCATCAAATTTGTATGCCCTCCACCGTAAGCCTTATACGAGGAAGAAGAATAAAACCACGTTCAGATTTTGTATGCATGCCGGTTTGGTCCAGTTGGTTTAGTCAACATTGGTTTAGTTTGGTTTAGAAGGACTAGTTTAGTGTCATTCAGACCGGTTCGGTTCAGTCAAGACTGATTTGGTTGGTTTATTCAGACCGGTTTGGTTCAGTTTGATTCACCTGCTTAGTTGATTAGTTTCGGTACGTTTTGTCTCTAGTCCAGAAGCTTTTTGTGTAAGTTCTTCATAGGTTCTATCTCTAGCTCAGATCTGTCGTGATTTGATTTGGGAGTTTCCTTCAGTTTCCATCATCAGCTTCAATCGGTCGCTTCACAAACTCAAGTTGTTTGTTACTCTACCACCTTGAGTTTGAGGGAGGGTGTTAAAGTTAATTATTCAATATATTATACAAAATTAACTACCTCCACCATACTTCAGGCTGTTTTTTGCAATTTGTCCAGAGGAGAAAAAAATGGAAAACGAACAAATAGGAATTGTAATCTTCCATATTTGGGATCAAGAAACATTCTACCTTTCCCCTTTTTTCTTTTAATTTTGACATGATTCCACTTTTTCCATTTATGAAATATCGGTGTGAAGTTACATGAGCATACTCAAATTTTATTTTCTAACGAAGCATTAGATTCTATGTTGAATTGACATTCATTTACTTCTGTAACTAACAATTGAAGTGGATTCCAGTTGTAATGCGAGCTAAGAATCCCCAAAATAACAGTAGGAAGAAACAGATTTGAGTTCAACTGAAAATTGATAAAAACAATTTCCACGTTTAATCCAGGAAAATGTGGAGCTTCAAGCAGATGGTTATCAAGGGGATGTCATTGGGGAGTCCACACCAGATGTTTTAGTCAATGAATTTGTAAGTTTTTTGCCTCTTCTTCATAATCTTGAAATGGACTGGCATTCTAATGTTCTTACTATCAATACTTCTTGGTTATTAATCTAACCATTTGCAGATGAAGGGAGAAAAGGAACTTGTTGAAAAGCTTTTGCACACAGAAATTAATATATTCCGTTCAATTAGAGATGGAAGTGCGCTAATGCAACACATGGAGGATTTCTACTACATTACATTGCTGGAGGTAAATCTCTCTCTCTCTCTCTCTCTCTCTTGCATTTGACCTTGTTAAGAGCTAAAGAAAACAAGTCCCTTTTTATTTCTTTATTAAAATAGGAGAGATCATTCATATCAATAGTGAACCGATAGAGATACCAAAAATTAGAATGTAGAGTTTGAGACTGAATTAAAACATGTAAATATTTAGTGACCGATACGAAATAAATATGAAGTTTATGATCAAAAATAACATTAGTAGATCCGAATGCCTTCAAAAAAGTGTTTTTTTTTTTTTTTTTTAGGTAAACTTTCTAGGTTTTGTAGTCTCTAGACATGGAGTGGAAGTTGATTATGAGAAGGTTAAAGCAAAAGTTTTTTTTTTTTTTTTTTTTTTGGCCTCTGAGCTGTTCTTGTGTGTTCAGAATGTGAGGTCAAACTACCAAAGTGTTGGCAACTTACGATCGGACCAACAGGCTTGA

mRNA sequence

ATGGCTTTTCTTCTCCACAACCACAGCCATCTTCACTACAATTCTTCTCTCTCCACACCCATTCCCAACCTCCATTGGACCCGAAATCTTCTCCCCTCCCGCCGAAGACCCAAGTTTTCTCGGAAACCTAGGGTTTTAACTTTCCGGGTAAATCATAAGGGTCGCCTCGGCGTATCCTCTTTTCCTTGCTTCTGCAGATCAGGGACCGAAGTTGAAAATTTACCTCTCCTAGAAGAAACTGAACGACGGCCCTTTGATATCAATCTCGCCGTTATTCTTGCCGGTTTCGCGTTTGAAGCATACACTAGCCCCCCTGAAAATTTTGGGAAGCGTGAAGTTGATGCTGCAGGCTGTACGACTGTATATCTTTCAGAGTCATTTGTTCGAGAGATATATGATGGTCAACTGTTCATAAAATTGAAGAAGGGCATTGATTTACCTGCAATGGATCCGTGGGGAACGAGCGATCCATATGTGGTGTTTCAATTGGATGGTCAGGTTGCTAAAAGCAAGACAAAATGGGGGACAAAGCAGCCAACATGGAACGAGGACTTCACTCTTAACATCAAAGAGCCTTCAACTAAATATGTTCAGGTTGCTGCGTGGGATGCAAACTTGGTGACTCCACATAAACGAATGGGTAATGCAGGCATCAATCTGGAATCTCTTTGTGATGGAAATTTGCATGATGTAACAGTGGAGTTAGAAGGGATGGGTGGAGGTGGAAAGTTGCTGATGGAGATCAAGTATAGGACTTTTGATGAAATTGAAGATGACAAACGATGGTGGAGAGTTCCCTTCATTTCTGAATTTCTTCGCAGCAATGGTTTTGTATCTGCTTTAAACAAGGTTGTTGGATCTGACACCGTGCCTGTGCGTCAGTTTGTAGAATATGCTTTTGGAAAGTTAAAGTCATTCAATGACGAGTACCAATCAAGTCATCATTTATTAAGCAAGCAAAACAACGCAGAGGATATACCCTCATACGTGCAGACGAATACCAAAGTCTCTATAACTGATATAAAGTATCCCAATGAGGGAAAATCTGATGAGGTTGAAATAAATGATAATACTGTGGAAAGTGGACAGTTGCTGAAAGAAGTGACGCAAAGTCTCTTAACAAAGCAATTCGATAAACAATTTTGGACAAACTTGGCTGATGTAACAAACCAAAATATTGTCAAGAAGCTAGGTCTTCCTGCTCCTGAGAAATTCAAGTGGGATGGATTTGAGTTACTAAATAAAATTGGTTTGGAGGCACGAAAGAGTGCTGAAGCAGGTTATATCGAATCGGGGCTTGCAACGCCCAAAAGTTTGGATGTTGATCACGAACAGAAGAACATTAGAATGGTGGACTCAACACTAACTGATGTGAAGAAAGTAACAAAAGATCTATTAAGTCAAACTGAGTCTGTTTTAGGGGCATTGATGGTTCTGACAGCAACAATTTCTCAATTGAACAAGGAAGCGCGGCTTGTAGGAAAGAAAGATACTAAAGATGAGGGCTCTAAAAAAGAGGGAGAGAAGCTTGGTAGTTCAGGGGATGGATCATTGTTGGATAATAGGAATTCTGAGGAAATGAAAGCACTTTTTGCAACTGCAGAAAGTGCGATGGAAGCTTGGGCAATGCTTGCTACATCACTTGGCCATCCTAGTTTCATAAAGTCGGAATTTGAAAAGTTATGTTTCTTAGATAACGAGTCTACAGACACACAGGTTGCAATTTGGCGTGATTTTATGCGGAGGAGACTAGTTGTTGCCTTCAGGGGCACAGAACAATCAAGATGGAAGGACTTAAGAACAGACCTGATGCTAGTCCCTGCAGGGTTAAATCCTGAAAGGATAAGTGGAGATTTCAACGAGGAAGTTCAAGTTCACAGTGGGTTCTTAAGTGCGTATGATTCAGTACGAATGAGAATTATTTCCCTCATTAAAATGGCCATTAATTATAATGATGAATGTGCTGAGCCACCAGTCAAATGGCATGTTTATGTTACAGGTCACAGTTTGGGTGGTGCATTAGCTACACTTCTTGCTCTTGAACTTTCGTCAAGTCAACTTGCAAGGCACGAGGCAGTAACTGTGACCATGTATAATTTCGGATCTCCTAGAGTTGGCAACCGGCAATTTGCAGAAATTTATAACAAGAAAGTGAAAGACAGTTGGAGAGTTGTGAACCACAGAGACATTATACCAACAGTTCCTCGTTTGATGGGTTATTGCCACGTGGCTCAGCCTGTGTATCTAGCGGCTGGAGATCTGAATGACGCATTAGAAAATGTGGAGCTTCAAGCAGATGGTTATCAAGGGGATGTCATTGGGGAGTCCACACCAGATGTTTTAGTCAATGAATTTATGAAGGGAGAAAAGGAACTTGTTGAAAAGCTTTTGCACACAGAAATTAATATATTCCGTTCAATTAGAGATGGAAGTGCGCTAATGCAACACATGGAGGATTTCTACTACATTACATTGCTGGAGAATGTGAGGTCAAACTACCAAAGTGTTGGCAACTTACGATCGGACCAACAGGCTTGA

Coding sequence (CDS)

