Tan0011152 (gene) Snake gourd v1

Overview


Name	Tan0011152
Type	gene
Organism	Trichosanthes anguina (Snake gourd v1)
Description	Non-specific serine/threonine protein kinase
Location	LG09: 2013013 .. 2063400 (-)
RNA-Seq Expression	Tan0011152
Synteny	Tan0011152

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideCDSexon

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

ATGCTGATATATCATGTATGTTTGATATATCAAGAATATAATAGTGATATAAATAGTGATATACTCAATGCTAGTTACTTGCATATGATAATGTTCATTGATATACTACTAATATACTCAAGGTTAGGTATATCAGTGAAATGAACATAACTAAAATGAAGTATTGTCAATAATATACCAAGATACACAATATCTATGATATGCTACAAATATATATAGAGTATATCACTTAATTAATATTACTAAATAGAAGTGTATCCATAGTATATCAATAATGTACTATTAATGTAATTTCTTGTAGGTATATATCAGTTGATTGATATATAAACCCAAAATATATCTGATATACTATCAATATATTAAATGTTAAATTAGGTATACTATCGATATACCAAATGTAGAGTATATCAGATATAATATTGATACATCAATGAGGGTAAAATTGAAATAATAAAAATAGAAAATTAGATTCTTAAAATTTTTAACTATATTTCCAAATCTAAAAAATCATGGTTAGATTTGTAAATATACTAATATATTTTTTTTTGCCACCCCTTGCACTTCTCCATTTTTTTTTTGAGAAATTTTGCTTGAATTTACCAAACATCTAACCTGTTTTTTTTTTTTGTTTAAAAATTTCAATTTATCAAATACTAATTTATTCTGTATGACAGTTATTTTTTAAAAGTACAAATTGCCACAATTATTTGAAAAGTTAAAGCAATGGCAAGATTAGCTAGTTTCAAAAAACGAAAAACAAAAAAGCCTTTAGCTTTTTTTTTTTTTTCAGGGATATTTAAATGTCGTCATTTCCGGCCGTGGCCCATTGGCCTCCCGCCATTCGGACTTTCGAACGCTCCTTCTCTGCGTTTGGCTATCTGCTCTGTCAGTGCCTCTACTTTCTCCAATCTTCCGATCATGAGTTCCAACCCAGGTACTGGAAACTATTGATAGCATTCTGACAATCCTCTTCCTTCCATTAATAATTTGTAGCGTAGTTTCTTACTGTGTTAGACGGACCAAATTCTAGGTGGGAAGTCCGTCGATTTATGGTCCGAGTTAATAGCTAGCGAAGGAAGCGAGCGCCAAGAAGAAGCGCGAGTTGTAGAAGTTTATAGACGAAGAAGGCCACCCCAGAAGGCCGTTCATGACGTTCCCTTGTAAATTTTCTTCAATGACTCGTTTAATTCCCCTCTCTGTTTACTTTTGTTTGACGAAATCCGTTGTTTCATGTTTCCGTTTCAATTTTCACGCAGGAAGCAAAACTTAGGGTCGAATCGTCGCAATGTGAACAGGGTGAGTTTAGCTGCTGCTGACAGCAAGAGAATTAGTTGGAACCGTGCCCTTTCCATCAGGTTTACCTCGATTTTCATTTACTGTTCTTTTCAACTTTTTGCTGCCAATTTCTATAAAGGTATCTATGTAGTTTGATCGGTGCTCTTCTTAAGTATTGCTAATGGATGATTTCGTTGTAGCTTATCCTTTTAAATTGACTATGTAATGACTAAAACGAAACACTGGGAGGGAAATGCCCAAATGGGAACGAAGTAAGTCTAGATAATAGTTAATACGCTCTGCTGCAGTAGATTGTAGACGAGTTGTATGCGTAGCATCTTAGTTATTTTACATGAAACATTTGACATATTTTAAATTCTATCCATCGCAAGTATTACGGAATTTGTTATTATTTTATTTATTGGAAGAAGTTCAAGGATAAATTCATGCGAGTCATCTTAGATATTTCTAAGAATAGGTTGTAGAATGTAGGGATCAATATCATGCGACCTAGCCTCTATAGTACTCCATTTTTTTCCTGTAAAAAAAGTACTATTCAATGACCCTTTCTAATTTGACATGTTGTACGTTGATTCACATGCTGAGTAGCATCACTTCTATGGTATGACCAACTAAATTTCCTTTAGCGAGGCCTCATTTTTCTTGGCTAGATTTTCAGTGACTCTCTTCCCTATGTACTTCAATAAAATCACATTTTACAATTGTCTTCCGAACTCAAAGCTGATTTCTCCCGAAGAATGGAGGAAAGATACAATCTTCAGAATCCACTTCTAGGTGGTAATGAAGCAATGGAGGAAAAGAGGAGATTGAAATGGAAGGGTTAATCTTCAGAATTGATATTGACTAGGCATACAGCATTGTAGATTGAGATTTTTAATGTCAGCCATGAGAAAGAAAGGTTTCGGAATAGATGGGTAAAATGGATGAAAGGATGCATTAGAATATTGAATAAGGTGGGAGAGTGAAGAAATAGTGTATCTAATATTTCTTATTGATTGGATCAAAATTAGGGTTCTTATAAAGAGATACCCATTTACATATATGGAATATACAAATAAGGGAACAAATCACATAAAATAATATAATACAATATAAAATAACATAATACAATAAATGGTAATTATCTAGATAAGGAAATAGATAAACCAACACTCCCCTCAAATTTGGTGTGAAGATGTCTTCCATTGCCGACTTCTTTGATCATCTTGTCAAAGCGTGTCTTTGGAAGCCCTTTCGTTAATACATCTCGCAATTTGCTCATGCAAGCGGATATGGAATGCATATAACACTGTATCAATCTTTTCTTTTATAAAATGTTTATCAATTTCAATATGCTTTGTCCTGTCATGGAGAAGCTGGATTGTGAGCAATTGAGATCATTGCCTTGTTATCACAAAAAATACGTATGGGTTGTTCTCGGACAAAATTTCAACTCTTCCAATAGTCTCTTTATCCATATACCCTCACAAATACCCCGAGCTAGGGCCCTATACTCACCTCAGACCTTCTTGCCACCACACTTTGTTTTTACTCCGCCATGTAACTAAATTTCCTCCAACAAAGGAACAAGAACTGGAGGTGGATCGTCTATCTATCGTGATCGCTCGCCCAATCGGCATCGGTGTAAACTTCAACACCGTAGGTTACCATACCTTTTAAACAATACACTTTTGCGGAGTACCTTTCAAGTACCTTAGGATTCTATAGATCGCTTCAAAGTGAGTTGGTCTGGAGCGTGCATAAATTGGCTTACCATCATACCGATCGCAAAGGAGATGATGCGGGACGTGTGTGAGACAAGTAGATCAATCTCCCCACAAGTCTTTGATATCTTGCTTTGTCTTTTACTTCATTTTTACGTTGCACTCTGCAATTTTAAATTTGGTTCAATGGGAGTTTCTGCTGCTTTCTACAACCAAGTAATCCTGTCTCTTTAAGTAAGTCAAGAATATACTTCCTTTGATTAACAAGGATACCATCTTTTGATCTAGCAAATTCCATTCTCGGGAAATATTTCAAGACTCGAGATCCTTAACTGGAATTCATTAGCTAGGTTTTTCTTAAGGTCGGTCAACTCTGTCTCTCATCACTACTGTAAGGATAATGTCATCAACATAAACTATTAAAACAACAATTTTGTTATTTGCGGTATGTTTATAGAAGATGGTATGATCTCGCTTGGCTTTGAAGAAATCCATGATCTGGTGATCGCTTTTCCAAACCTTTCGAACCACGCTCTTGGGGATTGTTTAAGGCCGTATAGAGATTTCTTTAGCTTGCATACTTTGTCAACCCTAAGATTTTTCTCAAAACCAGGTGGTAAATCCATAAATACTTCTTCTTCAAGTTTCCCATTGAGAAAAGCATTCTTGACATCAAGTGATAAAGTGGCCAATCTGCATTCACAAATAGATAGATAGTAGTACTCTAATGGAATTAATTTTAGCAACTGGGCAAAAGTTTCTTGATAATCAATCCCATAGGTCTGAGTGAAGCCTTTCGCAACAAGTCTGGCTTTATACCTTTCAACACTCCCATCAGCTTTGCATTTGATAGTAAATACCCATTTGCACCCTACTGGTTTCTTATTTTTTGGTAATTCTACAATGTCCCATGTGTGATTCTGTTTAAGGGCATTCATTTCTCCATAATTGCTAATTTCCAATTCGAGTCATCTAGAGCCCTCTGTATATTCCTCGGGACAAACAGTTGGTTATCCTAGAGGTAAAAGTTCTATGGCTTTCAGACAATCTATGGTAAGAAATATAGTTTGCAATGGAATATTTAGGGTTAGGACAGTTCCAAGTACCTTTCCTATGAGCTATTGGAATTTCAAGATCGGATATTTCGGGTAAGTGATTGTGGATTAATGAAGGAATGGGATTAGAGGTGTATTACAACCTTGAGAATCATTCAACGGAGTATCGATTGGTTTCGTGATAAACCCACCGTCCGTCCCTATTCTTCCGATTCACCATCCTTCTAGTATAAACTCAAGTTCGAGATTTCGATTATTTTGTAGTGTTTCTCCCCTGAACAAGAATTTCCCATATTTGGTGAAAATAAAAACTAGGGGTAGTAGTTTACGGACTAATGATGTTAGGAAGGGAGAGGTATCCCAAAAATTATCTTCTAAATTAGGTAGTATCTCCCCCAAGAGAATTTTTAAAAAGGAGTGATTTTCCCAAAAGAGACATCTAGGGTTTCATAGTATTTTTGTTCACAGGATCAAAACATTTATAGGCCTTTTTGTGGGATACATACCCTAAGAAAATGCATTTAATGACTCGGGGTCTAATTTAGACCGAGAGAAGCTAGGTACATGAACATAAGCAGTACACCCAAACACTTTGATCGGTAGATCAGAAAACAAGCGGACATTGGGAAAGAAATTTTTGAAATGATCTAGAGGAGTTTTAAAATCCAAAACTTTCGTAGGCATGCGATTTATAAGATATGCGCCGTTAGAATAGCTTCACCCCACAAATAAGAAGGAACATTCATAGAGAACATAAGGGCACGAGCAACATCAAGTAAGTGACGATTTTTGCGCTCTGCAATACCATTTTGTTGGGGGTATCACGACACGTGGATTGATGAAAAATTCCCTTAACTTGCAAAAAATCAGTTAGGTGTTCATTGGAATACTCAGTACCATTATCAGAGTGAAGAATGCTAATTTTAGTCTGAAATTGAGTTTCAATCATGTTGTAAAAACGAATGAAAATCTCCTTCACTTCTGATTTTTTCGTTAACAAATAAATCCAAGTTAAACGGGTGTGATCATCAATAAAGGTAACAAACCATCGCTTTCCACTATGAGTTAAAACTTTAGAAGGACCCCAGACATCACTATGAATTAAGTAAAAAGGTGCAGACGCCTTGTAAGGTTTTGACAAATAAGTTGATCTATGATTTTTTGCAAAAATACAGCTCTCGCAATGAAAAACAGAACAATCCATTCCTTTGAATAAATTTGGAAACAAATATTTTAAGTAAAAAAAACTGGGATGTCCTAATCTACGGTGCCAAAGCATGATAGTTTCTTGAGCAGAAGGAGAACTAACACTACTCAAGCCCTGAACTTTTTTATTGCTAGTTGGAGATTCATCAAAATAGTAGAGGCCATCGAGCATCCTAGCACGCCCAATCATCTCCCCCGAATCCTGATCCTGAAAGATACAGTGAGAGTCAAAAAAAGTAACACGACAGTTAGCATCCTTAGAGATTTTACTAACAGATAACAAGTTACAGGTTAATTTAGGGACATGAAGGACAGAATGCAAAGTAATCTGTGAGGTTAATTTAACAGTTCCTTTTCCTGCAATAGAATTGAAACTACCATCGACAATTCGAATTTTTTCATTGCAATACATTGGAAGATATGATTCGAATAATTGGGATGAACTAGTCATATGGTCAGAGGCTTCGGAATCTATAATCCACGGAGAGGAATGAAGACAAGATAGGGCTTGAGAATCATTACCTGTTTGTGCCAAGGAAACACTAGGATTACCAGATGATGAAGTGACCTTTAGCAGCTTCAAGAGTTGATCAACTTGCTCTTTGTTAAAGGGGTTGGACTCAACAACATTGGCACTTGAAGATCCGATATTGGAGGACTGTTGATTGTTGCTCTTTTCACCTTGCCTCATATTCTTCCAATTCGCAGGTTTTCCGTGAATTTTCCAACATGTCTCACGAGTATGTCGGGGTTTGTTACAATAGTCACACCAGACACGAGGTTTCTCATGAGTATTTGATTTATCAGAAGCCTTGTGTGCAGTAGCTTCAACCACCAAAGCTGAACTTTCAACTGATTCAACCGATTTCTTTCCGATCATAACATTCCGACGACTTTCTTCCCTGCGCACTTCAGAAAAAACTTCACTAATAGTAGGGAGAATAGACTTACCAAGTATTCTACCTCTAACCTCATCGAATTCAACATTGAGGCCTGCCAGGAATTTGTAAATTCTACCATCTTCCACAATTTTCCTGTAATGCTTTTGATCATCTGTAGACTTCCATTCATATGAATCAAAGAGATCAAGATCTTGCCAAATCCTTTTTAAGGAGTGAAAATATTGAGTAATTGAGTTACCTTCCTGTCTTATATCACCTAATTTGAGATTCAACTCAAATACTTGTGATTGATTACCTAGATCAGAATACATCTCAGTCACACTGTCCCAGAGTTCCTTCGCAGTAGAGTTGCACATGTAATTACAACTGATATCTTCCACCATGGAATTGACTATCCAAGTCATAACCATGGAGTTTTCAGCATCCCACACAACAAACAATGGATCATTCTTGGCAGGTGTAATTTTATCGCCAGTGATATATCCAATCTTCCCTTGTCCGCGAATATACATTCTGACACTTTGGGACCAACGCAGAAAGTTGTCTCCATTGAGTCGAATTGTAGTAATTTGGACAATAGGGCTAGGGGAATGACTACGGCTGTCTGAGATTTTAACAGTGGACAAAACTTTGTTTTTGACATAGTTGGATCAACAAACAGTAGTAATATTCGAATAATACAACAGAAACAGTGAGTAACCCCGAAACAGTGAGTAAATCCTGAGCACTCTGTAGTAACCCCAAAACAGTGAGTAAATCCGATAAAAAAGGAACACAAACGCTGGGAAAAATTACCAGAAGTTCGCGGGTCACGGGTCGCTGATGAAGGGTTGCGGGTCACGGTGTTCAGGAGGAGAAATCGTGCGAATCTTGGATCGCAGTCGTGCAGCTCGAGGGTCGCGGATCTTGGATCGCTGGTGCGGCAGCTCGAGGTTCGCGGATCGTGCAGGAGTCGCGCGGAAGCTTGCGGGTCGGGTCGCGCACCGGTAAGCCGTCTCTCCGTTTATCGATTTGCTGGGTATAGCAGGCCGTGGGTCTTCTTTTTCTTTTACAGAATGCGGTCTATATGGTCTGGGTATAGATCGAGGTTTAGTTCGAATCACCCAGAGACATTGACCGGAGAGCTGGCTAAAAGATAGTGACGGCTAGGGTTTTTTTCTTCTGCTCTGATACCATGAAGAAATAGTGTATCTAATATTTCTTATTGATTGGATCAAAATTAGGGTTCTTATAAAGAGATACCCATTTACATATATGGAATATACAAATAAGGGAACAAATCAAATAAAATAATATAATACAATATAAAATAATATAATACAATAAATGGATCTAGATAAGGAAATAGATAAACCAACAGAGAGTAAAGAGAGTAAGAGTACTTAGGCAAGGAGACTTCTTGTTCCCTTTCCTTTACTGCTAGTGGCAGGTGTTTTAAGTAGATTGTTGGACAATGGAAATGAAAAGGGCCCGCTTAAGGGTTTCCTAGTAGGTACTGAATTCTGTTAGCATACAATAATGAATTTGGCAAGGTTGTTAACTCGTGAAACGGAACGAGTATCGAAATTCAATTTTAGTGTATCGCGTATTGTAAACATATCGTGTATCGTAAATTTCAGTTTGGTAAATAACATTGAAATATAAATATGAATAGCAAAGACTAAAATAAAGAAATAAGTAGTCAAATATTAAATAATCCCAAAATAAGATCAAAACAATAACTTCAAAGTTTAAAATACCCAAGAAAATAAAACAACAAATAACTTCAAAAAAAGTGTAGGAAAACATTAAAGATAATAGAACTCCTTGACATGACATGCATTCACTCTCCAATTTTAAAATATTAAAAACAACAGCAGTCACCTCCGATGAAAATGTGTAGGATTGAAAGAGGTTTTAAAATATGTTTTAAAATTATATTAATTTATTAATTCACTCTCCGATTTTCAAAATGACAACCCATTAACATGACATGCTACATTTCATTCCTCTTTTTATGCAACTTTTTCATTCTCTTTCTTCTTTAACTTCTCCAACACACTTCTTTTCTTTCCTCTTTAGGCTTTACGTATTCGAACTCTTTGTCCCATGTAAGGTATCCAATAAACAAACCTGCACACAAAAAACCTCACACAAGCAACACGGACAATGCTATAGAGTGAAATGAGCCAACTCTCCCCTATTGATAGTTCTTCAATAGAGAAGAGGGTTATGCAACCGATTGTATTGATAAGAAAAACAACAAGATAATCCACCAACAATTCGAGATGTTGGGGAAACTCTCCTACAGACTCGTATCTCCAAAATTCCTAACCAAAACCAACAGACCTACAGACCAGGTACAAATACCTCACTACCCACGATCCTTTCCCAAAACAGAAAACTTTCTCTCTCTTCAAGTGGTCCCTGAATTCCCTTCCACATTTCCTTTCTTACCCTTCTTCTTATACACTTGAGTAACGAGAGGTCTTACAATACCCCCGGGGTTCACATTCACCTTGTCCTCAAGGGGAAACTGTGGAAATTGTTGTTAGATGAACTGATATGCTTCCTGTTGGTGTTGATATAATTAAATTTTCCATAACCTATCAGCTTAAGCTTTTGGGTTAATTGGTGGTTTACATGATATCAGAGCAGGAGGTCCTTTGTTCCAACCCTGGTGAAATCGTTTATTCCCAATTAATATTGATTTGTACTTGTTGGGCTTTTGTTCAAATTTCCAAGCCTACAAGTTAGAGAGAGTGTTTGATTTCCACTTGTTGGGCCTTTGTTCAAATTTCTAAGCCCACAAGTGAGGGGGAGTGTTGATGTTGATATAATTAAATTTGCCATAACCGATAGCTTAAGCTTTTGGGTTAATTGGTGATTTACACTTCCCAGGTGGCATCACAAGGCTGAGTCTCTTCCCATTGGATTAGACATTCCTATTCTTTTCTGTCGTCATTCTAGCGAGTCCCAAGGACTTCTTTTGGATTCGATGTCCATTCGTACTCCTCAGAGAATAAGGGTGCTGAAGTTTGTAGAGTGATTTGAGTTCCTACTACCTTTTTAAGTTGAGAGATGTGGAAGACAGGATGAACTGAGGCAGTGGTTGGCAATATCAATTTGTAGGCTACCTTGCCAATTCGCTCCAGTACTTCATAAGGGCCAAAAAACTTCAGGGACAATTTCTCACATCTGCGCTGAGCTATGAAGCGTTGCCTGTAGGGTCGTAATTTGAGAAAAACCTGATCTCCCACCTCAAACTCTAACTCCTTGTGGTGTTTGTCAGCTTGCTTTTTCATTCTTTATTGTGCCAACCTTAATTGTTCCTTTAAGGCCAATAAAGCTAAGTCTCGATCTTTCAGCTGTTGTTCCAACGTATTGTTGGTAGTTTTCTTGTCCCCATAAGCAAGCAATAGAGGGGGTTGGCGGCCATAAACAACGTTGAAAGGTGTAGTGTTCAATGAAATGTGAAAGTTGGTATTGTACCAATATTCAACCCAACAAAGCCACCGTTCCCATTTCTTGGGTTGTTCATTACAAAAACACCGTAAGTAAGTCTCAATATAACGATTAACACGTTCTGTTTGCCCATCCGTCTGCGGGTGATAGGCCGTGCTCTTCTTCAGTTGAGTGCCTTGAATTCTGAACATTTCCTTCCAAAAGTGGCTCATAAATATCGTGTCTCGATTAGAAACTATAGACTTCGGAAAACCGTGTAGTCTAACAACCTCACAAACAAATTTAGTGGCAACATCCTTGGCTAAAAAAGGGTGTTTCAGGGTCAGAAAATGAGAGTACTTACTCAAGCGATCTACTACCACCAGAATGGAGTCAACCCATTGGATTTAGGAAGGCCTTCTATAAAGTCCATTGATATCTCTTCCCAAATCCTTTCAGGAATGGGTAGTGGTTGGAGTAGCCCTGTCGGTGACACCGACTCAGTCTTACGCGGACAAATTCCACATTTCTCCACATATGATTTGACATCTTTCTTCATCCCTTTCCAATATAATTCACCAGTGAGCCTCTTACAGGTTCGAAGGAAACCAGAGTGTCCTCCCATGACTGGATCATGATACAATTGTAAAATAGATGGAATAAGGGTCGATTTGTGTGACAAAACTAACCTGTTTTTATACCGCAATTGACCCTGGTACACTAAGAATTTGGGATGGATGGTTGGGTCCTGTAACACTTCACTCTTTAGTTGTTGCAAGTCGCTGCCCTTCTCAACTTCTTCTAAGATAATCTTCATATTAATGATGGATGGTGCTGAAAGAGTGGCTAACTCCACTGAATGGGGTTTTCTTGACAGGGCATCCGCTGCTTTATTCAATAACCCTGAATTGTACTTGATTTCGAAATCATATCCCAAAAGTTTCGTAAGCCACTTTTGATATTCAGGTTGTACTTCCCTTTGTTCAAAAAGACATCTTAATGCCCTCTGGTCTGTCAACACCGTGAACCTCTGACCCAACAAATAATGGCGCCATTTTTGAACTACTAACACAATCGCCATGAACTCCTGTTCATAAATCGATTTTCCCCTTGCTCGTTCAGATAACGTTTGGCTGAAATAGGCTATTGGCCTCTATTTTGAGACAGAACAACTCCCAAACCAGTGCCCAAAGCGTCAGTTTCGATAACAAAAGGAATGGAAAAATCTGGTAATGCAAGTACATGGACGAAAATCATTGCTTCTTTCAATCTCTAAAATGCCTCGGATGCTTCCTCGGACCATACAAAGGAATCCTTTTTGAGTAGCTGATGGAGTGGGGTTGCAATTGTCCCATAATTTAATACAAAGTGCCTGTAATACCTTGTGAGGCCTAAAAAACCTCTCAATTCTTTGATATTTCGTGGTTTGGGCGAATCCATCAATGCTTTAATCTTCCCAAGGTCAACTTCCACCCCTTTTGCTGTGATCCAGTGACCTAAGTACTCCACCCTACCCTGAGCAAACACACACTTCTCTGCATTTACCTCTAATTGATTTTCTCGTAAGATATTGAAGACCATTTCCAAGTGTTTCAAGTAAGATGTAAAATCAGGGCTGTAAATCAAGATGTCGTCAAAGAAAACCAGCAAACACCTTCTAAGGAATGGTCTAAATACCTAATTCATCAATGCTTGGAGGGTTGCAAGAGCATTCGTGAGTCCAAACGACATGACTAAGAACTCATAATGTCCCTCGTGCGTGCGGAAAGCCGTTTTCGCAATGTCTTCTGGATTCATTCTGATGTGATGATATCCTGACTTGAGATCCAGATTCGAGAAAACCGTGGAACCGTATAATTCATCTAGCAACTCTTCAATTACGGGTATAGGAAATTTGTCTGGTATTGTTACCTGGTTCAACGCTCTATAATCCACGCAAAAACACCATCCCCCATCTTTTCTTTTAACTAATAACACATGGCTTGAAAACAGACTTGTACTCGACTGTATAATCCCTGTTGTTAACATCTTTTGGATGAGGCATCCAATTTCATCTTTCTGAGTGTGTGCGTATTTGTACGGGCGGACATTCACTGGATGTTGGCCCTCTTTCAAGACTATCTTGTGATCGATCGATCTTTGTGGTGGCACTCCCTCTGGTGAATAGAAAATATCCCCATAGTCTTGCAACATATTCTGTATTTCCAAGGGAAGATTGCTCCATTCTTTGTCCATTCTTCCTTCTTGCTCGTTATCGATACCTTCCACTGATAATTCTGAAAGCTCCACTAAGAAACCTTGGTCCATTCCGGTCCAAGATTTAGCCATCATTTTCAAAGTAACTTCAACCTTTGTTAGGGATGGATCGCCCTTGAGTGTCACCATACTACCTCCTACTATGAACGTCATCGTCAACTCAACTCAATTGACTTCCATGAATCCCATCGATCTCAACCATTGCATCCCCAATATTACATCTACCCCTCTGAGTTCTAAAGGTAGCAGGTCTCTGATGTAGGCTTATGTTTACCCTAGTTACTATGTTTTATTGATAGTTACTGTGGGTTATTTTTAACCTTTTAACCCTGTAAAGCTACTGGTTAACCTATTATTTGGTTATGGTTAGTTAGTAGTTGGTTATGACTTGGGTTAGTTAGTTACTAGGGTTAGTTGGTTCATTTGTATAAATATGGCCAATTGGCCCCTTCATTGAATTCATTGAATAAAGTTTATAGTTCTTGAAGAGTTTTCTGCATCAATTGGTATCAGAGCGCCCGATCCAAAGCGCGAATTCTTTTTTGGATCAACGGTATAGTAGCGGAAGCTTTTTTTTTTTTTTTTTTTTTTTGAAAAGGTAACAAGAGAATTTCATTGATATAATGAAAAGAGGCTAATGCTCAAAATACAGTCTCCAAAGGATATAAGAAAAGAAAACAACACATAGAGAAACACAACACAACAAATCACAACTACACCACACAAACACACACCCAAACTACCGATGGAGAAAAGAAGTGCATACAAGACAGAGAATCACAACAAAACAACACTGCAATACTCAAACACTCGAACCAACGACTAAGGAAGCACTGAAACCCCACAACCCCTCCTAAAGAGACCCCAACAACACCATCTGAAAACCCAAACTTCAAAGCTTTTCAAAATTGCTTATCAGAAAACAAACATTAATCTTCCACAGTCGCCCTTTGCAATACTAATGTCGTGACCAATACTTTAGCTTCCTCCCACCAATAACAAAATCCTGATTTACCAAAAACCTCACCATGACTCCAGCTACACTCCACGATTTCCAAACCGGAAGAATACTTCTTCGAATCTTGCCTCCTCACTTCGGCTTGAAAGAGAACAACCTCTGAAAAACTTTGTTTGAAGGAACTTCTTAAAACCACCCTCTTGACCCACTTCCTACCAAAGGAAAATTTCAATTTGAAATCACGGAGACCCCTTGCATGGATTTCCTCAAAATGCAATCCGCTTGCTTTAATTAAAGCAAATGAACCGGGACAAACCAACGGGGCAATTTGGAGATCCATCCTTGGCATTGCTTCTAGAGGAGAGACAGATGCAATGAGAATCAAACAACTTAGAAAGATTAAGAACAGGAGAAAGTTCACCCGAAAAGTTACGCGCCCCTTTTATCGAGCTCAAATCCGGACTCGAGACTCACTTCCAGAAAAGCGGAGAGAGTCTTGCCAAAAAGCGAGAGAGCAAGCAACTCCCCTTTATCTGGTGACACCATTACGGAAAGAGACCTTAACAAAGGAAACCTCCTTAGGTCCCAACTGACACTTCTCAACAATGCCAATTGTACCTCTTGGGGGACGACAAGGACTGACTTTCGACCCCGGCTTTACCAGAGCTGTTGGGCTGTGAAACTCCAAACTCTCATCTGGTTGCTCAAGAAACTCCCTGACTGAAAACCCTTTCTCCACCTCCAAATCCCGGCTTGATCTTCTTACGTAAACCTTGTCCCAAAACCAGTCTCGTACTACCTTTACAGGTTGCAGTAAAGGGGGAGAAAGCAAAGCCATCTCGGCCTCCATCTGACCCTTTGAAACCGAATCACCCCGCAACGTCCCAGAAACTGCCGTCAAACCAACACCCGAAACAGGACAGACCCCTGCCCCATCACCCACCTCCCCACCTGAAGCCTCTCCCAAGCTATCGTCCTCCACCACCACACCCAGATTATCTCCCATAAGAAACTCCTTATGCGACAAATCAACAGCTCCTTTGCCCACAAACAACCCTTGATCCACCCACCCTAAACGCTCATCTTTCATGACCTGCCTCACCCTTGCCACATTCAGAGGATTGAACAAGTCCTTAAAGACTAGAGGCTGCGACAATACAGCTGGAGGATCCAAGCTTCCTCTTCTTCTTCTCAAGATCAACGACTTGCAAAGGTTGAATCAACAATAGATGAGATCAAGTCTGAAGTAGGTGAATTACGTCAGATGATGGGTCAAATTATCCAACGATTAAATCTGGTAAATGTCAATAATCAAGAATTACCACAAGCTCCAGCAAGAAGACATGTAAACCAGCAACAAACAATATTTCCTGAAGCACAAATGCCCGGATTATGATGCAAGATTCTGAATCCTCGGGTGAAGATGAAATCCTTCCTTTTAGAAATCAAGAACGGGAAGAAAGAATGCCAAGAAGACAACAATACTTTCAAGAAAATCCGGAATTCAAAATGAAAATTGATCTTCCTTGTTTTTATGGTAAGATGAACGTGGAAAGTTTCCTAGATTGGGTTAAAAATGTTGAGAACTTCTTTGATTATGCAAACACTCCAGAAGACAAAAAAGTCAAGTTAGTGGCTCTAAAGCTTCAAAGTGGTGCTGCAGCATGGTGGGATCAACTTCAAAACAACAGGAGATGCTATGGTAAACAAATTATCAAGAAGTGGCCAAAGATGCTACGATTAATGAAGAAACGCTTCCTGCCACTCAATTATCAACAAATTATTTATAACCAATACCAACAATATAAACAAGGAAGTCGTTCTATAATTGATTACACGGAAAATTTCATCGATTAGGGGCAAGAAATAATCTCCCTGAAACAGAACAACAACAAATTTCTAGATTTGTGAATGGCCTTCGAGACGACATTAAAGAAATGGTGAATTTACACCCACTTGCTTACCTCGCGGATGCCATTACATTGACTTCAAAGATTGAAGAAAATGAGGAGATCAAACCGGTTAGAACCTACCAAAGGCGGAGTACGTGGGATAAACAACAATATAATCCAAGAAAAAGTGCAAATGATTCTACAAGAAACATCATTCAAGGAAATTCTTTAACATCCAACCCACCGACCAAGAAAGATGATGATCAAACCAAGAATGTTGCTAGTAACAAAGGTTTGGATAATTCTACTTCTAAACGACATTCAAACCCTTACAATCGCCCTTCTCTTGGTAAATGTTTCAGGTGCGGACAACAAGGTCATCTCTCTAATGAATGCCCTCAAAGACGCACTTTACAAATTCGAGAATTGGATGATAATAACTTAGAGGAAGAATCCGAGGAAGATTTTGACGATGCCGATTATATTGCTGCGGATGATGGAGACCAACTATCTTGTATCCTTCAAAGGGTACTTCTCACACCTAAAACAAATTCTTCCACTCAAAGACATTCTCTATTTCGTACCCGATGTAGAATCAATGGCAAAGTTTGCCAAGTCATAATTGACAGTGGAAGTAGCGAGAATATTGTCTCCAAAAAGTTGATTACATCCCTCAACCTTAAACCAGAAGCTCATCCTAGTCCATACAAAGTAAGTTGGATAAAAAAAGGTGGGGAAACTAATGTTACTGAAGTTTGTACCATTCCTCTTTCTATTGGCAACCATTACAAAGACCAAATAGTTTGTGATGTAGTGGACATGGACGCATGTCACATCCTCTTTGGGTGACCGTGGCAATACGATAACCAAGTCATACACAAGGGTCGCGACAATACACATGAATTTTTCGGATGGGGAAACGAATTGTCCTTCTTCCTTTGGGCAAAACTGAGAGTAAGAAAAAGGTATGTATGGACTCTAACTCAAAGAAACAACTTTTCTTACTTTCACAAGGCAAAGATTTCTTAAATGCAAAACCTAGTACCCTGTTAGTTTTCATAGTCAAAGGAGATAGTTTTGACAATAACGCACTGACCATTAATAATCAGATTTCTCAACTACTTAACCAATTTCCTACCATTATCGAACCACCAACTTCTTTACCTCCATTAAGAAATATTCAACACCATATTGATCTAATTCCCAGCAGCACACTCCTCACCTTCCCCCACTCACCGAATGAGCCCCAAAGAATACCAAATCCTCCATGAACAAATTCAAGAACTTTTAGATAAGGGCCATATCCAACCTAGCTTAAGTCCATGTGTTCTCGCCGCCTCCTTGCACCTAAAAAGATGGGTCATGGCGACTTTGTATTGATAGTAGGGCTATTAACAAAATCACAATAAAATATAGATTTCCAATCCCTAGACTTAACGACCTATTAGATCAATTAGGAGGTGCTTCCTTTTTCTCTAAAATAGATCTTAAAAGTGGTTATCACCAAATCCGAATAAAACCCGGAGATGAATGGAGAACAACATTTGAAACCAATGAAGGCCTTTTCGAATGGTTAGTAATGCCTTTTGGACTATCCAATGCACCCAGTACTTTTATGAGACTCATGAACCAAATCTTTTTACCCTACCTTAATAAATTTGTAGTTGTTTATTTTGATGATATATTGATTTATAGCAAGTCTCATGAAGAACATATTTCTCACTTAACGTCGGTGTTTACAACTTTAAAGGAAAATGAACTTTGTATCAATATAAAAAATGCAACTTTTGAGCCACAGAAATTTACTTTTAGGATTTTCAATTAGTGAAAAAGGTGTATTTATTGACCCTAGAAAAGTTCAAGCAATAGTTGATTGGCCAAAACCTAAAGCAGTTGGGAAATACAAAGTTTTCTTGGTCTTGCTTCCTTTTATCGAAAGTTTATAAAACATTTTAGCATTGTTCTTTTGCACCACTCCTTTGAATGTTTAAAGAAAGGGAAGTTTAATTGGGGAAATTCTCAAACAAAAAGTTTTTTACAACTTAAACAACTTTTAAGCTCCACTCCTGTCCTCAATTTTCCTGACTTTTCCAAACCTTTTGAGGTAATGTGGATGCTTCAGGTGAGAGAATTGGTGCTGTCCTATGCCAAGGTAATCACCCAATTGAGTTTTTTTAGTGAAAAATTGAGTGAGGAACGACAAAAATGGAGTACTTATGAACAAGAACTTTACTCTTTAGTGCATGCTCTCAAACAATGGGAACATTATTTGTTTGGTAAAGAATTTATTTTACTTACTGACCATTTTTCTTTAAAGTTCTTACATTCCCAAAAGACTGTTAGTCGCTTGCATGCTAGATGGGTTCAATTTCTCCAACGTTTTGACTTTGTCATCAAACATACTCCTGGAAAGCTAAACAAAGTGGCTGATGCTTTAAGCCGTAAAGGTACTCTTCTTACTTTACTTCGTGGACAAATTGTAGCTTTCTCACATCTACCTGAACTTTATGATTCCGACCCCGATTTTAAAGAAATTTGGTATAAATGCATCAATCACTTACCATGCAAAGATTTTCATATTGTCGATGGTTTTTTATTTAAGGGTGATGCTCTTTGTCTTCCTCAAACCTCTTTACGGGAATCTCTTTTAAAAGTTCATTCGGGGGCATTGGCCGGTCATTTTGGTCGTGATAAAACTTTTACCTCCCTTTCTGCCAAGTTTTTTTGGCCACAAATTAAAAAGGATGTTGCTAATTTTGTTAAACGCTGTTTTATCTGTCAAACTTCAAAGGGATCAAGCCAAAATCATGGACTTTATTCCCCACTTCCCATCCCATGTTCCATATGGGAAGATCTTTCAATGGATTTTGTACTAGGTTTACCTAGAACTCAATGTGGGTTTGTGTTAGGAACCTAGAGCTTTCCTGTAAAAACACACAGACAAATAGCCAAACAACCCTGGAAAACACTGAGCTATTGTCTTCTCTGCAATAGTCAGTGGCTATTTCATTGATAAAGAAATATCCAATACAAACAACAATGGAAATGAAGGAAAGAAAACAAGATAACCTTCTAGCTTTTTGAGAGAGCTGGTTCTCTCCAATACCTCAGCCTTTCACTAACAAAATCCACACCTCACCTCGCTCCCTACCCACACAGATAAACCTCCCCATGCTACTCCTCATGGCCCACAAGGTTTCTAACTAACTTAGGAGTCATTTCCCTTTTTACCCTTCCTAGCATATGTATTAACAATCGGGGGCCTCACAATACCCTCCGGATTTTGAGGCACCTTGTCCTCAAGGTGAACGTTGGGAAATTGTTCTCGAATCACCTCTGCAGATTCCCAAGTAGCCTCACAAGCTGACCCTCCTTGCCACGAAATGAGCCACTGTTCTTCATTGTTCCTTTCATGCCAACGAACCCCCAATCTTGCTGATGGGATAGCGGACCACTCGTATTCTGGGGTAAACAGGGGCGGCTGAGATTGTACTCGAACCTCCGGCTTGACAGCCTTTTTCAACTGGGAAACGTGAAAGACATCATGAATCGATGCTTCAGGTGGTAAGGCTAATTTGTAAGCCACTAGCCCAATCCTTTCTATGATTTCATAAGGACCATAATACTTGGGAGCAAGCTTCTCGCAGCGACGTTTGGCCATTGACTTCTGTCTATAAGGCCGTAACTTAAGGTAGACCAGATCCCCGATCTGAAAAGCAATGTCCCTCCTTCTTTTATCGGCCTGCTTCTTCATCCGATCCTGGGCTACTCGCAAGTTTTCTTTCAAAGCTAGTAAGGCACGGTCCCTCTCGGTGAGCAACTGATCGAGGGCATTGTTGGATGATTTTCTATCTCCATAGGATAATAATGGTGGCGGGTGACGACCATAGAGGACATTAAAAGGAGTGGTGTTAATGGAGATATGAAAGGTAGTATTATACCGATGATTCACCCAATGAAGCCACTTCTTTGCCATTGTGTTGGTCTTTTTTGCAAAAACACCGAAGGTAATTTTCGAGACATTGATTTATTCTCTCCGACTGTCCATCGGTTTGAGGATGGAAAGAGGTACTACGCCGCAGTTGTGTTCCTTGGAGCTTGAAGAGCTCATTCCAGAAACGACTAACAAAAATCTTGTCCCTATCCGAAATGATGGTTTTTGGGAAACCATGGAGTCGCACAACCTCCTTGACGAAAACGTCTGCTACTTCTTTTGCGGAAAAAGGGTGATGCAGGGCTATGAAGTGGCTGTACTTGCTCAATCGATCCACAACCACAAAAATCACATTTTTGCCGTGGGATTTAGGGAGTCCTTCGATGAAATCCATGGTAAGTTCCTCCCAGATTGCATTAGGCGTCGGTAATGGTTGTAATAACCCTGCAGGAGAGAGGGAGTCCGTCTTGTTTCGTTTACAAATATCACACTTGTCGACATACTCCTTGATATAGGACTTCATTCCCCGCCAATACAGCTCCCCTGATATTCTCTTATAAGTACGTAAGAAACCGGAGTGACCCCCCAAAACGGAATCATGAAACGTGGAGAGTATGGTTGGAAGAAGGGTCGATTGGCTAGATATAACTAAACGATCCTTATACCTTAATCGGCCTTGCTGTAACGAGAACTTTGGATGTGTTGTCGGATCAGCCTCCAATTCTTTCATCAGTCGTTGCAGCTCGGGATCTTGATCCACCTCTGCACGTATTACCTCATGATCGAGGATGGAAGGGGCTGACAGCATCCGAAGTCCACTATCTGTTTCCTCGTCTTCGTTAATTGGTCTGTGGGACAGGGCATCAGCCGCCTTATTCAACAGTCCAGGGTGATACCGAATTTCAAAATCATACCCAAGCAATCGTGTGAGCCACTTCTGATACTCCGGTTGTATTTCTCGTTGCTCCAACAAGTGTTTGAGGGCCATCTGGTCTGTTAGGACTGTGAATTGTTGGCCCAGCAAGTAATGACGCCATTTTTGAATGGCGAAGACAATGGCCATCACTCATCAGTTCTCTCTCATAAACAGACTTAAGACGCGACTTCGTGGACAAGGATTGACTGAAAAAAGCAATGGGTCGCTGTTTCTGAGAAAGGACTGCTCCCACACCAGTACCCGAAGCATCCGTTTCAATCACGAATGGCACTGAGAAGTCAGGCAGAGCTAAAACTGGAAGAGTCGTCATGGCTTGCTTTAACTTTAAAAAAGCTTGAGTGGCTTCATCTGTCCATTGGAAGGCATCCTTCTTAAGAAGTTGATTTAAGGGGGTGGCTATGAGGCTAGAGTTCAACACGAATCTCCTGTAGTACCCGGTGAGACCGAGAAAACCCCGTAGTTCCTTGACTGATTTTGGTTGGGGCCAATCCAACATTGCCTGCACCTTGCTCCTATCGGCTTCAACCCCCCCTGCAGAGACCCAATGGCCCAGATACTCCACTCGATCTCGAGCAAAAACACATTTGGCACGGTTAGCATAAAGATCATTACGCGCTAGTGTCTCAAAAACTATTGCTAGGTGTTTGAGGTGAGTGACATAATCAGGGCTATAGACTAATATATCATCAAAAAAGACAAGAACGAACCTTCGTAAGAATGGTCGGAAAACTTGATTCATCGATGATTGGAAGGTGGTTGGGGCGTTTGTTAAACCAAATGGCATGACTAAGAATTCGTAATGCTCTTCGTGCGTTCTAAAAGCTGTCTTGGGTATGTCGGAATCACACATTCTAATTTGGTGGTAGCCCGATTTGAGGTCCAACTTTGAATATATCTGCGAGCCATGGAGTTCATCTAATAATTCTTCAATGACGGGGATCGGAAATTTATCGGGGACAGTAGCTTGATTCAGAGCACGGTAGTCTACGCAAAATCGCCAGCCCCCGTCCTTTTTTTTTACCAAGAGTACAGGACTCGAGAACGGTGAAATGCATTGGATCGAATGATCCTGCGACCAACATTTCCCCAATTAATCGCTCGATTTCATTCTTACGATAGTGTGCATACCTGTATGGTTTGACATTTATTGTAGTATTGTTGTCCCTCAGTATAATCCGGTGGTCCACTTTTCTTGTCGGGGGTAACCTTTGAGGAAGATGAAAAAGGCTCTCGAACTCTTTTAATAAATCTTGAACGCCAACGGACAGTTCATCTGCTTTCTGTTGGATCTCTGACTCCGAATCTGAGTTTTCCTCTTCAATCATTATTCCTTTAAACTCGATTGCATAGCCCTGATCCTGTTCATTCCAGGTCTTTGCCATTTGTTTCAATGATATTTCGTGATGGTCGAGAGAAGGATCACCTGAATGGTGATTTGAGTGTCCCCCGCCCCTAGAGTCATCGTGAGTTTGTTCCAATCTACTCCCATATACCCCATGGTTCTCAGCCACTGCATTCCGAGGACCAGTTCCACGCGTCCCAATTCTAATGATAAGAAGTTTTCAACAATGGACACTTCCTTTAGATGGATTGCAACATCTTCTGAGACGCATACTTACCCTTAATAGCAACGCCATTACCCATCACTATTCCATAACTCGCAGTGTTCGTAACCGGCAAGTGCAACTCCTCTACAAGTTTTTGCGAGATAAAATTGTGAGTAGCCCCACTATCGATTAACACTATGGCTTCCCTCTCACCCACCCTTCCACGGACCTTCATGGTTCCGGGCGTCGAGAAACCCAACACAGATCGTAGGTCCAGTTCCACTACATCCAGCATTTCTAACTATTTGAGTTCCGTTGTTTCCTCCTTTGCGTCGATTTCTTCGCTTCCTCCCTGTATCAACTCTATCTCACCAAATTCACCCACCAACATAACCCTCAGTTCCCTCACTTCACGATTTTTGCAGCGATGGTTAGCGGAGAACTTTTCATCACAGCGAAAACACAATCCTTTCTCCCGCTTCGCTTCGAACTCAGCGTCTGATAATCATCTCGAAGGTTCTCTCTTACCGTAATCCTTCTTCTCAGGGATAGAAATCAATTTCATATAGTCAGGTTTAGTTTGTAATTTCTCCGATGGGTTATAATTTGATTTGCTTGGGCCGCTTGTTGCTTGGGCCGTCACTGACCGGTTCGGGTTCTGGCTCACGCCCTTACTCGTTATCTGGGCTAATGACTGGGCTTCTTCTTCTTGGGCTAGCAATAGGGCTAAGTTGCGGTCCTCCACTAACTGGGCTTGTTTAATTATCTCATCGAGGCCCTTAGGTTCCCTGCTTACCACCTTCGCTTGTATGGACGACCTGAGACCGTTGAGGAAGGTGTTCTGTAACACGTCTTCCGGCAGCATCTTCATCATTGGAGCCGAGTAAATCTCGAATTTCTTCCGGTAATCAGCAAGGGAACCTTCCTGTTTAATGGCTAAGAAACGTGCACAGAGGCTACCTTCCTGAGTAGGTCGATACCGGTCAAAGATCCGGGACTTCATGTCTTCCCAAGATTTCACCGGTGAGCGATTACAAGTGTATCGATACCAATCGATTATATCTGGCTCAAAACTCACTATTGAGACGTTGATCTTCTCCAAATCACTCAACTGATGTACTTGAAATAAGTTTCATACTGAAGAGCCAAGAATCCGGATTAGTACCATTAAACACGGGCATTTCGAGTTTTTTGAACTTACCTCGATCACTTGGAGTTTCTAGTCTCTGATGTATCCCGCCGGTCCCATTCATCATCCCTATCCGGTTATCGGAACTTTCTCCCATCTTAGCCTCAGATTGGTACTGAGCGGTTATGGTTGCCGAACTTTCTTCTTGAATCTTACCTTTTCCGGCGATCATCATAACCACATCTCCTCTGTATGCTTCTTTAAATTTTCGTGGGTTTCTTCCGAACTTCTTTGGTTTTCGTTAACTCGCTCGGAGAGTATTCCCATATTCTTGGTGAGGTCAAGGATCGCTGTCCGAAGGTCGTGCACCTCTTTTTCTGTCACTTCCATCCTCTCCTCAACCTGTCTTTTTGCCATTCCTCTAGTTTTCCCCAGGATGTGACGTGCTCTGATACCAAGATGTTAGGAACCTAGAGCTTTCCTGTAAAAACACACAGACAAATAGCCAAACAACCCTGGAAAACACTGAGCTATTGTCTTCTCTGCAATAGTCAGTGGCTATTTCATTGATAAGGAAATATCCAATACAAACAACAATGGAAATGAAGGAAAGAAAACAAGATAACCTTCCAGCTTTTTGAGAGAGCTGGTTCTCTCCAATACCTCAGCCTTTCACTAACAAAATCCACACCTCACCTTGCTCCCTACCCACACAGATAAACCTCCCCACGCTACTCCTCATGGCCCACAAGGTTTCTAACTAACTTAGGAGTCATTTCCCTTTTTACCCTTCCTAGCATATGTATTAACAATCGGGGGCCTCACAGTTTGACTCTATTTTAGTAGTGGTTGATCGTTTTAGCAAAATGGATCATTTTATTGCTTGCAAAAAAACTAATGATGCTTTGAATATTGCTAACTTGTTTCCGTGAGATTGTTAGACTCCATGGGATTCCTAAGACTATTGTTTTGGATAGGGATGCCAAATTCATGAGTTACTTTTGGCGATTTCTTTGGAAACGATTTGGAACGAACCTTCTTTTTAGCACCACCAGCCACCCACAAACAGATGGGCAAACAGAGGTTACTAATAGAACTCTTGGCAATCTCCTACGTTGCTTAAGTGGTGATAAACCACGACAATGGGATCTTTCTCTCGCCCATGCAGAATTTGCTTTCAATCACATGGTCAACCGATCCACAGGGAAGTCCCCATTTGAGATTGTGTATACTCGAATTCCTCGTTTAACTTTTGATCTTGCTAATTTACCTTCTTCCATTGATATTAGTGTTGAAGCAGAACTTATGGCTGATCGAGTTAAAGAACTACACCAAGAAGTTCGTCGTCATCTCGAGGAGGCTAATGCTTCCTGTAAGGCTCGGGCAGATGAGCACAAACGTGCAGTTGATTTCAAAGTAGGCGACCTTGCCATGATACATTTAAAGAAGTCTCGTTTACCTTCTAGGATTTATTCTAAATTAACCAACAAGAAGATAGGTCCATTCCCTATTTTGGACAAGATTGGCCCCAATGCCTACCGTGTAGAACTTTCATCCTCGATGCGCATCAGTAATACCTTCAATGTTTCAGATATCTTCCCACCTGACGAATTCCAATTAACTCATTAAACTCGAGACGAGTTTGGTTTTGGTGGGGTGGATTTGATGTAGGCTTATGTTTACCCTAGTTACTATGTTTTATTAATAGTTACTGTGGGTTATTTTTAACCTTTTAACTCTGTAAAGCTACTGGTTAACCTATTATTTGGTTATGGTTAGTTAGTAGTTGATTATGACTTGGGTTAGTTAGTTACTAGGGCTAGTTGGTTCATTTGTATAAATATGGCCAATTGGCCTCCTTCATTGAATTCAATGAATAAAGTTTACAGTTCTTGAAGAGTTTTCTGCATCAGTCTCCTTGATGGTTAGTTCTTAGTTCTGGCAAATGAATCAACACTTCTTTACAAATTCCTCTCCCCTTCACTGCCACTCCTTTCCCCATCACAATGCCATAGTTGCTTGTATTTGATTGGGGAAGCTTCAACTCCTCAACTACGCTCTAAGAAATGAAATTGTGAGTGGCTCCACAGTCAACGAGCACAATAACCTCTCTCCCCCCCACCTTCCCCTTAAGTTTCATGGTTTCCGGAGTGGAAAAACCAATAACCGATTTTAAGTCCAGTTCTACTGCATCCCCTAGTCTTCACCTCTGTTTCTACGTACTCTTCTTCTTCCTCTTTGTCTGGCTCTCTTTGATTTACTTCCACGTCGCCAAACTCACTAGCCCAGACTACTTGGAGCTCTCGCAGATCGATCCTCTTACAACGATGATCTTTAGTGTACTTCTTGTCGCAGCGAAAACACAATCCCTTTTCTCTTTTGGCTTGGAATTCGGCATCCGTTAAACGTCGGGTGGCAAACCTCTGCGATTAGGGTTGTTCTTCTCTGGGATTGTCACAACTCGAGTCGTTTCCTCATAACGGTTACTTCCTTTCTTTGTGGCCGACCTGAGTCCCATTCGATTGGGCCCTCGACCTTGCTTCGCCCAAATGGGCCGTATGTTGTAACTCTTCTGCAAGTTTCAGGGCTAACTCTTTATCCTCGATTAGTTGGGCTTGTTTCATAATATCTTCGAGCCCACAAGGTTTACAGTCAATCACGACTGCCCCTAATGGCCAGTTTTAGATCGTTGAGGAAGGTGCTTTCTAAAACGTCTTCTGCTAACTTCAGCAACGACCCTGAATGAGATTCGAACAACGCTAGGAACTCCGCCACTATACCCTCTTGTTTGATCGCCAAAAAACGCGCGCAAAGACTCCCCTCTTGTGTAGGGCGGAATCGATCGAATATTCTTTCCCTCAAATCATCCCAGGACTCAATTTTCTTGTGATTGTTTGTCCATCGATACCATTTGATGATAGCTGGTTCGAAACTGACTATCGAAACGTTTATCTTCTCAACATTACTAAGCTGATGGATCTCAAAATAAGTTTCGACTCTTATCAACCACACATCTGGGTTTGTCCCATCGAAGACCGACATCTCCAATTTGTTGAACTTACTCCAATCTGAGTCTTCTTCTGCTCTCCGCGATTGCGAAGATTCCCCTTCTTCTCCGATCAAGTTAACTAAGGTTTGTTCTTCCTTCCCTCTAGTTCTAGCTCCGGTATCGACTATCCCTCCAATATGTCTCTTCTTCCCTGAACTTTCTGCGATCATCATCACCAAAGCCTTTTGGTTTTCTCTCATTTGCAGAGCCATCCGCTCTAATCCTTTTTCTAACCCTTTCTCAAAGGTCTTCTCCATACTCTGTAACGAACTCTTCATTTCCGCTATTTCTTTTTTAGCTCCTGAGAGCCTTTCTTCCACAACCATGCTCCTTGTTTTCCTCAGGTCTAACGTGCTCTGATACCAGATTGTAAGGTATCCAATAAACAAACCTGCACATAGAAAAACTCAAACAAGCGACACGAACAATGCTATAGAGTGAAATGAGCCAACTCCCCCCTATTGATAGTTCTTCAATAGAGAAGAGGGTTATGCAACCGATTGTTTTGATAAGAAAAACAACAAGATAACCCACCACCAATTTGAGAGGCTGGGGAAACTCTCCTACAGACTCTTGTCTCCAAAATTCCTAACCAAAACCAACAGACCTAAAGACCAGGTACAAATACCTCACTACCCACGATCCTCTCCCAAAACAGAAAACTCTCTCTCTCTTCAAGTGGTCCCTGAAGTTCCTTCCACATTTCCTTTCTTACCCTTCCTCTTATACACTTGAGTAACGGGAGGTCTTACATCCCCTTCTAAGTTTAACTTTTAGCTCTTTCTCCAACATGCTTATCTTTCTTCTTTTAACTTTCATTTTTTCGAAAACCTCTCCACCTTCATTTCAACCTACTTCTTTGACTTGGTGATTTTCACCATTCTTCTTCCCCAGTGACAACTGCGAAGTCTTCTTCGACGAGCTCCACGAAAGCCTTCTTCTCTTGCTAACACACTGGCAACGCCGAAACCCACAAATCACGATATATATATATATATATATATATATATATATTATTTTTAAATTGATTTGGTATGATTTAAAGTCGATACGTGTGATTTCATCCTCCGAATCGTATGATACCTCCCATTTACGATTCAAAATCACGAGCTGTATCGATTTTGCTTCATTTCGAGTTGAATCGTGTAATTCAACTTGTGAAACGAATGGTTTTAAGAATACTGGTATTTGAGTAATGGGCATGTCTTTAGGAGGGAATCCAAAAAGGGTGGACATTTTGAAGCTAATATATGAGAGAATCTTGAGAAGGGTTAGGGAGTGAAAAAATTGTTGTTTATCTAAAGGTAGTCACCAACTCTCGTAAATATGGTGCTTCCTAGTCTACCACTATTTGTGATATGTCTTTTTCTAGAATGCCAAGACAGTTATCCTTGAAACCATAGAGGACAATGGGAGTGGTAGGCATGGGTGGCGGGTAGGCGTGCAAGGCGGTCAAGCATAAGTAGGTGTAGGCAGACACTTGTAGACTGGCGGTGGTTGGGCGTGTGCGCAGGCAGGAGTGCACCCAGGTATCGACGAAAAGCTATGTGTCACAATCACACTTCTTCGGGACTCGCAACATGTTGTGCGACACTTGCTCTCACCCTTGAGTAAGTTAGCCAACTCAAATTTGGATCGCTAGCAGCACAAATGGCCTATCTTTCAGCCTCCAACCCCGTTCTTGGAAAAAAAGGTTTAGAAAATAGGGTTCGAAAGTTTTAGAAAACATTTTGAAAAGTGTTTTTTAGAAAGAAAATGTTATAAGCTAGCAAGCAATAAGCGACAACAACGACATTGATAGCATCTAACTTGGGTAGGAATATTTGACAACTAATCATATCTCCCTATAGTTATTATGAGGAAAATTACCTATGATATGCTTACACATCAAATTGGGTGAGGAGTCATACACTTACAAAAAGTACAAGGAAAAGAAATGAACATGCGAAAGTAAAGACATAAAATGAAAATATAAAGACATAAAATGAAAATATGAGTAAATGGGTTGTCATGGGCATACAACCATGAGCAACATGCCTTGAACAAGCATGACCATGACATTTTCCCCCACTTAATTTGTTAACGTCCCTGTCAACCTTCGCTGCTTGAACTCTGGAATCTTGATTGCAGTTGACTTTAGGTCTTCAACTCGCTCCCAACTAATCTCAACATTAGAGAGCCCTTTCCACTTCACTAAAAATTCTTGAACGTCACGTCATGGCTTGCCTGCTCGTCGTGTTCTTTTAGCTTAGATCTCTTCTACCTCTTTTTTGATCGTATTCTTCATCATGACAGGTGGTCGTGTCACCTCGTTGCGCTTAGTGTCGTCTGGGTCGAGATGATAGGCTTTCAAATTACTTGCATGAATGACAAGGTGAGTCTATATCCATGCAGACAATTGAACCCTGTAGGATGTGTTCCTGGCCTTCTGAATAACTTTGACTTGTCCTTCATATTTTCAGACAAGATGATCTCTATTGCCTTGAAATTGGAATTGTTATGGTCTCAGCTTGATCAGAACTTTATATCTTGCTTGGAACTCTAGTGGCCTACGTTTCTGATCGACCCATTTATTCATCCATCTTGATGCTTTTTCTAAGTAGGCTTGAGCCACCTTAGAGCTTTGTCTCCACTCGTTATACTTGGTTCTTTCCACTTACTAAGAAATAAGATGTTTACTCTGTCTTTCTCAAACTCAAGCCTCTTGTTGAAAATTTGTTCTCCACTAAAATGAAGATCTTGTGATCCGATGGTGGTGGTGAGTTTGTTAACAAAGAACTAAGTACTTACCTCAATACTCATGGCATTTTACATCAACACTCATGCCCCCATACACCCAAACAAAATGACATTGCCGAAAGACGTCATCGTCATATTGTTGAAAAAGCTCTTACTCTAGTTTTAAAATCTTCTCTACCACTCAATTTTTGGCCCTTTGCCTTTGCACTTGCAGTTTTCCTTATAAATCATCTACCTTCCTCCATTCTCCGAAATAGATCTCCTTTTGAGTGTCTTTTAAAACGCCTTCCTGACTTCTCTCATCTTCGTGTCTTTGGTTGTGTGTTATCCTCTTTTAAAACCATAAAATACACATAAGCTCCAACCAAAAACATCTAAGTGCGTCTTTCTTGGTTATCCACTTAACTACAAAGGGCATTTGTGTTATGATATGGGCAAGGATTAAATCTATACTTCTCGTCATGTTGTTTTCAACGAACATAATTTTCCCTTTGCTACCTCATCTAATCCTAAGCCCATGTCTTCATCTCCCCCACCAAATTTAGCCCCTTACCTTTTACCTTTTCTCACTGCATGGTTCCTCTGGTCACAATATATATACTGATGCTACTCCTAACATTTCTTCTATTTTGCCTAGTGACACTACTATTGCTGCTAGTGAATTTTCCCATAGCTCAACACCTACATTGGAAAATCAAGAGGCAATTATTAATTCTATTAATGTTGATGAAGTTGTGACTTCAGTTTATGCTACACCAGTCATAACTGAAGTAGTAGCATCATGTCCTACTTTAGTTCTTGCTACTTCAGTACCACCTACTGTTGTTCAAAATAGCCACCCTATGCAAACTCGCAGTAAATCTGGAATTAGTAAAAGGAAAGTGTTTTTGGCGTCTGTGCCTTCCCCTATGGATGAGAAACTTCCTTTCCAAAAGCATCTCAGTTTTCTGTTTGGAAAAATGCACTATCGATGAATACAATGCCCTTATTAAGCAGAGTAATTGGAACCTTACTCTATTACCTAGTGGCAAAAATGCCATAGGTTGTAAATGGGTGTACCGTGTAAAACGAAACCCAGGCGGTAGTGTTGCTCGTCACAAAGCTCGTTTAGTAGCTAAAGGCTACCACCAGGAAGAGGGAATTGACTATGAGGAGACATCCAGTTCTGTTGTTAAAAAGTCGATTGTTCGTATTATACTTTCTCTTGCCAATCAGTTCAATTGGCCACTTTGCCAACTTGATGTTAAGAACGCATTTCTGCATGGTGAACTCATTGAAGAGGTGTATATGCAACAACCACAGGGGTTTGTAAGCGCTACTCATCCCAATCATGTTTGCAATATGAGGAAATCCTTGTATGGATTAAAATAAGCCCCTAAAGCTTGGTTTGAATGCTTTACTTCGCACTTGTTAACACTCGGTTTTTTGGCGTCAACTGCTGATCCTGTGCTCTTTATAAGACATTGCAATGGCTCCTTCACATATTTATTGTTATATGTCGATGACATAATTGTCACAGGGAATACTCCTTCATTTATTGACTTTCTAGTGGGACAATTACGCTCCAAATTTGATATGACTGACTTTGGAGCTCTCAAATATTTTCTTGGTCTTGAAATTACTTATACCAAGAACGGACTGGCTATAAGTCAAACTAAATATGCTTAGGACCTAATTCATCAGTTTGGGTTTGGGATGACTTCAACTAAACCATGTGTTACTCCTATTGCTCTCAAATGGTCCCATTATGACTCAATCTCCTGTTCAGCTGAAGACTAGACATTATCGTATCTTACCTTTACAAGGCTAGATATTGCCTTTTCAGTCAACAAGTTGTCTCAGTTTATGCATTCACCATGTTTAGAGCACCTCTCAACTGCTAAAAGAGTGTGTTGTTACATCAATGACACTCTAATCTGCTGGTTTACTTTTTTTTAGAAAAGCCCAGATCCTATCTCCCTTACTGCGTTTTCTTCAAAGTCTGATTGGGCAGGAGATTCTATAGATCGATGATCAACAACTGGGTTTGTGATATTTTTGGGATCCAATCCTATATCTTGGATTGCAAATAAGTAAACAACCGTTTCTCGAAGTTCTACAGAGGGTAAGTATTGTGCTTTTGTCGTCACTGCCGCAGAAGTGTTTTGGCTTCGACAATTACTTTGAGATCTCTGTTTGTTTGGAAAAACACCCCCTACTATATGGTGCGATAATCAGTCTGCGATCCAACTTGCCAAAAATCCTGTTTTTCATTGCCGAACCAAACATATAGAAGTTGATTTCCATTTCATTTGCGACAAAGTTGTTCGACATGATCTCCTACTGCGCTTCATCCCTACTGCATCTCAAGTTGCAGATATGTTAACTAAGCCTCTTACTGGCGATCGCTTGTGTTCTCTTAAAAGCAAACTCATGCCTTATTTAGCATTTGTTTGAGGGGGGGATGTTAGACTTGTGTGTCTTTTCGCCTTCCCGATTCTCTCTTCTCTCTTCTCTCTCCTCCCTTCGCCCAACCCTTCCGCCCAACCCCAATGATTCCGATCACCCCTTAGCCCCCCCGTCGGCTTCCCTCTACCTTCGACCGCTTCCTCCACTCCCTCGTCGGTGTCTCCGGTTGCTCCCCCGCTCCCCATCGATTTTATCGGTATTTTCTTTGGCCATCTCTGTACCGATCAAGTGTCTATTCGGTTCCAAAGAGGTTCAGATCAACGACTCTCGTCTTCTCCGATGAGGAAGGGAAGTTGTCGCATCGGGAATACGTAATTCAGTATATGGGGGGACTCGACAACTTTCTTTATTAAAGAAGGGGCCTCCAATTCCCCGATCCCCATGTCCATCGATCACGTAAAACAACTTCATGGTTGGTTTGTGGACTTGGTGGTAGATGTGAAACGATTCTTTGGAAGAAGAAAGTTCAGGGATGACAACGCTACTCTCGGGCTGTTCAAGATTAGGAAAAGATTGGATTGGGTTGCAGAGGGTATGGTTTGGCCCCCGTCTGGGGGTCGACGGGTCTTCACGGTACCCCTTGGTTCTTTCTCCTCGGGTTGGATGGTTTTTAGAGACCTGCTGGGTGACTTCCTTCGTTCAAACACTCTCTCCTCCTCCCCCGATTCCTTAATTCCAACCGGTAAGTCAGTGGATAAAGGATGTGGATCCGACTTTCTTTTCAGGACTTTCCCTCCAAACCCAGAAAATATGAGACATGTGAAGGTTTTTTAGGACGAGCAATGGGTTCGTAAGGCTCAGGAGATAGTTGATGTCAACTTCGACAGGATTTGGGTTGTGACTTGTTTGTTTGCACATGTCAGCTGGAAGGTAATCAAGAGTGCCCTACAAATTCCTTTTAAAACAAGCCTCCGAATAAATCCATTCATGTGTGACAAGGCTTTGGTCCTTTTCGGAGAAGATCCTTTGGTTATAAATGGGGGGGCAATAGCAAGTAATTCACAGTCTTCATCTAAAGGTTGAAAAATGGAATGACAAGCTCCACAGTTCCCCCTCAGTTATGATTGGCTATGGGGGGTGGCTCGCAATTGATAACCTTCCTTTAAGGCTCTGGAGGAGAGATGTGTTCGAAAGAATTGGCTTCTACTTTCGAGGACTTGAAGAAATCTCGTTGGATACCCTGAACTTTTAGAGTTAGCAAAAGCAAAAATAAAGGTTTCCCCAAACCTTTGTGGCTTCTGGCCGAAATCCATTCCTGTTGTGGACCCAAGCATTGGGGAAATTCATTTAATTTTTGAAGCATTGGGGACTACTTCTCCTCCTCGAAGGCTGTTGGATTCCTTGACTATGAAAGATGTTACCAACCCCATTGATTTAGCTAGAATTCAACAAGTAATTGATGATGAAATGGATGCAGATTCGATGGTTGGCTCATTGGAGGCTGAAGTAATTTTTGATGACCCGTCGACTTCCAAGTTGAAACCAGCCGTTACACCAAAAGAGGTGCACGGATCCGGTGAATCAGGGAATTTCGAGGATGTCGAAGTTCATGAATCGGTAGCTTTTAATCAGGGCATTGATGTTCACAAGCATACGATTGAAGGAATTAATAGGGTGGCTAAAAACCCCTTGGGATTGGAGGAGTTAATTACAGAGGAGTCTAACAGTTGTATTTTGAAGACGAAAGGGGTATGTCTAAGGGGCCAGGATTCAGAATCTAATTCTCTTCAAAGTTCGGTTCCAATTAATGAAAAGTCTTCCTTCTCTCCTGCGAATCTGGTTAGTGTGGGGGAAATTAAAGATGCCTTTTGTGAGAAATACTATTCAAGGAGGAGGGAGAAAGTTTCGGCTTTGAACTTGGAAGATCATCTAGATGAAAACTTTCCGGATTTCTTAGAGCAAGTTGAAGATATCTTACCCCAAAAAATTGTTTGACATAATCCCGAATGTTGCCTGTGTGCCTCAATTTTGCATCATCTGCTTGATGCATTGTTGCAAGTGTAATCTTTGCTTGTTTCGTCGTTGAGTTCATGGCATGTAAGTATTGCTCGAGGACAAAGATAAAGTTCTCTAGTATCTCGAACCCCATAAATGGACTTGGGCTTAGGGTCCTTTACCTAAATAAAATTGGACCGCACCCCCAAAGCTTGGTTTCCCATCGCTCGTTTGGTGAGTGTTGATGTTGATATAATTAAATTTGTCATAATCTATCAACTTAAGCTTTTGGGTTAATCGGTGATTTACATGGTATCAGAGCAGGAGGTCCTGTGTTCAAACCCTGGTGAAATCGTTTATTCCCAATTAATATTGATTTGTAGTTGTTGGGACTTTGTTAAAATTTCTAAGCCTACAAGTGAGGGGGAGTGTTGGTGTTGATATAATTAAATTTGCCATAATCTATCATCTTAAGCTTTTGGGTTAATCGGTGATTTACAGTGAGGTTTAGTCTGACATTCAGATCTGCCACTTCAACCCTAACAACATCAAGGGCAACCTTAACATCTTTAGAAAGGTCTGAAACCATATGAACCAACACTTATTTGGAGCTGTCCAAACTTTCAACACCTTCCATTTGGGCAACAAAGCCCATCGAGCTATCACCACGCTCCAAACCACTAGGTCGTTTGACTTCATGCTTAAGGCTCTCAACTCTCACCATCAACTCTTGGATAGGCATCCTGTCTACACGACCAACTAACGTGCCAATCTGATCGGACTTAGTGGCAATCTCTTTCAAGCGGGATTCCAAATAAAATACCGAATACTGTTAGGGACTTCTCTCAATAGAGCATTTGTTCTTTGATCTCGACCAATCTGTCAACATGGGACTTGCCCAATTGCTTGGCCGCAAACATGATTACTGATTCCAACTCCAGGAGCTGACTCGGCTCCGATATCAACTGTCACAATCGCATTTCTTTGGGACTCGCAAAACAATTGTGCGACACTTACTCTCACTCTCACTCTCGAGTAAGTCAACCAACTTAAATCCAAATTGCTAACAACACAAAGGGCCTATCTTTCAGTCTCCACTCCCATTCTTTGAAAAAGATTTTAGAAAACGAGGTTTGAGAGTTCTGGAAAGTGTTTTTAGAAAGCAAATGTTATAAGGTAGCAAGCATAAGCGACAACAACGACATTGATAGCATATGACTCGGGTAGGAAGATTTGACAACTAGTCCAAGACGTGCATTTGGGCAAACACTTTCCTTATTGCTTGGTTTATCTTGTAGTTTTGTTATTTTTTACATTTCAATTCATTTGGGTTCTATCACAGTGACACGTAGAGTTGGTGTGTGTGCACACGGTGTCCCAACCATACTAGAAAAGAAGTAGGTTGTGACTTCCATAGTGCGGACAAAGCGTAGTGGTAAGGTAATACACGAGTAACGCCTATCCATGTCAAGGGTCGAGAGAGAGAGAGAGAAGTGCTATGATGCGATCGAGGAGTACAATCATCATCTAACACACCAAGGAGAGTATTCAAGAATGCCAAGCTAAGGTGCAAGCAAGATTCGAAGTGACAGTGTTGTCGGTGGTGTCAATGACAAAACTTAATGGGGTCAGATGGGACCCCAAGCCATGACTTCAAAAATCGAGGTTCCATTATGAGTTTGGACGAACGATTCTGGAGTTAAGTGCATATGAGTGAAAGATGCATGTACGCTAGATTTGGTGTCAATCGAACACTAAACATGCACTCCACATTGGCATATGTCTACTCTCCATTTTAGTGTTCATGAGTGTTGGACGAAGAATGCTTTAGAATGTACTATAGGGGGAGACATGGTGTTGGCTCTCCACCATGCTTGGGCCTCACGGCCTAAGGGAGTCATCCCGTGGCACATGCTTGTGTCATGGCGTGAACGAGCATTGGAAGACGAGTGTCTTAGGCATTCCCTTTAGGAATGAGATTTTAATGACAGTGTTAGGTGGCGCGGGTATGCCAACATTGCAACCCTTTTCATGGGTTACGCTTCGACATGGTGTGCAAAAATGACTCGACATGGACATGGAAGGGTTCATACCTCAACCGTGGCCAGATGGATGGATGCCTGAGAGGTCCCAAACAAAAAGACAACCCATGAGTCGATTCTTGATAAGCGTGTCTGAGCGAGCAACAAAGGCAGATGGCATCACGAGGAATTAGTGGGACAAAGTTTTTGGTTAGTACGGTATTTGCCCATTGTGTCCCAATAAGCATTATAATGGCCCGGTAGAATCCAATAAGCATATTTATGCCTTGGTAAGCATTCGTTCTGGTAAGTGCTAAAATCACATGGTAAGCTCTGGTTGAGCGTTTTAAGGGCGTTTCGACCCAACGACGAGTCCAAACACATTATGGTGAAGTTCAAGATCGATGTAGAAGTGTGTGGGCCGTGTTGTTGAGAACCAAAATGGTGAATGAGATACGATGTTGTATTTAGAACACCTTTTTGTAATTATCTGTTAGGTCTTATTTTGCTTGATTGGAGGCCATTTCTTTAGTTTGCCTCCATTTATCTTTTCTTTTTTTGTGGACTCTGGTTTTTTGTATGCCCTTGTGTTCTTTCATTTTGTCTTGATGAATGTTCGGTTATTCATAAAAAAAAAATAATTAAAAATCCCTATAGAGCTATGGATGAGGAGGACATCTCCAGCCCTGCTTGATTCCTTTATTGATTGCTATTACTCTCTAACCAAATATTCACTTATTGTTTGCTGAGTGTATTGTCTTTCACTTTAATCAGAGGGAGGGCGAGTATTGCAATTGAGGCCTGTATGCATCATCAACTTCAACAAAACCAGGCAAAGAGAAAAGGAAAACCTGCTCTACCCAAAGTAAGCTTCTTTTCTTTTGGTGATCTTTGTTTCCCCTTTACTTTATGCAGTTATTTAGAGTGTTCTGTACGTTTAATCTTTTTTTCGAAAAAGTTAGGCCTCTCTGTATCACACATCAATGCCTTGCATTGATTGAAGTTTATATGAGGTCCTTCATTCTCTTCATATATCACAATTATTTTAATATTTGAAATTGACAGGGAAAGTGTGTACAACCTACAAACTTTGACAAAGAGCGTGCATACTTTCAAGAGGTAGATGCCTTTGAGTTATTGGAGGAGAGTCCTTCACCCAAGAGCTTCAGTACATGGGCAAGCAGCCAGTTTGATGGTGCTGCCGTACCATCTCTTTGCTCTAGAGTAGAAAAATGGTTAATTTCCAAGAAATCAAATTACAGTCTTGCACCTTCGAGCACGTTATCGAAGATATTAGAAACTCCACTTGCATCCATTGAACCTTTCAATGGCAATCATTTGGATAACATCAATTTGAGAACTCCTGAGAAGTCTGCTAGAGAGCTGGATGCACGCTTGAGCTCTATTCAGAGAAGATTTATTTCCAGTTTAAATGATAACGATGTCCTTGAAATAGATAGCAGTCGAGACAACAGAAATACTAGAGCAGAAGATGTGAGCACAGAGGATTGTGGAAACATTGAAGTTGCCGTGAAGAAACTTTCTTTAACATCAACATCCACTTCTTTCCATGACTATAATTTGGATCCACTTAATGCATTATTAGCAGTTTGTGGACAGTCGGCTCCTTCCACGCTTAAGGATGCATTCTCTAATTATTGGTTTGTTCCTCAGTCTGCAAATACTTATTTTCATATATTTATCCCGTATATTAGTTTAAAAGAGCCTAAAAACAATATGTTTAGCCTTTTGTCATCTCCAAGACTTGGTTGGTTTCTGAATGTGTTCCCTTCTTTGCCACTCCGGCTTGAGTGGTGGGGAGAGGTTCCACCTCCAAACGGAGACTCCTGAGTAACATAATTAATGCCTGTGAGAGGTGTTTTTCTGAGCATTAGCTTTTTATGGATTAATGTTGCTACCTTTTAGTTGATTTTCTAGCTTATAGCATGACAGCCTCTACTCCAAAGTACAATTGTATGAGTTGGTTCAGGATCAAGGCTGACAGTCACAAGTGACAGCTTTCTTATTTCTGTTGAACTCAAGTAATCTTGCTAATATGTCAGCCTCCAATTGCCATAGAGTCAAGAATATGCATTCTCATATATTTTATCTTGTGTGATTATGTATGTTAAATCACCCATCAACCCAAAAGCTTAAGCTGATAGGTTATGATAAATTTAATTATATATCAACATTATGACACTCTCCCTCACTTGTGAGCTTAGAGATTTGTGAAAGGTCCAACAAGCAAAGATCAATATTAATTGGGAAGGAAAAACTTTATAGAGGTTCGAACAAAGGACCTCCTACTATGGTACCATGTTAAATCACCAATCAACTCAAAAGGTTATGTTGATGGGTTATAGTAAATTTAATTATATCAACACTCTAACAATGTAAATGGTTTGTGGTTGCTGCTCTTGCAATTGAAGTTGTACTCCAGTTAATTTCTTGGCTTACTTTAGTGACTATGTTCCCCATTCACATTTTTAATTAGAATATATATTTTTTTAATTAGTGAGTTTCTTGACTCAGTGACCCGGAAACTATTGTCAAAGTTGGGGAAGGTACATATGGAGAAGCTTTTAAAGCTGGTAACACCGTTTGCAAGATAGTTCCAATTGACGGAGATTTACGAGTTAATGGAGAAGTGCAAAAGGTACACTTTACCACCAACTCATGACTGTTCGAGCCTGGCAAGTGGCACTTGATAGAAAATTTGTGGGGTGGAAGATCATGTTGAACAATCATTTCTTTTTGGAAGTAGATTTTTAATACGCTGATTTTTGAATTTTTTAATAATAATTTCTTTCATTTATTCTCAATAAAAGTTAGTTTCTTCCTTAAAAAAATTATAATATTTCATTTGGGTTTTGTATCATTCTGATGATTATGATGAATGATGATGTAGCTGAAGTCACAGAGAAATTTTATAACTCTAAGTCAGTCATTATTTACCTTGTATCAGAGATCAGAGGAACTGCTCGAGGAAGTCATACTTTCCAGAACTCTGAATTCTCTACGAAGTAATGAAAGCGGTGCCAATAACTTTTGCACAACATTCATACGAACCATAGAGTATGTTTACTGCCCAGTGAGAAAAATGTCCATGGTTTTCTACGATGTCAATACAAATCCATTAACTAGAATTTCCGCTACACTTTTTATTTTTCAGCAGTAGTTCCTTTCTGCTTTATGTTGGGCAGTCAAATATTAGATGCTATGCAATATTTAGGCCAGTTATAGGGGAGAAGTCTTGTTTCCAGCACATTTCATACTCGGTTTTATGAGAATGTCTTATGCAATTATGGAGCAGCTTCTTATGGACTATTAAACTAATATCTGCGTGATCTTTTTATCCAATAGTTTAAGGGTATGTCAAGGTTCTTATGATTCTGTACTAATCAAGGCTTGGGAAGATTGGGATGAAAAGCATGGTTCAGAAAATGATCACCCTAAGGAGTTTCCAGAAAAACAGGTTTCTTTATGTATTATTTCTTATTCTGAAATATGAAAAGCTACATTTATTTGAGTTTTTATCTTTTATATCTACCCACATCTTAAAGGGAAAACATAAATCACTGAAACATATATCTGTTTGCATAATATTGCATATCTTATGAAAATATTTGTGTAGCTAACAGATCATGATCATTTTATTTGTGTGTTTCTTCATATATGACAACTTTTCACTTAGTTATGCAATTTATCCATTCTTTGACTTTTTCTGATGTTCTGTGCCAGTGTTATGTTGTGTTTGTTCTTCAACATGGAGGAAAAGATCTTGAAAGCTTTGTGCTCCTGAACTTTGATGAGGCCCAGAGTTTATTAGTACAGGTTTGCGATGGATTATACTAGCATTATTGGCTTTTGAAGCTTTGATCAAATCCAATTTCGGTGAATTGCAGGTTACTGCAGCTCTGGCTGTGGCTGAAGCTGCTTATGAATTTGAACACCGGGATCTGCACTGGTCTGGTTCTTCTTCCATCTATAGTTATCAATGTAGTTTCTTTTCATTGACTATTGATTTGGAGTATATATTTATTGCAGGGGAAATGTACTTTTAAGTCGGAATGATTTTGAAGCACTGCCGTTCACCCTTGAGGGCAAGAACATGACCGTGCAAACATTTGGACTTCAGATTTCGATAATTGACTTCACTCTATCACGAATCAATACTGGTAAGATGTTTTTTACCTTTTCAACCTTGGTGTTTGCACCGAGCCATTTTCCTTAATTAAAATTTGTTCATGAGCTAGTATTGTTGCTAGCCTAGCCAAAAAGGGAGTAAGAAATCTCAATGAATGTTTGGCATGCAGGTGAAGACATACTCTTTTTAGATCTCTCGTCGGATCCTTATCTCTTTAAGGGACCAAGAGGAGACAGACAAGTAAGCAACCATACAATTTGATTACTAAGGTCCCGTTTGATAACTATTTGGTTTTTAAAAATTATGCTTGTTTTTTTTATCATTTCTCTTCATCTTCTCTATAATGATTTCCATATTTTTTGAGCAACCATTTGAGTCTCTAGCCAAATTTCAAAAACAAAAACAAAAACAAATTTTTGGAAACTATTTTTTTTAGTTTTCAAAACTTAGCTTGGTTTTTGAAAACATAGATAAATAGTAGATAAGAAAACATAGAAATCTATAGGGGAAGTTATTTTTAGGCTTAATTTTCAAAAACCAAAACCTAAAAACAAAGTGGTTATCAAATGGGGTCTAAAGAATTAAGATAAATATTATAAGTCAACTTATTTGAAAAATTTTGTGTGATTTTCTTTATTATTGTTCTTGTATGCATGCAGTCGGAAACATATAGGAAAATGAAGGAGGTGACCGGAGATTGCTGGGAGCGGAGGTATAATTATTGACGTGTTTATCTTTCTATCACTTCTGAATCAATTATAGAGGCGATATTGCCCCTTTGACATCCTGAGATTTTAATTTTTTATTGATTTTAGAGAGACTAGATATATGTTTAGTACCCAGTGTTTGGTATTTTTCAATTGAATCCTTATTGTTTAAAAAGTTTCAGTTTAATCTCTTGTATATTAACTTTTTTCAATTTAGTTCTAGAGGAAAAATTAGAAACTTTTCTCTTATTGATGGACTTTTTCTTCCTATCAATTTTTGCTAATTCACTAAGTATTTTGTAGGAAAGTTTACAATAACCCAATTTTAATATTTATAAATAGTAAGGAACTAAATTGAAAATGTTAATACATAAAAACTATTTTTTTTTTAGGATCATACAAAAAAAAAACTAAAGTGAATCTTTTTAAACGATAGATTCAATTTAGTTTTTATGTATTGACATTTTGAATAGATAGATTCAAATTGAATCGTTTTAAACGATAAAGAATATTCTCTCTCCTCCCGTTTTTCCCTGTTTGCACCCTCCCGTCTGCCCCTTCTCGTCTCCGGCAGCCTGTTTTTCTTCTCCAGTGGCCTCCGTTTCTCTGCTGGGGTATGTCGGTTTGTCATCTTTGACGATGCTCTTTTTTCTTTCGTCTCCGGTCTTTGTTTCCCCCTTCTATCACCGTCTCGTCGTCTTCTCTCCGTCCCCTCTCTGTTCGTTGTTTTCTCTCCGTCCTTTTGTTTTCCGTTGTTTGTCTGGTTGTCGTTGGGCTTTCTCGGTTTCGTCTTTCTTCTTTTTGCATCTGTTAGTCCCTTAGTCCCTTCGTTCTCTTTGCGTTTGTTCGCGTCTCTTCCCTTCGGCTTCCCCAAGGGTTTTCCTTCGTTTTCTGGACCTTCGATCTCAAGCCGCCGTCTTTTCTCGCCGACTTCTTCTCGTCTATCTCCTCCGTTCTCCTTCTTCGTGGCTCGTCCCTTCGTTCCTTATTCCTTCCTCGTAAGTCTTTTCTCTGTTTCCTTATTTCTCCATTGTTTCTTTTCTCTCTTCTCTCTCCTCCCGTCTTCGTCCTCAGGTGTGTTTTTTCCCTTTTTCCTTTTCTCTTCCCTTTGTTCTTTTCGGTGTCTTTTTTTCGTAGGTCTTTAGTTTCTCCTTTAGTTTGGTTGTAGTGTTCTTGAGTATGGAAATGCTTAGCTGTTGTATTAGTCATTCGACTTTTCGTATTGGGTCAGAACGAAATCTAGTTTTCCTTGAGGATTTTTCCAGGGGTCGAAGATTTTCTTGTCCCTGCCGCATTTGAAGTGGTTCGTTAATGCGTTTAAGGTTCTTGTTCTTTCGATTGAGTCTTTTTTTAGCCATTTAAAGTTTAAAGATGATGATGGCACGTTGGGCTTGTTTAAGATTCGCTCGAGCTTGGGTTAGGTTGCTCAATGTGTTGTATGGCCTCCTCCGGTGGTAGAAATTTCCTTAATGTTTCGCTAGGAGTTCATAAGAAAGGTTGGCTAGTGTTTTGGATAATGATTACTGACTTCCTTAAAAGTCTACAACAATTGGTTTCTCATGGGCTTGACACTCCTTTACCTCATTTGGTTGGGGCTTTCGAGTTTGATCAGTGTTCGGGAAAGCTGTTAGGTGGGGAGCGGAGAGCATCGTCAGTGGTTCAAAAAGGCTTTGGTTGTTCGGTCTCTTCTTTTTGGGTTCAAAAGTCTCTTTTGGTGGTGGGTTTGAACCTTGATAAGTTGTTGGTTGTGTCGAAATTGTTTGCCCATATTGAGTGGAAGGTGATAAAGGAAGTTCTGGAATCTTTTTTCAGTGTGAAGATCCAAATCAATCCTTTCATGGCTGACAAAGCCTTAGTCATTGTGAAACGAAGGTGTAGTTGAGAAAATGGTTCCCATTTTTGGCAAGTGGCAATTGACAGAGCCCTTTCATTTGAAAATTGAGCGTTGGTGCGATAAACTTCATAGTATTCCTGAATTCATTAGAGGGTACGAAGGTTGGATCTCAGTTCAAAACTTGCCACTTAAGTTTTGGACTAGGAAGGTTTTTGAAGTAATTGGACAACACTTTGGGGGTTTAGAGGAAATAGCAGTTGATACTTTGAATTTCCTTGATTCTTCTGAAGCACACATCAAAGTCAGAAGAAATCTTTGTGGTTTCATCTCAGGTGCCATTAAGATTCAAGATTCTCTTCTTGGAAATATCTCAATTATAGTTGGTAAGGTCTCGTTAAAGGAGCCTCTTGAACAGTGTTTTAAAAAGCCCAGTCGGGCGTGCGCCTAGGCGCGCCTAGGCTCAAGGCCCACCTTTAGTGCCTCGCCTCTTACCGTGCGCGCCTTCCATGAAGCCCAAGAGGCGCACCAGGCGCGCGCCTCTGGGGCTTCTTCAATTTATTATTTTTTTTTTCAATTTTAAAAGTAAAACTTACCGTTTTACTTATTTTAAATATATTTAGTTAAGAAGAGATTGATATTTAAGGCTTTTGATCTTGTATTGTTTCATGTTTTTTAATCGAGTATTGAGTCTATGTTCAAAGACTAATACTTGAACCTTATTTCTTTTACATATTTTTCTTGGTTAAAACTTAATTTCTTTCCATGAAGGGTTTTTTCTTATTGTGTATGTATACATATATATTTTTTATTTTTTATATATAGTGCACCTTAGAAAAAAAAAAAAGCCTGCGCCTTTTGGTGCGCCTTGCGCCTAGGCTCCAGAGGGCTATTGCGCCTTAGTGCGTCTTGAGCCTTTAAAAACACTGCTCTTGAATTAGTTAAGGATTCGTTGGTGTTAAAGGATTTTTCAAATTCGTTGGACTTGGACTGTATTTATCAGGTTATGGAGGATGAAGGGGCACTTGATTCTATCTCTTTCCTAGTAAAGGACTCTTTGGTTTTTGAAAATTCACTCCTGCTAGTTGGTGAAGTTGATGGGGATGCACATGAGGTAAGTTTGCAAGTATGTGGAGAGGATTTGGTGCCTTCGATGGTGAAATTGGGGGATGGCAGTAGGGCCATTGAAGCGGATAAGGTCAAGGCAGGTGAGACGTTTGGTGTTGAAGGTCGTGAGGAGTCTCCTTCGTTTTCTTTCAGGCAGAAACGGCTGGGGAATGAGGGTTCTGTGGTTAAGTTCTCTCTTATGTGGTCCAAGCAGAAAGGGGTAGTGATCAATTTTTGGGTGGGGAAGCAGGTGTAAATTCACTTCAACAAGGTATGTCTTCTATTGTGCATTTCCTTTGTGATTTGAACTCCAAAGATGGTTTGAAAAAGAAGGAATTTTTTGCTTCCCCTGTTGTTCCAACCTGGGTGAAAGAGGTCAGAAATAATTTTTGTGCAACTTATTCTAAATATTATACTCGAAAAAGGAGCAAGGTGAAAGATGTGTTCATAGGGGCCAACAAGCCTTCTCTTTTCCATGGTGAAAACTTTGAAGAATCGATTACTAAATTTCTGATCCCGAGTGAGGGTTCAAAATTAAATGGAGAGATCTCTTCAACTGTTAAGGAGCAGGTGGTTAATATTGAAAAACACAATATTGCTAATTAAGGTGTGCATTTTTATCGAGCTTGCTTGCAACCAAGGGACCCTGTTATTAAAAAGTTTGACTTCGCTAGTTTGAATGGACTGGAGGATTGGGAGGTGGATTCTATTGTAAGTTTAAGTAGTCCAGAAGGGGAATTCTCAAAGCATGCGTTGCATTTAGTTGTTAGTTCGAGGGATAATTCTCCGTTCATTAATTTAGATGGACTTTAATTCTCCTGATCAGCTTGAAAGTGGCCTGGTTGTTAATGGAACCATGGATTGTTTGGCACCTCTTGCAGATCCAGTCGTGCCTCTTGAACTGAGTAGATTTGAATCGTTAATCAAAGCTAGTGGTTTGCAGTTTAGAGGAATTGACCCTACTTCTGAGGTTGCTTTGACTCATTGAAGTTTCTCTTGTAGAACATGAGGGGTTTGGGGGACAATTCTAAGTTGGTTGGTCTGAAGATTTTGTTCGGTTGGGGTGATGCTTCAGGAATCAAAGTTGGCTTTAAATTGATTTTAAGTATCAAATCTTTTTGGAGCTTGTGTGTTTGATTTGGTGTTTGTCCTCAGCAATTCGTTTGTTTCTCAGTTGGCTAGAGCTTGGGTGGATTGTTTTGTGCGCTTGTTGGTCGGTTGTTGAGGTAGTTCTTTGGTCGGTTTCTTTGAGCGGGATGCCTCGGTGGGGTTCGACTGGTTATTGAGTTAGCTCTTGTTGTTTGGTTTTGTTTTGGTTCGGTGTGGCTTCCTTGGTTCCTTGTTGTTTCTTTCGCATTGGTTGCCATTTGTTGATCTTGCTTTGTTGGGTTTTTTGAGGTTTCCCTTTGTTTCTTGGGTCTTTGCTTTGTTTTGGTCTTTTTGGAGTTCCTTTGTATTCTCTTTGTTTTTTTTTTGTTTCTTCTGTTTGTTCATTTTTCGTTGTAAGATTTGTACTTGGAGCGTTAGTCTCCTTTCATTATATCAATCAGTGTTTTCAAAGCGCAAGGCGCACCTCAGGGCGACAAGCCCTGTGATAGCCCGAAGGCGAGAGGCGACAAAAAGGCGTGGCCCGAGTGATGCGAGGTGCAATAATTAAATATATAAATAAATAATATATACACCATAAATTGTATAGTAAATATCATATAAAATGAAAAAACCTTAAAAATTTAATATATCAATCAAATGTCTAAAGTTATCAAGAATGAAAATTATGAAATAATGAATCAGTGAACCAACAATAAAGGAAAAACTAGTATAAAACTCTAAATTTAAAAGTCTAAAATATCAATCAAATGTCATAATCATAATTTTCCTCCCCATCTAAATCTAACTCGTCATCTCCTGCTACTCCTTGATCATTCTCCTCTTCAAGATCCAATCATATGCTCGGCGAGGAAAGCGCTTGAGGAGATATAAGGACTACGATCTCTTAGAGCCGAAGGGAATGAGCTCGGCAGCTTCTTCTCCACACTTTTTTTTATCCGTGTCCGTTCCGCATGCGCTTCGCGCGCCATTGGCGCTTCCTCTACATTGTCATCATCTTCATCACTAACCGCCTGTATAGTAGGTGTTGGTGTTCGAATTCTAGAAGATGAAGCTGCAACAGTTGACTTCCCTTTAGACCTAGTGTACTTTAGAGGTTCTCTAACACCACTAGCATCTGCCACATCTCCCCATATGAGGTCGTCATCATAAAAAACCAACTCATTATCAGCTTCAAGTTCATTATCTTCTTCTTCAAGCGCCCAACCAACCATTCATTACTCTCATCAATATGATTAAGAGAAATTGGATCAAGTTGATCCTTCAAATCGAAGCGTTCTTTAAGTGCTTGGTTGTATTTTATATAAACTAAATCATTTAAACGCTTCTGCTCTAACCTGTTTCTCTTCTTCGAATGAATCTACAAAATCAATAATGAATATAGAGTTAAAAAGTAATGTTTAAATATTAAATTAATAAGGTATAAGACAAATTAACCACTCACGTGTTCAAAAACACTCCAATTGCGTTCACAACCAGAAGCATTACATGTGAGATTTAGAACTCTCATGACCAACCTTTGTAGAATTGGAGTACTACCCCCATAAAGAGCCCACCACGATGCTGTTCACATTGTCACATGTTTAAAATGGTTTAGGATTAACTCTTGGAATAACTTTAGTTTAAAACCCAAACATTTAAAGAATAACAATACCTGGCGTCTTAATTTTCCTCGTGTTGATAGCTAAATCGATGCCAAACATGCCTTTAGCTTCCGAATACAACTCCAATTCCACCGTGCATCGGTTTTGGTCATTCTTTGATGGTATTAGTCGTTGCACAACTTGAAGTAGACCACTCATAACTTCTACATCTTGAATAATTCTATCTTTGTGATCATAAAAAAGAGATGGATTTAAATAATAACCGACTGCATGTAAAGGTCGATGAAGTTGGCAATCCCATCTTTTGTCAATGATATCCCAAATAGGTTTATATTTTGCTTCATTATCATTAAACCCGCTCTTGATAGCCTCTTTTGCTCGATCCATAGCCTCATATATGTACCCCATAGCTGGTTTGTCACCATCAACTAATCTAAGAACACGAACTAGTGGCCCCGATGCCTTTAACATATAGACAACTGAGTTCCAAAACGATGGCATCAAGATAGTGTCAGCTGCTCTCTTACCCTTTGGATCCTTTGCCCATTTAGAAGTTGTCCATATCTCAAAGATGAACATCTTTCTCAAATTCACCTTATTTTTATGAATACTCGATAGTGTCAAGAATGATGTTGCAAATCGAGTCACGGCGGGTCTTACCAATTCATGTTGATTAGTGAATTCTCTCATCATGTTTAGCACATACAAGTGGTTATAAAACCACTAAGTGCCACAGCCTTTTTAATACACCTTTTGATTTGATCCATCTTTCCAATATCTTCTAACATCAAATCTAAACAATGAGCAGCACATGGTGTCCAATATAAATGTGGCCGTTTCGCTTCTAAAGATTTACCAACTAAGACATAATTTGAGGCATTATCAGTAACAACTTGTATGACATTTTCTTCTCCAATCTTCTCTACCATTCCATCCAAGAGTTCAAATACTTTTTCACGTTTTGATGCATGAAGATGCATCAATGGATTCCAAAATAATGTTCCAAAGCAGAATGAACTAAAAAGTTTATTAAAGTTCTATCTCTTCTATCATCCACCCATCCGACATCAACGAACATCCATTTTTTTCCATTCAACCTCATGATTACTAACTATTGTTTTAGTAAATTCTACCTCCTTTTTCAAACATGTAACTCTAGCCTCATGATAAGAAGGAGGCTTCAAAACCAGGCCAAATTGACTAACCGCTTCTAACATTACATGAAAACTTCTTAAGCGAATGGTGTTTAACGGGATACCGCTTGATAAATCCAACGCATGATGAATTGAATCGTAGTATCCTTCCTCCTTGTTATATTTTTCTGTAATGCTAGATTGCTTCAACTTCTTCATCCTATTCCTATCATCAACAACTTTGGTTGGATCGGGATAAACAAATTTATCCATGGCTCTCTTTTGTCGTGGTGGCTTCAAGTTCAATTGTGACCGACTTCCACTAGATCCTTCTGCACTGCCAAGAGCTCGCTTTCTAGATGTTCCAGTACTTGAACTCGATCCTCCAATGGCATCCATCTCATCCTCTTCATCAATTGCATTCAAATCATAATCTTCGAAGTTTGTTAGTGCACTACTTTCTTCTCGCTTTGCTTTTGTTTTTGTTTGATAATCCTTCAATTCCTCTCTTACATTGGTTGGGCACTTTAAACATGCTTTTACATTTCGATTCCCACCAACTAAATGATGAGTTGCTCTACAAATTCCACCTTTTGTGATTTTTCCACAAAATATGCATTTGCAAGAATTTGTGTCTTTCTCATCCTCCAAAACAACATATTTCCAACAGGGGTGCTTTCTTTTTGTATCAACATCTCCCATATTGATTGATTCCTATTAGAAGAAGGAAAATTGAAGAAGCTAGCCACGGCAACACCACCACCAACCAGCAATCAATGAAGAAGCAAGAAGAAAAACTAGGAACAGAACAACCAAACCAAACAACCAACCAAACCAAACAACCAACCAAAACTAGGAAGAGAAGCAGCACTGCAGCAGCAAACGAACAGAAGAAGAAAGAAGAAATCGATGAAGAAAAACCAAGCAGGAAGAAGCAGCGACAAGCGAAGCAATCGATGAATGAAGAAGAAGCAAAGAGCAAAGAATCGATGAACTTCCAAAGAAGTAATCGATGAAGGAAAGCTTCCTGCACGGCAGCACCACCAGCAACACCAACGACCAGCAACAATCGATGAAGAAAAACGTCCAACCAATGAAGCGTCAAATGCAGAGAGGACTCGAGAAGAGAGGAGAAGTCTGGACCGTTTTCAACTTTTCATTAAAAAAAAACCTACGAAGCGTCAAATGCATGGTGCATGGAGTTCATGGGCTTATGTGTGGACTGGCATTTAGGGTTTCGTGTAGATGAAGTTAAGTTTAAATTTAAAAAAAAAAAAAATGCCTTTGATGCGCAGGCGAGGCGCAACCAGGCGCGCGCCTCCTTGAAGTAGCCCGCCTTGCAGGTGTTGGAAGCGCAACTCCTCATTTTCGCCGCGCCTTGCGCCTCGAAAACACTGATATCAATGAAATCTTTGTTGCCTTATAAAAAAAAAAAACGATAGAGACTAAATTAAAAAAACACTTAGGACTAAAACATATATTCAGCCTTTTAGAAATGTGCAGGGTTATGCACAATGTTGTTTTGTGGAGGATTTGCTGCGCGATAAAAGTGCCAAGAGGAAGATTTTATTTTCATTCTGTTGCCTTTCTTCAGCAAGTGCGATTATTGTTATTCTACTCTATGCAAAAAGTTGACACATCTAAAATTTAAAATGTAATCGATGAAATTTAGCAAGACAATTTACGTCTTTCAAATATAATACTTAATAGTAGGCATTCCATCATCCATCATATTAACCTGACACCTTTCACTATTGAAATTTTTTCTGGGACTATATCATTACTGAAACCGTTGATTTTATATTCAACAGCTTTCCTAGAACGAATGTCCTCTGGTTGCTCTACCTTGTGGATATATTACTTCTGAAGAAATCATTTGTAAGTGTTCTATATTTAATCAGGAAACCATTCATTGCCCTTCTTATCCTGTACAACTTTTATTTACGTGAAGTTAAATGACCTAAGAATTGAATTTAGCTTTCAGAACTGTATTTCTCACTTCTCAAAGACTTCTAGAGTAGATTGAAATGATGTTCAGTACATTTTGGATGCATAATCTCAACAGAATTTGTCGAAGTTATAATACTTATTGTGAAGCTCGATTATTGAATCTCTAGATAAGTAGCTACAATTTTTTAGTTGTATTTTTTCTAAAAGTTCATACATATTTAGAAAGTTTAGTTTTGAAGTGGTTTTGTATATGTATTATGTGTCTATATCTAGAGAGAACTTGGTAAAGTGTAAGGAGTTATTTGGCGCGCTGGTTTAGAATTAGAAACTCTGAGAATCCTTGGCTGGAATCAGAAACCCTGGTTCTTGATTGCAGTGTTTGGGGTGCAAGCTGAAACCTGTGTTTGGAGTCTAGGGTTGGGATGGGCTGAGGTTGTTTAGGCTGTTTTTTTTTATCAATTTTTTTAGGATTTTTTTTTTCATATCCATTTTGTTTACTTGATAATTGTTTGTTGAATTGCATATCAATATTTTAACAAATTATGTGGATTAATTGTTTCAATAATAGTTAAATATTAATGTGTAGTTTGTATAAGTATATTAATATCTCATTTACTCCATTCATTATGATGTAAAATTAAATAACATTAGTAAGAACATATAATTTAAGTAATTAATACTTTATTTCATTAAGTATTCAGAAAACAATTTTTGGAACTCTATTTTAGAAATTAAAAAATTGGGAACATTTAATAAATTAAGGAATCTAAAACTTTATTTCATGAAGTATTCATAAACCTATTTTTGGAACTCTATTTTAGAGATTAAAAAATTGAAAGTCTATCTAAGAAATTAGGGAATTTAAAACTCTATTTCACAAAGTATTCATAAACCTATTTTTGGAACTTTATTTTACAAATTAAAATATTGGAGGTATATTTAAGAAATTATGGAATTTAAATAAAATTGTGCACAGTATTTTGAAATATATTCCAAGGATAAATGAGTTATAAAATTCGAATTCTATTTTAGAAATTAAAATATTAGAAACTCTATTTTGCACTGTAATTTGTAACCTATTTCAAATATATAATGGGTTAAAAAATTTGTTTAGTAGCTATTTTTAGTTTTATTTTAACCTTTTAAAAAATTGACTCGATTGTTGGGTTGCTGGGGTGATTGTTGGGGTGGTCGTGTTAATGGATTTGTTGGGTTGATGTGGTGGTTGGGTTGCCAAGGTGATTGCTGGTGGTAATTGTGCGGTGGTCAGATCGCCGGAGTGGTTGTTTGGTGGTTGTCGATAATAGTTGTTGGGTGGTCGGGTTGCTAGAGTGGTCATGTCGGAGTGGTCACTGGGTGGTTGTGGTAGTGGTTGTCGACTCATTGGAGTCGTTGTCAGAATGGTCATTAGGGTGGTCGGGTTGTTGGGTAGTCGGATCGCCAGGGTGATCACTAGAGGGGTCACAAGGTGGTTGGATTGTTAGGTCATCGGGGTGATTGCCGAAGTAGTCATCAGGGTGGTCGAGTCATCGGAGTGGTTACTAGGTGGTCGAATTTTCGGGGTAGTCGTCAACTATGATTGCTTGGTGGTTGGGTCGTCGAAGTGGTTGTCAGATGGTCGTTGGCAGTGGTTCGGACTCGTCGAGTCGTGGTGGTTGGGTCATGGGAGTGTCAAGTTGTTGGGGTGGTCGAGTCGTAGGGGTGGTCGTCAAATTGATCTACAAAGTTCTCATTGCAGTGGTCATCGGAGGTAATCAACACCAGTGGTTGGATCGCCGGTGTGGTCGTTGGAGTTGTCGTTGTTGTATAGTCGTTGGAGCTTTCATTGAAGTTGTTGTCGAAGTGGTCGTCTGAAATGAAAAACGACAAGCGGAAGAGGAAAAAATGACACAAACCTCATGAGGTTGCATTGTTGTAATCCATGGTGTTGTGTTTCAAAATTAAGGGTTTTGGGTTCCATCCCAACCCAAAACTATGAGCCAAACACCCTCTAAAGTGGCTTATACTGAAGATTGATATGAAATCTAAAGAAAAATTCCTTGGCTGCTTTCCTCCCCCACCCTTTTCTTTTTTTGTGGTGTTATCGATAGCCTTCTAGGGGGTTCAAACATCCAAAAAAGGTGTACATTTACAGTGGTTTTGGAAATGTCTTAGCTGTCTGAAATGTCAACCGTAAGAATTTGATTAAAAGGTTGTCAATAATTTTTCAGGAGCGTAGTTCAAAGCATGAAAGGGGACTGCGTGCATTCAAGAAACGTCTGGACAAATATAATTCAGCAAAAGAAGCAATTTTTGATCCATTTTTCAGTGAGTTGATTGTTTGGCCAAGCCATGGAGTAGAGTTGGACGATTTTAAACTCTCAACATGA

mRNA sequence

ATGCTGATATATCATGTATGTTTGATATATCAAGAATATAATAGTGATATAAATAGTGATATACTCAATGCTAGTTACTTGCATATGATAATGTTCATTGATATACTACTAATATACTCAAGGTTAGGTATATCACCTTTAGCTTTTTTTTTTTTTTCAGGGATATTTAAATGTCGTCATTTCCGGCCGTGGCCCATTGGCCTCCCGCCATTCGGACTTTCGAACGCTCCTTCTCTGCGTTTGGCTATCTGCTCTGTCAGTGCCTCTACTTTCTCCAATCTTCCGATCATGAGTTCCAACCCAGGTGGGAAGTCCGTCGATTTATGGTCCGAGTTAATAGCTAGCGAAGGAAGCGAGCGCCAAGAAGAAGCGCGAGTTGTAGAAGTTTATAGACGAAGAAGGCCACCCCAGAAGGCCGTTCATGACGTTCCCTTAGGGAGGGCGAGTATTGCAATTGAGGCCTGTATGCATCATCAACTTCAACAAAACCAGGCAAAGAGAAAAGGAAAACCTGCTCTACCCAAAGGAAAGTGTGTACAACCTACAAACTTTGACAAAGAGCGTGCATACTTTCAAGAGGTAGATGCCTTTGAGTTATTGGAGGAGAGTCCTTCACCCAAGAGCTTCAGTACATGGGCAAGCAGCCAGTTTGATGGTGCTGCCGTACCATCTCTTTGCTCTAGAGTAGAAAAATGGTTAATTTCCAAGAAATCAAATTACAGTCTTGCACCTTCGAGCACGTTATCGAAGATATTAGAAACTCCACTTGCATCCATTGAACCTTTCAATGGCAATCATTTGGATAACATCAATTTGAGAACTCCTGAGAAGTCTGCTAGAGAGCTGGATGCACGCTTGAGCTCTATTCAGAGAAGATTTATTTCCAGTTTAAATGATAACGATGTCCTTGAAATAGATAGCAGTCGAGACAACAGAAATACTAGAGCAGAAGATGTGAGCACAGAGGATTGTGGAAACATTGAAGTTGCCGTGAAGAAACTTTCTTTAACATCAACATCCACTTCTTTCCATGACTATAATTTGGATCCACTTAATGCATTATTAGCAGTTTGTGGACAGTCGGCTCCTTCCACGCTTAAGGATGCATTCTCTAATTATTGTGACCCGGAAACTATTGTCAAAGTTGGGGAAGGTACATATGGAGAAGCTTTTAAAGCTGGTAACACCGTTTGCAAGATAGTTCCAATTGACGGAGATTTACGAGTTAATGGAGAAGTGCAAAAGAGATCAGAGGAACTGCTCGAGGAAGTCATACTTTCCAGAACTCTGAATTCTCTACGAAGTAATGAAAGCGGTGCCAATAACTTTTGCACAACATTCATACGAACCATAGATTTAAGGGTATGTCAAGGTTCTTATGATTCTGTACTAATCAAGGCTTGGGAAGATTGGGATGAAAAGCATGGTTCAGAAAATGATCACCCTAAGGAGTTTCCAGAAAAACAGTGTTATGTTGTGTTTGTTCTTCAACATGGAGGAAAAGATCTTGAAAGCTTTGTGCTCCTGAACTTTGATGAGGCCCAGAGTTTATTAGTACAGGTTACTGCAGCTCTGGCTGTGGCTGAAGCTGCTTATGAATTTGAACACCGGGATCTGCACTGGGGAAATGTACTTTTAAGTCGGAATGATTTTGAAGCACTGCCGTTCACCCTTGAGGGCAAGAACATGACCGTGCAAACATTTGGACTTCAGATTTCGATAATTGACTTCACTCTATCACGAATCAATACTGGTGAAGACATACTCTTTTTAGATCTCTCGTCGGATCCTTATCTCTTTAAGGGACCAAGAGGAGACAGACAATCGGAAACATATAGGAAAATGAAGGAGGTGACCGGAGATTGCTGGGAGCGGAGCTTTCCTAGAACGAATGTCCTCTGGTTGCTCTACCTTGTGGATATATTACTTCTGAAGAAATCATTTGAGCGTAGTTCAAAGCATGAAAGGGGACTGCGTGCATTCAAGAAACGTCTGGACAAATATAATTCAGCAAAAGAAGCAATTTTTGATCCATTTTTCAGTGAGTTGATTGTTTGGCCAAGCCATGGAGTAGAGTTGGACGATTTTAAACTCTCAACATGA

Coding sequence (CDS)

ATGCTGATATATCATGTATGTTTGATATATCAAGAATATAATAGTGATATAAATAGTGATATACTCAATGCTAGTTACTTGCATATGATAATGTTCATTGATATACTACTAATATACTCAAGGTTAGGTATATCACCTTTAGCTTTTTTTTTTTTTTCAGGGATATTTAAATGTCGTCATTTCCGGCCGTGGCCCATTGGCCTCCCGCCATTCGGACTTTCGAACGCTCCTTCTCTGCGTTTGGCTATCTGCTCTGTCAGTGCCTCTACTTTCTCCAATCTTCCGATCATGAGTTCCAACCCAGGTGGGAAGTCCGTCGATTTATGGTCCGAGTTAATAGCTAGCGAAGGAAGCGAGCGCCAAGAAGAAGCGCGAGTTGTAGAAGTTTATAGACGAAGAAGGCCACCCCAGAAGGCCGTTCATGACGTTCCCTTAGGGAGGGCGAGTATTGCAATTGAGGCCTGTATGCATCATCAACTTCAACAAAACCAGGCAAAGAGAAAAGGAAAACCTGCTCTACCCAAAGGAAAGTGTGTACAACCTACAAACTTTGACAAAGAGCGTGCATACTTTCAAGAGGTAGATGCCTTTGAGTTATTGGAGGAGAGTCCTTCACCCAAGAGCTTCAGTACATGGGCAAGCAGCCAGTTTGATGGTGCTGCCGTACCATCTCTTTGCTCTAGAGTAGAAAAATGGTTAATTTCCAAGAAATCAAATTACAGTCTTGCACCTTCGAGCACGTTATCGAAGATATTAGAAACTCCACTTGCATCCATTGAACCTTTCAATGGCAATCATTTGGATAACATCAATTTGAGAACTCCTGAGAAGTCTGCTAGAGAGCTGGATGCACGCTTGAGCTCTATTCAGAGAAGATTTATTTCCAGTTTAAATGATAACGATGTCCTTGAAATAGATAGCAGTCGAGACAACAGAAATACTAGAGCAGAAGATGTGAGCACAGAGGATTGTGGAAACATTGAAGTTGCCGTGAAGAAACTTTCTTTAACATCAACATCCACTTCTTTCCATGACTATAATTTGGATCCACTTAATGCATTATTAGCAGTTTGTGGACAGTCGGCTCCTTCCACGCTTAAGGATGCATTCTCTAATTATTGTGACCCGGAAACTATTGTCAAAGTTGGGGAAGGTACATATGGAGAAGCTTTTAAAGCTGGTAACACCGTTTGCAAGATAGTTCCAATTGACGGAGATTTACGAGTTAATGGAGAAGTGCAAAAGAGATCAGAGGAACTGCTCGAGGAAGTCATACTTTCCAGAACTCTGAATTCTCTACGAAGTAATGAAAGCGGTGCCAATAACTTTTGCACAACATTCATACGAACCATAGATTTAAGGGTATGTCAAGGTTCTTATGATTCTGTACTAATCAAGGCTTGGGAAGATTGGGATGAAAAGCATGGTTCAGAAAATGATCACCCTAAGGAGTTTCCAGAAAAACAGTGTTATGTTGTGTTTGTTCTTCAACATGGAGGAAAAGATCTTGAAAGCTTTGTGCTCCTGAACTTTGATGAGGCCCAGAGTTTATTAGTACAGGTTACTGCAGCTCTGGCTGTGGCTGAAGCTGCTTATGAATTTGAACACCGGGATCTGCACTGGGGAAATGTACTTTTAAGTCGGAATGATTTTGAAGCACTGCCGTTCACCCTTGAGGGCAAGAACATGACCGTGCAAACATTTGGACTTCAGATTTCGATAATTGACTTCACTCTATCACGAATCAATACTGGTGAAGACATACTCTTTTTAGATCTCTCGTCGGATCCTTATCTCTTTAAGGGACCAAGAGGAGACAGACAATCGGAAACATATAGGAAAATGAAGGAGGTGACCGGAGATTGCTGGGAGCGGAGCTTTCCTAGAACGAATGTCCTCTGGTTGCTCTACCTTGTGGATATATTACTTCTGAAGAAATCATTTGAGCGTAGTTCAAAGCATGAAAGGGGACTGCGTGCATTCAAGAAACGTCTGGACAAATATAATTCAGCAAAAGAAGCAATTTTTGATCCATTTTTCAGTGAGTTGATTGTTTGGCCAAGCCATGGAGTAGAGTTGGACGATTTTAAACTCTCAACATGA

Protein sequence

MLIYHVCLIYQEYNSDINSDILNASYLHMIMFIDILLIYSRLGISPLAFFFFSGIFKCRHFRPWPIGLPPFGLSNAPSLRLAICSVSASTFSNLPIMSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPLGRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTNFDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLAPSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVLEIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAPSTLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEEVILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPKEFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGNVLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGPRGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKKRLDKYNSAKEAIFDPFFSELIVWPSHGVELDDFKLST

Homology

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BLAST of Tan0011152 vs. ExPASy Swiss-Prot
Match: O80528 (Serine/threonine-protein kinase haspin homolog OS=Arabidopsis thaliana OX=3702 GN=HASPIN PE=1 SV=1)

HSP 1 Score: 658.7 bits (1698), Expect = 7.5e-188
Identity = 354/611 (57.94%), Postives = 439/611 (71.85%), Query Frame = 0


Query: 103 GKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPL----------------- 162
           G+ VDLWSE+I SE  E  +  ++  V++RR+ P K+   V                   
Sbjct: 2   GQRVDLWSEVIKSE-EEDGDIPKIEAVFQRRKKPDKSSEAVNFGWLVKGARTSSVNGPKR 61

Query: 163 ----------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTNFDKERAYFQEVD 222
                     GR SIA+ A +++Q Q+  A RK KP +PKGK V+  +F KE+ YF+++D
Sbjct: 62  DSWARSLSTRGRESIAVRAYVNNQPQKKAAGRK-KPPIPKGKVVKAPDFQKEKEYFRDID 121

Query: 223 AFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLAPSSTLSKILETP 282
           AFELLEESPSP   STW   +     +P L +R+EKWLISKK N++  PSSTLSKILE  
Sbjct: 122 AFELLEESPSPNKSSTWTMGEQVVPEMPHLSTRLEKWLISKKLNHTCGPSSTLSKILENS 181

Query: 283 LASIEPFNGNH-LDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVLEIDSSRDNRNT 342
               E    N   D+++L+TP+KS+    A  +S+  R I S ++N   E       R  
Sbjct: 182 AIHQESVCDNDAFDSLSLKTPDKSS----AGNTSV-FRLIPSCDENLAAE---DVPVRKI 241

Query: 343 RAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAPSTLKDAFSNYC 402
           + E +  ED       +K+LSLTS     H     P+  LL+ CGQ  PS   +AFS +C
Sbjct: 242 KMESIDLED------ELKRLSLTSDLIPTHQDFDQPILDLLSACGQMRPSNFIEAFSKFC 301

Query: 403 DPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEEVILSRTLNSLR 462
           +PE+IVK+GEGTYGEAF+AG++VCKIVPIDGD RVNGEVQKR++ELLEEVILS TLN LR
Sbjct: 302 EPESIVKIGEGTYGEAFRAGSSVCKIVPIDGDFRVNGEVQKRADELLEEVILSWTLNQLR 361

Query: 463 SNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPKEFPEKQCYVVF 522
             E+ A N C T+I+T D+++CQG YD +LIKAWE+WD KHGSENDHP +FPEKQCYV+F
Sbjct: 362 ECETTAQNLCPTYIKTQDIKLCQGPYDPILIKAWEEWDAKHGSENDHP-DFPEKQCYVMF 421

Query: 523 VLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGNVLLSRNDFEAL 582
           VL+HGGKDLESFVLLNFDEA+SLLVQ TA LAVAEAA+EFEHRDLHWGN+LLSRN+ + L
Sbjct: 422 VLEHGGKDLESFVLLNFDEARSLLVQATAGLAVAEAAFEFEHRDLHWGNILLSRNNSDTL 481

Query: 583 PFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGPRGDRQSETYRK 642
           PF LEGK + ++TFG+QISIIDFTLSRINTGE ILFLDL+SDPYLFKGP+GD+QSETYRK
Sbjct: 482 PFILEGKQVCIKTFGVQISIIDFTLSRINTGEKILFLDLTSDPYLFKGPKGDKQSETYRK 541

Query: 643 MKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKKRLDKYNSAKEA 686
           MK VT D WE SF RTNVLWL+YLVDILL KKSFERSSKHER LR+ KKR++KY SAKEA
Sbjct: 542 MKAVTEDYWEGSFARTNVLWLIYLVDILLTKKSFERSSKHERELRSLKKRMEKYESAKEA 595

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BLAST of Tan0011152 vs. ExPASy Swiss-Prot
Match: Q2KIP2 (Serine/threonine-protein kinase haspin OS=Bos taurus OX=9913 GN=HASPIN PE=2 SV=1)

HSP 1 Score: 221.5 bits (563), Expect = 3.0e-56
Identity = 134/322 (41.61%), Postives = 183/322 (56.83%), Query Frame = 0


Query: 354 LLAVCGQSAPSTLKDAFSNYCDPETIVKVGEGTYGEAFKAGN----TVCKIVPIDGDLRV 413
           L   C Q  P    D  S     E   K+GEG +GE F+          KI+ I+G   V
Sbjct: 446 LYGECNQVGPIPFSDYLSEE-KLECCEKIGEGVFGEVFQTVTNHTPVALKIIAIEGQNLV 505

Query: 414 NGEVQKRSEELLEEVILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWE 473
           NG  QK  EE+L E+I+S+ L SL S+E  A N    FI    +   QGSY  +L++AW+
Sbjct: 506 NGAHQKTFEEILPEIIISKEL-SLLSDE--ACNRTEGFIGLNSVHCVQGSYPPLLLQAWD 565

Query: 474 DWDEKHGSENDHPKEFPEKQCYVVFVLQHGGKDLESF--VLLNFDEAQSLLVQVTAALAV 533
            +    GS ND P  F E Q ++V   + GG DLE     L +   A+S+L Q+TA+LAV
Sbjct: 566 HYHSTKGSANDRPDFFREDQLFIVLEFEFGGIDLEQMRKKLSSIATAKSILHQITASLAV 625

Query: 534 AEAAYEFEHRDLHWGNVLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGED 593
           AEA+  FEHRDLHWGNVLL +   + L +TL GK  ++ T GLQ++IID+TLSR+     
Sbjct: 626 AEASLHFEHRDLHWGNVLLKKTSLKELHYTLNGKKSSIPTRGLQVNIIDYTLSRLERDGI 685

Query: 594 ILFLDLSSDPYLFKGPRGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKS 653
           ++F D+S D  LF G +GD Q E YR M++   +CW    P  NVLWL YL D +L + +
Sbjct: 686 VVFCDISRDEDLFMG-QGDYQFEIYRLMRKENNNCWGEYHPYNNVLWLHYLTDKILNQMT 745

Query: 654 FERSSKHER-GLRAFKKRLDKY 669
           F+  SKH    L+  KK++  +
Sbjct: 746 FK--SKHNTPALKRMKKQIQHF 760

[Close]

BLAST of Tan0011152 vs. ExPASy Swiss-Prot
Match: Q9Z0R0 (Serine/threonine-protein kinase haspin OS=Mus musculus OX=10090 GN=Haspin PE=1 SV=3)

HSP 1 Score: 216.5 bits (550), Expect = 9.8e-55
Identity = 143/389 (36.76%), Postives = 203/389 (52.19%), Query Frame = 0


Query: 302 VLEIDSSRDNRNTRA--EDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNAL----- 361
           V+E+ SS  + ++R+   + ST    N      +  LT +S     Y L PL  L     
Sbjct: 358 VIEVCSSVASSSSRSLLSECSTPPIKN------RAHLTVSSRCSSVYLLSPLKTLHVTDQ 417

Query: 362 --------LAVCGQSAPSTLKDAFSNYCDPETIVKVGEGTYGEAFKAGN----TVCKIVP 421
                      C Q  P    D  S     E   K+GEG +GE F+  N       KI+ 
Sbjct: 418 RPSYAEKVYGECNQEGPIPFSDCLSTE-KLERCEKIGEGVFGEVFQIINDQAPVALKIIA 477

Query: 422 IDGDLRVNGEVQKRSEELLEEVILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDS 481
           I+G   VNG  QK  EE+L E+I+S+ L+ L S    A N    FI    +   QG Y  
Sbjct: 478 IEGLDLVNGSHQKTFEEILPEIIISKELSLLSSE---AYNRTEGFIGLNSVHCVQGLYPP 537

Query: 482 VLIKAWEDWDEKHGSENDHPKEFPEKQCYVVFVLQHGGKDLESF--VLLNFDEAQSLLVQ 541
           +L+KAW+ ++    S ND P  F E Q +++   + GG DLE     L +   A+S+L Q
Sbjct: 538 LLLKAWDHYNTTKRSANDRPDFFQEDQLFIILEFEFGGVDLERMKTKLSSVATAKSILHQ 597

Query: 542 VTAALAVAEAAYEFEHRDLHWGNVLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLS 601
           +TA+LAVAEA+  FEHRDLHWGNVLL + + + L +TL GK  T+ T GLQ++IID+TLS
Sbjct: 598 ITASLAVAEASLHFEHRDLHWGNVLLKKTNLKELRYTLNGKTSTIPTHGLQVNIIDYTLS 657

Query: 602 RINTGEDILFLDLSSDPYLFKGPRGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVD 661
           R+     ++F D+S++  LF G  GD Q E YR M++   +CW    P  NVLWL YL D
Sbjct: 658 RLERDGIVVFCDISAEEDLFTG-EGDYQFEIYRLMRKENKNCWGEYHPYNNVLWLHYLTD 717

Query: 662 ILLLKKSFERSSKHERGLRAFKKRLDKYN 670
            +L K  F ++      ++  +K L  ++
Sbjct: 718 KILNKMKF-KTKCQSAAMKQIRKNLQHFH 734

[Close]

BLAST of Tan0011152 vs. ExPASy Swiss-Prot
Match: Q8TF76 (Serine/threonine-protein kinase haspin OS=Homo sapiens OX=9606 GN=HASPIN PE=1 SV=3)

HSP 1 Score: 214.9 bits (546), Expect = 2.9e-54
Identity = 139/370 (37.57%), Postives = 201/370 (54.32%), Query Frame = 0


Query: 323 DCGNIEVAVKKLSLTSTSTSFHDYNLDPLNAL-------------LAVCGQSAPSTLKDA 382
           +C N  V  +     S+  S   Y L PLN L                C Q  P      
Sbjct: 419 ECSNRPVMNRTSGAPSSWHSSSMYLLSPLNTLSISNKKASDAEKVYGECSQKGPVPF--- 478

Query: 383 FSNYCDP----ETIVKVGEGTYGEAFK--AGNT--VCKIVPIDGDLRVNGEVQKRSEELL 442
             ++C P    +   K+GEG +GE F+  A +T    KI+ I+G   VNG  QK  EE+L
Sbjct: 479 --SHCLPTEKLQRCEKIGEGVFGEVFQTIADHTPVAIKIIAIEGPDLVNGSHQKTFEEIL 538

Query: 443 EEVILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDH 502
            E+I+S+ L SL S E    N    FI    +   QGSY  +L+KAW+ ++   GS ND 
Sbjct: 539 PEIIISKEL-SLLSGE--VCNRTEGFIGLNSVHCVQGSYPPLLLKAWDHYNSTKGSANDR 598

Query: 503 PKEFPEKQCYVVFVLQHGGKDLESF--VLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDL 562
           P  F + Q ++V   + GG DLE     L +   A+S+L Q+TA+LAVAEA+  FEHRDL
Sbjct: 599 PDFFKDDQLFIVLEFEFGGIDLEQMRTKLSSLATAKSILHQLTASLAVAEASLRFEHRDL 658

Query: 563 HWGNVLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYL 622
           HWGNVLL +   + L +TL GK+ T+ + GLQ+SIID+TLSR+     ++F D+S D  L
Sbjct: 659 HWGNVLLKKTSLKKLHYTLNGKSSTIPSCGLQVSIIDYTLSRLERDGIVVFCDVSMDEDL 718

Query: 623 FKGPRGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLR 670
           F G  GD Q + YR MK+   + W    P +NVLWL YL D +L + +F ++  +   ++
Sbjct: 719 FTGD-GDYQFDIYRLMKKENNNRWGEYHPYSNVLWLHYLTDKMLKQMTF-KTKCNTPAMK 778

[Close]

BLAST of Tan0011152 vs. ExPASy Swiss-Prot
Match: P83103 (Serine/threonine-protein kinase haspin homolog OS=Drosophila melanogaster OX=7227 GN=Haspin PE=1 SV=1)

HSP 1 Score: 199.9 bits (507), Expect = 9.5e-50
Identity = 104/297 (35.02%), Postives = 167/297 (56.23%), Query Frame = 0


Query: 354 LLAVCGQSAPSTLKDAFSNYCDPETIVKVGEGTYGEAFKA-----------GNTVCKIVP 413
           +L  C Q  P     A+  +    T  K+GEG YGE F+             + V KI+P
Sbjct: 227 VLKYCHQCTPLPFNTAYEQHKLLNT-KKIGEGAYGEVFRCSRNQEVLKDHISDIVLKIIP 286

Query: 414 IDGDLRVNGEVQKRSEELLEEVILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDS 473
           ++G   +NGE QK   ++L E+I+++ + SLR++++ + N    F+    + + +G Y  
Sbjct: 287 LEGSTVINGEKQKTFSQILPEIIITKKMCSLRTSKTNSTN---GFVSIQKVSLVKGRYPP 346

Query: 474 VLIKAWEDWDEKHGSENDHPKEFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVT 533
             IK WE +D + GSENDHP+ F + Q + V  L+  G D+ +F  LN +++   L Q+ 
Sbjct: 347 HFIKLWEKYDNEKGSENDHPELFGDNQLFAVLELKFAGSDMANFKFLNSEQSYYALQQII 406