ATGGCTTTTCTTCTCCACAACCACAGCCATCTTCACTACAATTCTTCTCTCTCCACACCCATTCCCAACCTCCATTGGACCCGAAATCTTCTCCCCTCCCGCCGAAGACCCAAGTTTTCTCGGAAACCTAGGGTTTTAACTTTCCGGGTAAATCATAAGGGTCGCCTCGGCGTATCCTCTTTTCCTTGCTTCTGCAGATCAGGGACCGAAGTTGAAAATTTACCTCTCCTAGAAGAAACTGAACGACGGCCCTTTGATATCAATCTCGCCGTTATTCTTGCCGGTTTCGCGTTTGAAGCATACACTAGCCCCCCTGAAAATTTTGGGAAGCGTGAAGTTGATGCTGCAGGCTGTACGACTGTATATCTTTCAGAGTCATTTGTTCGAGAGATATATGATGGTCAACTGTTCATAAAATTGAAGAAGGGCATTGATTTACCTGCAATGGATCCGTGGGGAACGAGCGATCCATATGTGGTGTTTCAATTGGATGGTCAGGTTGCTAAAAGCAAGACAAAATGGGGGACAAAGCAGCCAACATGGAACGAGGACTTCACTCTTAACATCAAAGAGCCTTCAACTAAATATGTTCAGGTTGCTGCGTGGGATGCAAACTTGGTGACTCCACATAAACGAATGGGTAATGCAGGCATCAATCTGGAATCTCTTTGTGATGGAAATTTGCATGATGTAACAGTGGAGTTAGAAGGGATGGGTGGAGGTGGAAAGTTGCTGATGGAGATCAAGTATAGGACTTTTGATGAAATTGAAGATGACAAACGATGGTGGAGAGTTCCCTTCATTTCTGAATTTCTTCGCAGCAATGGTTTTGTATCTGCTTTAAACAAGGTTGTTGGATCTGACACCGTGCCTGTGCGTCAGTTTGTAGAATATGCTTTTGGAAAGTTAAAGTCATTCAATGACGAGTACCAATCAAGTCATCATTTATTAAGCAAGCAAAACAACGCAGAGGATATACCCTCATACGTGCAGACGAATACCAAAGTCTCTATAACTGATATAAAGTATCCCAATGAGGGAAAATCTGATGAGGTTGAAATAAATGATAATACTGTGGAAAGTGGACAGTTGCTGAAAGAAGTGACGCAAAGTCTCTTAACAAAGCAATTCGATAAACAATTTTGGACAAACTTGGCTGATGTAACAAACCAAAATATTGTCAAGAAGCTAGGTCTTCCTGCTCCTGAGAAATTCAAGTGGGATGGATTTGAGTTACTAAATAAAATTGGTTTGGAGGCACGAAAGAGTGCTGAAGCAGGTTATATCGAATCGGGGCTTGCAACGCCCAAAAGTTTGGATGTTGATCACGAACAGAAGAACATTAGAATGGTGGACTCAACACTAACTGATGTGAAGAAAGTAACAAAAGATCTATTAAGTCAAACTGAGTCTGTTTTAGGGGCATTGATGGTTCTGACAGCAACAATTTCTCAATTGAACAAGGAAGCGCGGCTTGTAGGAAAGAAAGATACTAAAGATGAGGGCTCTAAAAAAGAGGGAGAGAAGCTTGGTAGTTCAGGGGATGGATCATTGTTGGATAATAGGAATTCTGAGGAAATGAAAGCACTTTTTGCAACTGCAGAAAGTGCGATGGAAGCTTGGGCAATGCTTGCTACATCACTTGGCCATCCTAGTTTCATAAAGTCGGAATTTGAAAAGTTATGTTTCTTAGATAACGAGTCTACAGACACACAGGTTGCAATTTGGCGTGATTTTATGCGGAGGAGACTAGTTGTTGCCTTCAGGGGCACAGAACAATCAAGATGGAAGGACTTAAGAACAGACCTGATGCTAGTCCCTGCAGGGTTAAATCCTGAAAGGATAAGTGGAGATTTCAACGAGGAAGTTCAAGTTCACAGTGGGTTCTTAAGTGCGTATGATTCAGTACGAATGAGAATTATTTCCCTCATTAAAATGGCCATTAATTATAATGATGAATGTGCTGAGCCACCAGTCAAATGGCATGTTTATGTTACAGGTCACAGTTTGGGTGGTGCATTAGCTACACTTCTTGCTCTTGAACTTTCGTCAAGTCAACTTGCAAGGCACGAGGCAGTAACTGTGACCATGTATAATTTCGGATCTCCTAGAGTTGGCAACCGGCAATTTGCAGAAATTTATAACAAGAAAGTGAAAGACAGTTGGAGAGTTGTGAACCACAGAGACATTATACCAACAGTTCCTCGTTTGATGGGTTATTGCCACGTGGCTCAGCCTGTGTATCTAGCGGCTGGAGATCTGAATGACGCATTAGAAAATGTGGAGCTTCAAGCAGATGGTTATCAAGGGGATGTCATTGGGGAGTCCACACCAGATGTTTTAGTCAATGAATTTATGAAGGGAGAAAAGGAACTTGTTGAAAAGCTTTTGCACACAGAAATTAATATATTCCGTTCAATTAGAGATGGAAGTGCGCTAATGCAACACATGGAGGATTTCTACTACATTACATTGCTGGAGAATGTGAGGTCAAACTACCAAAGTGTTGGCAACTTACGATCGGACCAACAGGCTTGA

Protein sequence

MAFLLHNHSHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSSFPCFCRSGTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTTVYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPTWNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGGGGKLLMEIKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAFGKLKSFNDEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVESGQLLKEVTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEARKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLTATISQLNKEARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLATSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDVLVNEFMKGEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGNLRSDQQA

Homology

[Close]

BLAST of BhiUN159G11 vs. TAIR 10
Match: AT4G13550.1 (triglyceride lipases;triglyceride lipases )

HSP 1 Score: 803.9 bits (2075), Expect = 1.2e-232
Identity = 414/686 (60.35%), Postives = 510/686 (74.34%), Query Frame = 0


Query: 176 TKQPTWNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVEL 235
           TK+P WNEDF  NIK P  K +++AAWDANLVTPHKRMGN+ INLES+CDGNLH V VEL
Sbjct: 21  TKEPKWNEDFVFNIKLPPAKKIEIAAWDANLVTPHKRMGNSEINLESVCDGNLHKVLVEL 80

Query: 236 EGMGGGGKLLMEIKYRTFDEIEDDKRWWRVPFISEFLRSN-------GFV------SALN 295
           +G+GGGGK+ +EIKY+ F E+E++K+WWR PF+SEFL+ N        FV      S L 
Sbjct: 81  DGIGGGGKVQLEIKYKGFGEVEEEKKWWRFPFVSEFLQRNEIKSVLKNFVDSEAVESVLK 140

Query: 296 KVVGSDTVPVRQFVEYAFGKLKSFNDEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIK 355
            +V S+ VP RQFVEYAFG+LKS ND    +  LL+  N AED       ++        
Sbjct: 141 NLVDSEAVPARQFVEYAFGQLKSLNDAPLKNTELLN--NTAEDSEGASSEDSSDQHRSTN 200

Query: 356 YPNEGKSDEVEINDNTVESGQLLKEVTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAP 415
             + GK  + +  D      +L  +     +  Q +  FW N+ D+  QNIV+KLGLP+P
Sbjct: 201 LSSSGKLSKDKDGDGDGHGNELEDDNESGSI--QSESNFWDNIPDIVGQNIVQKLGLPSP 260

Query: 416 EKFKWDGFELLNKIGLEARKSAEAGYIESGLATPKSLDVDHEQKN----IRMVDSTLTDV 475
           EK KW+G ELL   GL++RK+AEAGYIESGLAT  + + D E+++    I    S+L D+
Sbjct: 261 EKLKWNGTELLENFGLQSRKTAEAGYIESGLATADTREADDEKEDGQVAINASKSSLADM 320

Query: 476 KKVTKDLLSQTESVLGALMVLTATISQLNKEA----RLVGKKD----TKDEGSKKEGEKL 535
           K  T++LL Q ++V GALMVL A +  L+K++    +++ K      T D     + EK+
Sbjct: 321 KNATQELLKQADNVFGALMVLKAVVPHLSKDSVGSEKVIEKNGSSSVTDDVSGSSKTEKI 380

Query: 536 GSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLATSLGHPSFIKSEFEKLCFLDNESTD 595
               +    D +N+EEMK LF++AESAMEAWAMLAT+LGHPSFIKSEFEKLCFL+N+ TD
Sbjct: 381 SGLVNVDGADEKNAEEMKTLFSSAESAMEAWAMLATALGHPSFIKSEFEKLCFLENDITD 440

Query: 596 TQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHSGFL 655
           TQVAIWRD  R+R+V+AFRGTEQ++WKDL+TDLMLVPAGLNPERI GDF +EVQVHSGFL
Sbjct: 441 TQVAIWRDARRKRVVIAFRGTEQTKWKDLQTDLMLVPAGLNPERIGGDFKQEVQVHSGFL 500

Query: 656 SAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQLARH 715
           SAYDSVR+RIISL+KM I Y D+  E   KWHVYVTGHSLGGALATLLALELSSSQLA+ 
Sbjct: 501 SAYDSVRIRIISLLKMTIGYIDDVTEREDKWHVYVTGHSLGGALATLLALELSSSQLAKR 560

Query: 716 EAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVPRLMGYCHVAQPVYLA 775
            A+TVTMYNFGSPRVGN+QFAEIYN+KVKDSWRVVNHRDIIPTVPRLMGYCHVA PVYL+
Sbjct: 561 GAITVTMYNFGSPRVGNKQFAEIYNQKVKDSWRVVNHRDIIPTVPRLMGYCHVAHPVYLS 620

Query: 776 AGDLNDALENVELQADGYQGDVIGESTPDVLVNEFMKGEKELVEKLLHTEINIFRSIRDG 835
           AGD    +E++E Q DGY  +VIGE+TPD+LV+ FMKGEKELVEK+L TEI IF ++RDG
Sbjct: 621 AGD----VEDIEFQKDGYHAEVIGEATPDILVSRFMKGEKELVEKILQTEIKIFNALRDG 680

Query: 836 SALMQHMEDFYYITLLENVRSNYQSV 837
           SALMQHMEDFYYITLLE+V+  Y++V
Sbjct: 681 SALMQHMEDFYYITLLESVKLYYKTV 698

[Close]

BLAST of BhiUN159G11 vs. TAIR 10
Match: AT2G44810.1 (alpha/beta-Hydrolases superfamily protein )

HSP 1 Score: 83.6 bits (205), Expect = 8.5e-16
Identity = 63/165 (38.18%), Postives = 88/165 (53.33%), Query Frame = 0


Query: 581 RRRLVVAFRGTEQS-RW-KDLRTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAY----- 640
           RR +V++FRGT     W ++LR  L  +P G     ++G  N    V SGFLS Y     
Sbjct: 117 RRDVVISFRGTATCLEWLENLRATLTHLPNGPTGANLNGS-NSGPMVESGFLSLYTSGVH 176

Query: 641 ---DSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQLARH 700
              D VR  I  L++   +Y DE    P+   V +TGHSLG A+ATL A ++ ++     
Sbjct: 177 SLRDMVREEIARLLQ---SYGDE----PLS--VTITGHSLGAAIATLAAYDIKTT---FK 236

Query: 701 EAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVP 736
            A  VT+ +FG PRVGNR F ++  K+     R+VN  D+I  VP
Sbjct: 237 RAPMVTVISFGGPRVGNRCFRKLLEKQGTKVLRIVNSDDVITKVP 268

[Close]

BLAST of BhiUN159G11 vs. TAIR 10
Match: AT5G18640.1 (alpha/beta-Hydrolases superfamily protein )

HSP 1 Score: 83.2 bits (204), Expect = 1.1e-15
Identity = 65/213 (30.52%), Postives = 99/213 (46.48%), Query Frame = 0


Query: 584 LVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAY--DSVRMRII 643
           +++AFRGT++   ++  +DL      LN   +      +  VH GF SAY   +VR  ++
Sbjct: 100 IIIAFRGTQEHSIQNWVSDLFWKQLDLNYPDM-----PDAMVHHGFYSAYHNTTVRPAVL 159

Query: 644 SLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMYNFG 703
             +K A              ++ VTGHS+GGA+A+  AL+L    +       V +  FG
Sbjct: 160 DAVKRAKE------SYGANLNIMVTGHSMGGAMASFCALDL----VVNEGEENVQVMTFG 219

Query: 704 SPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVPRL------MGYCHVAQPVYLA-AGDL 763
            PRVGN  FA  +N  V +++R+++ RDI+P +P          Y H    V+L     L
Sbjct: 220 QPRVGNAAFASYFNLLVPNTFRIIHDRDIVPHLPPYYHLFPQKTYHHFPTEVWLTELSIL 279

Query: 764 NDALENVELQADGYQGD------VIGESTPDVL 782
           N  +  VE   D    D      V+G S  D L
Sbjct: 280 NIVIRGVEKVCDNTGEDPTCSRSVMGNSISDHL 297

[Close]

BLAST of BhiUN159G11 vs. TAIR 10
Match: AT5G18630.3 (alpha/beta-Hydrolases superfamily protein )

HSP 1 Score: 79.0 bits (193), Expect = 2.1e-14
Identity = 52/170 (30.59%), Postives = 83/170 (48.82%), Query Frame = 0


Query: 584 LVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMR---- 643
           +++AFRGT++   ++  +DL      LN   +      +  VH GF SAY +  +R    
Sbjct: 100 IIIAFRGTQEHSIQNWVSDLFWKQLDLNYPDM-----PDAMVHHGFYSAYHNTTLRPAVL 159

Query: 644 -IISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMY 703
             I+ +K     N          ++ VTGHS+GGA+A+   L+L    +       V + 
Sbjct: 160 DAITRVKKVYGAN---------INIIVTGHSMGGAMASFCGLDL----VVNEGEENVQVM 219

Query: 704 NFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVPRLMGYCHVAQPVY 749
            FG PRVGN  FA  Y+  V +++R+ + RD++P +P    Y H  Q  Y
Sbjct: 220 TFGQPRVGNAAFASYYSLLVPNTFRITHDRDMVPHLPPY--YYHFPQKTY 249

[Close]

BLAST of BhiUN159G11 vs. TAIR 10
Match: AT5G18630.2 (alpha/beta-Hydrolases superfamily protein )

HSP 1 Score: 79.0 bits (193), Expect = 2.1e-14
Identity = 52/170 (30.59%), Postives = 83/170 (48.82%), Query Frame = 0


Query: 584 LVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMR---- 643
           +++AFRGT++   ++  +DL      LN   +      +  VH GF SAY +  +R    
Sbjct: 100 IIIAFRGTQEHSIQNWVSDLFWKQLDLNYPDM-----PDAMVHHGFYSAYHNTTLRPAVL 159

Query: 644 -IISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMY 703
             I+ +K     N          ++ VTGHS+GGA+A+   L+L    +       V + 
Sbjct: 160 DAITRVKKVYGAN---------INIIVTGHSMGGAMASFCGLDL----VVNEGEENVQVM 219

Query: 704 NFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVPRLMGYCHVAQPVY 749
            FG PRVGN  FA  Y+  V +++R+ + RD++P +P    Y H  Q  Y
Sbjct: 220 TFGQPRVGNAAFASYYSLLVPNTFRITHDRDMVPHLPPY--YYHFPQKTY 249

[Close]

BLAST of BhiUN159G11 vs. ExPASy Swiss-Prot
Match: Q948R1 (Phospholipase A(1) DAD1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DAD1 PE=1 SV=1)

HSP 1 Score: 83.6 bits (205), Expect = 1.2e-14
Identity = 63/165 (38.18%), Postives = 88/165 (53.33%), Query Frame = 0


Query: 581 RRRLVVAFRGTEQS-RW-KDLRTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAY----- 640
           RR +V++FRGT     W ++LR  L  +P G     ++G  N    V SGFLS Y     
Sbjct: 207 RRDVVISFRGTATCLEWLENLRATLTHLPNGPTGANLNGS-NSGPMVESGFLSLYTSGVH 266

Query: 641 ---DSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQLARH 700
              D VR  I  L++   +Y DE    P+   V +TGHSLG A+ATL A ++ ++     
Sbjct: 267 SLRDMVREEIARLLQ---SYGDE----PLS--VTITGHSLGAAIATLAAYDIKTT---FK 326

Query: 701 EAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVP 736
            A  VT+ +FG PRVGNR F ++  K+     R+VN  D+I  VP
Sbjct: 327 RAPMVTVISFGGPRVGNRCFRKLLEKQGTKVLRIVNSDDVITKVP 358

[Close]

BLAST of BhiUN159G11 vs. ExPASy Swiss-Prot
Match: Q0CBM7 (Probable feruloyl esterase A OS=Aspergillus terreus (strain NIH 2624 / FGSC A1156) OX=341663 GN=faeA PE=3 SV=1)

HSP 1 Score: 82.4 bits (202), Expect = 2.7e-14
Identity = 65/207 (31.40%), Postives = 92/207 (44.44%), Query Frame = 0


Query: 566 NESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQV 625
           N  TD    + RD   + ++  FRGT       L T+  L P     E  SG      +V
Sbjct: 64  NAQTDINGWVLRDDSTKEIITVFRGTGSDTNLQLDTNYTLTPFSTFSE-CSG-----CEV 123

Query: 626 HSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSS 685
           H G+   + SV+ +++SL+K       E A+    + + VTGHSLG ++ATL A +LS +
Sbjct: 124 HGGYFIGWSSVQDQVMSLVK-------EQADQYPDYTLTVTGHSLGASMATLAAAQLSGT 183

Query: 686 QLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDS-------WRVVNHRDIIPTVPRL- 745
                    +T+Y FG PR GN  FA   N K   +       +RV +  D IP +P   
Sbjct: 184 Y------DNITLYTFGEPRSGNEAFASYMNDKFTATSADTTKYFRVTHSNDGIPNLPPAE 243

Query: 746 MGYCH-----------VAQPVYLAAGD 754
            GY H            AQ  Y+  GD
Sbjct: 244 QGYVHGGVEYWSVDPYSAQNTYVCTGD 251

[Close]

BLAST of BhiUN159G11 vs. ExPASy Swiss-Prot
Match: P19515 (Lipase OS=Rhizomucor miehei OX=4839 PE=1 SV=2)

HSP 1 Score: 77.0 bits (188), Expect = 1.1e-12
Identity = 56/181 (30.94%), Postives = 85/181 (46.96%), Query Frame = 0


Query: 570 DTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHSGF 629
           DT   + R    + + + FRG+   R  +   DL  VP    P  +SG      +VH GF
Sbjct: 155 DTNAMVARGDSEKTIYIVFRGSSSIR--NWIADLTFVPVSYPP--VSG-----TKVHKGF 214

Query: 630 LSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQLAR 689
           L +Y  V+  +++ +       D+  + P  + V VTGHSLGGA A L AL+L   +   
Sbjct: 215 LDSYGEVQNELVATVL------DQFKQYP-SYKVAVTGHSLGGATALLCALDLYQREEGL 274

Query: 690 HEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTV-PRLMGYCHVAQPVY 749
             +  + +Y  G PRVG+  FA           R VN RDI+P + P   G+ H  +  +
Sbjct: 275 SSS-NLFLYTQGQPRVGDPAFANYVVSTGIPYRRTVNERDIVPHLPPAAFGFLHAGEEYW 318

[Close]

BLAST of BhiUN159G11 vs. ExPASy Swiss-Prot
Match: Q941F1 (Phospholipase A1-Igamma1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DALL4 PE=1 SV=2)

HSP 1 Score: 74.7 bits (182), Expect = 5.6e-12
Identity = 66/207 (31.88%), Postives = 96/207 (46.38%), Query Frame = 0


Query: 565 DNESTDTQVAIWRDFMRRRLVVAFRGT-EQSRW-KDLRTDLMLVPAGLNPERISGDFNEE 624
           DNE+T  ++       RR + +A+RGT  +  W  DL+    L P   N  R     +  
Sbjct: 199 DNEATRCRLG------RRDIAIAWRGTVTRLEWIADLKD--FLKPVSGNGFRCP---DPA 258

Query: 625 VQVHSGFLSAYD-----------SVRMRIISLIKMAI-NYNDECAEPPVKWHVYVTGHSL 684
           V+  SGFL  Y            S R ++++ +K  +  Y DE  E   +  + VTGHSL
Sbjct: 259 VKAESGFLDLYTDKDTSCNFSKFSAREQVLTEVKRLVERYGDEEGE---ELSITVTGHSL 318

Query: 685 GGALATLLA---LELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNH 744
           GGALA L A    E+  ++  + + + VT + +G PRVGN +F E   K      RVVN 
Sbjct: 319 GGALAVLSAYDVAEMGVNRTRKGKVIPVTAFTYGGPRVGNIRFKERIEKLGVKVLRVVNE 378

Query: 745 RDIIPTVPRLMGYCHVAQPVYLAAGDL 755
            D++   P L       Q +   AG L
Sbjct: 379 HDVVAKSPGLFLNERAPQALMKLAGGL 391

[Close]

BLAST of BhiUN159G11 vs. ExPASy Swiss-Prot
Match: P61871 (Lipase OS=Rhizopus niveus OX=4844 PE=1 SV=1)

HSP 1 Score: 73.9 bits (180), Expect = 9.5e-12
Identity = 56/206 (27.18%), Postives = 96/206 (46.60%), Query Frame = 0


Query: 569 TDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHSG 628
           +DT   + R   ++ + + FRGT  + ++   TD++   +   P +         +VH+G
Sbjct: 184 SDTNGYVLRSDKQKTIYLVFRGT--NSFRSAITDIVFNFSDYKPVK-------GAKVHAG 243

Query: 629 FLSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQLA 688
           FLS+Y+ V      +++  +      A P  K  V VTGHSLGGA A L  ++L   +  
Sbjct: 244 FLSSYEQVVNDYFPVVQEQLT-----AHPTYK--VIVTGHSLGGAQALLAGMDLYQRE-P 303

Query: 689 RHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTV-PRLMGYCHVAQPV 748
           R     ++++  G PRVGN  FA           R V+ RDI+P V P+  G+ H     
Sbjct: 304 RLSPKNLSIFTVGGPRVGNPTFAYYVESTGIPFQRTVHKRDIVPHVPPQSFGFLHPGVES 363

Query: 749 YLAAGDLNDALENVELQADGYQGDVI 774
           ++ +G  N  +   E++       ++
Sbjct: 364 WIKSGTSNVQICTSEIETKDCSNSIV 372

[Close]

BLAST of BhiUN159G11 vs. NCBI nr
Match: XP_038876505.1 (uncharacterized protein LOC120068939 [Benincasa hispida])

HSP 1 Score: 1697.6 bits (4395), Expect = 0.0e+00
Identity = 845/845 (100.00%), Postives = 845/845 (100.00%), Query Frame = 0


Query: 1   MAFLLHNHSHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSS 60
           MAFLLHNHSHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSS
Sbjct: 1   MAFLLHNHSHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSS 60

Query: 61  FPCFCRSGTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT 120
           FPCFCRSGTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT
Sbjct: 61  FPCFCRSGTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT 120

Query: 121 VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPT 180
           VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPT
Sbjct: 121 VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPT 180

Query: 181 WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGG 240
           WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGG
Sbjct: 181 WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGG 240

Query: 241 GGKLLMEIKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAF 300
           GGKLLMEIKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAF
Sbjct: 241 GGKLLMEIKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAF 300

Query: 301 GKLKSFNDEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVE 360
           GKLKSFNDEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVE
Sbjct: 301 GKLKSFNDEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVE 360

Query: 361 SGQLLKEVTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEA 420
           SGQLLKEVTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEA
Sbjct: 361 SGQLLKEVTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEA 420

Query: 421 RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLT 480
           RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLT
Sbjct: 421 RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLT 480

Query: 481 ATISQLNKEARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEA 540
           ATISQLNKEARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEA
Sbjct: 481 ATISQLNKEARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEA 540

Query: 541 WAMLATSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLR 600
           WAMLATSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLR
Sbjct: 541 WAMLATSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLR 600

Query: 601 TDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVK 660
           TDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVK
Sbjct: 601 TDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVK 660

Query: 661 WHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKD 720
           WHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKD
Sbjct: 661 WHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKD 720

Query: 721 SWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDV 780
           SWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDV
Sbjct: 721 SWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDV 780

Query: 781 LVNEFMKGEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGNLR 840
           LVNEFMKGEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGNLR
Sbjct: 781 LVNEFMKGEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGNLR 840

Query: 841 SDQQA 846
           SDQQA
Sbjct: 841 SDQQA 845

[Close]

BLAST of BhiUN159G11 vs. NCBI nr
Match: XP_008460597.1 (PREDICTED: uncharacterized protein LOC103499378 isoform X1 [Cucumis melo])

HSP 1 Score: 1531.2 bits (3963), Expect = 0.0e+00
Identity = 770/846 (91.02%), Postives = 800/846 (94.56%), Query Frame = 0


Query: 1   MAFLLHNHSHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSS 60
           MA LL NH H    SSLS+PIPNL WT NL PSR RP FS KPRVLTFRV++K RLGVSS
Sbjct: 1   MASLLQNHIH----SSLSSPIPNLRWTPNLHPSRPRPHFSAKPRVLTFRVSYKSRLGVSS 60

Query: 61  FPCFCRSGTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT 120
           F CFC SGTE++N  L ++TERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT
Sbjct: 61  FRCFCSSGTELQNASLQQQTERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT 120

Query: 121 VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPT 180
           VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQL+GQ+AKSKTKWGTK+PT
Sbjct: 121 VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLNGQIAKSKTKWGTKRPT 180

Query: 181 WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGG 240
           WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGN H+VTVELEGMGG
Sbjct: 181 WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNSHEVTVELEGMGG 240

Query: 241 GGKLLMEIKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAF 300
           GGKLL+EIKYR+FDEIEDDKRWWRVPFISEFLRS+GFVSALNKVVGSDTVPVRQFVEYAF
Sbjct: 241 GGKLLLEIKYRSFDEIEDDKRWWRVPFISEFLRSSGFVSALNKVVGSDTVPVRQFVEYAF 300

Query: 301 GKLKSFNDEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVE 360
           GKLKSFNDEYQS H LL KQN+ EDI S ++TNT+VSITD   P EGKSDEVEI+DNTVE
Sbjct: 301 GKLKSFNDEYQSDHLLLRKQNDEEDISSNMRTNTEVSITDTNSPIEGKSDEVEISDNTVE 360

Query: 361 SGQLLKEVTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEA 420
           SGQ LKEVTQ LL  QFDKQFWTNLADVT+QNIVKKLGLPAPEK KWDGFELLNKIGLEA
Sbjct: 361 SGQSLKEVTQGLLAMQFDKQFWTNLADVTSQNIVKKLGLPAPEKLKWDGFELLNKIGLEA 420

Query: 421 RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLT 480
           RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLG LMVLT
Sbjct: 421 RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGGLMVLT 480

Query: 481 ATISQLNKEARLVGKKDTKDEGSKKEGEKL-GSSGDGSLLDNRNSEEMKALFATAESAME 540
           ATISQLNKEA+L+GKKDTKDEGSKK GEK+ G SGDGSLLDNRNSEEMKALFATAESAME
Sbjct: 481 ATISQLNKEAQLIGKKDTKDEGSKKVGEKVGGGSGDGSLLDNRNSEEMKALFATAESAME 540

Query: 541 AWAMLATSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDL 600
           AWAMLA SLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDL
Sbjct: 541 AWAMLAMSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDL 600

Query: 601 RTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPV 660
           RTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIK AI YND+ AE PV
Sbjct: 601 RTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKKAIYYNDDRAESPV 660

Query: 661 KWHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVK 720
           KWHVYVTGHSLGGALATLLALELSSSQLARHEA+TVTMYNFGSPRVGNRQFAEIYNKKVK
Sbjct: 661 KWHVYVTGHSLGGALATLLALELSSSQLARHEAITVTMYNFGSPRVGNRQFAEIYNKKVK 720

Query: 721 DSWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPD 780
           DSWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDL DALENVELQADGY+GDVIGESTPD
Sbjct: 721 DSWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLKDALENVELQADGYEGDVIGESTPD 780

Query: 781 VLVNEFMKGEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGNL 840
           VLVNEFMKGE+ELVEKLL TEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQ+VGNL
Sbjct: 781 VLVNEFMKGERELVEKLLQTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQNVGNL 840

Query: 841 RSDQQA 846
           +SDQ+A
Sbjct: 841 QSDQEA 842

[Close]

BLAST of BhiUN159G11 vs. NCBI nr
Match: XP_011654507.1 (uncharacterized protein LOC101204368 isoform X1 [Cucumis sativus] >KAE8648243.1 hypothetical protein Csa_018335 [Cucumis sativus])

HSP 1 Score: 1527.7 bits (3954), Expect = 0.0e+00
Identity = 765/845 (90.53%), Postives = 794/845 (93.96%), Query Frame = 0


Query: 1   MAFLLHNHSHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSS 60
           MA  L N    H NSSLST  PNLHWT NL PS RRP FS KPRVLTFRV +K RLGVSS
Sbjct: 1   MASFLQN----HLNSSLSTSTPNLHWTPNLHPSPRRPHFSAKPRVLTFRVTYKCRLGVSS 60

Query: 61  FPCFCRSGTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT 120
           F CFC SGTE++N  L + TE RPFDINLAVILAGFAFEAYTSPPENFGKRE+DAAGCTT
Sbjct: 61  FRCFCSSGTELQNASLQQRTEPRPFDINLAVILAGFAFEAYTSPPENFGKRELDAAGCTT 120

Query: 121 VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPT 180
           VYLSESFVRE YDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQ+AKSKTKWGTKQP 
Sbjct: 121 VYLSESFVRETYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQIAKSKTKWGTKQPI 180

Query: 181 WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGG 240
           WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLE LCDGN H+VTVELEGMGG
Sbjct: 181 WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLEFLCDGNSHEVTVELEGMGG 240

Query: 241 GGKLLMEIKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAF 300
           GGKLL+EIKYRTFDEIEDDKRWWRVPFISEFLRS+GFVSALNKVVGSDTVPVRQFVEYAF
Sbjct: 241 GGKLLLEIKYRTFDEIEDDKRWWRVPFISEFLRSSGFVSALNKVVGSDTVPVRQFVEYAF 300

Query: 301 GKLKSFNDEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVE 360
           GKLKSFNDEYQS+H LL+K+N+ ED  S VQTNT+VSITD  YP EGKSDEVEI++NTVE
Sbjct: 301 GKLKSFNDEYQSNHLLLTKRNDEEDTSSNVQTNTEVSITDTNYPIEGKSDEVEISNNTVE 360

Query: 361 SGQLLKEVTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEA 420
           SGQ LKEVTQ LL  QFDKQFWTNLADVTNQNIVKKLGLPAPEK KWDGFELLNKIG+EA
Sbjct: 361 SGQSLKEVTQGLLAMQFDKQFWTNLADVTNQNIVKKLGLPAPEKLKWDGFELLNKIGMEA 420

Query: 421 RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLT 480
           RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVT+DLLSQTESVLG LMVLT
Sbjct: 421 RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTRDLLSQTESVLGGLMVLT 480

Query: 481 ATISQLNKEARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEA 540
           ATISQLNKEA+L+GKKDTKDEGSKK GEK+G SGDGSLLDNRNSEEMKALFATAESAMEA
Sbjct: 481 ATISQLNKEAQLIGKKDTKDEGSKKFGEKVGGSGDGSLLDNRNSEEMKALFATAESAMEA 540

Query: 541 WAMLATSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLR 600
           WAMLA SLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRR+LVVAFRGTEQSRWKDLR
Sbjct: 541 WAMLAMSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRKLVVAFRGTEQSRWKDLR 600

Query: 601 TDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVK 660
           TDLMLVPAGLNPERISGDFNEE+QVHSGFLSAYDSVRMRIISLIK AI YND+ AEPPVK
Sbjct: 601 TDLMLVPAGLNPERISGDFNEEIQVHSGFLSAYDSVRMRIISLIKKAIYYNDDRAEPPVK 660

Query: 661 WHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKD 720
           WHVYVTGHSLGGALATLLALELSSSQLARHEA+TVTMYNFGSPRVGNRQFAEIYNKKVKD
Sbjct: 661 WHVYVTGHSLGGALATLLALELSSSQLARHEAITVTMYNFGSPRVGNRQFAEIYNKKVKD 720

Query: 721 SWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDV 780
           SWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDL DALENVELQADGY+GDVIGESTPDV
Sbjct: 721 SWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLKDALENVELQADGYEGDVIGESTPDV 780

Query: 781 LVNEFMKGEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGNLR 840
           LVNEFMKGE+ELVEKLL TEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQ+VGN +
Sbjct: 781 LVNEFMKGERELVEKLLQTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQNVGNSQ 840

Query: 841 SDQQA 846
           SDQQA
Sbjct: 841 SDQQA 841

[Close]

BLAST of BhiUN159G11 vs. NCBI nr
Match: XP_022933070.1 (uncharacterized protein LOC111439777 isoform X1 [Cucurbita moschata] >KAG6601673.1 hypothetical protein SDJN03_06906, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 1472.2 bits (3810), Expect = 0.0e+00
Identity = 733/829 (88.42%), Postives = 775/829 (93.49%), Query Frame = 0


Query: 9   SHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSSFPCFCRSG 68
           SHLHYNSSLST IPNLHWTR +  SR R KFS K RVL FRVN +GR GVSSF CF  +G
Sbjct: 7   SHLHYNSSLSTLIPNLHWTRCIQLSRPRAKFSGKARVLAFRVNPRGRRGVSSFRCFSSAG 66

Query: 69  TEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTTVYLSESFV 128
           TEV+NL  LEE+ER PFDINLAVILAGFAFEAYTSP ENFGKREVDAAGC TV+LSESFV
Sbjct: 67  TEVQNLSRLEESERPPFDINLAVILAGFAFEAYTSPSENFGKREVDAAGCKTVFLSESFV 126

Query: 129 REIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPTWNEDFTLN 188
           REIYDGQLFIKLKKGID PAMD WGTSDPYVVFQLDGQV KSKTKWGTKQPTWN+DFTLN
Sbjct: 127 REIYDGQLFIKLKKGIDFPAMDLWGTSDPYVVFQLDGQVVKSKTKWGTKQPTWNQDFTLN 186

Query: 189 IKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGGGGKLLMEI 248
           +K+PS+KY+QVAAWDANLVTPHKRMGNAGINLESLCDG+LHDV+VELEGMGGGGKLL+EI
Sbjct: 187 VKDPSSKYIQVAAWDANLVTPHKRMGNAGINLESLCDGDLHDVSVELEGMGGGGKLLLEI 246

Query: 249 KYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAFGKLKSFND 308
           K+ TFDEIEDDKRWWRVPFISEFLRSNGF SALNKVVGSDTV V QFVEYAFGKLKSFND
Sbjct: 247 KFMTFDEIEDDKRWWRVPFISEFLRSNGFASALNKVVGSDTVSVGQFVEYAFGKLKSFND 306

Query: 309 EYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVESGQLLKEV 368
           EYQSS +LLSKQ + EDIPSY+QTN +VSITDI  P E +SD+   NDNT E+GQLLKEV
Sbjct: 307 EYQSSDNLLSKQKDKEDIPSYMQTNAEVSITDISDPEEDESDDDATNDNTKETGQLLKEV 366

Query: 369 TQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEARKSAEAGY 428
           TQS+L KQFDK FWTNLADVTNQNIVKKLGLPAPEK KWDGFELLNKIGLEARKSAEAGY
Sbjct: 367 TQSILAKQFDKHFWTNLADVTNQNIVKKLGLPAPEKLKWDGFELLNKIGLEARKSAEAGY 426

Query: 429 IESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLTATISQLNK 488
           IESGLAT KSLDVD EQKNI+MVDSTLTDVKK+TKDLLSQTESVLG LMVLTATISQLNK
Sbjct: 427 IESGLATSKSLDVDQEQKNIKMVDSTLTDVKKITKDLLSQTESVLGGLMVLTATISQLNK 486

Query: 489 EARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLATSL 548
           E++ +GKKDT+DEGSKK GEKLGSSGDGSLLDNRNSEEM+ALFATAESAMEAWAMLATSL
Sbjct: 487 ESQ-IGKKDTEDEGSKKVGEKLGSSGDGSLLDNRNSEEMRALFATAESAMEAWAMLATSL 546

Query: 549 GHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPA 608
           GHPSFIKSEFEKLCFLDNESTDTQVAIWRDF RRRLVVAFRGTEQSRWKDLRTDLML PA
Sbjct: 547 GHPSFIKSEFEKLCFLDNESTDTQVAIWRDFPRRRLVVAFRGTEQSRWKDLRTDLMLAPA 606

Query: 609 GLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGH 668
           GLNPERISGDFNEE+QVHSGFLSAYDSVRMRI+SLIKMAINYND+CAEPPVKWHVYVTGH
Sbjct: 607 GLNPERISGDFNEEIQVHSGFLSAYDSVRMRIMSLIKMAINYNDDCAEPPVKWHVYVTGH 666

Query: 669 SLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHR 728
           SLGGALATLLALEL+SSQLARH A+ VTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHR
Sbjct: 667 SLGGALATLLALELTSSQLARHGAINVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHR 726

Query: 729 DIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDVLVNEFMKG 788
           DI+PTVP LMGYCHVAQPVYLAAGDLNDALEN+EL ADGY GDVIGESTPDVLVNEF++G
Sbjct: 727 DIVPTVPHLMGYCHVAQPVYLAAGDLNDALENMELHADGYLGDVIGESTPDVLVNEFLRG 786

Query: 789 EKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVG 838
           EKELVEK+L+TEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQ+ G
Sbjct: 787 EKELVEKVLNTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQNDG 834

[Close]

BLAST of BhiUN159G11 vs. NCBI nr
Match: XP_022994042.1 (uncharacterized protein LOC111489848 isoform X1 [Cucurbita maxima])

HSP 1 Score: 1468.4 bits (3800), Expect = 0.0e+00
Identity = 731/831 (87.97%), Postives = 773/831 (93.02%), Query Frame = 0


Query: 8   HSHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSSFPCFCRS 67
           HSHLHYNSSLST IPNLHWTR    SR R KFS K RVL FRVN +GR GVSSF CF  +
Sbjct: 6   HSHLHYNSSLSTLIPNLHWTRCFKLSRSRAKFSGKARVLAFRVNPRGRRGVSSFRCFSST 65

Query: 68  GTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTTVYLSESF 127
           G EV+NL  LEE+ER PFDINLAVILAGFAFEAYTSP ENFGKREVDAAGC TV+LSESF
Sbjct: 66  GAEVQNLSCLEESERPPFDINLAVILAGFAFEAYTSPSENFGKREVDAAGCKTVFLSESF 125

Query: 128 VREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPTWNEDFTL 187
           VREIYDGQLFIKLKKGID PAMD WGTSDPYVVFQLDGQV KSKTKWGTKQPTWN+DFTL
Sbjct: 126 VREIYDGQLFIKLKKGIDFPAMDLWGTSDPYVVFQLDGQVVKSKTKWGTKQPTWNQDFTL 185

Query: 188 NIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGGGGKLLME 247
           N+K+PS+KY+QVAAWDANLV PHKRMGNAGINLESLCDG+LHDV+VELEGMGGGGKLL+E
Sbjct: 186 NVKDPSSKYIQVAAWDANLVIPHKRMGNAGINLESLCDGDLHDVSVELEGMGGGGKLLLE 245

Query: 248 IKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAFGKLKSFN 307
           IK+ TFDEIEDDKRWWRVPFISEFLRSNGF SALNKVVGSDTV V QFVEYAFGKLKSFN
Sbjct: 246 IKFMTFDEIEDDKRWWRVPFISEFLRSNGFASALNKVVGSDTVSVGQFVEYAFGKLKSFN 305

Query: 308 DEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVESGQLLKE 367
           DEYQSS +LLSKQ + EDIPSY+QTN +VSITDI  P E + D+   NDNT+E+GQLLKE
Sbjct: 306 DEYQSSDNLLSKQKDKEDIPSYMQTNAEVSITDISDPEEDELDDDATNDNTMETGQLLKE 365

Query: 368 VTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEARKSAEAG 427
           VTQS+L KQFDK FWTNLADVTNQNIVKKLGLPAPEK KWDG ELLNKIGLEARKSAEAG
Sbjct: 366 VTQSILAKQFDKHFWTNLADVTNQNIVKKLGLPAPEKLKWDGLELLNKIGLEARKSAEAG 425

Query: 428 YIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLTATISQLN 487
           YIESGLAT KSLDVD EQKNIRMVDSTLTDVKK+TKDLLSQTESVLG+LMVLTATISQLN
Sbjct: 426 YIESGLATSKSLDVDQEQKNIRMVDSTLTDVKKITKDLLSQTESVLGSLMVLTATISQLN 485

Query: 488 KEARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLATS 547
           KE++  GKKDT+DEGSKK GEKLGSSGDGSLLDNRNSEEM+ALFATAESAMEAWAMLATS
Sbjct: 486 KESQ-AGKKDTEDEGSKKVGEKLGSSGDGSLLDNRNSEEMRALFATAESAMEAWAMLATS 545

Query: 548 LGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVP 607
           LGHPSFIKSEFEKLCFLDNESTDTQVAIWRDF RRRLVVAFRGTEQSRWKDLRTDLML P
Sbjct: 546 LGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFPRRRLVVAFRGTEQSRWKDLRTDLMLAP 605

Query: 608 AGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTG 667
           AGLNPERISGDFNEE+QVHSGFLSAYDSVRMRI+SLIKMAINYND+CAEPPVKWHVYVTG
Sbjct: 606 AGLNPERISGDFNEEIQVHSGFLSAYDSVRMRIMSLIKMAINYNDDCAEPPVKWHVYVTG 665