Query: 534 AALAVAEAAYEFEHRDLHWGNVLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRI 593
            ALAV E  Y+FEHRDLH GN+L+   + + +  T +  N+T+ + G+ ++IID+TLSR+
Sbjct: 407 LALAVGEEEYQFEHRDLHLGNILIEYTNKKHIVCTFKSSNLTLLSKGVNVTIIDYTLSRV 466

Query: 594 NTGEDILFLDLSSDPYLFKGPRGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLV 640
              +   F DLS D  LF+   GD Q + YR M+    + W    P+TN++WL Y++
Sbjct: 467 TINDCCYFNDLSRDEELFQA-TGDYQYDVYRMMRNELKNNWSSFSPKTNIIWLSYVI 518

[Close]

BLAST of Tan0011152 vs. NCBI nr
Match: XP_022968692.1 (serine/threonine-protein kinase haspin homolog [Cucurbita maxima] >XP_022968693.1 serine/threonine-protein kinase haspin homolog [Cucurbita maxima])

HSP 1 Score: 1036.9 bits (2680), Expect = 7.7e-299
Identity = 528/625 (84.48%), Postives = 554/625 (88.64%), Query Frame = 0


Query: 97  MSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPL----------- 156
           M+S PGGK +DLWSELIASEGSE QEEARV EVYRRRRP QK VH+VPL           
Sbjct: 1   MNSKPGGKGIDLWSELIASEGSEGQEEARVEEVYRRRRPSQKTVHEVPLKQNLGSNLRDV 60

Query: 157 ----------------------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTN 216
                                 GRASIA+EAC+ +QL+  +AKRKGKPALPKGK VQPTN
Sbjct: 61  NRLSFAAVNSKRISWNRALSIRGRASIAVEACLDNQLRHKEAKRKGKPALPKGKFVQPTN 120

Query: 217 FDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLA 276
           FDKERAYFQEVDAFELLEESPSPK F TWASSQFD AA+PSLCS++EKWLISKKSNYSLA
Sbjct: 121 FDKERAYFQEVDAFELLEESPSPKRFGTWASSQFDSAALPSLCSKIEKWLISKKSNYSLA 180

Query: 277 PSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVL 336
           PSSTLSKILETPL SIEP  G HLD  NLRTP+KSARE DARL SIQRRFISSLND D L
Sbjct: 181 PSSTLSKILETPLESIEPIGGKHLDKSNLRTPDKSARETDARLCSIQRRFISSLNDVDAL 240

Query: 337 EIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAP 396
           EIDS+RDNR+TRAEDVSTED  ++EV+VKKLSLTSTSTSFH+YNLDP NALLAVCGQSAP
Sbjct: 241 EIDSNRDNRSTRAEDVSTEDRADLEVSVKKLSLTSTSTSFHNYNLDPFNALLAVCGQSAP 300

Query: 397 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEE 456
           S LKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDL+VNGEVQKRSEELLEE
Sbjct: 301 SMLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLQVNGEVQKRSEELLEE 360

Query: 457 VILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPK 516
           VILSRTLNSLR+ E GA+NFCTTFIRTIDLRVCQGSYD++LIKAWEDWDEKHGSENDHPK
Sbjct: 361 VILSRTLNSLRNQEGGADNFCTTFIRTIDLRVCQGSYDALLIKAWEDWDEKHGSENDHPK 420

Query: 517 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 576
           EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN
Sbjct: 421 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 480

Query: 577 VLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGP 636
           VLLSRND EA+ FTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDP LFKG 
Sbjct: 481 VLLSRNDSEAMQFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPDLFKGA 540

Query: 637 RGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKK 689
           +GDRQSETYRKMKEVTGDCWE SFPRTNVLWLLYLV ILLLKKSFERSSKHER LRA KK
Sbjct: 541 KGDRQSETYRKMKEVTGDCWEGSFPRTNVLWLLYLVHILLLKKSFERSSKHERELRALKK 600

[Close]

BLAST of Tan0011152 vs. NCBI nr
Match: XP_023516003.1 (serine/threonine-protein kinase haspin homolog [Cucurbita pepo subsp. pepo] >XP_023516006.1 serine/threonine-protein kinase haspin homolog [Cucurbita pepo subsp. pepo])

HSP 1 Score: 1036.6 bits (2679), Expect = 1.0e-298
Identity = 526/625 (84.16%), Postives = 554/625 (88.64%), Query Frame = 0


Query: 97  MSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPL----------- 156
           M+S PGGK +DLWSELIASEGSE QEEARV EVYRRRRP +K VH+VPL           
Sbjct: 1   MNSKPGGKGIDLWSELIASEGSEGQEEARVEEVYRRRRPSEKTVHEVPLKQNLGSNLRDV 60

Query: 157 ----------------------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTN 216
                                 GRASIA+EAC+ HQL+  +AK+KGKPALPKGK VQPTN
Sbjct: 61  NRLSFAAVNSKRISWNRALSIRGRASIAVEACLDHQLRHKEAKKKGKPALPKGKFVQPTN 120

Query: 217 FDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLA 276
           FDKERAYFQEVDAFELLEESPSPK F TWASSQFD AA+PSLCS++EKWLISKKSNYSLA
Sbjct: 121 FDKERAYFQEVDAFELLEESPSPKRFGTWASSQFDSAALPSLCSKIEKWLISKKSNYSLA 180

Query: 277 PSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVL 336
           PSSTLSKILETPL S EP  G HLD  NLRTP+KSARE+DARL SIQRRFISSLND D L
Sbjct: 181 PSSTLSKILETPLESREPIGGKHLDKFNLRTPDKSAREIDARLCSIQRRFISSLNDIDAL 240

Query: 337 EIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAP 396
           EIDS+RDNR+T AEDVSTED  ++EV+VKKLSLTSTSTSFH+YNLDP NALLAVCGQSAP
Sbjct: 241 EIDSNRDNRSTGAEDVSTEDRADLEVSVKKLSLTSTSTSFHNYNLDPFNALLAVCGQSAP 300

Query: 397 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEE 456
           STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDL+VNGEVQKRSEELLEE
Sbjct: 301 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLQVNGEVQKRSEELLEE 360

Query: 457 VILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPK 516
           VILSRTLNSLR+ E GA+NFCTTFIRTIDLRVCQGSYD++LIKAWEDWDEKHGSENDHPK
Sbjct: 361 VILSRTLNSLRNQEGGADNFCTTFIRTIDLRVCQGSYDALLIKAWEDWDEKHGSENDHPK 420

Query: 517 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 576
           EFP+KQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQ TAALAVAEAAYEFEHRDLHWGN
Sbjct: 421 EFPDKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQATAALAVAEAAYEFEHRDLHWGN 480

Query: 577 VLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGP 636
           VLLSRND EAL FTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDP LFKG 
Sbjct: 481 VLLSRNDSEALQFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPDLFKGA 540

Query: 637 RGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKK 689
           +GDRQSETYRKMKEVTGDCWE SFPRTNVLWLLYLV ILLLKKSFERSSKHER LRAFKK
Sbjct: 541 KGDRQSETYRKMKEVTGDCWEGSFPRTNVLWLLYLVHILLLKKSFERSSKHERELRAFKK 600

[Close]

BLAST of Tan0011152 vs. NCBI nr
Match: KAG7024044.1 (Serine/threonine-protein kinase haspin-like protein [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 1036.2 bits (2678), Expect = 1.3e-298
Identity = 527/625 (84.32%), Postives = 553/625 (88.48%), Query Frame = 0


Query: 97  MSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPL----------- 156
           M+S P GK +DLWSELIASEGSE QEEARV EVYRRRRP QK VH+VPL           
Sbjct: 1   MNSKPAGKGIDLWSELIASEGSEGQEEARVEEVYRRRRPSQKTVHEVPLKQNLGSNLRDV 60

Query: 157 ----------------------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTN 216
                                 GRASIA+EAC+ HQL+  +AKRKGKPALPKGK VQPTN
Sbjct: 61  NRLSFAAVNSKRISWNRALSIRGRASIAVEACLDHQLRHKEAKRKGKPALPKGKFVQPTN 120

Query: 217 FDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLA 276
           FD+ERAYFQEVDAFELLEESPSPK F TWASSQFD AA+PSLCS++EKWLISKKSNYSLA
Sbjct: 121 FDRERAYFQEVDAFELLEESPSPKRFGTWASSQFDSAALPSLCSKIEKWLISKKSNYSLA 180

Query: 277 PSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVL 336
           PSSTLSKILETPL S EP  G HLD  NL TP+KSARE+DARL SIQRRFISSLND D L
Sbjct: 181 PSSTLSKILETPLESREPIGGKHLDKFNLGTPDKSAREIDARLCSIQRRFISSLNDIDAL 240

Query: 337 EIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAP 396
           EIDS+RDNR+TRAEDVSTED  ++EV+VKKLSLTSTSTSFH+YNLDP NALLAVCGQSAP
Sbjct: 241 EIDSTRDNRSTRAEDVSTEDRADLEVSVKKLSLTSTSTSFHNYNLDPFNALLAVCGQSAP 300

Query: 397 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEE 456
           STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDL+VNGEVQKRSEELLEE
Sbjct: 301 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLQVNGEVQKRSEELLEE 360

Query: 457 VILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPK 516
           VILSRTLNSLR+ E GA+NFCTTFIRTIDLRVCQGSYD++LIKAWEDWDEKHGSENDHPK
Sbjct: 361 VILSRTLNSLRNQEGGADNFCTTFIRTIDLRVCQGSYDALLIKAWEDWDEKHGSENDHPK 420

Query: 517 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 576
           EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN
Sbjct: 421 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 480

Query: 577 VLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGP 636
           VLLSRND EAL FTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDP LFKG 
Sbjct: 481 VLLSRNDSEALQFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPDLFKGA 540

Query: 637 RGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKK 689
           +GDRQSETYRKMKEVTGDCWE SFPRTNVLWLLYLV ILLLKKSFERSSKHER LRAFKK
Sbjct: 541 KGDRQSETYRKMKEVTGDCWEGSFPRTNVLWLLYLVHILLLKKSFERSSKHERELRAFKK 600

[Close]

BLAST of Tan0011152 vs. NCBI nr
Match: XP_022961448.1 (serine/threonine-protein kinase haspin homolog [Cucurbita moschata] >XP_022961449.1 serine/threonine-protein kinase haspin homolog [Cucurbita moschata])

HSP 1 Score: 1034.6 bits (2674), Expect = 3.8e-298
Identity = 526/625 (84.16%), Postives = 553/625 (88.48%), Query Frame = 0


Query: 97  MSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPL----------- 156
           M+S P GK +DLWSELIASEGSE QEEARV EVYRRRRP QK VH+VPL           
Sbjct: 1   MNSKPAGKGIDLWSELIASEGSEGQEEARVEEVYRRRRPSQKTVHEVPLKQNLGSNLRDV 60

Query: 157 ----------------------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTN 216
                                 GRASIA+EAC+ HQL+  +AKRKGKPALPKGK VQPTN
Sbjct: 61  NRLSFAAVNSKRISWNRALSIRGRASIAVEACLDHQLRHKEAKRKGKPALPKGKFVQPTN 120

Query: 217 FDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLA 276
           FD+ERAYFQEVDAFELLEESPSPK F TWASSQFD AA+PSLCS++EKWLISKKSNYSLA
Sbjct: 121 FDRERAYFQEVDAFELLEESPSPKRFGTWASSQFDSAALPSLCSKIEKWLISKKSNYSLA 180

Query: 277 PSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVL 336
           PSSTLSKILETPL S EP  G HLD  NL TP+KSARE+DARL SIQRRFISSLND D L
Sbjct: 181 PSSTLSKILETPLESREPIGGKHLDKFNLGTPDKSAREIDARLCSIQRRFISSLNDIDAL 240

Query: 337 EIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAP 396
           EIDS+RDNR+TRAEDVSTED  ++EV+VKKLSLTSTSTSFH+YNLDP NALLAVCGQSAP
Sbjct: 241 EIDSTRDNRSTRAEDVSTEDRADLEVSVKKLSLTSTSTSFHNYNLDPFNALLAVCGQSAP 300

Query: 397 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEE 456
           STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDL+VNGEVQKRSEELLEE
Sbjct: 301 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLQVNGEVQKRSEELLEE 360

Query: 457 VILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPK 516
           VILSRTLNSLR+ E GA+NFC+TFIRTIDLRVCQGSYD++LIKAWEDWDEKHGSENDHPK
Sbjct: 361 VILSRTLNSLRNQEGGADNFCSTFIRTIDLRVCQGSYDALLIKAWEDWDEKHGSENDHPK 420

Query: 517 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 576
           EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN
Sbjct: 421 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 480

Query: 577 VLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGP 636
           VLLSRND EAL FTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDP LFKG 
Sbjct: 481 VLLSRNDSEALQFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPDLFKGA 540

Query: 637 RGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKK 689
           +GDRQSETYRKMKEVTGDCWE SFPRTNVLWLLYLV ILLLKKSFERSSKHER LRAFKK
Sbjct: 541 KGDRQSETYRKMKEVTGDCWEGSFPRTNVLWLLYLVHILLLKKSFERSSKHERELRAFKK 600

[Close]

BLAST of Tan0011152 vs. NCBI nr
Match: KAG6590511.1 (Serine/threonine-protein kinase haspin-like protein, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 1031.9 bits (2667), Expect = 2.5e-297
Identity = 526/624 (84.29%), Postives = 552/624 (88.46%), Query Frame = 0


Query: 97  MSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPL----------- 156
           M+S PGGK +DLWSELIASEGSE QEEARV EVYRRRRP QK VH+VPL           
Sbjct: 1   MNSKPGGKGIDLWSELIASEGSEGQEEARVEEVYRRRRPSQKTVHEVPLKQNLGSNLRDV 60

Query: 157 ----------------------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTN 216
                                 GRASIA+EAC+ HQL+  +AKRKGKPALPKGK VQPTN
Sbjct: 61  NRLSFAAVNSKRISWNRALSIRGRASIAVEACLDHQLRHKEAKRKGKPALPKGKFVQPTN 120

Query: 217 FDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLA 276
           FD+ERAYFQEVDAFELLEESPSPK F TWASSQFD AA+PSLCS++EKWLISKKSNYSLA
Sbjct: 121 FDRERAYFQEVDAFELLEESPSPKRFGTWASSQFDSAALPSLCSKIEKWLISKKSNYSLA 180

Query: 277 PSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVL 336
           PSSTLSKILETPL S EP  G HLD  NL TP+KSARE+DARL SIQR FISSLND D L
Sbjct: 181 PSSTLSKILETPLESREPIGGKHLDKFNLGTPDKSAREIDARLCSIQRIFISSLNDIDAL 240

Query: 337 EIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAP 396
           EIDS+RDNR+TRAEDVSTED  ++EV+VKKLSLTSTSTSFH+YNLDP NALLAVCGQSAP
Sbjct: 241 EIDSTRDNRSTRAEDVSTEDRADLEVSVKKLSLTSTSTSFHNYNLDPFNALLAVCGQSAP 300

Query: 397 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEE 456
           STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDL+VNGEVQKRSEELLEE
Sbjct: 301 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLQVNGEVQKRSEELLEE 360

Query: 457 VILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPK 516
           VILSRTLNSLR+ E GA+NFCTTFIRTIDLRVCQGSYD++LIKAWEDWDEKHGSENDHPK
Sbjct: 361 VILSRTLNSLRNQEGGADNFCTTFIRTIDLRVCQGSYDALLIKAWEDWDEKHGSENDHPK 420

Query: 517 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 576
           EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN
Sbjct: 421 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 480

Query: 577 VLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGP 636
           VLLSRND EAL FTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDP LFKG 
Sbjct: 481 VLLSRNDSEALQFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPDLFKGA 540

Query: 637 RGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKK 688
           +GDRQSETYRKMKEVTGDCWE SFPRTNVLWLLYLV ILLLKKSFERSSKHER LRAFKK
Sbjct: 541 KGDRQSETYRKMKEVTGDCWEGSFPRTNVLWLLYLVHILLLKKSFERSSKHERELRAFKK 600

[Close]

BLAST of Tan0011152 vs. ExPASy TrEMBL
Match: A0A6J1HU83 (Non-specific serine/threonine protein kinase OS=Cucurbita maxima OX=3661 GN=LOC111467856 PE=4 SV=1)

HSP 1 Score: 1036.9 bits (2680), Expect = 3.7e-299
Identity = 528/625 (84.48%), Postives = 554/625 (88.64%), Query Frame = 0


Query: 97  MSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPL----------- 156
           M+S PGGK +DLWSELIASEGSE QEEARV EVYRRRRP QK VH+VPL           
Sbjct: 1   MNSKPGGKGIDLWSELIASEGSEGQEEARVEEVYRRRRPSQKTVHEVPLKQNLGSNLRDV 60

Query: 157 ----------------------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTN 216
                                 GRASIA+EAC+ +QL+  +AKRKGKPALPKGK VQPTN
Sbjct: 61  NRLSFAAVNSKRISWNRALSIRGRASIAVEACLDNQLRHKEAKRKGKPALPKGKFVQPTN 120

Query: 217 FDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLA 276
           FDKERAYFQEVDAFELLEESPSPK F TWASSQFD AA+PSLCS++EKWLISKKSNYSLA
Sbjct: 121 FDKERAYFQEVDAFELLEESPSPKRFGTWASSQFDSAALPSLCSKIEKWLISKKSNYSLA 180

Query: 277 PSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVL 336
           PSSTLSKILETPL SIEP  G HLD  NLRTP+KSARE DARL SIQRRFISSLND D L
Sbjct: 181 PSSTLSKILETPLESIEPIGGKHLDKSNLRTPDKSARETDARLCSIQRRFISSLNDVDAL 240

Query: 337 EIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAP 396
           EIDS+RDNR+TRAEDVSTED  ++EV+VKKLSLTSTSTSFH+YNLDP NALLAVCGQSAP
Sbjct: 241 EIDSNRDNRSTRAEDVSTEDRADLEVSVKKLSLTSTSTSFHNYNLDPFNALLAVCGQSAP 300

Query: 397 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEE 456
           S LKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDL+VNGEVQKRSEELLEE
Sbjct: 301 SMLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLQVNGEVQKRSEELLEE 360

Query: 457 VILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPK 516
           VILSRTLNSLR+ E GA+NFCTTFIRTIDLRVCQGSYD++LIKAWEDWDEKHGSENDHPK
Sbjct: 361 VILSRTLNSLRNQEGGADNFCTTFIRTIDLRVCQGSYDALLIKAWEDWDEKHGSENDHPK 420

Query: 517 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 576
           EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN
Sbjct: 421 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 480

Query: 577 VLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGP 636
           VLLSRND EA+ FTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDP LFKG 
Sbjct: 481 VLLSRNDSEAMQFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPDLFKGA 540

Query: 637 RGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKK 689
           +GDRQSETYRKMKEVTGDCWE SFPRTNVLWLLYLV ILLLKKSFERSSKHER LRA KK
Sbjct: 541 KGDRQSETYRKMKEVTGDCWEGSFPRTNVLWLLYLVHILLLKKSFERSSKHERELRALKK 600

[Close]

BLAST of Tan0011152 vs. ExPASy TrEMBL
Match: A0A6J1HE26 (Non-specific serine/threonine protein kinase OS=Cucurbita moschata OX=3662 GN=LOC111462027 PE=4 SV=1)

HSP 1 Score: 1034.6 bits (2674), Expect = 1.8e-298
Identity = 526/625 (84.16%), Postives = 553/625 (88.48%), Query Frame = 0


Query: 97  MSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPL----------- 156
           M+S P GK +DLWSELIASEGSE QEEARV EVYRRRRP QK VH+VPL           
Sbjct: 1   MNSKPAGKGIDLWSELIASEGSEGQEEARVEEVYRRRRPSQKTVHEVPLKQNLGSNLRDV 60

Query: 157 ----------------------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTN 216
                                 GRASIA+EAC+ HQL+  +AKRKGKPALPKGK VQPTN
Sbjct: 61  NRLSFAAVNSKRISWNRALSIRGRASIAVEACLDHQLRHKEAKRKGKPALPKGKFVQPTN 120

Query: 217 FDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLA 276
           FD+ERAYFQEVDAFELLEESPSPK F TWASSQFD AA+PSLCS++EKWLISKKSNYSLA
Sbjct: 121 FDRERAYFQEVDAFELLEESPSPKRFGTWASSQFDSAALPSLCSKIEKWLISKKSNYSLA 180

Query: 277 PSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVL 336
           PSSTLSKILETPL S EP  G HLD  NL TP+KSARE+DARL SIQRRFISSLND D L
Sbjct: 181 PSSTLSKILETPLESREPIGGKHLDKFNLGTPDKSAREIDARLCSIQRRFISSLNDIDAL 240

Query: 337 EIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAP 396
           EIDS+RDNR+TRAEDVSTED  ++EV+VKKLSLTSTSTSFH+YNLDP NALLAVCGQSAP
Sbjct: 241 EIDSTRDNRSTRAEDVSTEDRADLEVSVKKLSLTSTSTSFHNYNLDPFNALLAVCGQSAP 300

Query: 397 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEE 456
           STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDL+VNGEVQKRSEELLEE
Sbjct: 301 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLQVNGEVQKRSEELLEE 360

Query: 457 VILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPK 516
           VILSRTLNSLR+ E GA+NFC+TFIRTIDLRVCQGSYD++LIKAWEDWDEKHGSENDHPK
Sbjct: 361 VILSRTLNSLRNQEGGADNFCSTFIRTIDLRVCQGSYDALLIKAWEDWDEKHGSENDHPK 420

Query: 517 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 576
           EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN
Sbjct: 421 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 480

Query: 577 VLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGP 636
           VLLSRND EAL FTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDP LFKG 
Sbjct: 481 VLLSRNDSEALQFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPDLFKGA 540

Query: 637 RGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKK 689
           +GDRQSETYRKMKEVTGDCWE SFPRTNVLWLLYLV ILLLKKSFERSSKHER LRAFKK
Sbjct: 541 KGDRQSETYRKMKEVTGDCWEGSFPRTNVLWLLYLVHILLLKKSFERSSKHERELRAFKK 600

[Close]

BLAST of Tan0011152 vs. ExPASy TrEMBL
Match: A0A6J1DQE2 (Non-specific serine/threonine protein kinase OS=Momordica charantia OX=3673 GN=LOC111022845 PE=4 SV=1)

HSP 1 Score: 1014.2 bits (2621), Expect = 2.6e-292
Identity = 519/625 (83.04%), Postives = 548/625 (87.68%), Query Frame = 0


Query: 97  MSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRR--PPQKAVHDVPL--------- 156
           MSS  GGKSVDLWSELIASEG+ERQEEARV EVYRRRR  PPQ  VH   L         
Sbjct: 1   MSSKAGGKSVDLWSELIASEGAERQEEARVEEVYRRRRRPPPQNTVHGAALKQNLGSNRR 60

Query: 157 ------------------------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQP 216
                                   GRAS+AIEAC+ HQLQQ QAKRKGKPALPKG CVQ 
Sbjct: 61  NVNRVSLAAADSKRISWNRTLSIRGRASMAIEACVVHQLQQKQAKRKGKPALPKGNCVQA 120

Query: 217 TNFDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYS 276
           TNFDKERAYFQEVDAFELLEESPSPKS STWASSQFD AAVPSLCSR+EKWLISK+SNYS
Sbjct: 121 TNFDKERAYFQEVDAFELLEESPSPKS-STWASSQFDIAAVPSLCSRIEKWLISKRSNYS 180

Query: 277 LAPSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDND 336
           LAPSSTLSKILETPL SIEP +GNHL N  L+TPEK AR L  RLSSIQ+R+IS+LNDND
Sbjct: 181 LAPSSTLSKILETPLVSIEPISGNHLGNFKLKTPEKYARGLGGRLSSIQKRYISNLNDND 240

Query: 337 VLEIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQS 396
           V+EIDS R NR+ RAED+STE+C NIE+AVKKLSL+STSTS H+Y+LDPLNALLAVCGQS
Sbjct: 241 VIEIDSIRGNRSARAEDLSTEECENIEIAVKKLSLSSTSTSLHNYHLDPLNALLAVCGQS 300

Query: 397 APSTLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELL 456
           APSTLKDAFSNYCDPETIVK+GEGTYGEAFKAGNTVCKIVP DGDLRVNGEVQK+SEELL
Sbjct: 301 APSTLKDAFSNYCDPETIVKIGEGTYGEAFKAGNTVCKIVPFDGDLRVNGEVQKKSEELL 360

Query: 457 EEVILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDH 516
           EEVILSRTLNSLRSN+ GA+NFCTTFIRTIDLRVCQGSYD+ LIKAWE WDEKHGSENDH
Sbjct: 361 EEVILSRTLNSLRSNDGGADNFCTTFIRTIDLRVCQGSYDASLIKAWEVWDEKHGSENDH 420

Query: 517 PKEFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHW 576
           PK+FPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSL++QVTAALAVAEAAYEFEHRDLHW
Sbjct: 421 PKQFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLVIQVTAALAVAEAAYEFEHRDLHW 480

Query: 577 GNVLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFK 636
           GNVLLSRN+ E L F LEGKNMT+QTFGLQISIIDFTLSRINTGEDILFLDLS DPYLFK
Sbjct: 481 GNVLLSRNNSETLQFILEGKNMTLQTFGLQISIIDFTLSRINTGEDILFLDLSLDPYLFK 540

Query: 637 GPRGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAF 687
           GPRGDRQSETYRKMKEVTGDCWE SFPRTNV+WLLYLVDILLLKKSFERSSKHER LRA 
Sbjct: 541 GPRGDRQSETYRKMKEVTGDCWEGSFPRTNVMWLLYLVDILLLKKSFERSSKHERELRAL 600

[Close]

BLAST of Tan0011152 vs. ExPASy TrEMBL
Match: A0A0A0LVR4 (Non-specific serine/threonine protein kinase OS=Cucumis sativus OX=3659 GN=Csa_1G560690 PE=4 SV=1)

HSP 1 Score: 1011.9 bits (2615), Expect = 1.3e-291
Identity = 526/661 (79.58%), Postives = 560/661 (84.72%), Query Frame = 0


Query: 64  WPIGLPPFGLSNAPSLRLAICSVSASTFSN---LPIMSSNPGGKSVDLWSELIASEGSER 123
           W IGLPPF LSNAPSL L I S+S STFSN      M+SN GGK++DLWSELIASEGS+ 
Sbjct: 57  WFIGLPPFELSNAPSLHLPISSLSPSTFSNHLYTISMTSNLGGKAIDLWSELIASEGSDL 116

Query: 124 QEEARVVEVYRRRRPPQKAVHD----------------VPL-----------------GR 183
           QEEA V EVYRRR+P QK VH                 V L                 GR
Sbjct: 117 QEEASVEEVYRRRKPTQKTVHPPHPKQNLGSNGCNVNRVSLAAVDSKRISWNRALSIRGR 176

Query: 184 ASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTNFDKERAYFQEVDAFELLEESPSPK 243
            SIA+EAC+  Q Q  QAKRKGKPALPKGK VQPTNFDKERAYFQEVDAFELLEESPSPK
Sbjct: 177 VSIAVEACIDRQRQCKQAKRKGKPALPKGKYVQPTNFDKERAYFQEVDAFELLEESPSPK 236

Query: 244 SFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLAPSSTLSKILETPLASIEPFNGNHL 303
           SFSTW SSQFD + +PSLCSR+EKWLISKKS YSLAPSSTLSKILETPL SIEP  G HL
Sbjct: 237 SFSTWTSSQFDSSTIPSLCSRIEKWLISKKSKYSLAPSSTLSKILETPLGSIEPIGGIHL 296

Query: 304 DNINLRTPEKSARELDARLSSIQRRFISSLNDNDVLEIDSSRDNRNTRAEDVSTEDCGNI 363
           D   L+TPE SAR+ DA   SIQRRFI S+ND D L+IDS+ DNR+ RAE++ TED  +I
Sbjct: 297 DKFKLKTPENSARDRDAHWCSIQRRFIFSINDIDALKIDSN-DNRSNRAEEMRTEDREDI 356

Query: 364 EVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAPSTLKDAFSNYCDPETIVKVGEGTY 423
           EVAVKKLSLTSTSTSFH Y+LDPL+ALLAVCGQS PSTLKD FSNYC+ ETIVKVGEGTY
Sbjct: 357 EVAVKKLSLTSTSTSFHKYDLDPLSALLAVCGQSTPSTLKDVFSNYCELETIVKVGEGTY 416

Query: 424 GEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEEVILSRTLNSLRSNESGANNFCTTF 483
           GEAFK GNTVCK+VPIDGDL+VNGE+QKRS ELLEEVILSRTLNSLRSNE  A+NFCTTF
Sbjct: 417 GEAFKVGNTVCKVVPIDGDLKVNGEIQKRSVELLEEVILSRTLNSLRSNERCADNFCTTF 476

Query: 484 IRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPKEFPEKQCYVVFVLQHGGKDLESFV 543
           IRTIDLRVCQGSYD+VL+KAWEDWDEKHGSENDHPKEFPEKQ YVVFVLQHGGKDLESFV
Sbjct: 477 IRTIDLRVCQGSYDAVLVKAWEDWDEKHGSENDHPKEFPEKQLYVVFVLQHGGKDLESFV 536

Query: 544 LLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGNVLLSRNDFEALPFTLEGKNMTVQT 603
           LLN+DEAQSLLVQVTAALAVAEAAY+FEHRDLHWGNVLLSRND+EAL FTLE KNMTV+T
Sbjct: 537 LLNYDEAQSLLVQVTAALAVAEAAYQFEHRDLHWGNVLLSRNDYEALQFTLESKNMTVKT 596

Query: 604 FGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGPRGDRQSETYRKMKEVTGDCWERSF 663
           FGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGPRGDRQSETYRKMKEVTGDCWE SF
Sbjct: 597 FGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGPRGDRQSETYRKMKEVTGDCWEGSF 656

Query: 664 PRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKKRLDKYNSAKEAIFDPFFSELIVWP 689
           PRTNVLWLLYLVDILLLKKSFERSSKHER LRAFKKRLDKY S KEAI+D FFSELIVW 
Sbjct: 657 PRTNVLWLLYLVDILLLKKSFERSSKHERELRAFKKRLDKYTSTKEAIYDQFFSELIVWS 716

[Close]

BLAST of Tan0011152 vs. ExPASy TrEMBL
Match: A0A1S4DYE2 (Non-specific serine/threonine protein kinase OS=Cucumis melo OX=3656 GN=LOC103492097 PE=4 SV=1)

HSP 1 Score: 1003.4 bits (2593), Expect = 4.6e-289
Identity = 513/625 (82.08%), Postives = 543/625 (86.88%), Query Frame = 0


Query: 97  MSSNPGGKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVP------------ 156
           MSSN GGK++DLWSELIASEGS+ QEEA V EVYRRR+P QK VH +             
Sbjct: 1   MSSNLGGKAIDLWSELIASEGSDLQEEAPVEEVYRRRKPTQKTVHPLHPKQNLGSNGCNV 60

Query: 157 ---------------------LGRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTN 216
                                 GR SIAIEAC+  Q Q  QAKRKGKPALPKGK VQPTN
Sbjct: 61  NRVSLAAVDSKRISWNRALSIRGRVSIAIEACIDRQRQHKQAKRKGKPALPKGKYVQPTN 120

Query: 217 FDKERAYFQEVDAFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLA 276
           FDKERAYFQEVDAFELLEESPSPKSFSTW SSQFD + +PSLCSR+EKWLISKKSNYSLA
Sbjct: 121 FDKERAYFQEVDAFELLEESPSPKSFSTWTSSQFDSSTIPSLCSRIEKWLISKKSNYSLA 180

Query: 277 PSSTLSKILETPLASIEPFNGNHLDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVL 336
           PSSTLSKILETPL SIEP  G HLD + L+TPE+SAR++DA   SIQRRFI S+ND D L
Sbjct: 181 PSSTLSKILETPLGSIEPIGGLHLDKLKLKTPEESARDIDAHWCSIQRRFIFSINDIDAL 240

Query: 337 EIDSSRDNRNTRAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAP 396
            IDS+ DNR+ RAE++ TED  +IEVAVKKLSLTSTSTSFH Y+LDPLNALLAVCGQSAP
Sbjct: 241 GIDSN-DNRSNRAEEIRTEDREDIEVAVKKLSLTSTSTSFHKYDLDPLNALLAVCGQSAP 300

Query: 397 STLKDAFSNYCDPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEE 456
           STLKDAFSNYCD ETIVKVGEGTYGEAFKAGNTVCK+VPIDGDL+VNGE QKRSEELLEE
Sbjct: 301 STLKDAFSNYCDLETIVKVGEGTYGEAFKAGNTVCKVVPIDGDLQVNGETQKRSEELLEE 360

Query: 457 VILSRTLNSLRSNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPK 516
           VILSRTLNSLRSNE  A+NFCTTFIRTIDLRVCQGSYD+VL+KAWEDWDEKHGSENDHPK
Sbjct: 361 VILSRTLNSLRSNEGSADNFCTTFIRTIDLRVCQGSYDAVLVKAWEDWDEKHGSENDHPK 420

Query: 517 EFPEKQCYVVFVLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGN 576
           EFPEKQ YVVFVLQHGGKDLESFVLLN+DEAQSLLVQVTA LAVAEAAYEFEHRDLHWGN
Sbjct: 421 EFPEKQLYVVFVLQHGGKDLESFVLLNYDEAQSLLVQVTAGLAVAEAAYEFEHRDLHWGN 480

Query: 577 VLLSRNDFEALPFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGP 636
           VLLSRND+EAL FTLEGKNMTVQTFGLQISIIDFTLSRINTGED+LFLDLSSDPYLFKGP
Sbjct: 481 VLLSRNDYEALQFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDVLFLDLSSDPYLFKGP 540

Query: 637 RGDRQSETYRKMKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKK 689
           RGDRQSETYRKMKEVTGDCWE SFPRTNVLWLLYLVDILLLKKSFERSSKHER LRAFKK
Sbjct: 541 RGDRQSETYRKMKEVTGDCWEGSFPRTNVLWLLYLVDILLLKKSFERSSKHERELRAFKK 600

[Close]

BLAST of Tan0011152 vs. TAIR 10
Match: AT1G09450.1 (Protein kinase superfamily protein )

HSP 1 Score: 658.7 bits (1698), Expect = 5.3e-189
Identity = 354/611 (57.94%), Postives = 439/611 (71.85%), Query Frame = 0


Query: 103 GKSVDLWSELIASEGSERQEEARVVEVYRRRRPPQKAVHDVPL----------------- 162
           G+ VDLWSE+I SE  E  +  ++  V++RR+ P K+   V                   
Sbjct: 2   GQRVDLWSEVIKSE-EEDGDIPKIEAVFQRRKKPDKSSEAVNFGWLVKGARTSSVNGPKR 61

Query: 163 ----------GRASIAIEACMHHQLQQNQAKRKGKPALPKGKCVQPTNFDKERAYFQEVD 222
                     GR SIA+ A +++Q Q+  A RK KP +PKGK V+  +F KE+ YF+++D
Sbjct: 62  DSWARSLSTRGRESIAVRAYVNNQPQKKAAGRK-KPPIPKGKVVKAPDFQKEKEYFRDID 121

Query: 223 AFELLEESPSPKSFSTWASSQFDGAAVPSLCSRVEKWLISKKSNYSLAPSSTLSKILETP 282
           AFELLEESPSP   STW   +     +P L +R+EKWLISKK N++  PSSTLSKILE  
Sbjct: 122 AFELLEESPSPNKSSTWTMGEQVVPEMPHLSTRLEKWLISKKLNHTCGPSSTLSKILENS 181

Query: 283 LASIEPFNGNH-LDNINLRTPEKSARELDARLSSIQRRFISSLNDNDVLEIDSSRDNRNT 342
               E    N   D+++L+TP+KS+    A  +S+  R I S ++N   E       R  
Sbjct: 182 AIHQESVCDNDAFDSLSLKTPDKSS----AGNTSV-FRLIPSCDENLAAE---DVPVRKI 241

Query: 343 RAEDVSTEDCGNIEVAVKKLSLTSTSTSFHDYNLDPLNALLAVCGQSAPSTLKDAFSNYC 402
           + E +  ED       +K+LSLTS     H     P+  LL+ CGQ  PS   +AFS +C
Sbjct: 242 KMESIDLED------ELKRLSLTSDLIPTHQDFDQPILDLLSACGQMRPSNFIEAFSKFC 301

Query: 403 DPETIVKVGEGTYGEAFKAGNTVCKIVPIDGDLRVNGEVQKRSEELLEEVILSRTLNSLR 462
           +PE+IVK+GEGTYGEAF+AG++VCKIVPIDGD RVNGEVQKR++ELLEEVILS TLN LR
Sbjct: 302 EPESIVKIGEGTYGEAFRAGSSVCKIVPIDGDFRVNGEVQKRADELLEEVILSWTLNQLR 361

Query: 463 SNESGANNFCTTFIRTIDLRVCQGSYDSVLIKAWEDWDEKHGSENDHPKEFPEKQCYVVF 522
             E+ A N C T+I+T D+++CQG YD +LIKAWE+WD KHGSENDHP +FPEKQCYV+F
Sbjct: 362 ECETTAQNLCPTYIKTQDIKLCQGPYDPILIKAWEEWDAKHGSENDHP-DFPEKQCYVMF 421

Query: 523 VLQHGGKDLESFVLLNFDEAQSLLVQVTAALAVAEAAYEFEHRDLHWGNVLLSRNDFEAL 582
           VL+HGGKDLESFVLLNFDEA+SLLVQ TA LAVAEAA+EFEHRDLHWGN+LLSRN+ + L
Sbjct: 422 VLEHGGKDLESFVLLNFDEARSLLVQATAGLAVAEAAFEFEHRDLHWGNILLSRNNSDTL 481

Query: 583 PFTLEGKNMTVQTFGLQISIIDFTLSRINTGEDILFLDLSSDPYLFKGPRGDRQSETYRK 642
           PF LEGK + ++TFG+QISIIDFTLSRINTGE ILFLDL+SDPYLFKGP+GD+QSETYRK
Sbjct: 482 PFILEGKQVCIKTFGVQISIIDFTLSRINTGEKILFLDLTSDPYLFKGPKGDKQSETYRK 541

Query: 643 MKEVTGDCWERSFPRTNVLWLLYLVDILLLKKSFERSSKHERGLRAFKKRLDKYNSAKEA 686
           MK VT D WE SF RTNVLWL+YLVDILL KKSFERSSKHER LR+ KKR++KY SAKEA
Sbjct: 542 MKAVTEDYWEGSFARTNVLWLIYLVDILLTKKSFERSSKHERELRSLKKRMEKYESAKEA 595

The following BLAST results are available for this feature:

BLAST of Tan0011152 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
O80528	7.5e-188	57.94	Serine/threonine-protein kinase haspin homolog OS=Arabidopsis thaliana OX=3702 G...	[more]
Q2KIP2	3.0e-56	41.61	Serine/threonine-protein kinase haspin OS=Bos taurus OX=9913 GN=HASPIN PE=2 SV=1	[more]
Q9Z0R0	9.8e-55	36.76	Serine/threonine-protein kinase haspin OS=Mus musculus OX=10090 GN=Haspin PE=1 S...	[more]
Q8TF76	2.9e-54	37.57	Serine/threonine-protein kinase haspin OS=Homo sapiens OX=9606 GN=HASPIN PE=1 SV...	[more]
P83103	9.5e-50	35.02	Serine/threonine-protein kinase haspin homolog OS=Drosophila melanogaster OX=722...	[more]

BLAST of Tan0011152 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_022968692.1	7.7e-299	84.48	serine/threonine-protein kinase haspin homolog [Cucurbita maxima] >XP_022968693....	[more]
XP_023516003.1	1.0e-298	84.16	serine/threonine-protein kinase haspin homolog [Cucurbita pepo subsp. pepo] >XP_...	[more]
KAG7024044.1	1.3e-298	84.32	Serine/threonine-protein kinase haspin-like protein [Cucurbita argyrosperma subs...	[more]
XP_022961448.1	3.8e-298	84.16	serine/threonine-protein kinase haspin homolog [Cucurbita moschata] >XP_02296144...	[more]
KAG6590511.1	2.5e-297	84.29	Serine/threonine-protein kinase haspin-like protein, partial [Cucurbita argyrosp...	[more]

BLAST of Tan0011152 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A6J1HU83	3.7e-299	84.48	Non-specific serine/threonine protein kinase OS=Cucurbita maxima OX=3661 GN=LOC1...	[more]
A0A6J1HE26	1.8e-298	84.16	Non-specific serine/threonine protein kinase OS=Cucurbita moschata OX=3662 GN=LO...	[more]
A0A6J1DQE2	2.6e-292	83.04	Non-specific serine/threonine protein kinase OS=Momordica charantia OX=3673 GN=L...	[more]
A0A0A0LVR4	1.3e-291	79.58	Non-specific serine/threonine protein kinase OS=Cucumis sativus OX=3659 GN=Csa_1...	[more]
A0A1S4DYE2	4.6e-289	82.08	Non-specific serine/threonine protein kinase OS=Cucumis melo OX=3656 GN=LOC10349...	[more]

BLAST of Tan0011152 vs. TAIR 10


Match Name	E-value	Identity	Description
AT1G09450.1	5.3e-189	57.94	Protein kinase superfamily protein	[more]

InterPro

Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR024604	Serine/threonine-protein kinase haspin, C-terminal	SMART	SM01331	DUF3635_2	coord: 597..680 e-value: 1.6E-30 score: 117.4
None	No IPR available	GENE3D	3.30.200.20	Phosphorylase Kinase; domain 1	coord: 365..498 e-value: 9.6E-37 score: 128.0
None	No IPR available	GENE3D	1.10.510.10	Transferase(Phosphotransferase) domain 1	coord: 499..680 e-value: 1.6E-57 score: 196.0
None	No IPR available	PFAM	PF12330	Haspin_kinase	coord: 337..674 e-value: 2.2E-70 score: 237.4
None	No IPR available	PANTHER	PTHR24419	INTERLEUKIN-1 RECEPTOR-ASSOCIATED KINASE	coord: 146..686
None	No IPR available	PANTHER	PTHR24419:SF18	SERINE/THREONINE-PROTEIN KINASE HASPIN	coord: 146..686
IPR000719	Protein kinase domain	PROSITE	PS50011	PROTEIN_KINASE_DOM	coord: 376..700 score: 10.223842
IPR011009	Protein kinase-like domain superfamily	SUPERFAMILY	56112	Protein kinase-like (PK-like)	coord: 365..641

Relationships

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


Feature Name	Unique Name	Type
Tan0011152.1	Tan0011152.1	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0006468	protein phosphorylation
molecular_function	GO:0005524	ATP binding
molecular_function	GO:0106310	protein serine kinase activity
molecular_function	GO:0004674	protein serine/threonine kinase activity
molecular_function	GO:0004712	protein serine/threonine/tyrosine kinase activity
molecular_function	GO:0004672	protein kinase activity