Query: 668 HSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNH 727
           HSLGGALATLLALEL+SSQLARH A+ VTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNH
Sbjct: 666 HSLGGALATLLALELTSSQLARHGAINVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNH 725

Query: 728 RDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDVLVNEFMK 787
           RDI+PTVP LMGYCHVAQPVYLAAGDLNDALEN+EL ADGY GDVIGESTPDVLVNEF++
Sbjct: 726 RDIVPTVPHLMGYCHVAQPVYLAAGDLNDALENMELHADGYLGDVIGESTPDVLVNEFLR 785

Query: 788 GEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGN 839
           GEKELVEK+L+TEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQ+ G+
Sbjct: 786 GEKELVEKVLNTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQNDGS 835

[Close]

BLAST of BhiUN159G11 vs. ExPASy TrEMBL
Match: A0A1S3CCU0 (uncharacterized protein LOC103499378 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103499378 PE=4 SV=1)

HSP 1 Score: 1531.2 bits (3963), Expect = 0.0e+00
Identity = 770/846 (91.02%), Postives = 800/846 (94.56%), Query Frame = 0


Query: 1   MAFLLHNHSHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSS 60
           MA LL NH H    SSLS+PIPNL WT NL PSR RP FS KPRVLTFRV++K RLGVSS
Sbjct: 1   MASLLQNHIH----SSLSSPIPNLRWTPNLHPSRPRPHFSAKPRVLTFRVSYKSRLGVSS 60

Query: 61  FPCFCRSGTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT 120
           F CFC SGTE++N  L ++TERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT
Sbjct: 61  FRCFCSSGTELQNASLQQQTERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTT 120

Query: 121 VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPT 180
           VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQL+GQ+AKSKTKWGTK+PT
Sbjct: 121 VYLSESFVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLNGQIAKSKTKWGTKRPT 180

Query: 181 WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGG 240
           WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGN H+VTVELEGMGG
Sbjct: 181 WNEDFTLNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNSHEVTVELEGMGG 240

Query: 241 GGKLLMEIKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAF 300
           GGKLL+EIKYR+FDEIEDDKRWWRVPFISEFLRS+GFVSALNKVVGSDTVPVRQFVEYAF
Sbjct: 241 GGKLLLEIKYRSFDEIEDDKRWWRVPFISEFLRSSGFVSALNKVVGSDTVPVRQFVEYAF 300

Query: 301 GKLKSFNDEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVE 360
           GKLKSFNDEYQS H LL KQN+ EDI S ++TNT+VSITD   P EGKSDEVEI+DNTVE
Sbjct: 301 GKLKSFNDEYQSDHLLLRKQNDEEDISSNMRTNTEVSITDTNSPIEGKSDEVEISDNTVE 360

Query: 361 SGQLLKEVTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEA 420
           SGQ LKEVTQ LL  QFDKQFWTNLADVT+QNIVKKLGLPAPEK KWDGFELLNKIGLEA
Sbjct: 361 SGQSLKEVTQGLLAMQFDKQFWTNLADVTSQNIVKKLGLPAPEKLKWDGFELLNKIGLEA 420

Query: 421 RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLT 480
           RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLG LMVLT
Sbjct: 421 RKSAEAGYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGGLMVLT 480

Query: 481 ATISQLNKEARLVGKKDTKDEGSKKEGEKL-GSSGDGSLLDNRNSEEMKALFATAESAME 540
           ATISQLNKEA+L+GKKDTKDEGSKK GEK+ G SGDGSLLDNRNSEEMKALFATAESAME
Sbjct: 481 ATISQLNKEAQLIGKKDTKDEGSKKVGEKVGGGSGDGSLLDNRNSEEMKALFATAESAME 540

Query: 541 AWAMLATSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDL 600
           AWAMLA SLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDL
Sbjct: 541 AWAMLAMSLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDL 600

Query: 601 RTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPV 660
           RTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIK AI YND+ AE PV
Sbjct: 601 RTDLMLVPAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKKAIYYNDDRAESPV 660

Query: 661 KWHVYVTGHSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVK 720
           KWHVYVTGHSLGGALATLLALELSSSQLARHEA+TVTMYNFGSPRVGNRQFAEIYNKKVK
Sbjct: 661 KWHVYVTGHSLGGALATLLALELSSSQLARHEAITVTMYNFGSPRVGNRQFAEIYNKKVK 720

Query: 721 DSWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPD 780
           DSWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDL DALENVELQADGY+GDVIGESTPD
Sbjct: 721 DSWRVVNHRDIIPTVPRLMGYCHVAQPVYLAAGDLKDALENVELQADGYEGDVIGESTPD 780

Query: 781 VLVNEFMKGEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGNL 840
           VLVNEFMKGE+ELVEKLL TEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQ+VGNL
Sbjct: 781 VLVNEFMKGERELVEKLLQTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQNVGNL 840

Query: 841 RSDQQA 846
           +SDQ+A
Sbjct: 841 QSDQEA 842

[Close]

BLAST of BhiUN159G11 vs. ExPASy TrEMBL
Match: A0A6J1F3W8 (uncharacterized protein LOC111439777 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111439777 PE=4 SV=1)

HSP 1 Score: 1472.2 bits (3810), Expect = 0.0e+00
Identity = 733/829 (88.42%), Postives = 775/829 (93.49%), Query Frame = 0


Query: 9   SHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSSFPCFCRSG 68
           SHLHYNSSLST IPNLHWTR +  SR R KFS K RVL FRVN +GR GVSSF CF  +G
Sbjct: 7   SHLHYNSSLSTLIPNLHWTRCIQLSRPRAKFSGKARVLAFRVNPRGRRGVSSFRCFSSAG 66

Query: 69  TEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTTVYLSESFV 128
           TEV+NL  LEE+ER PFDINLAVILAGFAFEAYTSP ENFGKREVDAAGC TV+LSESFV
Sbjct: 67  TEVQNLSRLEESERPPFDINLAVILAGFAFEAYTSPSENFGKREVDAAGCKTVFLSESFV 126

Query: 129 REIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPTWNEDFTLN 188
           REIYDGQLFIKLKKGID PAMD WGTSDPYVVFQLDGQV KSKTKWGTKQPTWN+DFTLN
Sbjct: 127 REIYDGQLFIKLKKGIDFPAMDLWGTSDPYVVFQLDGQVVKSKTKWGTKQPTWNQDFTLN 186

Query: 189 IKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGGGGKLLMEI 248
           +K+PS+KY+QVAAWDANLVTPHKRMGNAGINLESLCDG+LHDV+VELEGMGGGGKLL+EI
Sbjct: 187 VKDPSSKYIQVAAWDANLVTPHKRMGNAGINLESLCDGDLHDVSVELEGMGGGGKLLLEI 246

Query: 249 KYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAFGKLKSFND 308
           K+ TFDEIEDDKRWWRVPFISEFLRSNGF SALNKVVGSDTV V QFVEYAFGKLKSFND
Sbjct: 247 KFMTFDEIEDDKRWWRVPFISEFLRSNGFASALNKVVGSDTVSVGQFVEYAFGKLKSFND 306

Query: 309 EYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVESGQLLKEV 368
           EYQSS +LLSKQ + EDIPSY+QTN +VSITDI  P E +SD+   NDNT E+GQLLKEV
Sbjct: 307 EYQSSDNLLSKQKDKEDIPSYMQTNAEVSITDISDPEEDESDDDATNDNTKETGQLLKEV 366

Query: 369 TQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEARKSAEAGY 428
           TQS+L KQFDK FWTNLADVTNQNIVKKLGLPAPEK KWDGFELLNKIGLEARKSAEAGY
Sbjct: 367 TQSILAKQFDKHFWTNLADVTNQNIVKKLGLPAPEKLKWDGFELLNKIGLEARKSAEAGY 426

Query: 429 IESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLTATISQLNK 488
           IESGLAT KSLDVD EQKNI+MVDSTLTDVKK+TKDLLSQTESVLG LMVLTATISQLNK
Sbjct: 427 IESGLATSKSLDVDQEQKNIKMVDSTLTDVKKITKDLLSQTESVLGGLMVLTATISQLNK 486

Query: 489 EARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLATSL 548
           E++ +GKKDT+DEGSKK GEKLGSSGDGSLLDNRNSEEM+ALFATAESAMEAWAMLATSL
Sbjct: 487 ESQ-IGKKDTEDEGSKKVGEKLGSSGDGSLLDNRNSEEMRALFATAESAMEAWAMLATSL 546

Query: 549 GHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPA 608
           GHPSFIKSEFEKLCFLDNESTDTQVAIWRDF RRRLVVAFRGTEQSRWKDLRTDLML PA
Sbjct: 547 GHPSFIKSEFEKLCFLDNESTDTQVAIWRDFPRRRLVVAFRGTEQSRWKDLRTDLMLAPA 606

Query: 609 GLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGH 668
           GLNPERISGDFNEE+QVHSGFLSAYDSVRMRI+SLIKMAINYND+CAEPPVKWHVYVTGH
Sbjct: 607 GLNPERISGDFNEEIQVHSGFLSAYDSVRMRIMSLIKMAINYNDDCAEPPVKWHVYVTGH 666

Query: 669 SLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHR 728
           SLGGALATLLALEL+SSQLARH A+ VTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHR
Sbjct: 667 SLGGALATLLALELTSSQLARHGAINVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHR 726

Query: 729 DIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDVLVNEFMKG 788
           DI+PTVP LMGYCHVAQPVYLAAGDLNDALEN+EL ADGY GDVIGESTPDVLVNEF++G
Sbjct: 727 DIVPTVPHLMGYCHVAQPVYLAAGDLNDALENMELHADGYLGDVIGESTPDVLVNEFLRG 786

Query: 789 EKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVG 838
           EKELVEK+L+TEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQ+ G
Sbjct: 787 EKELVEKVLNTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQNDG 834

[Close]

BLAST of BhiUN159G11 vs. ExPASy TrEMBL
Match: A0A6J1JUL3 (uncharacterized protein LOC111489848 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111489848 PE=4 SV=1)

HSP 1 Score: 1468.4 bits (3800), Expect = 0.0e+00
Identity = 731/831 (87.97%), Postives = 773/831 (93.02%), Query Frame = 0


Query: 8   HSHLHYNSSLSTPIPNLHWTRNLLPSRRRPKFSRKPRVLTFRVNHKGRLGVSSFPCFCRS 67
           HSHLHYNSSLST IPNLHWTR    SR R KFS K RVL FRVN +GR GVSSF CF  +
Sbjct: 6   HSHLHYNSSLSTLIPNLHWTRCFKLSRSRAKFSGKARVLAFRVNPRGRRGVSSFRCFSST 65

Query: 68  GTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTTVYLSESF 127
           G EV+NL  LEE+ER PFDINLAVILAGFAFEAYTSP ENFGKREVDAAGC TV+LSESF
Sbjct: 66  GAEVQNLSCLEESERPPFDINLAVILAGFAFEAYTSPSENFGKREVDAAGCKTVFLSESF 125

Query: 128 VREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPTWNEDFTL 187
           VREIYDGQLFIKLKKGID PAMD WGTSDPYVVFQLDGQV KSKTKWGTKQPTWN+DFTL
Sbjct: 126 VREIYDGQLFIKLKKGIDFPAMDLWGTSDPYVVFQLDGQVVKSKTKWGTKQPTWNQDFTL 185

Query: 188 NIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGGGGKLLME 247
           N+K+PS+KY+QVAAWDANLV PHKRMGNAGINLESLCDG+LHDV+VELEGMGGGGKLL+E
Sbjct: 186 NVKDPSSKYIQVAAWDANLVIPHKRMGNAGINLESLCDGDLHDVSVELEGMGGGGKLLLE 245

Query: 248 IKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAFGKLKSFN 307
           IK+ TFDEIEDDKRWWRVPFISEFLRSNGF SALNKVVGSDTV V QFVEYAFGKLKSFN
Sbjct: 246 IKFMTFDEIEDDKRWWRVPFISEFLRSNGFASALNKVVGSDTVSVGQFVEYAFGKLKSFN 305

Query: 308 DEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVESGQLLKE 367
           DEYQSS +LLSKQ + EDIPSY+QTN +VSITDI  P E + D+   NDNT+E+GQLLKE
Sbjct: 306 DEYQSSDNLLSKQKDKEDIPSYMQTNAEVSITDISDPEEDELDDDATNDNTMETGQLLKE 365

Query: 368 VTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEARKSAEAG 427
           VTQS+L KQFDK FWTNLADVTNQNIVKKLGLPAPEK KWDG ELLNKIGLEARKSAEAG
Sbjct: 366 VTQSILAKQFDKHFWTNLADVTNQNIVKKLGLPAPEKLKWDGLELLNKIGLEARKSAEAG 425

Query: 428 YIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLTATISQLN 487
           YIESGLAT KSLDVD EQKNIRMVDSTLTDVKK+TKDLLSQTESVLG+LMVLTATISQLN
Sbjct: 426 YIESGLATSKSLDVDQEQKNIRMVDSTLTDVKKITKDLLSQTESVLGSLMVLTATISQLN 485

Query: 488 KEARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLATS 547
           KE++  GKKDT+DEGSKK GEKLGSSGDGSLLDNRNSEEM+ALFATAESAMEAWAMLATS
Sbjct: 486 KESQ-AGKKDTEDEGSKKVGEKLGSSGDGSLLDNRNSEEMRALFATAESAMEAWAMLATS 545

Query: 548 LGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVP 607
           LGHPSFIKSEFEKLCFLDNESTDTQVAIWRDF RRRLVVAFRGTEQSRWKDLRTDLML P
Sbjct: 546 LGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFPRRRLVVAFRGTEQSRWKDLRTDLMLAP 605

Query: 608 AGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTG 667
           AGLNPERISGDFNEE+QVHSGFLSAYDSVRMRI+SLIKMAINYND+CAEPPVKWHVYVTG
Sbjct: 606 AGLNPERISGDFNEEIQVHSGFLSAYDSVRMRIMSLIKMAINYNDDCAEPPVKWHVYVTG 665

Query: 668 HSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNH 727
           HSLGGALATLLALEL+SSQLARH A+ VTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNH
Sbjct: 666 HSLGGALATLLALELTSSQLARHGAINVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNH 725

Query: 728 RDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDVLVNEFMK 787
           RDI+PTVP LMGYCHVAQPVYLAAGDLNDALEN+EL ADGY GDVIGESTPDVLVNEF++
Sbjct: 726 RDIVPTVPHLMGYCHVAQPVYLAAGDLNDALENMELHADGYLGDVIGESTPDVLVNEFLR 785

Query: 788 GEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGN 839
           GEKELVEK+L+TEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQ+ G+
Sbjct: 786 GEKELVEKVLNTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQNDGS 835

[Close]

BLAST of BhiUN159G11 vs. ExPASy TrEMBL
Match: A0A6J1DNK8 (uncharacterized protein LOC111022292 OS=Momordica charantia OX=3673 GN=LOC111022292 PE=4 SV=1)

HSP 1 Score: 1463.0 bits (3786), Expect = 0.0e+00
Identity = 731/838 (87.23%), Postives = 772/838 (92.12%), Query Frame = 0


Query: 8   HSHLHYNSSLSTPIPNLHWTRNLLPSRR-RPKFSRKPRVLTFRVNHKGRLGVSSFPCFCR 67
           H+HL YNSS S  +PNL  TR LL SR  RP FS + RVLTFR+N  GR+G SSF C CR
Sbjct: 5   HTHLPYNSSFSPLLPNLRQTRCLLVSRNLRPAFSGRARVLTFRINPWGRIGASSFRCLCR 64

Query: 68  SGTEVENLPLLEETERRPFDINLAVILAGFAFEAYTSPPENFGKREVDAAGCTTVYLSES 127
           +G EVENL LLE  ER PFDINLAVILAGFAFEAYTSPPENFG+ EVDAAGCTTVYLSES
Sbjct: 65  TGIEVENLSLLEGNERPPFDINLAVILAGFAFEAYTSPPENFGRCEVDAAGCTTVYLSES 124

Query: 128 FVREIYDGQLFIKLKKGIDLPAMDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPTWNEDFT 187
           F+REIYDGQLFIKLKKGID PAMD WGTSDPYV+FQLDGQVAKSKTKWGTK+PTWNE+FT
Sbjct: 125 FIREIYDGQLFIKLKKGIDFPAMDLWGTSDPYVLFQLDGQVAKSKTKWGTKEPTWNENFT 184

Query: 188 LNIKEPSTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVTVELEGMGGGGKLLM 247
           LNIKE STKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDV+VELEGMGGGGKL +
Sbjct: 185 LNIKEASTKYVQVAAWDANLVTPHKRMGNAGINLESLCDGNLHDVSVELEGMGGGGKLQL 244

Query: 248 EIKYRTFDEIEDDKRWWRVPFISEFLRSNGFVSALNKVVGSDTVPVRQFVEYAFGKLKSF 307
           EIKYRTFDEIEDDKRWWRVPFISEFLR+  F SALNK+VGSDTVPVRQFVEYAFGKLKSF
Sbjct: 245 EIKYRTFDEIEDDKRWWRVPFISEFLRNKNFASALNKLVGSDTVPVRQFVEYAFGKLKSF 304

Query: 308 NDEYQSSHHLLSKQNNAEDIPSYVQTNTKVSITDIKYPNEGKSDEVEINDNTVESGQLLK 367
           NDEY SS HLLSK  + +D PS +Q N +VSITDI    E  SDEV  +DN VE+GQ LK
Sbjct: 305 NDEYPSSDHLLSKPKDKDDTPSQLQNNEEVSITDISSVKESNSDEVAASDNRVENGQSLK 364

Query: 368 EVTQSLLTKQFDKQFWTNLADVTNQNIVKKLGLPAPEKFKWDGFELLNKIGLEARKSAEA 427
           EVTQS+L KQFDKQFWTNLADVTNQNIVKKLGLPAPEK KWDGFELLNKIGLEARKSAEA
Sbjct: 365 EVTQSILAKQFDKQFWTNLADVTNQNIVKKLGLPAPEKLKWDGFELLNKIGLEARKSAEA 424

Query: 428 GYIESGLATPKSLDVDHEQKNIRMVDSTLTDVKKVTKDLLSQTESVLGALMVLTATISQL 487
           GYIESGLA+PKSLD+D EQKNIRM +STLTDVKKV KDLLSQTESVLGALMVLTAT+SQL
Sbjct: 425 GYIESGLASPKSLDIDQEQKNIRMAESTLTDVKKVKKDLLSQTESVLGALMVLTATVSQL 484

Query: 488 NKEARLVGKKDTKDEGSKKEGEKLGSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLAT 547
           NKEA+L+GKK+TKD  SKK GE LGSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLAT
Sbjct: 485 NKEAQLIGKKETKDGISKKVGETLGSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLAT 544

Query: 548 SLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLV 607
           SLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVV+FRGTEQSRWKDLRTDLMLV
Sbjct: 545 SLGHPSFIKSEFEKLCFLDNESTDTQVAIWRDFMRRRLVVSFRGTEQSRWKDLRTDLMLV 604

Query: 608 PAGLNPERISGDFNEEVQVHSGFLSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVT 667
           PAGLNPERISGDFN+EVQVHSGFLSAYDSVR+RIISLIK AINY D+C EPPVKWHVYVT
Sbjct: 605 PAGLNPERISGDFNKEVQVHSGFLSAYDSVRVRIISLIKKAINYKDDCGEPPVKWHVYVT 664

Query: 668 GHSLGGALATLLALELSSSQLARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVN 727
           GHSLGGALATLLALELSSSQLARH A+ VTMYNFGSPRVGNRQFA+IYN+KVKDSWRVVN
Sbjct: 665 GHSLGGALATLLALELSSSQLARHGAINVTMYNFGSPRVGNRQFAQIYNEKVKDSWRVVN 724

Query: 728 HRDIIPTVPRLMGYCHVAQPVYLAAGDLNDALENVELQADGYQGDVIGESTPDVLVNEFM 787
           HRDIIPTVPRLMGYCHVAQPVYLA GDL DALEN+ELQADGYQGDVIGE+TPDVLVNEFM
Sbjct: 725 HRDIIPTVPRLMGYCHVAQPVYLATGDLKDALENMELQADGYQGDVIGEATPDVLVNEFM 784

Query: 788 KGEKELVEKLLHTEINIFRSIRDGSALMQHMEDFYYITLLENVRSNYQSVGNLRSDQQ 845
           KGEKELVEKLLHTEINIFR+IRDGSALMQHMEDFYYITLLENVRSNYQ+VGNL+SDQQ
Sbjct: 785 KGEKELVEKLLHTEINIFRAIRDGSALMQHMEDFYYITLLENVRSNYQNVGNLQSDQQ 842

[Close]

BLAST of BhiUN159G11 vs. ExPASy TrEMBL
Match: A0A1S3CE13 (uncharacterized protein LOC103499378 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103499378 PE=4 SV=1)

HSP 1 Score: 1291.6 bits (3341), Expect = 0.0e+00
Identity = 648/698 (92.84%), Postives = 671/698 (96.13%), Query Frame = 0


Query: 149 MDPWGTSDPYVVFQLDGQVAKSKTKWGTKQPTWNEDFTLNIKEPSTKYVQVAAWDANLVT 208
           MDPWGTSDPYVVFQL+GQ+AKSKTKWGTK+PTWNEDFTLNIKEPSTKYVQVAAWDANLVT
Sbjct: 1   MDPWGTSDPYVVFQLNGQIAKSKTKWGTKRPTWNEDFTLNIKEPSTKYVQVAAWDANLVT 60

Query: 209 PHKRMGNAGINLESLCDGNLHDVTVELEGMGGGGKLLMEIKYRTFDEIEDDKRWWRVPFI 268
           PHKRMGNAGINLESLCDGN H+VTVELEGMGGGGKLL+EIKYR+FDEIEDDKRWWRVPFI
Sbjct: 61  PHKRMGNAGINLESLCDGNSHEVTVELEGMGGGGKLLLEIKYRSFDEIEDDKRWWRVPFI 120

Query: 269 SEFLRSNGFVSALNKVVGSDTVPVRQFVEYAFGKLKSFNDEYQSSHHLLSKQNNAEDIPS 328
           SEFLRS+GFVSALNKVVGSDTVPVRQFVEYAFGKLKSFNDEYQS H LL KQN+ EDI S
Sbjct: 121 SEFLRSSGFVSALNKVVGSDTVPVRQFVEYAFGKLKSFNDEYQSDHLLLRKQNDEEDISS 180

Query: 329 YVQTNTKVSITDIKYPNEGKSDEVEINDNTVESGQLLKEVTQSLLTKQFDKQFWTNLADV 388
            ++TNT+VSITD   P EGKSDEVEI+DNTVESGQ LKEVTQ LL  QFDKQFWTNLADV
Sbjct: 181 NMRTNTEVSITDTNSPIEGKSDEVEISDNTVESGQSLKEVTQGLLAMQFDKQFWTNLADV 240

Query: 389 TNQNIVKKLGLPAPEKFKWDGFELLNKIGLEARKSAEAGYIESGLATPKSLDVDHEQKNI 448
           T+QNIVKKLGLPAPEK KWDGFELLNKIGLEARKSAEAGYIESGLATPKSLDVDHEQKNI
Sbjct: 241 TSQNIVKKLGLPAPEKLKWDGFELLNKIGLEARKSAEAGYIESGLATPKSLDVDHEQKNI 300

Query: 449 RMVDSTLTDVKKVTKDLLSQTESVLGALMVLTATISQLNKEARLVGKKDTKDEGSKKEGE 508
           RMVDSTLTDVKKVTKDLLSQTESVLG LMVLTATISQLNKEA+L+GKKDTKDEGSKK GE
Sbjct: 301 RMVDSTLTDVKKVTKDLLSQTESVLGGLMVLTATISQLNKEAQLIGKKDTKDEGSKKVGE 360

Query: 509 KL-GSSGDGSLLDNRNSEEMKALFATAESAMEAWAMLATSLGHPSFIKSEFEKLCFLDNE 568
           K+ G SGDGSLLDNRNSEEMKALFATAESAMEAWAMLA SLGHPSFIKSEFEKLCFLDNE
Sbjct: 361 KVGGGSGDGSLLDNRNSEEMKALFATAESAMEAWAMLAMSLGHPSFIKSEFEKLCFLDNE 420

Query: 569 STDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHS 628
           STDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHS
Sbjct: 421 STDTQVAIWRDFMRRRLVVAFRGTEQSRWKDLRTDLMLVPAGLNPERISGDFNEEVQVHS 480

Query: 629 GFLSAYDSVRMRIISLIKMAINYNDECAEPPVKWHVYVTGHSLGGALATLLALELSSSQL 688
           GFLSAYDSVRMRIISLIK AI YND+ AE PVKWHVYVTGHSLGGALATLLALELSSSQL
Sbjct: 481 GFLSAYDSVRMRIISLIKKAIYYNDDRAESPVKWHVYVTGHSLGGALATLLALELSSSQL 540

Query: 689 ARHEAVTVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVPRLMGYCHVAQPV 748
           ARHEA+TVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVPRLMGYCHVAQPV
Sbjct: 541 ARHEAITVTMYNFGSPRVGNRQFAEIYNKKVKDSWRVVNHRDIIPTVPRLMGYCHVAQPV 600

Query: 749 YLAAGDLNDALENVELQADGYQGDVIGESTPDVLVNEFMKGEKELVEKLLHTEINIFRSI 808
           YLAAGDL DALENVELQADGY+GDVIGESTPDVLVNEFMKGE+ELVEKLL TEINIFRSI
Sbjct: 601 YLAAGDLKDALENVELQADGYEGDVIGESTPDVLVNEFMKGERELVEKLLQTEINIFRSI 660

Query: 809 RDGSALMQHMEDFYYITLLENVRSNYQSVGNLRSDQQA 846
           RDGSALMQHMEDFYYITLLENVRSNYQ+VGNL+SDQ+A
Sbjct: 661 RDGSALMQHMEDFYYITLLENVRSNYQNVGNLQSDQEA 698

The following BLAST results are available for this feature:

BLAST of BhiUN159G11 vs. TAIR 10


Match Name	E-value	Identity	Description
AT4G13550.1	1.2e-232	60.35	triglyceride lipases;triglyceride lipases	[more]
AT2G44810.1	8.5e-16	38.18	alpha/beta-Hydrolases superfamily protein	[more]
AT5G18640.1	1.1e-15	30.52	alpha/beta-Hydrolases superfamily protein	[more]
AT5G18630.3	2.1e-14	30.59	alpha/beta-Hydrolases superfamily protein	[more]
AT5G18630.2	2.1e-14	30.59	alpha/beta-Hydrolases superfamily protein	[more]

BLAST of BhiUN159G11 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
Q948R1	1.2e-14	38.18	Phospholipase A(1) DAD1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DAD1 P...	[more]
Q0CBM7	2.7e-14	31.40	Probable feruloyl esterase A OS=Aspergillus terreus (strain NIH 2624 / FGSC A115...	[more]
P19515	1.1e-12	30.94	Lipase OS=Rhizomucor miehei OX=4839 PE=1 SV=2	[more]
Q941F1	5.6e-12	31.88	Phospholipase A1-Igamma1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=DALL4...	[more]
P61871	9.5e-12	27.18	Lipase OS=Rhizopus niveus OX=4844 PE=1 SV=1	[more]

BLAST of BhiUN159G11 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_038876505.1	0.0e+00	100.00	uncharacterized protein LOC120068939 [Benincasa hispida]	[more]
XP_008460597.1	0.0e+00	91.02	PREDICTED: uncharacterized protein LOC103499378 isoform X1 [Cucumis melo]	[more]
XP_011654507.1	0.0e+00	90.53	uncharacterized protein LOC101204368 isoform X1 [Cucumis sativus] >KAE8648243.1 ...	[more]
XP_022933070.1	0.0e+00	88.42	uncharacterized protein LOC111439777 isoform X1 [Cucurbita moschata] >KAG6601673...	[more]
XP_022994042.1	0.0e+00	87.97	uncharacterized protein LOC111489848 isoform X1 [Cucurbita maxima]	[more]

BLAST of BhiUN159G11 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A1S3CCU0	0.0e+00	91.02	uncharacterized protein LOC103499378 isoform X1 OS=Cucumis melo OX=3656 GN=LOC10...	[more]
A0A6J1F3W8	0.0e+00	88.42	uncharacterized protein LOC111439777 isoform X1 OS=Cucurbita moschata OX=3662 GN...	[more]
A0A6J1JUL3	0.0e+00	87.97	uncharacterized protein LOC111489848 isoform X1 OS=Cucurbita maxima OX=3661 GN=L...	[more]
A0A6J1DNK8	0.0e+00	87.23	uncharacterized protein LOC111022292 OS=Momordica charantia OX=3673 GN=LOC111022...	[more]
A0A1S3CE13	0.0e+00	92.84	uncharacterized protein LOC103499378 isoform X3 OS=Cucumis melo OX=3656 GN=LOC10...	[more]

InterPro

Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR000008	C2 domain	SMART	SM00239	C2_3c	coord: 135..232 e-value: 3.8E-14 score: 63.0
IPR000008	C2 domain	PFAM	PF00168	C2	coord: 134..232 e-value: 7.2E-18 score: 64.8
IPR000008	C2 domain	PROSITE	PS50004	C2	coord: 117..233 score: 18.418207
IPR002921	Fungal lipase-like domain	PFAM	PF01764	Lipase_3	coord: 585..736 e-value: 1.1E-31 score: 109.6
IPR035892	C2 domain superfamily	GENE3D	2.60.40.150	C2 domain	coord: 124..253 e-value: 6.4E-26 score: 92.9
IPR035892	C2 domain superfamily	SUPERFAMILY	49562	C2 domain (Calcium/lipid-binding domain, CaLB)	coord: 133..251
IPR029058	Alpha/Beta hydrolase fold	GENE3D	3.40.50.1820	alpha/beta hydrolase	coord: 521..777 e-value: 3.3E-56 score: 192.5
IPR029058	Alpha/Beta hydrolase fold	SUPERFAMILY	53474	alpha/beta-Hydrolases	coord: 555..752
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 494..521
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 494..511
None	No IPR available	PANTHER	PTHR47759	OS04G0509100 PROTEIN	coord: 19..843
None	No IPR available	CDD	cd00519	Lipase_3	coord: 566..750 e-value: 6.52897E-34 score: 127.978
None	No IPR available	CDD	cd00030	C2	coord: 136..227 e-value: 2.09851E-20 score: 84.8111

Relationships

The following mRNA feature(s) are a part of this gene:


Feature Name	Unique Name	Type
BhiUN159M11	BhiUN159M11	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0006629	lipid metabolic process