Tan0015002 (gene) Snake gourd v1

Overview


Name	Tan0015002
Type	gene
Organism	Trichosanthes anguina (Snake gourd v1)
Description	histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4
Location	LG07: 2460569 .. 2525283 (+)
RNA-Seq Expression	Tan0015002
Synteny	Tan0015002

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR

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

GACCGGCTTTGTCTGGCTTCAGAGACAAAGGGCGATGGAGATGCTCAAAAAACTGGGAAGCGGGAATCGCCGAATTTGGCACACGAAATGCAGCGCCAAACTCGCTCATTTACCAATCACAGATCAGCGTCCGTACATTCATAGGGACTGCAGCTCTAGAAACGAATACCCCTACTCGCTTCCACTCTCTCTCTCAACACAACTGCTTGCGCCATTTCTTCCGAACCTACAATCCCTAAATCCTTTCTTCTTCTCCTACGAGACTCGGAGCTTCCATTTCTCCTGCATTCGACTCCCTATTGACCACTTTCCGTGCGTATTCCTCTGCTTCTCTCTGTTCTTTAATGGCGCCTTTCACTTGTTTTGCTTTTTTTTTTTTTTCTAGCTCTACGAATTTTGTTTAGCTTTATTCATCCATTGCTGTTGTGTATTCTTGCAGATTTATGAATTTTTGAGCTGAAACATGGTTGTGAAGTCACGAGTACTACGCTCTTCCGCTAATGGAGAGCTGCATTCTCCAGTAACTCCCGAGGAGAAGCCGAAACGTAGCAAAGTAGCTACGCATGGACGGAAGAATGCTAAAGCTGACGCACCGAAGGGAGGTGCAGAAGAGCCATCTCCTTCTCCCCAGAGGAGGACGAGTGCTCGAATCCAGATAAAGCAGCTGGCTGAGAAGGAGCTCCTAGTGCGTCAGAGAGTAGAGCTCCTTGATGAAACCGACAGTCCGAGCAAAAGGAAGAAGACGAACGGTCAGGTAAGAAGTAAGCGTAAGACTGCGAGGGTTGAGGACGAGGTGGTGGAAGAGAAGGCCGTTTCTGTTCCGGTATCCAAGGATGTCACTAAATCTAAAGTCGGTGATGCAAGCGAGCCAATGGAAGTGTGTGCGCCAGAAAAGAGTAGAACTGGTGACGAAGGTGGTCTGGCTAATATGGTTGAGAAGAGTGACCATGCCAAGGTTAAGGAGACTCTCAGGTTGTTCAACAAGCACTATCTTCATTTTGTGCAGGTTCGTCGCTTGGAAATGTCACTTCATTCTGGGTTATTTCAAAATCTTTGCACGTTGAAGTTTATATCGGCTAACTTTTGGTTATTCCATGTTCATCTAAACCAAAAGGAAGAGGAAAAAAGATGCAAAAAAGCCGAAGTAGCTCAAAAAGCTTCCAAAGGGTCAAGATCTAAGGTAGGCTTGTGTGTCGGCCTTCTATAATTTATGTCATCGATAGTCTTTCTCTGAGTGTCCTACGGAAAGAATTGTCTATCCATTTGACCAAAAATGACATCTATATCAGACTGAATAAATGGCTGCCGCCAAATCCTCTCATGTCGCATAACCAGTCGCATTAAAGAAAATCAAAGCACCAATACTATGTACACGATCAATCTTTGAATTCGGATTTTTAGTGGGGTTCTAAATCATTCTCTCATTTCTATGTTTCGGATCATTTGGAACTGGCTCTCTTTGTCTCAGTCCAAAAAAATTCGTAGGACAAATTATGATATGATCTGTCATCATGATTTTCAATATTTATCTTATTACTTGGAATTTTTACAGAAGGCGGCTCCTGCAGAAGATACAAAAAACAAATCTAAGAGGCCAGATTTGAAGGCAATTTCTAAGGCAAGTTGTAATTGCACACATCAAGCCTCTAGAACCTTTTTTTGCTATTGTTTAATTAATCATTATCCAACTTGTGCAGTGTTCAATCGAAAATTCCAGGAGTGATCTAGCATGCAATTTTTTGCCTTGGCTTAATTTCCGTTTAACGTTTTAGTTTAGTGAGCTGGTTTTTTTTTGGCTGATTTGTTGTCTTTTCGCAGTTATTAATAGTCTTTCTGTCTAGGAAACAGAAAAGTGTCAAACACATTACACCAGTATGATTCTTCATGATGGAATTAAGAAGATTAGGAGAAGTAGGAGAGGAGGAGAGGGGAGAACTTTTTTTGGGGGGAGAGGGGGGGAGGGTTCGATTTGCAATGGTATTTGGTAGTTCTCAGATGTTCAGTGTTTGTTTAGCTTGGAATAGAGATTGCAGCTTGATGGTGGGGGAGGTTCTTTGGCATCTGTCCTTTCATGATAGAGGTTGGATTTTGTGGCAGGCTAGCTTCTTTGTAGTCCTTTTGAACTTTTAGATTGAGAGGAACAATAAGATTTTTAGGGATTTGGAGAGATTTTAGGAGGAAGCATGATCGCATGTTGATTTAATGCTTCTATTTGAGTATTAGTTTCCAAGGATTTTTGTAATTACTCACTAGTTATTAGTTTGAATTGAAGCCCCTTTTTGTATAGTTAGCTGTTTGGCTCTTTTTGGTGGTTTGTCTTTTTGTATGTCATCTTGCTTTCCCTTTTGTTTTTTTCCTTAAAAGTTCAATTTCCCATCAAAAGAATACAAAATCTTGATAATGATTCAAGTATTTTCTTGGCTACTAGCCTTATGGAGGGTTTTTAAAAATAATATATGTGAGTATTCTAGCCAGCTTGTGTAAACGTACACTATTTTCATGAGATAACTGCTTGATCTGCTACATTTGGTTGTCAAGAAAACTCGCAGGATATTAAATCTTAGGTAGGTGGCTTTCATGGCTTGAATCTATTCTCTTTAATCGTTTTATTATTTACATCGGCTCTTATTGACCATTATGTCAACCCATGGTGGTTAGTAGCCTTGTGGAGGATTAACACAATTAGGATTTTAGTATAAAGCTCCTCCCTTTGTTAATTGATGTTTTCTGTGTAGGTTTGATAAAAAGGATTCTCTTTGCCCCTTTGTTGTGTTTGTTTTTTTGTTGGGGGGGGGGGAATTTAATTTCAAAAATGAAATTTGCGAAAGGCTAATGGGTAGCAAAAATCCCATCCAATTACCACAAATATTACTAGTCATTACGAAAGGATTTATCTAACTTGCACCAAATGCCTTTGTTCCTCTCCATTCAAGTGTTCCAAAGGAAGCTCCTAATAAGATTTAGCAATAATTTTTTTAGGGGTACACGAATTAGGAGCCATAAATTTGGGAAGCTCCAAAACATTCTCCAAGTCCTTTAGGGCATGTTTGGTAAGCAATCTGAAAACATAAATTTGAAAACAAAGGATTCAATGAAAACAAATTTGTATTTCTTTGGTAGTATATTTAGAAATTTGATTCCATTCTAAACCGTTATTTAAATTGTGTCATATAACATATTTATAGATCATGAAATTAGTTGTAGTTGCAAAACTAATTATTAGATTGAATATAAACCATTATTAATTAATTTATGAACACGATTTTTATAAATTTTATAGAATTATCATTTTATAATATAATATTATATAATTTATAATATATTATATTATACATATTTTAATTTAACAAAATAAATTGAGTTTATAGCATGAAATATTGTATTTATTAAGATTTTTATCTTTGTTTAATATAATTCTGCATTTTAAAATTTTAAATTCAGAATCTGGATACACTAAAGACGTAAAAATGCTGTTTTCAGAATTTCTACTATTTAGATCACAAAATTCGAAAACAGTTTTCGAAAACACATCTGCCAAATACATATTCACTAAATTCAGTGAAGCGTGAAGCTGAAAACATAAAACAAAATTCAGATTGCATACCAAACAAACCCTTAGGTTCTTAAAATTCTCTGTTTCTCTTCACTCAATCTCGCTGAGCATAGTCTTTACTGCATTATACCAAAGAACTTAGCCTTACCATTGAATGTTTACATGAAAGTACATGGAGCATGGTGATAGACATCCAATTACTAGAACTTATAAAAGAAGGGGTAGTTTGGGTAACGAGAGTTAGAAAAAGGTGGGGACTGTTAGTAAAGGTGGGGACAGTTGGAAGGGACTGTGGTTGTGATGTACGGTACCTAGAGGTGAAGGTTTTTGTAGGGTTTTGTGGTTGTTTGGGGGACAAGTAAAATTTGGGTAGAGACTTGGTCTTGGAGAGGTTCTCAACTCTCTCTAATTAGCTGAGTATTTTGGTTGTGGCTTGTTGTTTCCCTATCTGAAAGTAATATATCCGCTCATAAATCACTATCGGTTGAAGAACTATGAATCGAAGAGTGATAATTTCTCCATCTTTGTGTGTTTTTCTATGTGTTTGTTTGTTGATCAGGTTTATTGGTGTTAGATACCTAACAATTAGGTATCAGAGCACGTCACCCTAGGGAGAACACGAGGTATGTCTCATGAAGAAGTAGAAGGGTTGCCATCGCAGAGAAAGACATAAGTGAAATGAAGACGTCCATTCAAGGAATAGAATAAACCTTAGAGAAGCTTACGTTTCTGATTATGGACTTGGCAGTCTCCAAGGGGAAGTCGTTAATCACCAAGGCTTCTAGCTAAAAAACAAAGGAGTGAGAGATCCCTGAAGACGTCACAGATCGAAAGGAAGGGGAGGAAGAGTTTTCCTTGAGAGAGACGGGTGGTAATGATCGTAGCAAACTGAATGGCTATTCAGAGTAGCAAACTATTTCGACATCCACCAATTATCTGATAAGGAGAAGATCACATTATCGATTATAAGCTTTGATCCTGGGGTAGTGGAATGGTTTTGCTGGGCCCATAATTGGAGGAAGATAACGACGTGGGAAGATTTGAAAGCTCAAATATTCGATTGATTCAGACCTTCATAAGAGGGCAGTCTGTGTGCGCGATTTTGGGTCGTGAAACAGGAAGGAACAGTAGTGGAGTTTAGGAAGAAATTTGAGATCCATGCTTCGTCGTTGACAAGGATGCCAGAGGAGGTACTCGAAATACGTTCTTGAATGGGCTGAAATCGAAGATTAGGGCTGCGGTAATCAACAAACCGGTTAGCTCTTGAAGATTTGGGTGAGGTCCCAGGCCCAACGCAGTAGAAAAATTAGTTGTCGAACACAAGTAAAGTGGGCTCCAATACGGTAAATAGGACCGACCTAAAGTCCTTTGATAGCATACACACGCGGATGATAACCCTTCCAGAGAAGGAAGTTTTGGGAAAACAAGAACCGCCACTCAGACGACTCTCAGATGCCGATTTTCAAGCTAAAAGAGCTTAGGGCCTATGTTTTCGTTGTGTTGAGAAATATTTGAAGGATCACATTTGCAAGAATCGGGAAGTGAGAGAGTTACGAGTGCTTCTGGTCAATGGAGTAGATGAAATCGAGTTGATTCAAAGGGATTTTCTGCCAAAAGAGTCGAAGTTACAAGGAGACATAGTAGGGGACTTGATAGAACTCAATCTTAAGTCAAGAATAGGCTTTTTGACACTAGGTACTTTGAAGGTTAAAGGATTGATAAAGGAGAGGGAGGTGATAGTCCTCATAGATTGTGGGGCTACCCACAATTTTGTCTCACAGGAACTCGTCGATGAGTTGGAACTACCATTGGTAGAGACTTCGAACTATGGAATCGTAATGGGGAATGGAGTGGCCATGAAAGGGAAGGGGGTGTGTAAATCGTTGGTTGTGACCCTACTGGAGCTGACTATATGTGATGATTTCTTATCACTGGAGTTAGGAAATGTTCAAGTTATTTTGGGAATGCAATGGTTACAAACAATGGGAGCCATGAAGCAGTGTTGTTGAGGCGCATCTGGGCGCTCGCCTTAGGCGACAGGCGAGGCGACCTTGCAGTCTTGCGCCTCACAACCTGTCAAGGCGAGCCTCTTCAACAGGGCGCACGCTCGGCTGTGCCTTTTGGCGCCTTGCAGCCACCTTGCCTATGGCGCATGCGATTACCTGTGACTTTCCACATGCTCTTTTTTTTTTCATTTTTTTTCAATGAATCTTAACTACTTAACTTAAAGTTTAAGAAACCCTAAAAAAATCCATGCAGAGTTGTCGCTTCATGTTTTCTTTTTATTAATGAAAACGGAAACAACTCTTCACCTTCATATTCCAATCTATCGAGAGCAAACTATCGATTTTATATGATGTTTACTATACAATTTATGCTCTATGTATTATTTATTTATATATTTAATTATTGCGCCTCACATCACTCGGGCCACACCTTTTTGTCGCCTCTCGCCGGGCGATCAGTGGCTTATGCATGCTCGAGGTGCGCCTGCTAACGCTTTGAAAACACTGCCATGAAGGTTGACTGGTCCACTTTGATCATGTCGTTCGAAGTAGAGAGATACTTGGTGACAATTAAAAGAGATCCATTGTTGACTAGAGCATAAATTTCCTAGAAGATGCTCGCGAGAACATAGACCGATAACGACCAAGGGCACTTGGTTGAGCTGAGGGGATTGAATATCAGTGATCCACACGAACCAGATTTGGAAGCTAGTGAGGAGGAATCACAAGAGGTTAGTCACCTTCTAACACAATTTTTTGGAGTGTTTGAATTACCAAATAGGTTACTGCCCAACATATCAGTGGATCACCTTCGTATTACAAGGACAACAACCAATTAATGTCAGGACCTACAGGTATGCTCACACATAGAAGTCGAAGATTGAGCACTTGCTGAGGGAAATGTTGGCAGCATGGCTAATCATACTTAGTACAAGCCCTTTCTCAAGCCCAATACTTCTACTCAAGAAGAAAGATGAGAGTGGCGATTTTGTGTGGATTATCGAACGCTGAATCGGGCCACAGTTCTGGACAAGTTTCCAATACTAGTGATTGAGGAGTTGGATGAATTACATGAGCCACAATGTTTTCCAAACTAGACTTAAAGTCTGGCTACCATCAGATTAGAGTGATGGAAGATGACATCCCCAAGACGACTTTTCGAACTCACGAAGGCCATTATGAATTCATGGTGATGCCGTTTGGTCTCACCAACACTTTGACAACTTTTTCAGTCGTTGATGAATTAGGTTTTTCACCCATATCTCTGCTGCTTTATACTTGTATTCTTTGACGATATTTTGATCTACAACCTGAATAGATCAACAGATCTTCATCATTTGGAAATTGTGTTAGAAACCTTGTTTGATCACGAGTTGTATGCGAACTAGAAGAAATGTGTGTTTATGCAAGAAAAAATAACTTATTTGGGGCATTGGATCTCAACTTCGAGAGTTGAGGCAAACGACGAGAAAGTTCAAGCCCTGATCAGATGGCGAATTCCAAAAAGATAAAGGAGTTTTGTGGGTTCTTGGGCTTAACAGAGTACTATTGACATTTTGTAAAAGGATATGGAAAAATTGTAGAACCACTGAATAATATGTTGTGCAAAGATGGGTTCCTATGGTCTAATGAGGCCACATCTGCTTTTGAGTTGTTAAAGCACACAATGGTAACTCTACCAGTATAGGCAACAATGGTAACTCTACCAGTATTGGCTTTGCCTGATTTTTGCTTATCATTTGTTATTGAAACAGATGCTTCAGGGATATGAGTTGGGGTGGTGTTATCACAAAAACAGAGACCCATAGCTTTCTTTAGTCAGTCTTATCTCCTCACTCTCTAGCTAAGGCGTTTTATGAGCGTGAATTGATGGCAATTGTGTTGGTTGTGTAAAAGTGGAGACATTACTTGTTGGGCCAAAAATTCATTGTTTTAACTGATCAACGGGCTTTGGGGAGCCTTCTTGAGCAAAGAGAAGTGCAACCCAAGTATCGGAAATGGCTCACAAAACTCTTGGGTTACAATTTTGAGATTAAATATAATCCCAAGCTGTTAAACAAGGAAGCAGATGTGTTGTCCCAAATGTCACATGAAGGGGAATTACGAGCCATTTATGTCCCAATGTGGATGTGGAATTGGTGCGAGAAGAAGTCGATAACGATCTTGAATTGAAGGAAATTTGTGAGGGGATAGCCACTGATCCCCTGAGGTGCTTGAAATATTCAATGTCACAGGGGAGATTGTTATATAAAGGAAGATTGGTCATCTCGAATAAATCTATCTTGATACCAACTCTGTTGCACACTTACCACGACTCGGTAATTGGTGGCCATTCAAGTTTTCTATGAACCTATAGACGCCTTACAGGGGAACTTATGTGAGCAAATGTTGGGTTGCAACAGAATAAAGCGGATTCGATGATTACCACCGGTGGTCATTATTAACAATTCTCATTTACGAATCTTATATGAGAGGACATTGGCATGGACTTCGTGGAAGGGTTGTCGAATTGTGCGAGGTTTGACACAATCCTAGTGGTAGTCGATCGTGTGAGTAAGTATAGTCATTTCCTCAAACTTAAACATTCGTATTCTGCAAAAGAAGTAGCAACTCTGTTTGTCAAAGAGATAGTGCGACTTCACGGTTTTTCTAAGTCCATCGTGTCAGATAGAGACAATTTTTGTCAGCCACTTTTGGAATGAGCTATTCAAGATGCAGGCCAACTAAAGAAGAGTACGACGTTCCATCCATAGATGGACAATAAGAACGAGTCAATCGATGCTTGGAAACATATTTATGCTGTTTTTGTGGTGAACATCCATAATAATGGGAGCATTGGATACCTTGGGTGGAGTATTGGTAGAATACCACTTACCAGGTATCTCTTAATACAACCCCTTTTCACGTTGTTTATGGGAGACCTCCTCCACCTATTATATCGTACGACGATCAGAAAATGGCCAATCACTCTGTGGAACAACAGTTAAAAGAGTGGGACTTATCTCTTTTGGTATCAAAGGAACACTTGCGTATTGCTCTGGAGCGCATGAAAAAGTATGCAGACTGCAAGCGACGAGAGGTGGAATACCATGAAGGTGATTGGGTGTACTTGAAAATAAGACCTTATCATTCGAAGTCATTGGCAAAAAGGCGTTGTGAGAAGCTATCTCCCAAGTATTTTGGACCTTTTAAAATACTTGAATGCATTGACAATATGGCATATCGCTTAGAGTTACCATCAGACTCCCTAATCCACGATGCTTTCCATGTTTCGTTGTTGAAACCGGCGGTTGGGCAAAATGTAGTGGTTCAACAACAATTACAACTCCCTAATCCACGATGCTTTCCATGTTTCGTTGTTGAAACCGGCGGTTGGACAAAATGTAGTGGTTCAACAACAATTACAAGACTATTCAAACTATTATGTATGGAAGGCGGAACTGCAGGAAGGGTTGGGCTTGCGTTGGATTATGGATTCCAATGAGGAAGATTGGCTGGTTAAATGACATGGGTAGCAGGAGTGTGATGCAACATGGGAAGCAAGGAAGGATCTTCAACGTTTATTTCCCGAATTCAACTTTGAGGACAAGGTATACGTGACCTCGAGGGTATTGTTAGACCTTCAATTACTAAAACATATAAAAGAAGGGATAGTTTGGGTAATGAGAGTTAGAAAAAGGTGGGGACCATTAGTAAAGGTGGGGACAGTTGGGAAAGGACCGTGGTTGTGATGTACGGTTCCTGGAGGGTGAAGGGTTTTTGTTGGCTTTTGTGGTTGTTTGGGGGACAAGGAAAATTTGGGTAGAGACTTGGTCTTGGAGAGGTTCTCAGCTCTCTCTAATTAGTTGTGGCTTGTTGTTTCCCTATCTGAAAATAATATATTGGCTCATAAGTCACTGTCCGTTGAAGAACTATCAATCGAACAATGATAATTTTCTCCATCTTTGTGTTTTTCTGTGTGTTTGTTTGTTGAACAGGTTTATTGGTGTTAGATACCTAACACATGGTTCCATTACTAATTTGTGGAAAACACCAATGCAAGTCAAAACATCTCTGAGTTGATAAAGCCGTCAGAAGCTAAAGAATAATGATATAATGGATGACCCTAAAAAGTTATTACGCTTATTAGTCTGGAGAGTAAACCATAGGATGATGATGCAAAGTTTCTTTCTTAAAAAAAAGTAATAATGTAAGCATGATATGAAAAGTTTCTGATTTAATTTAATGCTCCCTCACTCATTTTGCCTTTTTATTGTTTCTAAAATCTATGACAGATGTTGGTGGCAAATGAAATTTTGAACCCTGAGAAAAGAATTGGCAACGTTCCAGGTTGTTTTTTGCTCTGAAACTATTTACCTTTTTACTGTTACTTTGGCCTTGTTTGTGGTATATGTATGATGGGGGATAGCTTTGTGGTGCACATGTGAAATGTTGAGAGAATTGAATAACTATTTTTGTTACCTTCATTTTGAGGCAAAATCTACCTCGAACACACAGGGCTCTCCTTAAATTTTCTTTGGCTAGCTCATCTGCTTGGACTATTCTTCTTTGTAGGTCTTTTCTTTGGTACTTTATTTATCATCTTAATGAAAGCTAATCAAGTTAACAAATAATATGAGTATATTGAAGTAGCTAGCAATAACTATACATGGTTCCTATTTAGGAAGAATTCTACCCCAAGCTAATGAAATTAGTATAAACTCATTTAGAGTAAATTATTCACGAGAGCACTAAACTTGAAGAAATTTTAAATATACAAACATTTTTAAACTTGAAGGAATTTTCGACTATTCACACGGGACAATTGCTTGACAATACTATATTTGGTTGCTAAGGTAACTTGTAGGTGGCCATCATGGCTTGAACCCATGGTTCTCAATTCTTTCAATAATTTTGACTTTCAGTTTCTTTTTGATAATTTTGTCAATGTAGAATTCCCTCTTCCCTCCACAACCATCCTTATTGAGAAACTAAGAAAGATAAAAAGAAATCCGAATAGGATGGCATTGACATCCACATAAGGCCAAATGAGTTTAGCAAAAAGATCAACACAAGGCTTTTCATTATATTGTGTGGTTATATTGGCTTTCCTTTTATAATTACATAGCAACCTGCAAAGGACTATCCTTTTGGTAAGGGCTTATGGTTTCTTGGTCATACCAGCTTAGAGGTCTCAGGTTCGAGTCCTTGGATAAGCATAATAAATAAAATCCCTTGATGTCTCCTGGGTCTAGGTCTTGGGGCGGGTGCAAGTGCCTCCTGGTGTGGGGGAGCAAAGCTCTGACACCCGGTTATAAGAAAAAACTAATCGCAAAAATTGAGTAGCGAGCGAAACTCAATTTTGAACACAAACACAATTCTTTTATTAGACAATCAGTTGAAGGAGTGGCAATGATTTGAAAGTCCTAGTGGATTGGAATTAGGAACTCTTTGGTTATGTGAACCCCTAATTCACAAATACTAAAACTCCCAAATCAATTCAATTTCAACCCTAAACATGAGGTTAGCCACATGATTATCTAAAGATCAAAGTTCTTAAGACAAGAAGAACAAGTTCTTGGCCCAAGAGTCAAACACTCCACAAGATAAGATGATCATTCCTACTTGAATGTTCTTGGCATGCAACTCAACACACATGAATTGCAAAATTCAATAAGCTCTTGGCTAAAAAGAAATGAGGCTATAAACTCAACTTCATCGTAAACTGTTATGTACAATCTAATGATCAAGCTTTAGACGGCTTTCCAAATCCTAAATGCCACATCATTGATCATAGCAAATAGCAAAAGTACCTCTACTTAAAATGTCATAAAAAGGATAAAATTGAATAATAATAAAATTACATAAAATTATAAAATAACAATTTGATGTCCCTAGTGGTTCATATCTGACAATTAAATTGAATCATAAGGAAGACCAATCATGGAAGAGTGGAGGATAATTTTTTTTTTTGTTTGGGAGGATTACTAGTGGGAGAAGCTTCGTTGCACCATGTTCTTGCTCTTTTACCATCTTTCAGTCATGAGATTGCATTTTGTGGCCTCAATTTGGTCTTTTCAAGTAATTCCAATTCCATCAGCCTAGGTTTTTGATGCCCTTTTGTTAGATAGGAGATGATAAAGATGTCAACCCTTTTGCTCTGGAGAGCTTCCTGTCTTCGCCTTGAGAAGAGGGATATTAACTTTTGGGTCCCAATGCTTCAAGGAGCTTCTCTTGTAACTTGCTCTTCCATCTCTTATGCAACCCTTCATCCTCCCCTGGAGTCTCTTTGTTCTCCTATCCTTGGAAAGTAAAGATCCCAAAGAAGGCCAAACAAGTCTTGTATGGAAAACCTTGGTTGTATCCAAAGGCATTCTTCTGACCCTAAGGGGCACATTTTGTAAACAGGAGCCTTCGAGGGTCTTGAGCCTATCTTTTGGAGTTTCCAATTTACTCTGTCTATTTGGATTCGCTTTTTGGAGTAGTTTGGTATCTATTTGGCACATACTCGTGGTTGCTATTCTATGATGGAGGAAATTCTTTTGCACACCCCCTTTTCATATAAGGGGAGAGTTCTTTGGTAGGCTGGATTTTTGTTTGCTATTTTGTGGGGCATTTGACTAGAGAGAAACAATAGAATTTTCCAAGGGGTTGAAAAGTTTTTTCATATTAATACTATGGGTTGTTTTGTTCAAGGTTTCTTACATGCCTGAGAATAATGGATGCTTGGAAATAAGATGCCTGGAAATAAGATTGCTGGGTATGGTTGTATACCTGAGAATGTTAATTTTCATAATAATAAATTATATGTTTTTTTATGAGATTAATTTATAAATTTTATATAATTATGATGCATTAATTAATGAACTCTTCAACAAATAGATGTAAATTAATTGATCATAATAGATGTATAATTTTAATTAAATAAATTATTATAAAAAGTTATCATTTTTATACTAAATTATTTCAATTAATTAAATAGAATAATAATTTATTAAAGTTTCAATAAGTACAAAATTACATTAATTTAGTTTATTTTTATAGAGGAAAAAAAATTAATTTTACCCATAAACATGTCACCGTGTATCAATTTTTACTTTAAACTTTTAATTTCTACTCGCAAATTAATGAATAAATTTACCAAAACTCCCAAATTTTAACAAAATGTAGGTCTAATATTATTTTTCTTTAAAATCTTATTAATTTTAATACCATAATTATGTCCTATATAATTCATTGAAAGCATATAAAAAAATACTTTTCTTTAATGATTTTTCAAAAGAAAACTGATTGGAGGATAAAATTTGCAAAACACTTTTAAGTTTAAGGTTAAGGTTGCAATACTTATTGAAGTTTGGGTACAATTTGATGAAATTAAAAATTTAGGGTAGAAATTGATGCAACTTGACAAATTGATGCAACTTGACAAACTTAGGTGTAAAAGTTGATTTTTTCCCTTTTTATAAATGAGAATTTATTCGGTATATTTTCAATCAATCAATTAGTTATAATTAATTTATTACAATTTTTATAATTTACAAATAAATAATTAATTTGGTTAATTCAATACATAAATAATTTTAATATAATTGGGTTGATTATAAAAATTACTCTAAATAAATTAATTTTAATAGAATAAATAAATATATTCAAAAGAACGATAAATATTAACATAAATAAGAGTGAGAAAGAGGAGGGCAAGAAGGAAACCAATGTTTTTGGAAACATGGGTTTCAGATTCATTGTTGTTGAAAGACGTCTCAAATGTTGTAGGCTTGAATCAAATTTATCAAGTAATCCAAGATGAAATGGAGGCTGCGGTAGTTGACACCTCGATTTCAGTGGGTTTAAATGTGAATGATGGTTTGGATGCCCTTAGTAACAAAGTTCCCAAGGAGTCATTAGTTGGCAGTTTGGAGTTCCATCGTGAAGGTTTATACATTTCTAAGATTATTGATGATGATTCTACTCTCAACTCTTATTCCTCCCTGGTGGCCTTAAATTTGTCCTCTTCCTTGCCATTAGTTGCGGTTCAAGATAAGGATTCTTGTGATCTTATCTCTTCTCACTTGGAAGTGGTGCCTTCAACCTTAGACTCCAGTTTGGACCAAGGTGTGATTGACGCTAGTCATGGTAGTATGGAAAGGATGTTGGGCTGAATTTTTCTATTGGGGATTTGATTTGCAGTGCTTGTCGCCAATCTCGAGCATTGTGAAGGAAATTCAGGAGCGTTTTTGTTCTACTTATGCCAATATTATACTCGTAGAAAAGAGAAGGAGGTCGAGGCAAAGCAGGTATGTTCTTCTCCTTTTTTGAATTTTGCCAATTCAAATGATTCTCCTTCTAAACTCTTGATACTAGAAGAAGTGTGGAGGAAGGCAAGGAGAGTTGGGCAATCTCCTGAGAAGTTTGTTTCTGCTCGATTTGAAGAATGTTTCTTGGGCCCTTAGTCTCGGTTTATTAAAGTTGCTTTTCAGAGCAAGGCTTTGCTTGGTCAGCAGGTGGAGTCATTGGAGTCTAATGTGTTTTAGGAGGAGGAGGTGGTTCAAATATTTGCTTTAGTAGCCCGGAAAGCAATAGACAAAAGTGGAATTTGAGTTCTCCCTCGACCAAGGATTCCCCTGTGTCAAATCTTTCTATTTTGTTTAATTATCTGATGGGAAGTTGCAAGGAGCTTTTCAATATAAGTTTATTGGCAGGGGAGGATTCAATCCCTCAGGTTCTGAAGGAGTTAGATGCCTTTAAGGAATTAATCAAGGCTAGTAGGCTGCAATCTAAGAAGCACATACACGGACACGTGACACAAACACGGACACGACACGATACGACGATACGCCAATTTTTAGAAAACTAGGACACAAACACGTTGGGGATACGTTATTATTATTTTCTTCTATATATAATATATATATAACATAAACTACTAAATGTACTCCAAAACATAAAATGTTAAATCAATTGAGATTTTCATTTGATTATCCATATCCAACAAAGTTGCAAAACAAGATATCCAATGACAATGACCAACCAAAACCCAATAAAAGTTACAAACTATTGATCTAGAGTAAAAAAATACAAGAAAGGAAATGATTCAAATGAAAAATAGTTTTTCATACAAAACAAAGTTCTCAAGTAATATAAAGAAGAGTCTCAAATCTCCACATTTTCATCTTTATCACCAAAAACACCTTCATCATCTTCATCATCAATAATCCCAGCCTCCAAATCTGGTTCATCCAAAGACAAATTAGCTATTTCAAGCATGCCGACATCTTCAAAAGAATCAAAAACATCTCAAACAATATCCCATAACTTAGTATCTCCTTTTAAATACTCTGGAGTTCTTCTTGACAAAAGACGAAGATTACTATGGATAAATACCAAATGTTCTGCACGTTGTGGCGTCATTTTGTTTCTCTTGATAGAGTTAATAAAGAAATATGTGCTCCAATTCCTCTCACAACATGAAGAGGAGGAAGGTTGTCCAAGGACTTTAAAAGCAATTGCCTGAAGTGTTGGTGCATATACACCATGAGTTGCCCACCAACTGATCTATAGTATACCTCTGAGATATTGAATCATATTCAGAAAAATCTCCTGTCTTGGTAGAAAATCTGGCAAATTCTACATTCACTTTTGCACGATCTTCAAAATTGGTAAAATATCTCTCAAAGCACTTCATTCTCTCTCGAGTTAGTTCCATATCTTGATGCGGAGCCACTCGATTAGGGTCTTGTCTAAGCCATTCTTCACTATAGTACCTAAATATACATTTTGAAAAAAAAGGTTAAATTTTAAATATAAACTACAAGATTAGAATAGGACCAATAGGTCATAACCACCATAAGGATATAAAAAGAGTAATTAAGTACCTTGGATTTAAAGAATGTGCTAAAAAGTGAAGTGGAGTATTATTCTTGTTCCAACGATCGATGAGAATGTTATGCACCACATCATAGAAAGAGGAGTGTTCACTTGGTTGCAATCCTTCATGTCTATATATTGTTGTCTTCACCTTTTCAATCATTGTATCCCACATATCATGAACCAAATGTAAACAAAGTTTGTCAGTATCACAAGCTCTGATCATATCATATATAGGTGAAGTGAAGGAAATAATATAATCAATCTTGTCCCACCATATGTCATCAAGGACCAACTCCTTTACATTTTTTTTGATATAAGAAACAATTTCATTGATAAATGAAATGGAGGAAACTCCAAACACCCAAAGGTGCATTACAAGAAAGATTGCCAATTATAAATGAAAAAAGAAGAGTTAAACAAGCTAATGAGATAAACATCCTTACACCAAAGATAAACATGTAGAAGAATATTATCCATAAAACGATGAAAAGTAGAAGAAACATCCCTGAATAATCGCCCATTCCTCTCAATCCATAAGTTCGAAAGAAAAACTTGAACTAGAGCCAGCCAAATGACTTTCCTAATGCCTTTGAAAGGATGTCTCACCAAAACGTAGGATAGGAAATCAAAGATATTAATCGGAAGCGGCGATGACCAACCAAAAGCATTTAAAATCTTCCACCAAAAGTTTAAAGAAAAGGGGCAATGCACAAAAAGATGACCCGCAGATTCAGAGTTCAAATTGCACATAAGACACCAAGAGGGGGATAAGTTCATATAGGGCATTCGTTTTTGAAGACGATCTGCAGTATTAACAGCTCCTAAACTTAGCTCCCAGATAAGGATTTTAATCTTTTTTGGGTAAGAATCCTTCCAAATGACTGAATAGGTATCCTTTCGCCCCAGATTATCACAATTCAACAAATCACCGTGTGAGAGATCTCACGGAGAAGAAACAGTAAGGCTCTCTAATGACCATGCCCACGAGTCTTGTCTATTCGAGAAACGAACAGTAGATAATAAATGAGATAGAGATGTCCACTCATTAATTTCTAAATCTGTTAAATTATGTCGGAGACGCAGGTCCCAAGCCAACTCCATCACATTCCACATATTAGCCACAGTCAAATCAGAGTTCAAAGCCAATCTAAATAGCCTTGGAAAAGCCTGGCTGATAGGTCCACAACTAAGCCAGTGATCCCTCCAAAAAACTGTGGAGCTTCCATTCCCAATACAACGCAAAGAACGCCGAATCACCAAATCACGTAAAAGGCAAATAAATCTCCATGGTGAATTGTGTTTAGTGTTCATAATGATCGGGGGCCAGTCAACTGAAGTCAAGGTACCATAATATTTAGCTATTATAAATTTCCTCCATAAGGAGTCATGTTCATGCATGAATCTCCAAATCCACTTAGCCAGCAAAGCCGAGTTTCGATGTGCAAAGTTACCAATCCCAAGACCACCCATGAGCTTAGGAAGCTGAACAGTTGCCCAATTCACATTATGTACTCCACCATCACCTTTAGCTCCTTCCCAGAAGAAATCACGAATAATTTTATTCAGTATTGAAATAATTCTCGACGGAAGTTTGAAAAGAGACATGTAGTAAGTAGGCATACTAGAAAGGGTGGCCTGAATCAGAGTATGCCGCCCACCTTTGGAAATGAAGGCATATTTCCAATTATGAAGTTTCTGTTTCAAATGCTCTATAATAGGTTGCCAAAACAAAGCTGCTCGAATTACCTCCCAATGGCAAGCCTAGATAGTCATTTTTGGCCAAAACCCCATTTACAAACCAAAAATCGCCACTAACTTTGTCCATCTCAAAGTTGATCAATATGTATGCCAATCATCTCACTCTTCGCTAGATTAATCCTTAAACCAGAAGCACTCTAAAATATCTTTATCAGTTCATAGAGATGTTGCAAGGCAGAATGATCAGAAGTTGAAAAAAGGAGCGTATCATCCGCAAATTGCAAATGAGTTAAGGCAAAAGATGAGGTACCAATATAATAAGAAGATATTCTACCTGATCTGGCACCAAAGTCTAAAAGTTGGCTCAAACAATCAAACACCAAAATAAAGAGAAACGGGGATAGAGGATCACCTTGTCGGATACCACGAGTAGGAATGATCTTCCCACGAGGGCGACCATTAATAATGATAGAGTAGTTAACACTCGTAAGACAACCCCGAATCCATTTCCTCCAGGTTGCCCCAAAACCTTTAACCTCCAGTACGACATCTACAAAGTCTCAGTCAACTGTATCAAAAGCCTTTTCAAGGTCAAGTTTTATAACTACTCCCTTGATATTCCGGATGCTCCAATCATCAATTAGTTCATTTGCCAATAATGATGCATCGAGAATCTGTCGGTTAGCCACAAAAGCAAGCTGATTTTCTGCTATTGTTGATGGTAAAACAGATTTCAACCGATTAGATAAGACACCCACAATTATTTTATAAACGCAAGAGATAAGACTTATAGGGAGGAACTCGGTCACAGATTTTGACCCAAACTTTTTCGGTATTAAGCAAATATAAGTTTCATTCAATGAAACATTGATGATGCCAGACGTAAAAAAATCATGAACCAGGCTCATAATGTTAGATTTAAGGAAATCCCAAAAGAAACTGAAGAACTCAGCTGTAAACCATCCGGTCCTGGGGATTTATTGGAACCCAAAGAAGAAACAACATGAAAAGCTCCCTCTTCTGTAAAAGCAACTTCAAGAGTTGTTGCTTGTTCCGAGGAGATAACACTCCAATCAACATTAGTGGACAGAAATCTAGAGTTAACATCTCTGGTATACAACTTTGAGTAGAAATCAATAAACTCATTTTCAATATCTGATGCAGAAGTGAGACTAACACCTTCTCTTGACAAAATTTCAGAAATCGAATTCTTTCTCTTCCTCGCAGCCAAAATCCGATGAAAGAAATTAGTATTTTCATCACCTTCCTTAAGCCATTTCAGCTTGCATCTCTGACGCCAATAAACATGGTCTTGTGCAATCAAAGATTCGATTTGATCACGTAAAAGCTGACGGTTTTCAATCTGGGGGATAGTTAAAGGCCCACTATCCTCCAAATTGTCAAGAGTTTGCAACTTCAAAATGATTCTGATTCCACCAATTCGATACCACATCTTTAATTGATTCAATCTGAAGCCACGAGTTCTCAAAACGGAAAGGAGAAGGTCCCCAAACAACATTACCAAAAATTAGAGCAAGCGGATAATGATCCGATGTAATTCGAGCCAAACGATTGAGAGCAACCGAGCCAAACTTGTTGGAACAACCTTCAGTAATTAAGAATCTATCCAATAGAGAGCAATAATGAGTGCTAGACCAGGTGAAACGACCATTCTGCGATGGGATATCGATCAAATCATAAGTTGAAATCCACTGATTGAAAGTATCCATATTTCTACTGATGGAATTGTCATGTGATTTCTCCCAAGTCCATCAAGTGACATTAGACCAACTCCTTTACATGCCTCGCCTTTCCCACATCATCTTCTCTATAACTTGCCCATTGATCACTAATAACCATATTTTGTAAACCACCTTTAATAAGTTTGAACCTCTTAAGCATGGTGATTACTGATGCAAAACGTGTTTCAACTATAGAAAGCAATTTAAGAGACACAAATTCATTAAACATGGCGAGCCTCATGGAATGATTCATGATAAAATTTTTCACTACCATGATATCACCAACAATATTAGATATCCAACTGCATTCCCCATATACAAGTTGATTGTTTTCAACATTTTTGGTAGCACATATGTTTTTCAAAGCAAGATTCAGGGTATGCACTACACATGGTGTCCAAATAATCGTCGGAAATTGTGCTTCGATGATTTGCCCTGCACCTTTGCAATTAGGAGCATTATCTGTTATCACTTGAATCACATTTTCAGGGCCGACTTCATTGATCACTTCTTTCATCAAATTTGCAATGAAATACTTAACTTTGATCTCACCAGAGCAATCCACTGCTTTTAGAAACATTGGTGTGCCATCAGACATTGCCATAAAATTAATCAAAGGTCTCCTTTGTGAGTCACTCCATCCATCACTCACAATACTCACCCCCTTTGTACGCCATTCACTTTTAATAGGTGTCAATAGTCTCTCAATATTTTCCTTTTCTTGTTGGAGAAGACTTGTCCTCAATAAATTATATCCAGGAGGAACATATCCCGACAACATATGGTTTGCCGCATAAGTAAAGGCCCCTATAAAATGAGGATTCCTCGCTAGATGGAAAGGCAAGCCAGCAGAATAAAACATTCGAGCAATAAGTGCATGTAATTGGTCTCGTGATGTCTTGTTGAAAGATCTTTCAATTGCACTTGTACCAACCTTTCTTTTCTTTAGCTCACTTGTAATGGGAGTGGGAGAATTACTGACATTAACACCACCAATTGATATGATTGAAGGCGTAGGTGGTAAAGGAACATTTTTTGGACTTTTTCTTTCCATTCGAGTCTTTGCCTCATCTTCTAACTTTTGCATCTCAACCATATCTTTAAGAGTGGCTTTTAGACACATTCCAATCCCTTGACCATTTATCTTCAACAAATGAGCCCTAACTCTTGTATAAGAGCTCTTTTTTGTGGCGTGACAAAAATTGCATATAAAAAATTTCCACCCCCATCACTCAATTTTTTAATCTTAGTCACATATTGCCATAGAGGTTTGGAATCATCTTCAAAAGTAGAGGAGGGGGATTCTATGGAAGAATTTGATGAATGAGAGTGGCTAGAGGTTGAAGATGCCATCCTTTTTCCTTCCTAATAAAATTATAAACTTGTAATTTTATTGAATGACAATGTTAGAAATGATGGAATAAGAATTCACACAGATACTAGTTTAGTTTAAGTTTTATTATATGAAAGAAACTAGGAAAGGAAGGAAAAAAAACATACAGTTCAGTTCTGTGAAATGAAAACCAAAATAGTGGCAAAATGCAGATTGGACAAGACGAAGAGTTGCGGTTGCGGACGGCACGATGACAGGCAACACGGCGGCGCGAACAAATCCTTCGCTGGTCGTGGTCGATGCGTGTTGCAGGCGCTGGCTTCGTGCGAAATGGAGTAGGGTTAAAATCGATGGGGGTGGGCGACTCTTTGTGTAAATCGTGGGAATGGGAAATGGAAACTTTGGCTTTTTGGGCCTTTATTTGGGCTGGGAAACGGAAACTTTGGCCCTTTGGCAAAATGCAGATCTTTGATTTCCATTTTTTTTACGTGTCCTTGCGTGTCTGATGTTAAAAAAAAAAATTGGATACGCCAAATTGCGTGTCCGACACGTGTCCGGTGCGTGTCCGGACGTATCCGTGTCCGACACGATTCTTAGCCTAATTTAAAGTGTCCGTGCTTCATTGGCTGATATTTAGAGGTGCCGTTTCAACCTCTGCTTCTTCTCCCTGCCTTCAGCTCATTTCTTGAAACACGTGGGGTTTGGGTGATGGGGCCAAAGGTTTCTTTCTGCACATATTTGTTTACCTAGCGACCGACTGGGATTCAGTTTTATAGAGCTTTTTATTTTGGTTGATAAAGTCAAAATGGAGGGACATGAGAAGAAATTTGGAAGTCAGGGTGTTGGGTCTTGGTGTGCAAATTTATGTCTGTTGCTTCGTTTGTGTTCGGTTGAGCAGGTGGTATGTTCTGTTGAGTTGGTGGTTTGCTCTTTATTGGGGATGTTGGTAATATTTTAGTTATGATTTTTAATGGGTTGATTGGAGGTGCATTGCTTTTTGAAGTTTTTATCAAGGTGGCGGGTGTGATCTTGAGCCGTTTTGGCCTACAGATGAGCTAGTAGCTTTGGTTGGTTTTAGTGTTGGTTTGGTTTTGTGTGGTAGTATTGGATCCTTTGATGTTGTTGTCAGTGGCTGTAATATGGTTGAAGAGCTTGCGTTGCTTCAGTTTATTTGGGGTATTTTTTTTGTGTCTTTGTTAAAATTTTTGCCGAGTGCTTGTATTCAATCTTCCTCTTGTGTATGTGTATTGTTATTTTTCTTTTCTCCCTTGTGAAGTTGTATTTTAAGCATTAGTTTCTGTTCATTATTTCAAATTCTTGTGAAGTTGTATTTTAAGCATTAGTTTCTGTTCATTATTTCAATGAAATTTGTTTTGCCAACAATGACTCATGATTCATCATGAAAATTACCTAAAATTTCCCCTTTCCCTTATTACTTTTGTATTTCTTTATTACCTCTGTATTTATTTGTTCAATTTCCATGTTGGAGAGGACTGGGGCTTTTACCATCTCAATTGAATTTGGAAGTTTAGTGAAAAAAAACGTAGTTTATTTATATTTATTTATTTTTAATATTTATTATTATTTTTTAAAATTGGATGGAAAACCAATCTTTTATTGAGATGAATGAAAGAATACACACAAATAATACAAAAAAGGGTGACCCAAACTCCAAATCATAGATTGTTATGTGCTCCTCACACACTCCAGTGGTGAAGCTATGTATAGAGATGAGATAATATATTTTTCTGTGTATCATTGAGTATAGGAATGTTACATTTATACTAGGAACTCTCAATCTAAATAAGCTGAAATTATGCAATCAATCTTATATGGAAAAGAAAAAATAAAGCAATATACAAGGAAACCATCCCAAATATAATGCCCTAAAGTACAACTTGATTTTCTACACTCCCCCTCAACCTGAATGATACATGCTTGTCATGCCGAACTTGGAGACTAACCCACCAAGGCTGGATCGATGTAGCGCTTTAGTTAATATATCTGCAACTTTTTGTTGGGATGACACATATCTTAGTGCAATAGTGTTTGTCTCAATTTTCTCACTAATAAAATGACGATCTATTTCAACATGCTTCATTCTATCATGATGTATTGGATTCTTTGCAATTGCGATGACTGATTGATTATCACACAATACTTCTATGGTACCTTCTGTCTTGATCTTGAGTTTAGTGAGAAGGCGTTTTAACCAAATTCCTTCACAAATCCCATGAGCTAGTGATCGAAACTCGGCTTCGGCACTACTTCGAGCAACTACAACTTGTTGTTTCTTGCTTCGCAAGGTAACTAAGGGCCTGTTTGGTAGGCAATTCGGATTCTGTTTTATGTTTTCGGAATTACTGAATTCAGTGAATACATGTTTGGCAAACATGTTTTTGAAAAATGTTTTTGGATTCTGTGATCCAAATAGTAGAAATTCTAAAAACAACATTTTTATGTTTTCATTGTATCCAGATTCTGAATTTGAAATTTTAAAATGCAGAATTGTATTAAACGAAGATGAAATCTTAATAAATATTGTATTTCATGTTTATAAACTTAATTTACTTTTGTTAAATTAAAATATGTATAATATAATATAATATATTATAAAATATAAAATATTATATTATAAAATATAAAATATTATATTATAAAATAATAATTATATAAAATTTATTAAAAAAACACATGTTCATAAATTAATTAATAATGATTTATATTCAACCTAACATTTAGCTTTGCAACTACAACTAATTTTATGATCTATAAACATATTATAGAACACACTTTAAACTACTATTTAAAATGGAATTAAATTTCTAAATCTATTACCAAACACATATCTGAAAACATGAAATACAACTCTTTTTTCATTAAATCCTTTGTTTTCAAATTTCTGTTTTCGGATTGCCTACCAAACAAGCCCTAAGTTTCCCCATACCTAGGAACAATACCCTAAGGTCGACTTACGGTCGATAGGAGAGCCAACCCAATTTGCTTCAGTGTAAACTTCCAACGATCGAATTGTAGTCTTTTTGAACATAAGCCCCTTTCTAGGATCATTCTTTAGATATCTCAATATTCTATACACAACTTCCATATGTTCTTTAGACAGTTTATTCAGAAATTGACTTACCACACTGACAGCAAAGCTAATATTTTGTCGAGTATGAGTCAAGTATATTAGCTTTCCAACTAGTCGTTGATACCTACCTCGATCGACTACTTCACTTTTGGGGTTAACTCCAAGTTTCGTATTTGCATCCATAGGTATTTCTGCTGGTTTACAACCTCTCATCCCTATCTCTCTTACGAGATCTAAAGTGTATTTTCATTGAGTGACCGAAATTCCCTTGTTGGGTCTTGCTACTTCCTTTTGCAAAAAATATCTTAGATGCTCCAAGTCTTTTATTTCAAATTCCTTTGAGAGAAGTTGCTTAAGTCTAGCCATTTCTTCACAAACATTCCCTGTGAGAATAATATCATCGACATATACAATTAACACAGTAATATTACTTGGTGGCAAATGTTTGATGAATAAGGTGTGATCAAATTGACACTGAATATAACCATCTTGCTTCAACACAGTTGTGAATTTATCAAACCAAGCCCGAGGGGATTGTTTTAGCCCATAAAGAGATTTCTTGAGTTTACATACCTTTCCTCTAGTATATCGGTCTTCAAATCATGGAGGTATATCCATATAGACTTCTTCAACTAGATCACCATTCAGAAACACATTTTTTACAACAAGTTGAAATAATGGCCCGTCTAGATTAGTTGCAATAGAGAGAAGTATCCGAATAGTATTTAACTTGGCGACTGGGGGCAAATGTTTCTTGATAGTCGATCCCATAAGCTTGGGTGAATCACATAGTCACAAGTCGAGCTTTGAATCGTTCTATATTGCCATCTGGTTTGTGTTTGGTGGATAATATCCATCTACATCCAACTGTACGCTTGCCTAGAGGCAAATATGTAAGAATCCATGTTCCATTTTTTTCAAGTGCTCGCAACTCCTCTAGAGTGGTTGTTTTCCATTCAGGTCTCTATAATGCTTCCTGTACTGTGCTGAGAGTTTGTATCTGATCTAGTGAAGTCATAAATGTATTGTGCTGGGAGTTTGTATCTGATCTAGTGAAGTCATAAATGCTTTAAATATTGGTGACAAATTAGTATAAGACAAATGGTACCGCATAAGGTGTTGAGTACATGAGCGAACAACTTTCCTTACAACTATAGGTTTGTCTGTATCATCTTCCGTAGTCTCGTTTACTATTTCAGAGACATTATGATTTTGGTTTAGATCTTGGCTCTACTGAACATGTGAAGGTTGAACTTCAAGTTGTTTTGTTCTTCTCGAATAAACTTGTAATTCGGTTTGAGGGATTGGCTCAGAGGAGGATTCATAAGGTTTTTCAGATAAGTTAGGAGGAAAATAAGGTATGCAATCCCAATTTTGTGATTCGATGTCATAATGCTCCCCCTAAAGCGCAGAGTTGGAGAAATATGATTGATTTTCAAAGAAGGTTACATCCATGGTATGAAAGAATTGATGAGTTGGAGGATAATGACATTTATATCCTTTCTAGTTGGCGAGTAACCTACAAAGATAAATTTCATGGATCGAGCATCGAGTTTACTACGATGCTGAGGGTAGATATGGACAAAAGCAGTACATCCAAGTATTTTAAGTGGTAGCTGAGACACCAGGTGAGATGTGGGTTAAAGAGTAAGTAAACTTTGCAAAGGTGTTTTGAATTTGAGAATGCGAGATGACATGCGATTTATTAGATAAGTAGCTGCTAGAACAACTTCACCCCAAAAAGTTTTCGGTACATTTGAAGTAAACATGAGGGAACGAGCTACATCAAGAAGGTGACGATTCTTGCGTTCAATTACACCATTTTGTTGTGGTGTGTTGACACAAGAACTTTGATGAACAATGCCATGGGATTGAAGATAAGGTCCAAGAGTAGAGTTGAAAAAATCTCGAGCATTATCAGTTTTCAGAATTTTGATATTGCCTTAAAATTGATTTTGGATCATTTTATGAAAGATTGTGAATAATTGACTAGTCTCGGACTTCTCTTTCATAAGAAATGCCCCACTTAAACGAGTGTGATCATCAACAAGTAAACGAAACCATCGTGCCCCATTGACATTTTTTACTCTCGAAGGTCCCCAAATGTCTCCATGGATAAGAGAGAAAGGTTGAGAAGGAATATAAGAATGAGGTGAAAAATGAGTGCGAGTGTGTTTGGAGAGGAGTTGACAAATCTCACATTGGTAAAGATGGCTTTTTTTTATTGATAAATAACAAAGGAAACTAACGCTCAAGATAGGCAAAATTTGGATGACCTAGACGATAATGCCACATCATGACAAGATTATCTTTGTGATCTAAAGATTTTGAAACATAAGTTGACTCACAACTAGACTGAATGACAAGTTTATTGCATCCCTTTGTTGTTGGTGGATTCTTTCCTTTGAGAAGATAGAACCCTACACATAATTCAGCATTGCCAATCGTCTTCCTCGATCCTAACTTGAAAAATACAAGAGTTCGCGAGAAATTTAGTTTGACTGTTCAAGTCCTTATTCAACTTACTCACATATAGTAGATTATATTCTAGTTTTGGCACAAACAATACAAACTCAAGAATCAAGGAGCTTGATATTTGAATACTTCCAATTCCAATTACTTTAGTAGGAGTGCCATCAACAATTCAGACAAAAAGGTCACCCTTATAAGGAGAAAATGATGAGAATAAGGATCTATCACCTATCATATGATCAGAGGCTCCAACGTCTACTATCCATTCAGATGGAAGAGTTTGAGTGTGGAGAGCAAGGGAGTTTTGGTTACCTTGTTGTTGCATACTCCCAGAACCACTTACAACTGTTGGATTTCTTTTGTTCAATAATTGTTGTAGCATATCCAAAATATCTTTGGAGAGTGGTGAGTGGTTAGGAGCTTCTGAGGTTACATCATTACCCTTTGTTTCTCGATCAAATTTGGCAGTATTTGGTTTCCAGTTTGCTGGCTTTTCGTGTATTTTCCAACCGGTGTCTTTAACATGTCATGTTTGTGACAATGGTCACACCATGGTCTCCCTTTGCGTGACCTTCTATCACCATGCATCTGAGAATTTCCACGAGCTGCAAGAGCTATTGGATCATTAGGATGATCCTGGTGGGCCAGAGTGCAGGTCCATTTTGAATGGTAGAATGTTCAATTGGCCCCATCATGACTTGTTTTCAACTTTCTTCGCTGCGAACCTCAAAGAAAACTTCACGAATACTAGGTAAAGGTTTAGTACCAATGATCCGACCACAGACTTCATCAAGATATTTATTTAGACCCATAAGAAATTTGAAAATCCTCTTCTTCTCCACAAATTTGCGGAATAGAGAGCCATCTTCATAGCATTGCCAATCATACGTTTCAAACAAGTCTAGTTGTTGCCAATAACGAGATAAAGTGGTGAAATAAGTTGTTACTGATAATTCACCTTGTTTGATATCCTGGTTAAGAGTCTCGATTTGAAAGAGTTCAACAGTGTTTTCTTGACTAAAGAATGTATCACGAACAACCTCCCAAATTTCTTTGGCAGTTGAATATAGGAGAAAATTCTCTCCAATTTCGGTGTTCATAGAATTGATCAACCAACTCATGACTTGATTATTTTCAGCCCTCCATATGCGAAATTTTGGATCCTCTGGTTCGGGTGGAGTTGATTTGCCGGTGATATGTTCTTTCCGTCCACGACCATATATGAACATCATCACAGATTGGGGCCTTTGAGTTTGTGACATGTGATACATGTGAGGTTGTTCTCATTGATGGTAATTTGAGAGTTTGTCATTTTGAGAATAACAACAAAACCCAAAAAAAAGAGTGAGTTATGAAACAGAAACCCTAAAAAAAATTACATTGCTTTAGATCTGAAACACGGGTAGATCAGGAATGAAGTTGTTGTCAGTGGCGGTGACGGTGGCTGCAACGAGCAAAGAAGGTGAAGATCTGGTCAAAACTTGCGAGGATTGGGAACGTGGATGAAGATCTGCCGATTTGCAACTTACAGAGTGTGAAGGAACTAATCAAAGCTTACGGACTTGCGAGAATGTCCAGCTTGAAAAAGTGTGAGAATGACTTTCGACAACTTTTAGGTTGTGACTTGTCGGCAACTCTTGGGTTGTGGGAGAACGACGACTAGAACGATGCGTGTGCACCGTGCTGTACGACCACAAGCTTGCTGGATGAAGTTGCTGTAGCGAAGGGCTCGGATGAATGGACGACTGGCGCGTAATGTGACTTCTGGCGAGCTGCAGCGTGTGACTTTAAAGACTGCATGGTTGCGATTTGGGCTTCGATCTGCGAATGCTAAAACGACCAGCAACTTTCAGATTGATCGGCAGGGTGGAAAGGTGGCGAGGATTTCGGCGACGGTGGCTAGGGTTTCGACGATGGCGACTAGGGTTATGGTGATGGTGGCTAGGGTTTGAATAGTTTCAAGGCTCTGATACCATGAAGCTATGTATAGAGATAGATAATATATTTTTCTGTGTATCATTGAGTATAGGAATGTTACATTTATACAAGGAACTCTCCATCTGAATAAGCTGAAAATATGCAATCAATCTTAACCTACATGGAAAAGAAAAAAATACAACAATATACAAGGAAACAATCCCAAATATAATGCCCTAAAGTGCAACTTGATTTTCTACAAGTAGTCTAGTAAAAAACATGTTGGTGTGTGGAGTGAAGCACATAGATTGTTAGGGTATGTGCACCTAATGTACTCCAATAGTTGGATGATTCTGAATGATCGATGTTAGGATGCTGTGAGAGTACTAATATGGTATCCTATGAAGTTTATGTGGGAGATTAATAATATATCAGCAACGGGTATATGGGTAATTAGTTATAAGTGTCTTGCTTATAAATAGTAGTGTGAGGGTCATTTTTTGGTGTGGAACATTTTGGTAGAGAGTCAATTGTGGGATTGAGGAGAGAGTTAGCCCTCTCGATAGGCTATTGGATATTGTAATTCCTTCATAGTTATTGCAATTTATTAGTTTCCATGTGTTCTTAATATTTTTTTTGTGTTTGGATACCTAACATATGCTTCTAGAATGAGTGGTAATTGTTGGAGTGTTGATATAATTAAATTTTCCATAACTTATTAGCTTAACCTTTTGGATTGATTGATGATTTAACATGTTGTCAAAGCAGGAGGTCCTGTGTTCGAATTCCAGTGATGTCAATGCTTCCCCCAATTAGTATTGATTTCCACTTGTCGGGTCTTTCTACAACTTTCCAAGCCCACAAGTGAGGGGAGTGTTGGAGTGTTGATATAATTAAATTTACCATAACTTATTAGCTTAAACTTTTGAATTGATTAGTGATTTTTGTTATCCTAATACATTGACCCAAACTCCAAATTTTAGATCTAATTTGAAAGAAAATACTAGTTGTGTAGGAAGAATCTTGGTGCCCTATACCACATAGTCGATAGAGGTTCAGGAAAAAAACACCATACCAGGTTCAGGAAAAAAACACCATCCCAATCTCCATTTACTAGTCCCCTAAAATAAAGAATGTAAAATAAGAAGCAATATAACTAAAAGACTTATAACTAAGCTATTTACAATATCATAACTAATTTTCATGCTATAACAGGTATCAATATTGGGCATAGGTTCTATTCAAGGGCTGAAATGGTAGCTGTTGGGTTTCACAGCCACTGGCTGAATGGAATTGATTATATGGGGTTGTCATACAGCAAAGCGGTAAAAGGATTCTACAATTTGTTTCGTTTAACAATTTATTTGCATTACTAATATTATTCCGTCTTTTTTTTTTTGGAAGAACAATCGTTTCATCATTGTTATCACATCATATTTAAGAGTTATATATTTGACAAATTTCTTCTGGACCAGAATCCTTAAAGAGAGAGTTGTTATCATCATTATCATTTTCTTTTTCTTGGGTAAACGTACACAAAGAAACACTAGGTTTATTCATAGTTGGCTTGGATTTATTTAAGGGGGTTGTTATACGGGTTTGAGCTATGGAAATGTTAAGGGCATGAGATTCTAGTGTTGTTGAGGCGCAGCCAGGCACTCGCTTAAGGCGAGAGGCAAGGTGATGGGAGACCTTGCAAGTACCTAAGGCGAGCACCTTCAATCAAGCGCTCACCTTTTGCACCTTTTAGTTGGCTTGAAAATATATTTAAGGCGACGTAGGCACTTGCCTTCCCTTCTCTGTTCTTCATATTTTCTCTCTTTGTTTTCAAATTTTCTTCTTTAATCCTTTGACTAAGAAGAAGAATGGAAGTTTGAAGAAGAAGAATTAAAGAAAAACCAAAAAAAGGAAGAAGAATTGAAGAAAAAAGAATAGGAAAAAAATTGAAGAAGCCATCTTTTTTGCTCTACCATCCATTAACTGTTAATCAAGCCACGATAGGCTCTCTTTTATTTTTTTTAATTTGGAAGAAGATGAATCGAACCGTTCGCTGCCGACATTAATGAAATGAAGGGTTGGTTGCCAGCATTAAAGAAATGCTAACTGCATGCTAGCCAAATTGCCAAATGGAAAAATTTCTACTCCATTACTCAAAGCACTGTTTTTTTTACCTATTTAAAAAGCATTTCTATTTCTGTTTTTTTCCCAAATATATTTCTTTTCTCAATATTATTTAAGTTAATTTTTATTTGAAACTTAAAGTTAATATTTTAACATTTTAAAAATTTAAGTATTTTTTTAAAATCTATAATTGTCAAAATAATATATATTTTTTATTATTTTATGAAGTGTGCCTTTCTTTAGTCGGGCAACACCTTTTTGTCCCCTCTCGCTTTGAGACAATCAAAGAACTTGCTGCCTTAGAGTGTGCCTTGCACTTTAAAAACACTTCTACCACACATCATATTGCCTTCTCAAAATTTATTATTTTCTGCCAAGGAAATGTACATTGCATAGTGTTTGGCAATTCAAGCATTTGAAACCATTTGAGTCCACATTTAAACAAAGTCATTCTAATTTTAGGCTTCCCACATCCATAATAATGGTGTAATATTCTCACATTGCCTTGAGTTATATTCATTTAGAGGACTACTCTTTAAAAATGTTATGAAACTATGTAATTACATTAAAAAGAAAACAAAGAGTAATTGTCATGATAGGGGTAAGGTGGAGAGTTGGGTTGTGAGGTTGGCTCACTCCCTTCTTCGTACTTGGACCTTCCTCTTGGGCACAATCCAAAGTTTTTTTCTTTTTGGAAACTTGTAGTGGACAATGTGTGTAAAAGACTTGTTTATCTCCTCTATGAAGTTTGTATTTTGAGCATTAGGCTCTTTTTATTACTTCATTTAAATCTTTGTTTCCTTGTCAAAAAAAAAAAACAAACAAGGATCCCCCTGCTTGTTTTCTCTCGTCTCTCTCCTTTGTTCATCTTCTTCGTGCTTCGTCTCTTCAACTTCCTCCGTTGGGTTCCTCCTGTCGTTGACTCTTCGATTGCTTAACGGTCGTCTCTTTTCTCTCCAACTCCTTCCTGTCTTCCTTTGATCTTGTCGGGTCGGTAGTTTAAGGCATTCTCTTGCTTGTTTATACTCGGTTTGGTTGATTTAGACGTTTTTCTTCGCTCCGATTTCCAATTTGGTTTTGCCTTTGTTAGTCACGCTCTTTCAGCAAGTTTTTTCGTCGGATTCTAGGTAGTAATGGAAGTTTCAAGCTGCTGTATTGGTAACACTTCCTTCTGTATTTGGTAAGTGAGTTCTTCTTTCTTCATTGAAAACTCTTCCATTGGGTTTAAAATTTCACTCTCCTTGACTCATCTAAAATGGTTTGAGGCTTCTTTCACGATGTTAGTCCAGAAGTCTGGGTCTTTCTTTCGGAGGTAGAAATTCAAAGACAAAATGGCTACTCTCAGTTTTTTTAAGTTAAGACGGGGTGGTGATTGGTTCGCTGATTCGTTGTTTGGTCTTCAGCTGGTGGTCGGGTTTTTCTCTGCATTTATCAGGTAGTCATTCGAAGGGCTAGACGGTGTTCCACGATATGTTAGCTGATTTCTTAAGAAAGTATGAAGTCTTGGCTGGGGTTAGCAAAAGTTCTGGGCAGAAGAGGCTGGTTTCTCTTCCTGAGGATAAGATTGGTTTGGGGGACGTGGCTTATTCAGAGGGGCTACTTCATCCTCTCTCTGTTTTTTTTTTTGGATTAAAAAGACGATCGGGGTGGTCGATGGAGACTTTGCAAATTGTTAGTGGTATCTCGACTTTTTGCTCGTATCTCTTGGAGTGCCATCAAGAAGGTGATTGAGGACTTTTTCCAAATTATTGTTCAGATTAATCCTTTCATGGTTGATAAAGTCATTCTTAAGATTGAGGGTGGGGCAAGTGCTTCTATGATGGCCTTCATTGGCAAATGACAGGTGGTAGGTAACTTTCATTTGAAGATTGAACAGTGGTCTGATCATCGACATAGCTTCCCCGATTTTGTCGGTGGTTATTGTAAATCACCAATTAACCCAAAAGCTTAAGCTGATAGGTTAGGGTGAATTTAATTATATCAACACTAACACACTAACACTCCCCTTCACTTGTAGGCTTGGAAATTTGAACAAAGAACCAACAAGTGGAAATCAGACACTCCCCCACACTTGTAGGCTCACCATGATTCGAACACATGATCTTCTACTCTGATACCATGTAAATCACCAATTAACCTATCAGCTTAAGCATTTGGGTTAATTGGTGATTTACAGTTATGGTGGTTGGGTTTCAATCAGAAATTTGCCTCTCAAATTATGAAAAAGAAGGATTTTTGAAGCCATTGGATTACATCGTGGGGGTTTGGAAGATGTGGCAATGGAAACTTTGAACTTTTTAGATGTTTTGGCAACCCGTATAAAGTTAAGGAAAACCTTTGTGGGTTCTTCCTGCTTCTCTTGAAGTTCACGATAATTCCCTTAGGTCATTTTCCTTAAAGTTTGATGATATTGATTGCTCGATTATTCCTTCGAGGCTTTCGGATGCATTGGTGTTGAAAGATGTCTCAATTGTTCTAGATTTGAACTGCATTCATCATGTTATCCAAGATGAAATGGAGGTTGCGGTTGTTGTCTCCTCGGGTCCCATGGGTTTGAATGTGGTTGATGGTTTGATTTCCCTCAGCAACAAAGATCTCGAGGATTCATTAGTCAATAGTTTAGAGTTTAATGACGATGGTTTGTGTAATTTCTAGATTATTGAAGATGCTTCTCTTCCTATCTCATGCTCTTCCCCGGTGGCATTAAATCATTCCTCTCCTTTGCCAATAGTTGCAGCTCAAGGTAAGGAATTATGTGCTCTTAGTCCTTCTCATTTTAAGGTGGTGCCTTCGACCTTAGACTTTCTTTTGGTCAGAGGTGCGCTTCTCGCTAGTCATGGTGGAATGGGTAGAGATGTTGGGTTGAACGTGTCTATTGAGGATTCTGATTCATTGTCTTTGTCGCCAATTCCGAGCACTGTGAAGGAAATTCGTGATCATTTTTGTTCTTACGCCAATTATTACACTCGAAGAAAGGAGAAGGAGACAGGGTCAAGGCAAGTATGGTCTTCTCGTTTTTTGAATAATGCCAATTCGGACGATTCTCCTTCTAATCTCTTGTTACCAGAAGAAATGTTGAAGGCAAGGAACGCTGGGGGGTCTCTCGAGAAGCTGGTTTCTGCCCGATTTGAAAAGTTTTCTTGGGTCCTTCTCAGTCTCCATTTTTTAAAGTTGCTTTGCAAAATGAGGCTTTGCTTAGTCAACAAGTGGAGTCTTTGGGTGCTGGACTGTTTGAGGAGGAAGAGGTGGGTTCAGATGTATGCTTAAGCAGTAGACAGAAGTGGAATTTGCTGTTTGGTTCTCCCTCGGCCAAGGGTTCTCCTGTGGTAAATCTATCTTTTTTGTTTAATTCTCCAGTAGCCAAATGTGGAAGTTGTAAGGAGCTTCTTGATCTAAGTTTGTTGGGAGGGGAGGTTTCATTCCCTCAGGTTCCAAAGGAGTTGGGTGCTTTTAATGAATTAATTAAGGCTAACGGGCTGCAATTCAGAGGGATTGGTCCAACCTCTCCTTGTCATTGAGGTTCTTTTCTTAGAGCACGAGAGGTTTGGGTGCTGGGTTCAATAGAGTGCTTTAGTGTTTCTTTTCAAATTTTTTCTTTTAATTATCATCTGATACGTGTATCTATCCTAATTGAGAATCTTTTTTGTAACTCTTTGATCCTTGTATACATACCCCATATATCCTTTTTTAATTTGGTTCTTTTGTTAATGATATTGTTATCATTTTCTAACATTAAATCCATAGTTAGATACTACTTTTTCAAATAGTGAACAAACCTCTCTTTTGGAGTTTGTTTATATATTTCTATACTCTAAATGAACTCTTATGGTAGGTTCATAAAAACTTAAACCATCATAGATTGGCTTTATGATAATTGAGGTGAGTGAAAAAAGTAAATGAACTTGAGGGGAATGAGTTCAAATCTCCTAGTAGCTACTTACCTAGGACGTGAACTCCTAGTAGCTACTTACCTAGGACGTTAGAATCTTGTGAGTTATTCGAGGACCTTTTGTAGGATTAGACGGTTTGAGTTTAGTTGAGATGCATGGAAGTTGCTTAGAAAATCGTGAATATGTAAAAATAAAAAAGGTAAGTTCATAGAACTTTTCAAGTTAAATTGTGAATAAGTTAATTTTAGTAATAGGAACAAAGATTTCTTGGTAATCAATCACAGATTTGGGTAATACCATTAGCTTCCAGTTTAACCTTGTATCTCGCAATTCTACTAACAACCTAACATTTTTTGGTAACCACTCATCATTTACATCCCAGGTTTTCTCATCTTTTGATAGATACATTATTTTATGGTTGTTTCTTGTTAAAAAAAAGATATATTACTTTATGTAAACCAAATAAAAGGATATTTACTAATTTATTAAAAAAATAAATTATATATTCCTTTTTTAATAATTAAAAACCGACCAGCTTTTCAATGCCAGATAATAAAAAATCAAGCAATTATTTCGTGAGATTGTGGTGAGGGAAGAAAAATTAGGGCTATGAAAACGAAAACAAATAATTAGTACAATTACAACATTAGCCCTACATCAGATTGGTTGGGATGACTATTCCTAACTTGCAGCACATTTTTAGGTCTCCATCACTCTTTATTTTAGACCTCTTCCTTTTCTTACTGTGAGCAGCGTAAACATACAGTTCTTTTCTTTTTCATTCTTTCTTTTTTAGAAAACTTTTATTTTTTTAATAAGAAACTTGACTTAAATAAATAAAACACAGAAAAGGACAACCTAAGAGCAGGGTAGAGAGAAGGCTTAAACATACATTTCTAATGTATTTTTATCTTTTCTAAGTTGTGTAGGTTTGGATGTGCTATATAGTTAGTGTTAAAACAAAAACAATAGATAAGCGAAGAGTCACAGAAGAAAAACCAACACACAGAATTTACATGGTTCACTAACGTTGTGTTAGCTACATCCACGGGCAGAGGTAGAGAGTAATTTTATTGGCTGAAGGAAAAACGAGAGAATAAAATTATACACAGAAGCAACTTATTTCAGATAGGAGTTTAGGGGGTTTATATATGGCACCCCTCCTAAACCCTAATACAGAGTCGACCCAATAGGCCCAAAATACGAAGTATAAACTGAGTACATGGTCATTCGAACCGCCAAATAACAAATTCAAGGCATATTTACAGTTAGTGTGTGTAATATCGAAAGAAGCAACTTTATTAAAAGAATGAAAGAAGTACAAACGAAGATAGGACTTCTATCGAATCCAAGAAAATACTTGGTGACTTACCGTGACATTCCAATTGGCATTGATCGAAGAGGGAGAAAAATTAAACAAAGATAGGACTTCTACCCAATCCAAGAAAATTGTTAGTGACTTACAATGACATTCCAATTCGCATTGATCAAAGAGGGAGAAAAATTAAAATATGTTTTATTTATTTTTTATAAGCAACTCTCATAGAGAAAAAATGAAAGAATACGAGGACATAAAAACGCCTCTAAAAGGAAATCCTACTAAAGGAAAGGACTCTGATCCAAAAAAAAAAAAGAGACCCAACGAATATTACAACATAACTTCGTTACTGACATCCAAAGAAAAACATGGAACCTAGAGAGGGACCGAACATCACAAGGGCCCATATTTGGTTTTCCTCTCTTTGGGTAATCCTTCTCCCTCTGCTTCACGGAGGAAGTCTGTCTTTGCCTCGGTTTGGAAGGTGAGAATCCCAAAGAAGGTTAAGTTTTTTGCTTGGCAGGTCCTTCACGGAAGAGTTAATACTCTGGATAGGGTCTCGAGAAGAATGCCATCCTTGGTTGGTCTATGGTGTTGTATTCTTTGTAAGAGGGCGGCAGAGGATATCAACGTTCTGGAGTTGCGAGGTGGCTTAAGATGTTTGGAATCATTTTGTCGAAGAGTTTAGGCTTTCCTTTTTTGGGGGAAGGGGCTTGTAGTGAGAGGTTGAAGGAGTTCCTTTTGCATCCCCGGTTAGGAGGAAAGTGTTGTTTTTGTGGCAAGCGAGGGTTTGCGTTATCCTTTGGGGGGGTTTGGGGGAGATAAACAATAAAATCTTTTGAGGGATTGAGTGATCCTCTCATGATATTTGGACCCCCCTTACTAGATTTTATGTTTCTCTTTGTAATTATCCTTTAGATTTTGTTTTGTTTGGGTGGAACGCTTTGTTGTAAGCTCCCCCTCGTTCTCTTTTGTGGGCTGGTTTTTTTTGTACGCCTTTGTTCTCTTTCATTCTATCTCAATGAAAGCTCGGTCTTTTAATAAAAAAAAGCATCACAAGGGCCCCTCGCAACACCCTTGAAGATTCTATTGTTTCTCTCCCCCCCAAAGTCCCATAACAACATACTCACTCTAGCTTGCTACAAAAACCTCTCCTCACCCACTCTAGCTTGCCACAAAAACCTTTCCTTCTCCCAAAAGGGTGAATGGAGCAAGAACTCCTCAGTCATCTCCTTTTAGTATGCCTTGTTGAAGGTGTGTATCAACGGGGAGGCCATGAAAGGAACTAGAACCAGAACAATTTTTTTCAATTTCTTTCTAACCAAATTTATGACTTTTGACTCTTTCCTTAAAAGAATGATCACAAAAGAGATGTAAGATGATGTCTTTTTATGTGAAAAGGAGCCAGACATCAACTGGCCCAAAATGATTTAGAACTGCCATATAAATGTGCAAGGAGAAAGGAGTGTATGTTTTTTTGTCACCTTTGTACGTTCTTAATATCTAATATCCCTTACGTTCTAAATGTTTAATATATTAATTGACTGACTTCAGAGTATGATATAGAATATCCATTAGGATTAGGACCTTTTATTTGGATGATTATCCATGGCAGTTTCTTAGGTTCTTTCTGAAAATAATTGCAGTATAGTAATTACTCCTTCCCACTTGCGGTGTCCATTGTTTTATCGGGCATGTATGAGGATGACTTGGATAATGCTGAGGATGTCGTTTACACTGGTCAAGGTGGGCAAAATTTAACTGGCAATAAACGTCAGATCCGGGATCAAGTTATGGAACGTGGTAACTTGGCTCTCAAGGTATGTACCTCATGATTTTCTGAGGATAGAACTTACTTATCCTTTGATCTTATGTAACATGATTTGGTCCTGGTAGCTAATGAAATCTAAGGAATTAGTCTAGTATTTGATACTATAACAGAGAGAGGAAGGTGAAAAGTATATTTGATTAAATGGTAAATTATGACAAGTTAGAAAATGAAGGTTGCAGAACTGGGGATTGGTTTGTTTGGAAAGATGTTTCAAGGCAATTGCTAATGGAGTTTTCTTTGAGTTTTTATTTTTAAAGTATGTTTGGAGTTCAACGTAATAGGTTTGAATTGAAAGATTATCATTAAGAAGTTTATATACACTTTTTGGAAATGCGTAATACCTAAAGGTGTCAAGTCTGTGTGTGAATATGACTTTGAGAATGGGATGAAAATTTTACTTTTTGAAAATGTTTTGGTTAAAACTCTCCTTCAAATCTCTTTTTCCCTGAATTTATATTTTATATTTGAATGTCATGATCCTTTTCTCTTTAGCTTCTCTGTTGAGTTGAAAATTTCCCTCTGGAAGTGTTATTTTTTATGAAGAAAATTAAGTTTATTTCAGTGTTAGATATTCTAAAAGATGTGCGCAGTTTTATTCTGTAAAGATAGGAGGACCCAGACTTTTTGTGGATTGTTTTCTTTTGACTCTTGCTTTTCCTAATTATAGTTTCTTAACTCTTTCTCAGATCCTTTCATTATCATAAATTTTTATTGTGTAATTTAATCCTCTGGAAGTTTTGGTGTTTTTTTTGCAGCTTAAGGTAGTCTAGAGTGTGATTGCAATTAGGAATGTTCAAATTTTTTATTTATGTATTATTTTGTTGTTTTTGATGTCCGCCATGAAGTCTACTTTTCTAACTTTGTTCCTCAATCTACACATCTGATTTTTCTGATCGGTTCTCCACTAAATCCAGAATTGTATTGAGCAAGCTGTCCCAGTTAGAGTGGTACGGGGGCATGAATCTGCAAGTAGTTACTGTGGGAAACTTTACACATATGATGGCTTGTATAAGGTACTTTTTCTTTTAGAAAAAGAAATATTTTAGGGTTTTATTTATTTTTTAGTTCAATGGTCTTATGACATTGAGGCAGTATGTTTTTGAATTAGATATAAAAAAACACCACTTCCATCCTACCATAGCATATTCTAGCAATATTGAGTTTCTTGTACATTGCACTATTTCAATGTTATTGGCTTGTGCTATACTAGCATGCTTGCCCGAATGCTAGAACTTTACACTGCAGTGTGCAACTTATTTAATATTTTAACATTTACTATCTAATTTATCTCAAAAAGAAAAAAAAAATTACTAACAAGTTTGAGTGTTGTTTATTTCAGAATCACTTACCTTTAGATCTTTAAGTACTTTTCATCTGCTGTGATACTAAATGACATTTAATTTTCTCACAACAATTCAGGTAAAGGTCCTGCACGTCTAGTAGCATCTTAGTTCTGAAGGGTATAAAAAAAGTAGCATCTTGGTTCTCACTTTTTATACGAAATTGAGAAACCATTTCATTGATATGTGAAATAGAAACAAAAGAAGTCTGTCTATGATAGTTACAAAAAGGATGTTCAATGAGATAAAAGAGTTGTTAAGCCATACTTACAAAACGGGGAGATAAAATTTTCCACAATGAAGCATGATAGGAAGTAGAGTCTATAAAGGATTGAATATTCTGGTGTTTTTCTGTGAAAACCCGAACATTTCTCTCAAGCCATAAATTCCATTGAAAAGCATAAATGAAAATGATCCAAAGAGCTTTTTTTTTTTTTTTTTTTTTTTCCTTTTTGAATGGATGACCGTTGATAAGCATATCTAGCAAAGTATAAATATACTGAGGCCACATTGTTGACCACCTAAACTGTTGTTGAATAAAGGACCAGAATGCATTGGAAAAGTCACAATTACTGAAAAGGTGGATTTGGGGTTCATTGTTTCTGTAACAAAGAAGACAACAATTTGGGGAGATAACCAACCCATGAGATTTTCTCTGTAATATGTCAAATGACTAATCTCCCAAACAAAGAACTTTACTTTTTTTGGATGGTGATCCTTCCACAACTGCTTATAAAATGTTGTTTTATCCAGGTTCCCTGTAGATGCAAGCTTACAACTTAGTGAACTCATAGAGAAATGACCATCCTTCTTCGTAGCCCAAACCCATCTATCCTCTTGGTCTTTGAAAATAAACGAGGACAATAGTTGAGATAAGGAAGCCCATTCTTCGATTTCTATCTCATTGAGGTTTTTTCTTAAAAAGCGATTCCAAGACCGATCCTTTTTGTGTATATCAAAGAGACCTAGTCCGCCTTCCTCAATAGGTGCTTGTAGAGTGGACCACTTTAGGAGATGACTTCCCTTTTATCGATACCACCCCTCCATAGAAAAGCCCTTATACAACTTCTCAATGGATGAAGTTTCAAAACAGGTACACTCACCCACTTCCTTACCCCTCTACTTTCTGTTCCTCCCACTGTTCTGATATTTTTAACATCTTGTTGCCATAAAAAAGTTAATGGCGTCTGAGCAATTTCAATAGTCTGGTTAGATATGATTGTCATTTTAGCTCTACGAAGAACCAAAATTGATCTTAAACCCTAAACTATATACAACCATTTGATGAATCTGGAATGAACTTCTAGATACCTTGCTTTATTTAGTATTTTTATCCCAAGGGTTTTATATCGACATATTTCTTGCTAACTCATCTTCGAGGGAGAATGAATTACCGATAGAGTTCCTCTCGGAAGAAGAACCTCAAAACCGGCCACCATGACCAATCCGTTCACCACACCTTGGAACCATTCTACTCGATCAATTTCAATCGGCCGCAAGTACTTTTCCATAGCCTTTGATGTTCCATCGAGGGGAAGTAAAGCAAAAATCACAGAAGTTGGGAAACTCTCATCCCACTCGCTTTCCCTTTCATGGAACACTCTCCACTGGATGGTCTCTTCTTTTGAATCCCTCTTTCGCGATCCATGCTCCTACAAATTCTTTCGAAAACATCAAACAGCCGAGGACACGTTTTGGATAGAAAAGCTTAGCAACAAATTTGGTTTCTAGCAACAAATTTGGTTTCTACGTGGAAGTTACTCACCTATGCCAATCTGGTACAAGGACAAAGCTTATTATCCCTTCCGAAGACAATAAACAAGGTTGGTTTTCTTTCCTCTCTCTTATTTCAGATTACCCGAGTGAGGCGCACAAAGCCAACCCTGCTCACACATCCTTTAGCAACGCAGTAAAAAAGAAACACCACCAGACTATTAACTCACAAGATGGTACTGCACATGACTCTCCAGTTCGACCACCTACCATATCACCTTGCCCGAATCAGTTAGAGAATTGGAGTGGCATCCTAATTTGTCAAAAATTGATGGAATCTGATTCTTGGTTGAACATTGGCACAACTATTCAAGAAAACCTCTCACCGCGATGTACCATCAACCCTTTTCAGGACAACCAAGCCTTGATTCACCTCTATGATCCCTCATTGTCTGCACGTTTAAGTCAAAGCGCCTCTTGGAGACTGATTGGAACTTTCAAATTGAGGTTCAAATCAGTCAGTACTAACTCTCTGATGCAGGATAGGAAAATAATCTCATATGGCGGTTGGATAGATATCTTCGATCTCCCTCTCACTCTTTGGAAAACCGAGGTCTTTTGCTATGTGAACAGTGCGGTGGTTTTCTCCAAATAGCCAACCATACTGAGAGATGGTTGAATCTGATAGCTGCTCGCATAAAAGTCAAGGAAAATAGCACGGGTTTCCTTCCGACAGAGATCCTTATTTCGGCCTCCATTGCCGGTGAAGCAGCCACCGTGCGAATCCAGCCGTTTTCGGTAAAGAACCGTAGGGGTGCAATAATTTCGAGCCCGGATTCTTCGCCAAAAATAAATCTGATTGATGACTCTTCGATTTCGGGAGTTTCTTTTGGAAATCTCAACGGAATAGAAGGAGATATTTGTGAGGCCTCGATGGAGTTAAAAAGGAATGATTTCCCTGATTTTGTGGATGATTATATCGATAATCAAGGAATAACCAGCATTGAATTGCCTTCTCGGCTTCCCCCGGTCAAGAGTTGCGGGGATTTAAATCTTCCCAAACCGAATCCCATAGCCAGCCAACCTATTCCCTCCACGTGTCCAGAAGTCGCAACTAATAAAACCCTACCAAATCTCGCACGACCTTCTCCCGAAACAACCCCTTTAGTCAACCAGTCTCTTCTGCGACCCGTGTCACGAAGCCCCAATCAATCTGTTCTCACCAAACCTCACACGACCCACGTTATCCACAGTCTCTTTTGCGGCCGGCTCCTCCATTGTTGACCACCCTACCTTTCAACTAGGTTCAAAAGGATCAACATCAATAGAAAACCCCAATATACCCTTCACTGTCTCTGATACAGAAGCTTACCTTTCTAGCCCCACTTCTCTCAAATCCAATGCTGATTTCGAGTTCCAACCTTTGCCCATTGACCTGGCTGTTTTTGGCGATAACCCATCTATATCCTCAGCCCTCCCCATTGACATTTTACCACCTGTCCCTAGCGACATTCAACCTTCACCAATCCAATCGCAAACTGAACTGTTTTCTTCGAAATCCCCCTCTGCCTTACTCCACTCTCCACCGAACCAACATCTTCACCCCCCAGCCTCTCTGCCCTTTGATCTTGGTGATATTGCAAATTACCTAATGACACATGGTTTGTGTATAATGGCCATTCCACCGTCAAAAACAAAGAAATCATACAATCCGGGGACTAAGAAAAATAAATTGAAGAGGGAATTGCAAAATTTGAAATCCAATATTCACTATGATAAATCGACTTTGGCCTTATTGGAGGGTCCATCGGGGGATCAATGAAATTGGTATCCTGGAATATTAGAGGGTTGGGCTCGTGGAAAAAACAAGCTTTGATTAAACGTTGTATTACTCAACAAAACCCGGGTATAGTTCTCTTACAGGAGACAAAGTTATCTACAGTTGATCATCACTTGATTAAATCTATTTGGAGTTCAACACATATTGGTTGGGCAACCCTAAACGCGGTTAACTCCTCTGGTGGCATTTTGATTCTTTGGAGTGAACCCGATTATGCAATCAAAGAAGTGATAACAGGTTTGTACTCTTTGTCGATCCACATTTTTTTGGCTGATGGTTTCTCTTTCTGGCTCACAACAGTATATGGTCCACCTGGGAATGGTTTTCATGTTGATTTCTGGAATGAATTGGATGACTTGGCTGGATTGGGAGGAGATAATTAGATTATTGGCGGTGATTTCAATGTCACTAGATGGACAGTTGAAAAGTCACACGACAATTCCATCACTAGGAGTATGAACACTTTCAATCAGTGGATTTCAAATTATGATTTGCTTGATATTCCGCTACAGAATGGTCGTTTCACTTGGTCAAATACCCATTATTGCTCTCTGTTGGATAGATTCCTAATTACTGCAGGTTGCTCCAACAAGTTTGGCTCAGTTGCCCTCAATCGTTTGCCTAGAATTACATCGGATCATTATCCGCTAGCTCTAATTTTTGGCAATGTTGTTTGGGGACCCGCTCCTTTCCGTTTTGAGAACTCATGGCTTCAGATTGATTCAATTAAAGACGTGGTATCATCTTGGTGGAATCAGAATCACTTTGAAGGCTGGCCGGGACATGCCTTGATGCAAAAATTAAAAGGGCTCAGACGAGTCTTATTAGAGTGGAGTAAAGGTAATCGTTTTGTTGCTTCAAATTTCCAATCCCTTGTCGCACAATTGCAGACTCTGGACAATTTGGAGGATAGTGGACCCTTAACAACCCCCCAGATTCAAAATCGACAGCTTCTACGAGATCAAATTGAATCCTTGATTGCACAGGACCGGGTTTATTGGCACCAGAGATGCAAGCTAAAATGGCTCAAGGAAGGTGATGAAAATACTAGTTTCTCTCATCGAATATTGGCTGCAAGGAAGAGGAAAAGTTTGATTTCTGAAATCTTGTCAAGAGAAGGTGTTAGTCTTACTTCTGCAGTGGATATTGAAAAGGAGTTCATTGATTTTTACTCAAAATTGTATACAAAAGATGGTAACTCTCGATTTCTGCCCACTAATGTTGATTGGAGTGCTATCTCAACAGAGGAAGCAACGACTCTTGAAGTTGCCTTTAAAGAAGAGGAAGTTTATCATGTTGTTTCTTCTCTGGGCTCCAATAAATCGCCAGGTCCTGATGGATTTACAGCCGAGTTCTTCAAATTCTTTTGGGATATCCTTAAACTTGACATTATGAACCTGGTTCAAGAATTTCATTCTTCTGGCACCATCAATGTTTCATTGAATGAAACTTATATTTGCTTAATACCAAAGAAGCTGGGATCAAAATCGATGGATCGATTCCGCCTATAAAGCTTTGATCTCTGTAGCGCTTATAAAATAATTGTGCGTGTCTTATCAAATCAGTTGAAATCTCTTTTGTCATCAACTATATCAGAAAACCAGCTTGCTTTCGTGGCTAACCGACAGATTATTGATGCGTCTTTATTGGCAAATGAACTAATTGATGATTGGAATATCCGTAACATCAAAGGAGTAGTTATAAAACTTGATCTTGAAAAGGCGTTTGATACTGTTGATTGGGACTTTGTGGATGCCGTGCTGGAGGTTAAAGGTTTTGGGGCAACCTGGAGGAAATGGATTCGGGGTTGTATTACGAGTGCAAATTATTCTATCATTGTTAATGGGCTTCCCACGATATTGGACTATGGTGGTAAGTTGGGTAGCATATCCTCTCACTGTATTGGTAACTCATCTTTTGCCTTGACTCATTTGCAATTTGCGGATGATACACTTCTTTTTTCAACTTCTGATCAGTCTGCCTTGCAACGTCTCTATGAACTAATCAAGATTTTTGAGAGTGCTTCTGGCTTAAGGATTAATCTGGCCAAGAGTGAGATGATTGGTATACATATTTTGATCAATTAGAGATGGACAGACTACTGGCGATCTTCGGCTGCAAACAGGGGTTTTGGCCAAACAGCTATTTGGGCTTGCCATTGGGAGGTAATTCTCGTTTGATTTGTTTTTGGCAACCTATTATAGAGCGGTTGAAGCTAAAACTCCACAATTGGAAATACGCCTTCATTTCTAAAGGTGGTAGGCATACTCTTATCCAGGCCACACTCTCTAGTATGCCTACGTATTATGTCTCTTTTCAAACTCCCTTCGAAAATCATTTCATTGCTGAATAAAATTATACGCGACTTCTTTTGGGAAGGAGCTAAGGGATGATGGTGGAGTACATAATGTGAAATGGGCAATCATCTCAACTTCCCAAGCTCATGGGTGGTCTTGGGATTGGTAACTTCGCACATCGAAACTCGGCTTTCTTTGGCTAAGTGGGTTTGGAGATTCATGCATGAACCTGAATCCTTGTGGCGGAAATTTATAGTGGCTAAATATTATGGTTCTTTGAATTCTGTCGACTGGCCCCCAATCATTACGAATACTAAACACAAATCGCCTTGGAGATCTATCTGCCTTTTACGTGATTTGGTGATTCGACGTTCTAAGCGTTGCATTGGGAATGGATATTCCACAGCTTTTTGGAAGGATCATTGGCTTAGTTGTGGACCTATTGGTCAGGCGTTCCCACGACTCTTTAGATTGGCTTTGAACTCTGATTTGATGGTGGCAGATATGTGGAATGTGATTGAGTTGGCCTGGGACCTGCGTCTTCGGCGTAATTTAACAGACTTAGAAATTAATGAGTGGACATCTCTTTCTCATTTATTATCGAATGTTCGTTTGTTGAATAGGCTGGACTCATGGAAATGGTTATTGGAGCCTTCTGGTTTTTTCTCTGTGAGATCTCTCACTGCTGATTTGTTGGATTGTGATGATATGGGACGAAAGGATACCTATTCAGCCATTTGGAAGGACTCATACCCAAAAAAGATTAAAATCCTTATCTGGGAACTCAGTTTAGAAGCCATTAATACTGCTGATCGTCTTAAAAAACGAATGCCCTACATGTCCTTATCCCCCTCTTGGTGTCTTATGTGCCAAAAGAACTCTGAATATGTGGGTCATCTGTTCGTGCATTGCCCCTTTTCGTTAAATTTTTGGTGGAGGATTCTGAATGCTTTTGGTTGGTCAACGCACCGCTTCCTATTAATACCTTTGATTTCTTATCCTCCGCTCGTGGGACATCCTTTCAAGGGTATTAGGAAAATTATTTGGTTGGCTTTAGTTCGAGTCTTCATTTGGAACCTATGGATTGAGAGGAATAGCCGTTTGTTCAGGGATGTTCCTTCTACTTTTGATCGCTTTATGGATAATATACTTTTGAATGTTTATCTTTGGTGTAAGGATGTTTATCCCATTACCTTGTTTAACTCTCATTTTTTCATTTACAATTGGCAATCTTTCTTGTAATACACCTTCTGGTGTTGGGAGTTCTCTTCCATTTCATTCATCAATGAAATTGTTTCTTATACCAAAAAAAAAAACTTCTCAATGGATTTTGTGACTTTGGATGGAGCAAGAAAAATGGAGAAATAATAGGTGGGTAAATTAGAGAGTGTAGCTTGGATGAATACGTCTTCCTCCTTTTGAAATATGAGAATTTCCTCAATTATGCCAACAATTCTAAATTTTCTCAATGATTGGACTCCGAAAACTTGTTGTGTGAGGGTTGCCTTTCAATGGAAGACCCAAGTATGTAGAGGGCCACCCCCCACCACCACCACCCTACATCCAAAGAAAGAGGCAAGATACTCAGCTTTTTGGGTAGCAATACCAATCCCCAAAAATTATGATTTCTGACAATTTATGTCTAGCTCAGATGCTTCCTTAAAATCGTGAATAACCTGAAAAAGATTCTGTTAATATATTTTGTTGGGTGATGAGAAAAGGATAGCGTCGTCTGCAAAAATTGGAGGTGAGTGGTAGAAACTGTTTGTGGAGCTTTGCCAACAAGGAACCCCTCAATGAATCCTTTTTGTTCTGCCAGTAACAACATCCTACTAAGGTAGTCAACCACAAGAATGAATAGGAAAGGAGATGGGGATCTGTTTGTCAGGGGAAAGGTTGGGTAAAAACAATGGTGAGTTTGTGGGAGATTTCGGCAGAGATTGGGTCACTGGAGGGGAGTCTTCAATAGATTGAGAGCAAGGTGAGGAAATGAGGCCTTCAAAATCTGATGAAATGAACTCAGTATTAATAGCAAGTTTGGTCCCAGTGAGGAGCATTGTTTGCTTGTTATTTATGAAGATGGGTTTTTTTTTGGATGATGTAGGTAAGGGATAAGTAGGATCCGTTGGGGGAGGGGGGGTGCCCAATAAAGTTGGCAATTTGTAGGTATTTGGGAGACGTCAAAGACTAAGGGTTGAGATAAAGGAGATGGGTGGGTCCCACTTGGTTGGTTTTTGTGGATTAGAAGAAACATTGGGTTGCATCTGGGCTTGGTTAAGGTGTGGGCCCCGTTTTCATAAACACAAAGAAGGAGGCTGATTAATTGCAATTGATTTTTCTACCAGATGAGTTGTTAAAGGGGCTACTCGATCGTATGGAGCGTTGAGGACGGCCAAACTCTCATCATTGCATTAATTATATTTCAGATTTTTAAAAGCTGTAATTTTATGTGATGTTTTGATTCTGAGAGAGAGTTGAGGAGGGGAAAGGGTCTCACCTAGTCAAATGGGAGATGGTTACAAAGCCAATGGATTTTGGGGGATTCGGGATTGGTAATGTGAGAGCCTGTAACAAGCCCTTTTGTCTAAATGGCTTTGGCAGTTTCATTATGAGTCTAGTATCTTATGACATAAGGTCGTTGTGAGCAAATTTGGGTTGTTTCCTTTTGAATGGATCTAGAATGGGGTCAAAGACATTTTGAGAAACTCTTGGAAAGGCACCATCAAGGAGCTTTCTTTCTTCTCTTTTTTTGTCCGTTGCTTGGTTGGGTATAGGAGATACTTTTTTTTTGGGAGGAAGAGTGGTGGGGGATAGATCCCTTTGCTCTTTGTTCCCTCGTTTATTCCCATTATCCTCGATGAGAAACTATTCAGAGTTCGATCTCAACCTTTGTCCTCTCCTTTGTTGGAATTTCAATCTGGTTTGTCCAATAGGAAAACGTCGAATATTGTCAACCTCCTTTCTTTGCTTGGGGAGTATCGTTGTACTATGGGGAGACGAGGTGTTCACATTTAGAATCTTAGTATGTTTGAAGGGTTCTCATGTAAATCTTCTTTTCTTTTTTCAGTTGATCCTTCTCCCTTGAGTGATTCAGTATTTGCCTCATTGTAGAAGGTGATTCTCAAGAAGGTTAAGTTTTTCATTTGGTAGGTCCTCCACAGAACACTTAACACCTTGGATAGGGTGCCATGGAGGGTGCCCAACTTGATGGGGCCATTGTATTGCATCCTTGTCAGGAGGGCATACGGGTAGCAGAGAGATGATCAAGGAGTTCTTTCTCCATCCTCCCTTTTGCGAGAAGGGATGATTTTTGTGGCAAGCATGAGTGTATGCCATTATGTGGGGTCTTTGGGGAGAGGAACAATTGAATTTTTAGAAGGCTTGAGCGAGGTTTGGTCCTTAATTAGATTCTATTTTTCTCCGTTGGCTTTTATGACAAAGCCTTTTCGTAAGTATCTATTAGGACTGATTCTACTTGATTGGAGACTCATTTTGTAGTTTGCCTCATTTTTTGTTGGCTTTCTTTTTGTATGTACTTGTATTCTTTCATTTTTTTTCAATGAAAGTTTGGTTATTAATTAAAAAAAATGTAATGTTTTGATTTTATACATAGGATTTACTGGAGTGTAGATTATGGAATTCTGTTTAAACTTAGAAGTTATTTTAATGCTTCTTATCTCTATCCCCCGCCCCCTAGGTTGTTGACCCTTTCTTTTGTGTTTATAATACATTCTCTTGTTTCTGATTGAAAAAAGTTATTTTAATGCTTCTTATGATATGTAGTACTTTGTATGTCACAGGTTATACAGTATTGGGCCGAAAAAGGTATTTCTGGGTTTACTGTGTTCAAATTTCGTCTTAGGCGGATTGAAGGACAGTCATTGTTGACTACGAACCAGGTCTATACTTCTCTGATTTAGTAGCTATCTTGTTTTGAAGAGTTTTTATGACTTGGTATGTTATAATTCTACTTCCATAAGATGCACCCTTTATCAAGCTTCTGCAATTAGCTCCGTGTTTGAGTTATGTCAATTGGAGTTCAATTTAGCTCCGTCTTTGGGCCTTGTCTTCTCTTTAGGATAGTTTGTATCCGTTCATTTTCCTCCAATGAAAAGCACCCCTGTTTCTATCATAAAAACCAAAATTGCTATCACATTTTACTCCTTACCTATCTGTCAAATCCCAAAGCAAATTTTATTTAGAGAAGAAAATGTTTGAAACTTCATTACTCTTGGTAGCTTTTATTCTAACTAATCACGATCTTTAAAATCTCAAACTAGTTATGGTTTCTTCATTTAGCTGTTTTTCTTACTATTTTTTATTTCCTCAGCCTGTTTGTTTTGTTTCCTTTTCTGTTGTCACAACCTGCCTTCCTTTTTCCCTAATTTTAATTGTCTTGGTTAATACTAGTTTGAGATTTTCAGATGCACTTTATTATTATTTTTTAAACGAGAAACGAAACTTTTCATTGAAAAAATGAACAAAGATTAATGCTTAAAGAATAAAACCTCCACGAGGGAGGGAAGAAGAAGACAACGACAATAACAAAACCAAATGACTCGTAAAATACTTAAACTGTTGGTGATTGAATGGTAATTGTTTGGATATGCAATCCACAAACCTCAACAAGAGAAGCAAATTTGGCTAGAATTTTGGGAGAAATCTCGGGTGAAACTACTCCACCGGACCAACGATAGCTGCTCATTAACTTAATTTAAAAATAGATTTTGAAAGCTGCTACAAATGAATCTTTTACAAATTGAATAAGAAAGATTGATTCCTTGCTACTCATACAAACATTTGATTCTCCATTTGAATCAAAACCAGAAAGATTCTTCGTACTTGTTGAGTGTCTTAAGACACCTCTGGTGAATTGTATGTTTGAACCAGAAAGAGTAACTTGTGATTGGCTAAGAAACTCGGTAGGATATATGGATTGTTGCAGGTGCAACTTAGAACCTTTAGTAAGGGACTAATGGATTTTATAAATGAGTCAAAATGCTAACACGAAATTCCTTTAAAGTACTCGAATTTGACTATGGATGTTCAATGAAAGAAGGAAGCTCTTTTTTCCAAGTATAATGGAGATGGAAAACTTTTATAAATCTTGGCTTCGGTTGTGAAGAAGTCACCAAGGAATTAATAGCAACAATAACCTCATTAGGACTGTTGGTGTTGATATAATTAAATTTGCCATAACCTATCAGCTTAAGCTTTTGGGTTAATTGGTGATTTACATGGTATCAGAGCAGGAGGTTCTGTGTTCGAACCCTGGTGAAATCGTTTAATCCCAATTAATATTGATTTGTACTTGTTGGGCGTTTGTTCAAATTTCCAAGCCCACAAGTTAGGGGGAGTGTTTGATTTCCACTTGTTGGGCGTTTGTTCAAATTTCTAAGCCCACAAGTGAGGGGGAGTGTTGGTGTTGATATAATTAAATTTGCCATAACCTATCAGCTTAAGCTTTTGGGTTAATTGGTGATTTACAAGGACAAAAAGTATTAATGACTTCATGCCCAATGAAATTAAGATCATTTAAAGTATCAAGATCATTGGAATTAACTTGTTTGTTATGCATCTTAGGGATCTTTGAACCCTCAACAACCAACAACCATCAACATACCCGTTTCATTTGGTAAAACAAAATCTTCATCTTCCATAACTTGATTTACTCTCTTTAAATCCATTGAATTTGTAAAGGTCTTTAAAAGGATAAATAATCATGATTCAAACTTCTCTTGCTTGGATGGTCTAAAGAAGGCATATCACAAAAACAAACAGAAAAATGTCCGATATTTCCATCCTTGACATTAATTTCTACTGGGACAAAGTCGCAAATATTTTCCTCGACTTCAATTACAACAGCTAAACAAGTGTTTGGTAGGAAATAATGATCAAACAACCAAAATGTTGTCCTATAGCTTCAAAGAATGGTTGTTTCCAATATATCAACGGTAAATTCTTTATATCTTCCATAACCCTAGATAAATTTTTAATTGGAATGCTTCTTATCAAACCAATGCTCAATTTTCAAATGAAGATCACCATAAAGACTCCACTTTTAATCAAAATTCAAATTAAAGAAAACATCATCAATCTTTATCAAAGCCTTTTATTTACGGGTGCTAACAAAAGTCCCACATTGGCTAGGGAAGGAAGAATCCATGGTATATAAGTGAGGACAATTATCTCAATTGGTATGAGGCCTTTTGGGGGAACCGAAAGCAAAATTATGAGGGTTTATGCCCAAAATGGACAATATCATATCATTGTGGAGATATGTGGAGGTTCGTTGTCCTTATCAATTGGTATGATTCACAAATCTTGAAAGTGGAACAGAGATTAGTGAGCCTCATGTTGACATTGTGGATGAATCCATAGTCGAATAAAAAGTACTTTGAGTGGTAAGCCAGTAATAACTCTATCAAGCTGCATGGTAGAGTAGATCTTTGTTCGAGGGGAGAAAGAGATGGTGCGATAGGTAATCACACCCCACCATGTGAATGATCCGTGGAACGGACGGATTTGTTTGAGGGGAGGCTCAAGTGTGGTATTTTGTTCGAGGGGAGGATTATTAGGAGTGCTAACAAAAGTCCCACATTGGCTAGGGAAGATAGAGATCCATGACATATAAGTGAGGACTATTATCTCCATTTGTATGAGACCTTTTGGGAGAACCAAAAGCAAAGTCACGAGGGTTTATGCCCAAAGTGGACAATATCATACCATTATGGAGATATGTGGAGGTTTATTGTCCTTATCACTTGTCATCCAGAAATGGATCAATTGAAATTTTGGACTAAAAATAATAAGTGGTTTCAAGTCAACCCATGGTGCACGCCTTAGTCGGGAGGCGAGGCGACCGTGGGCCGTTGTGCCTTGATGGTAGCTAGGACGAGCACCTTCAACCAGGAACTTGCTTAGCTGCACTTTTTTTTTGCCTTGATGTGCCTTTGTCATGCAAAGGCAAGCGCCTGCCCTTTTTTTAATAAAATAATTTTAGAATATGTGAGAAACAAAAGAGTGGGTGAAGGAGAAAAAAAGATGGAAGAGAAGTATAAAAAAAGCAAAAGAATAAAAAGAGAGAATATGAAAAGTGCTGGAAGAAGAGAAGAAAAAACAGGAGAGAAAAATACTGAAAAAAGAAAAGAAGAAAAAGCGGAAGAGAAGAATACATAAGAAAGAAAGATGAGAAAACAAAGAAGAAGAAAAGATAGAGTGGAAGAGTCTCATCTGAGACATGTACTGGTTGCATGAAGAAGAAGAAAAGACAGAGTATAAGTTTCTCATCTAAAACACGTACTTGTTGCATAAATGACCACATGACAGTATACTTACTCAGAAGATAGTTTCTAGAAGAATTAATTGGAATGGTTGCATGGACTGCCATCTCGTAATTTACTTCCATAAATACAAGGGCTTATATTTATAAGTTCTAGGTTTAATAGTTAATACTAAGACCACTTTTTAACCATATAAAATAATTCTCTCTATATATCTCTACTTTTTCTAAGCTAGTTTAGTTCTTGTTTAAAAATATTAAATCATTTGATAATACTTTTATGCTTTAGAATTGAGTTTTTTTTTAATCTATAATTGTTATAGTAATATTTTATTCATTTTTTTTACAAGTGCGCCTTGTTTTAGTTAGGCGACACCTTTTTGTTGCCTCTTACCTTGAGATGATTAGAAGACTTGTCGCCTTAGAGTGTGTCTTGCGCTTTGAAAACATTGGAAATAAAAGTGATCTGAACATCCTTCCAAGAGTAGTGGGCAAGCATCCTAGAAACCACCAAAATGGATTTAAAGTTCAAATCCACCACTTCTCTCTCTTTCCTTACCCAAAAAGAAGAAACCTCATTGGGTTCACAATGGGCACCGCTTTCAAATGATCACAACTTTGAAGGAAGCTTGAATCCTTTTAATTCATGCTTGCTTTTCACCATAACATCTTGTAGCGAAAGAACTTCCTCAATCTCAGTAGAAGAAATAGTCGCTGAATGCTTCAACTCCCCCTTTTCTAATCTAAGAGACATTCTCTTACCATCTCCCAAAAAACAATTCATCCTTATCAAAAACAATATGAACATGAATATTCTTTCTTCCGCGAAGGCCAAACGACACATTCAAAGCGCCAACCAAGAAGTGATCAAAATTTAGACAAACAAATGGTCCTAAAATCCTCCATAATTTTTTTTATGGAAAAACGAGTGTACTGGAAATTGCAATAGTTCAACCAAGGAGCATTCAAACCAACGTAAGATGGAGAAAGAAAGAGAATCTTTTGTTTGTTGCTCATTCTTTCTGCAAAACACTTGTCATTTTCACTCCATATGTAAATCCAATATTGCGGATAGAACTTTTCACTTCCATTGCATCAAAGAAGACGAAACAATCAAACTGAGATAAAACGAAGACTAGAAAAATCAGAAGATGGATGAAGACCACTGAGACCCACAAAAAAACTGCTTTCGGAGACCCACATCATACACAAAATGATGAATGAACGTGCAACGGTTGAGCAACAACTAGTGGGTAGGGCATTGGAAGGAGACAAACTACAATGAAGCTTCATCGGAAGAAGTCTTCGAAGAGGTTGACGTCAGAAGAAAGAGTCTCCAGTGAGGATATCGTCAGAAAAGGGTGGGCGTTTGATGGCTAGGGTTTCCACGCAGGCTTTAGGGTTATCGAGGAGGGAGAGAAAGAAGAGAGAGATGGGTGATTGAATATATGTTTATTGAATGGAGGTGAGATATTCTTCATTTGTGCTTTAAGCAATATAAACATTTGAGGAGAAGGCCTTAGATCGGGAAAAGCGCTTTGATTTGGTTCGACAAAAGGCTTCTTCTTGGTGTGTTCTTTCCAAAGACTTTGTGGGCTACTCAGTTTCTGATTTGTATTTTTCTTGGAATCCGTTTTTGTTTAATCCGTAGGGATGCTTCGTACTCTTGTTTTCTCTTGCCCTCTTTAGTTGTTGTTTGATGTTTTATTTTATTTTGCTTCTTTCTTTTTGTTACTATATGTTTGTATGCTTCTTTCTTTTTGTTACTATATGTTTGTACTTTGAGCTCTTCGCTCTTTCATTATTTCAATGCAATCTTCTTGTTGCCTTGTCCCAAAAAAAAAAAAAAATTTGCTCTTGTGACAGGTTCAATTTATTTATGGTCGAGTTCCCAAGTCAGTTTCAGAAATACGTGGGTATGAAATTAAATAAGCTGATAAAGATGCAAAGACATTACACTTCAGGGTTATTTTAAAATTAAAGGATCTTTTGTTGTGCATTTTTGTTTAATTTAAATTGTCCCAGGTTGGTGTGCGAGGATATCACTGGGGGTCAGGAGGATATTCCGATTCCAGCTACTAATTTGGTTGACGATCCACCTGTTGCACCCACAGGCAAGTGAAACAACAAAGTTGGTTTGATCTCATTAAGTTGTTTTGATCAATGTGTTAGATTGGTTTGGATACTCTTGTAGTAGATTGGTACTGCGTCTGGTACATTTGAAGTTTTTTCATGTGCCTGTTCTCTGCCTAGGTTGGAAAGGACACCAACATATTGGCTGGGTCCTTTTTCTTTTCACCATTCTTTTTTTGAACATTGCCTTTTTGGTTTATTTTTGTAGCATTTGCTTACAAGATATATTTTCACTCAGATACTCTTATTCTTTTTTGCTTACATTCATAAGCATGCTGGTATTTGTTGATGTACTTCTCAGTCTTTTATGACACGTAATGACTTAAACATGATGTCAGAATATAAATATTTTTCATCATTATATTTGCCATATATATATTTTTTCCTTCAAGAACTTATGCTATTCAACAAATAACAAAGGATGTTTGATATTATTCTTTGGCATATTTGATTTCTACTATATCTTGAAAATATGCATTTGAATCTTCCCTTAAGTTTTCTGCACGCTTCAAGTGTAATTTCTATTCTGAATGTATGCTCTTGAAATGTTTCAGGTTTCACTTATCGAAAATCTATTAAAGTTGCACACGGTGTGAAACTTCCTTCAAATGCTAATGGATGTGACTGTAGAGGATCATGTATAGCTTCGAGGACGTGTTCATGTGCTAAGCTTAATGGATTAGACTTCCCATATGTGCATCGTGATGGTGGAAGGTCTGGATTCCATTCAATCTTGATCACATATATTGAAATCACTCTAGCTTGGATATTCATGATTCTGAGAGGGTGAGTTGTTTTTTTTCAAATTTTAGACTTATAGAAGCCAAGGATGTAGTTTACGAATGTGGTCCCAATTGTGGTTGTGGTCCTGGTTGTGTGAATCGAACTTCTCAGAGGGGGATCAGATATCGACTTGAGGTTCGGATGTTGCATCTAGTTACAATATTGCTAAATTTTCTTTCCAATTCCGATTTGTGAGTCAGATTTTAAATTATTCAAATCAAATATTGTATCTTTTGTGGGCAGGTTTTTCGAACACCAAAGAAAGGGTGGGCTGTAAGGTCATGGGATTTTATACCTTCTGGTGCACCTGTTTGCGAATACACGGGAATACTTACAAGGACAGAGGATCTTGATCACGTGTCTGAAAATAATTATATCTTCGACATTGATTGTTTGCAAACAATTAGAGGCATTGGTGGACGAGAGGTACCATGCAAGGCACCTTAAATTAACTTTTTTTCTGAATATAAAATCTTCGATAATGCATATATTGTTCTTCACACTTGAAATAAAGCATCAATGAAGAGGGGAAGGAATGAGGATGAATTCCTCATCTGCATTATTGTGCCCTTAAACATTCTATATTGTTGCAGAATATTTTATGTAAAAATATGATGGGATAGGGGTTCTGTTCATGGGATTTGCATGGATTATTTTTCCTAATCTAGGTTGCAATAATAACATGACTATCGATTAAAAATCTTGGAATTCTCATTTTTCGTCCACCATGACTAGAAAATATGGCAATCACTTCATATGGCACAAAGGTGCCTTTGGTGGATCATGGTGCACGACCTCAAGAAGAGAATGAGGTTGAATAATTTGATGGGAGGGGGTGGGGAGCTGAGCTGAGAGTGTGAGAGCAAAGACATTGACATGGAGGTGTGGCATGACAATATATCGTGAGAACAGAGAGCTTGTCATTGAGGTGCGGGCATGAGACTAAGTGATCGACTCTAGCATCTTTGGAGTTGTCAAGTTGTCAGTTTGTTTCCTCAGTTTGGAACTGGTTTTTTTCCAGACTTTTAGGGTTTATTTAGCTCGGCACATCTGTGGTGGTGGAGGATGCAACTCTTCATTCACCCTGTTGGTAGTGTCGTTTTCTTTGGTTTGCTAGTTTCTGTGTGGTTTACGGGGCTTTTGGCTAGAGAGAAATAATAGGAATTTTAGAGGTACGAGAGTTCTTGGAAAATTGGTTGGTCCTTTGCTAGATTTTACGCTCCTCTTTGGGCTTTGTTCTACAAGGATTTTTGTAATTAGAGTTTATTTTGTTAGATTGGAGCCTCTTTTTGCTTTAGATGTGGCTCCCTTTTATGTGCTGTTCTCCAGTTTACCCTTTATTCTTTCATTAATTCTCAATGAAAACTTGGTATCCTTAAGAAAAAGAAAGGTTCTGGCATGGGCATTGCAAGGCCTGGGGGAGTAAGACTCCAGTATGGAATTGGGATATGCGTGATGGTGAGGGAAAGAGCAGTTATAGGTTTATATTCAGGAGCAGTTCTTTCATTTCTTTATCATTAATGTCATATCTATCCCTTATTGAGGTACAAGGTCTGGGTGGAAAATTCATCATTGTCCTTGACCACTGTCTTCAAATAGGGAGAAGAAAGAGGTTCTTCCATCTCTGACTCGTAGGCCAATTTCATCAGAGTGAAACTGTGACTCATCTGTTAATGGAATGCCCTTTTATCCTGCAAATTTGGTGGAAACTTTTTCAGATATTATGGGATAATCTTCACCCTTCCGAATATTGTGCATGGGAGTCATTATACCCTTCTATGTCGTCCTTACTTCGAAGGAAAATCTAATGTCCTTTTGTCTAATACAATTATAGCAACCTCTAAATTTGTTTGGATAGGAAGGGATAGATAAGTCTTCTGAGAAGAACAATTGCTGTAGACCATGATGGATAAATTGAAATTGAATGTTGAAATATTCAAATCGTATTATACAAGTTTCTGAATTCTATTTTCCGCTTATCTCTCATTCTATTACCATGGTAATCAAACATGTTTTATTTTTCCTGTCCTTGTAGAGGCGTTCAAGAGATGCATCTTTACCAGCAAACAATTCTGTGGATGGAATAGATGATCAAAGATCTGAAAATGTGCCAGAGTTCTGCATTGATGCTTGTTCCACCGGAAATATTGCAAGGTTTATCAATCATAGTTGCGAACCTAATCTTTTCGTCCAATGTGTATTGAGCTCACACCATGACATCAAACTTGCTCGAGTGGTACTATTTGCCGCAGAAAACATACCACCCCTCCAGGTTTCGACTTGTCTCTTTTTTGCTTTTGCTTCCAACTGTTAGTGCATGTGTATTGAGCTCACACCATGACATCAACTGTTAGTGCATGTTAATTTCTGCCACAAATTTTTGCTTTTGCTTCCAACTGTTATTATTTTGTTAATCATTATAAAATTCTATTTTTAAGACCGATTTTAGGCTTTGGTGGCCAATATTAATTACAACTGCTAGAGGAGGGGCATTTTTAGCAAGGTGCAAAGCCCCACTACCTGTTTAGGTCTTTGGTCCCTTATTAGATTCTATGTTTCTCTCTGGGCCTCGGTGTCTAAGTTTTTTTATAATTATCCTCTAGATTTTATTTTGCTTAGGTGGAGTGCTTTGTTGTAAGCTCCCCCTCTCTTTTGTGAGCTTGTGTTTTTGTATGCCCTTGTATTCTTTCATTCTTTCTCAATGAAAGCTCGGTTTCTTATAAAAAAAAAAAAAAAAGTTTCGACAAACGAGTTGAAAAAGGTCCTTCGATGATCACTACGGCTCAATCTGCTTGTATAAAGGGATGACAAATTCTTGATCAAACTCTCATTGCTAATGAGGATGTTAGACTATATTGATATAATTAAATTTAACCAAAACTATCAGCTTAAGCTTTTAGTTTGATTGGTTATTTAAGATGGTATCAGAGCAGGTGGTCCATGAGGTCCTATGTTCAAACCCCTGCAAAGTCAGTTTCCTCCCCATTTAATATAGGTTCCACTTGTTTGGCTTTTCATCAAATTTCATAGCCCACAAGTGAGGGAGAGTGTTAGACTATATTGATATAATTAAATTTACTCCAAACTATCAGCTTAAACTATTAGTTTGATTGGTGATATAAGAGAGGATATTGAGGATTATCGAAGGCGAGGTTTGGAGGGAGCCATCTATAAGTTTGACTTTGAGAAAGCCTAAGATCATGTGGGTTTGAACTTCTTGGACAAGGTCCTTGAAAAGAAGGTTTTGGGCGCAAATGGAGGTTGTGTGTATTATGGCTTCAGTAACATCGGATGTGATTATGACCATCCCGACCATGGCCAAGAATACCAAAACGACTCAATAACAAAAAAAAAAATTAATCAGACAGCTTGTTGGTTTATCGTCTAATGTAAATTACGATAACTCTTCTTCCAACTTTCTTGGGGTGGTGATTTAGAAACATGATTATTATATCATGAAACGTTTGAGGTATTGGAGATTGACAGAAAAGATCTCTCATCAAAACCTATCTCCTTAAATTCTACTGTAATCATCCTTCATGAGACCAAATTGTATCTCGTGGATCGATTAATCATAAAATCTCTTTGGAGTAGCAGGAACATCAGTTGAGTCGCTTTGGATGCATCAAGATCATCTGGGGGTATCATTACTATGTGGAATGATCTTGCCATCGTCGCCACTGATATCACCAAAGGTTTATACTCCCTTTCCCTTCATCTTACCCTTTCTGATGGTTTCATGTTTTGGATTACAGACATATATGGGCCCACCAAATACAAAGAGAGACCACCACTCTGGCAGGAATTATATGACTTCTCATGTCTTTGCACAGAGAACTGGATTATAGTTGGAGACTTCATTGTCTCACGTTGGGCCCATGAAAAATCTAATGGTAAATTCACTCGAAGCATGGAGATTTTCAATCAGTTCATTGTCGATGCTGAGTTATGTGATCTCCCCTTAACAAATGGGCATTATACGTGGTTCGACAACTATACTCCCCCTACGAAGACCCTCATTGATAGATTCTTATCATCTAGTGGAGTCCTTGAGAATTGGAGTTCTTGAAGGGCGGCATAAGTGGCATCTAGTGAATATTTTTGTTGGGGATCATTGTGCTTTGTTTCCACCTCAAGGTTGTTTTTACCGTGGTTGGGTTGGCATCCAAGTCTTCTTGTTGGCTCATTGGTGATGTTGGCAGATGATGAAGGATGATGAATTTGTGATATTTCGAGGATTTTTATCTTTTTGAAAGATATTTTAAAGCTGCTTAGCTCTATAGTTTTTGGTCCATTGCTTTGTTTGGTTCATTTTTGTTTCTCTTGACTTTTTATTGCTTCTCATGGTATTTTCTTTCTAATTTTTTTCTTTGTGGAGTTTGTAATTTTGAGCATTAGTCTCTTTTCATTACTTCAATGAAATGATTGTTTCTTGTCAAAAATGGACTCCTTGAGAAGTTCACTAATGCTAGTGTTTGGAGAGGTGATAGGTCCACATTCGACCACTTCTCCCATATTCTCTCTATGGGCAGTTATTGTAACGCCCCAAGCCTAGGATTCGGATTGGGATTCAGAATCTAGATTTGGCTCCTCGTGGCCCCAACATTCTCCCGCATCCCCTGCGACTTGGCCACGTCACCCTACTATCCATACTAACCTCGAGACGCTTGCGAGAGTGAAGACTTTCCTCACAAACCAACACGGGTCCTTTCAACATGTTTTGTTCTCACTCACATGCTCTGTAGGAAAATTCCCACGAGGTAACCCAACATAAGATTGCTCCAAGTCAAGCACGCTTAACTTTGGAGTTCCTATGATTGAGCCACCAAAAAGAAAGGTGCACCTTGTTGGTATAAGTAGTAGCTATCAATCCTTTTAAGCTTTTCTCAACTATACTTTCGTATCCTCATGGTGATTCTCATTCAAATGTGAACTTAGTCATTCATGTACCCCTCTTCCTCGAGCACCATACTTTCATATCCTTAGGATCTCTCTTATTCATTCCTCGGGTGTCACAGTTATAAATGGGGTCTCTCTCCTTTAGGTTTTGAAAATATGTGGCTTCAACACCAATCTTTCGTTCCTTTGTTAGAATATTGGTGGGTAAACATGCCTCTCCGTGGATGGTCAGGTCATGGTTTCATCCTCAAATTGTAAAGTTTGAAACACAGGCTCAAATCCTAGAACAATGATGCTTTTTGTTGTATATCTACCAAAAAGAACCAGGTATTGACTGATATTGCCATTGTTGACAACATGAAAAACTATAGATATGTCACCGTTGTACACGCTACACAAAGAACCTCACTGTAAGAATAATTACTATCTATGGTTGCGATGGAAGAGGCTATGGAAGAAAAAAAATGTAAAAAAAGGTGGCTTCAAGATGGAGACACAAATTCGAGCTTCTTCCATAGGGTTATGGCAAACAAAAGAAGGAAAAACACCATCACAGAAATTCTCTCCATGCAGGGTAGAAGTCTTTTAAATGAGGATGAAATTGTTGCTGAATTTATTGATATTTACAACAAGCCATATAAGAAGATTGGAAATTTGGATTCTTTTCTTGATGACATTGATGGGAGCCCCATTGATAGTCACTTTTCTGCTGATTTAGAGAAGGATTTCACATAAACAAAATTTGGATTCTTTTGTCGATAACATTGATTGGAACCCCATTGATAGTCACTTATCTGTTGATTTAGAGAAGGATTTCAAAGAAACAAAAGTTCTAAATTCCATAAACCTTCTCGGAAGTGACAAATCTCTTGGGCGATACACATCTTAATTCTTTAAGAAATGCTAGAACATCCTCAAAGTTGATATCATGAGAGTGTTCCTAGATTTTTTCAAGAATGGTATTATAAACGAATAATGTTATTCAGCCAATTATTGGGCTAAATTTGAACCCCAAAGCTTCTTTGTATGGAGAAATGCGGTGAAGGCTATTTTTTTTTGGAGCTTTGATTTGAAAGGAATCAAAGAGTTTTCGAAGATAAGTTCATGGATTGGGCGTTGCAGATTCTATACAATTGTAGGCTTCCTCTTGGTGTGCTCTTTCCAAGGCTTTTGCAAGATTTTCTATTTTTTGATATTTGTTTAAATTGGCATACTTTCATTATTAATCCTTGAGTTGTTGGGTCTCTTTCATTATTGTGTTCTTGTTTTTTTTCTTTTCTTTAGTCTTGTATCTCAAAGCATTAGTCTCTTTTTTGTTTCTTCAATGAAAAGTGTTGTTACTTGTTTAAAAAAAAACATTAGCTTCAACAAGACTTATATTTGTCTGATATTGAAAAAGATCGATACTAGATCTATGCCAGATTTTTTCCCTATCAATCATACTACCTGTCTTTATAAAGTTATTGCTCGAGTCTTATTTGAGAGACTCAAAAAGGTTCTTCCCCAAACGATCGCAGACAACCAAACAACTTTTGTGGAAGGAAGGCAAGTTCTAGATGCATCATTAATGGCTAATGAACTGATTGATGAGGGGAGAAGGAAGGAAAGGAAGGGTGTTGTCTTAAAATTGGATATTGAAAAGACTTTCGACGAGGTGGATCGAGACTTTTTAGATTTCATTCTTTCAACAAAAGGCTTTGGTACAAAATAGAGAAAGTGGATTAGAGGATGTATCTCAACATCTAACTTCTCTATTCTTATCAAGGATCAGTCCTCACGGTAAAATCATTGCCTCTCGAGGTCTTCGCCATGAGGACTTGCTTTCTCCTTTCCTCTTCATATTGATTATGGACAACTTTAGTCGAATAATTATCAAAGCTGAAACAGGAACAAATCAGAGGCTTCCAGGGGGGTCATGGAGCCCCATCCAGTTTGCTGACGATACCATTCTCTTTGCAGATATGGATGATGTATCAGTCGTTAAATGTTTTCTCGATGTGGGCAATTTGTTTGAGGTTTCTGGACACCATAAATATGAGATGATTGACATCAATATTGACCTTGAAACCATAGAGGAATGGGCACATGGCCTATTGTTTATTTGGGGATTCTCCTTAATGGTGTTCCCAGACCGCACACTTTTTGGGTGCCTATCATTGAAAAGATAAAGAGAAAGGCTATCAACATGGGGATCAACCTTCACATCTAGGGGAGGTTCACTCCTTCAAGCTACTCTATCCAATCTCCCTACCTATTATCTTTCTTTATTCTCTTTGTCTAATAAGGTTGCCGATGAAATAGAAAGATTGAACGTGTCCTTTTTAGGAAAGAAGGAACGAATACAAATGGCCATAACCTTGTTGTCCATCCTATTGATAAAGGAGGTTTTGGATTACAATCCTTGGGGGACAAAAACAAAGCACTTTTGGCAGAATGGGTTTGGTGTTACAATCATGAAAAACAGGCTCTTTGGGGAAAACTTATGGAGGCTAAGTATGGATTCACTACATGCCTAAATTGGGCTTCTCTAGCTACATCTAAAGGTCCTCGAAAAAAATATTATGAAACAACACTTGTCATCGGTCGCATTTGTCATCAGGTGGGTTATGGTGTAACAACTTCCTTTTAGAGGGATCCATGGGTATGAAGCCCTTCTTTAGCCTCTCGTACCCTCTCTTATACAAGTTGGTCTTCTTGCAAAGGGACCACTATCAGCAAAGTTTGGAACGACACCAATAACTTTTGGAACCTAAAATTGGGTTGCAGTTTGAAGAAAGAAGCAATAGAATTGGTGGACCGTAGCCTCGATCTTGCTCCAGTTCTCTCTGAATCAAAATGGCAGTGGATTCTCACCACAAGGGGGTTATTCTCTACAAAATCTCTTATATCAAACATGGGAGAATCCACTTGTCTCCTTGAATCATCCTTGGCCCGAGCTATCCCAAAAAGATCAAATTCTTCTTATGGGAGCTATCCCACAAAGCTATAAACACCAAAGATGTTCTCCAGAGGCGTATACCCTGTTTATGTTAGGATGCAAACAAATGTCCCACATTGACTAGGGAAGGGATTGTTCATGGGTATATAAGTGAGGACAATTATCTCCGTATGAGGTCTTTTTGGGGAACCAAAAGCAAAGCCATGAGGGTTGATACCCAAAGTGGACAATATCATACCATTGTGGAGATATGTGGAGGTCTATTGTCCTAACAATTGGGGTATCAGACCCATGATAAAACCTAGTTGTATGCCGAAAAAATCCTCAAAGTGGAATAAAGGTTAGTGAACCTCGGTTGTGCTCTATCAAGGTGTTATACCACTCGCCTTGATAAGAGCAAGTGTGATCCGTGTGTGGTGCTCTATGCGGATGTTGCCTCGGGATGAACCAGTTGTGTCTCGAGATGAAGAGCAAGCTCTCAGTTGGGAGTGGACGAATCTGTTCGAGGGGAGGATTGTTAGGATGCAAACAAATGTCCCACATTGGTTAGGGAAGGGATTGATCATGGGTATATAAGTGAGGACAATTATCTCTATCGGTATGAGGCCTTCTGGGGGAAAAGAGCAAAGCCATGAGGGTTGATACCCAAAGTGGACAATATCATACCATTGTGTAGATATGTGGAGGTCCATTGTGCTTAACAATTTAGCCATATTCCCATGGTGGTGTTCCATTTGTAAATTCCATGATGAATCCCAGGCCCATTTATTCATGTCTTGTTCATGGGCCAGAATTTGTACTATCTTCGGCTGGTATTTGACTTTGCCTTGGGACATTAGAAACTTCTTATGTATGATTATGATCGATATACCATTCAAACATGCAAAGGCTTTGCTTTGGTTGCACATCTCTTATGCCTTCTTTTGGATTATCTGGAAGGAAAGGAACAACACAGTCTTATGGAACGTGAACAGACATTCGATAAGTTTTTTGATTTGATTATTTACTATGCTATTTTGGTGTAAATGTTCTTATCACTTTGCTTCCCACTCTTACGCTTCCCTTTTAACCAATTGGGAAAGCTTCATGTAACCTCCATGGACGTTTTGTCCTTTTTCGTAAATTTCATACCTCAATGAAATTGTTTCTTATAAAATAAAAATATTTTTGAAGAAGTTAAGAATAATATACAAATAGTTCAAAATTTTAGAAACTGAACTGAAAAAATAATTGTTATTAAACTAAAGTTTAGTTTCTCCAACTGGATTATAGTGAGGTTATTGAGATTTTGGTTGTCTTGGGAAAAGTCCATTATCTTTTCTTGCTATTACCTTCTGAATTCTGATGACAAATTTTAGAATATCAAACATTTGTTACTTAATTGCAGGAACTGACATACGACTATGGCTATGCACTTGATAGCGTGTATGGTCCAGATGGGAAGATAAAACAGATGCTCTGTTTCTGTGGTGCAACTGAGTGTAGGAAACGCTTGTTTTAGTCTAGGGAAGCCTTCAGATGCTGGTACATTATCATTATGGTAGCCTCACGATCTTCTGCTCTTTTTTCTTCTTTTTTTCTTTTGCCTGAAAATCAGTCTTTTTCAGTTTCTTCTCATCCCCAATTCCATCGTCGAACTCACCTTGTTCATATTTGTTCTCCTATTTCTAGGTACGTCATACGTCCAAACAGATCTGCCCCTCAAAACTATATTTTGATATTACTCATAGGGGAAAGTTGTACATACATTTTTTGGGGAGGAATTATTGAAGTTGAAATATGAGACACCTCATTTATTTGATTGTGCAAACCTCATTTTGTTTTTTGATGCGACAATCTGTCTTGGACGTTTCTAATATAACGTTTATAAAACTCAATGGTCATCTTTTTATTGTTTTGGTTGAATCATCATTGAGCTATACAAAAAGTTTCAATCTATCTCAAATTCTTCTGAGGTTTAATTTGACTTTTAGATCGAGTTTGTCAGATAACTGATGCAGTCATTATCTGCACCATGAAGTCATTTAACTGGACTGAGGTTGAATAACTTAACATGATCCATTTTCTGATGGTAAACTAGGAAATTATTGATAGCATTTAGTATGAGAATGGTAATTCCTAAAGTAATGTCATTGTCTATATTTAAACTTTTATTTTTGTTTTTCTCTGTAGAGTCTTCATTGTTATGCTTATATATTCAAGATCTTATTTTTAATTTGTTTGTGTTCCTATTACTTTCTTTTTCTTTATATATATAGGTGGACTGAACTGTTACTGGTACCAAATTTGCTACCCTATCCTCACCACTTTGAATAGAGAATGGGAAAATGTGTTTTTTCCTCAAAGAATTAAAGCGGCTGGAAGGGGGAAGAAAGTACCAAGATTATCATAGAGAAGGAACTGGAATCCAAAGGGGCAAATCAATAGACAAGAGCTACTGTCCTTTAAATGGGCATATGTTGTAGAAATAGTGTCGGAGTCTTAAATGTCTAAATCATGTTTAGAAGTTAATGATGAAATGGCAATTTGTTCAAACTGTGGCAAATTGAAATGTAGAAAATATAATTACAACAAAGTTAAAATTAAACCTTACCCGACAAACCATATAATGCATTGCATATCCTTACTATGGTTGTTCAATGACATTAGATTTTTTTTCCTTTTTTTTTTTG

mRNA sequence

GACCGGCTTTGTCTGGCTTCAGAGACAAAGGGCGATGGAGATGCTCAAAAAACTGGGAAGCGGGAATCGCCGAATTTGGCACACGAAATGCAGCGCCAAACTCGCTCATTTACCAATCACAGATCAGCGTCCGTACATTCATAGGGACTGCAGCTCTAGAAACGAATACCCCTACTCGCTTCCACTCTCTCTCTCAACACAACTGCTTGCGCCATTTCTTCCGAACCTACAATCCCTAAATCCTTTCTTCTTCTCCTACGAGACTCGGAGCTTCCATTTCTCCTGCATTCGACTCCCTATTGACCACTTTCCATTTATGAATTTTTGAGCTGAAACATGGTTGTGAAGTCACGAGTACTACGCTCTTCCGCTAATGGAGAGCTGCATTCTCCAGTAACTCCCGAGGAGAAGCCGAAACGTAGCAAAGTAGCTACGCATGGACGGAAGAATGCTAAAGCTGACGCACCGAAGGGAGGTGCAGAAGAGCCATCTCCTTCTCCCCAGAGGAGGACGAGTGCTCGAATCCAGATAAAGCAGCTGGCTGAGAAGGAGCTCCTAGTGCGTCAGAGAGTAGAGCTCCTTGATGAAACCGACAGTCCGAGCAAAAGGAAGAAGACGAACGGTCAGGTAAGAAGTAAGCGTAAGACTGCGAGGGTTGAGGACGAGGTGGTGGAAGAGAAGGCCGTTTCTGTTCCGGTATCCAAGGATGTCACTAAATCTAAAGTCGGTGATGCAAGCGAGCCAATGGAAGTGTGTGCGCCAGAAAAGAGTAGAACTGGTGACGAAGGTGGTCTGGCTAATATGGTTGAGAAGAGTGACCATGCCAAGGTTAAGGAGACTCTCAGGTTGTTCAACAAGCACTATCTTCATTTTGTGCAGGAAGAGGAAAAAAGATGCAAAAAAGCCGAAGTAGCTCAAAAAGCTTCCAAAGGGTCAAGATCTAAGAAGGCGGCTCCTGCAGAAGATACAAAAAACAAATCTAAGAGGCCAGATTTGAAGGCAATTTCTAAGATGTTGGTGGCAAATGAAATTTTGAACCCTGAGAAAAGAATTGGCAACGTTCCAGGTATCAATATTGGGCATAGGTTCTATTCAAGGGCTGAAATGGTAGCTGTTGGGTTTCACAGCCACTGGCTGAATGGAATTGATTATATGGGGTTGTCATACAGCAAAGCGTATAGTAATTACTCCTTCCCACTTGCGGTGTCCATTGTTTTATCGGGCATGTATGAGGATGACTTGGATAATGCTGAGGATGTCGTTTACACTGGTCAAGGTGGGCAAAATTTAACTGGCAATAAACGTCAGATCCGGGATCAAGTTATGGAACGTGGTAACTTGGCTCTCAAGAATTGTATTGAGCAAGCTGTCCCAGTTAGAGTGGTACGGGGGCATGAATCTGCAAGTAGTTACTGTGGGAAACTTTACACATATGATGGCTTGTATAAGGTTATACAGTATTGGGCCGAAAAAGGTATTTCTGGGTTTACTGTGTTCAAATTTCGTCTTAGGCGGATTGAAGGACAGTCATTGTTGACTACGAACCAGGTTCAATTTATTTATGGTCGAGTTCCCAAGTCAGTTTCAGAAATACGTGGGTTGGTGTGCGAGGATATCACTGGGGGTCAGGAGGATATTCCGATTCCAGCTACTAATTTGGTTGACGATCCACCTGTTGCACCCACAGGTTTCACTTATCGAAAATCTATTAAAGTTGCACACGGTGTGAAACTTCCTTCAAATGCTAATGGATGTGACTGTAGAGGATCATGTATAGCTTCGAGGACGTGTTCATGTGCTAAGCTTAATGGATTAGACTTCCCATATGTGCATCGTGATGGTGGAAGACTTATAGAAGCCAAGGATGTAGTTTACGAATGTGGTCCCAATTGTGGTTGTGGTCCTGGTTGTGTGAATCGAACTTCTCAGAGGGGGATCAGATATCGACTTGAGGTTTTTCGAACACCAAAGAAAGGGTGGGCTGTAAGGTCATGGGATTTTATACCTTCTGGTGCACCTGTTTGCGAATACACGGGAATACTTACAAGGACAGAGGATCTTGATCACGTGTCTGAAAATAATTATATCTTCGACATTGATTGTTTGCAAACAATTAGAGGCATTGGTGGACGAGAGAGGCGTTCAAGAGATGCATCTTTACCAGCAAACAATTCTGTGGATGGAATAGATGATCAAAGATCTGAAAATGTGCCAGAGTTCTGCATTGATGCTTGTTCCACCGGAAATATTGCAAGGTTTATCAATCATAGTTGCGAACCTAATCTTTTCGTCCAATGTGTATTGAGCTCACACCATGACATCAAACTTGCTCGAGTGGTACTATTTGCCGCAGAAAACATACCACCCCTCCAGGAACTGACATACGACTATGGCTATGCACTTGATAGCGTGTATGGTCCAGATGGGAAGATAAAACAGATGCTCTGTTTCTGTGGTGCAACTGAGTGTAGGAAACGCTTGTTTTAGTCTAGGGAAGCCTTCAGATGCTGGTACATTATCATTATGGTGGACTGAACTGTTACTGGTACCAAATTTGCTACCCTATCCTCACCACTTTGAATAGAGAATGGGAAAATGTGTTTTTTCCTCAAAGAATTAAAGCGGCTGGAAGGGGGAAGAAAGTACCAAGATTATCATAGAGAAGGAACTGGAATCCAAAGGGGCAAATCAATAGACAAGAGCTACTGTCCTTTAAATGGGCATATGTTGTAGAAATAGTGTCGGAGTCTTAAATGTCTAAATCATGTTTAGAAGTTAATGATGAAATGGCAATTTGTTCAAACTGTGGCAAATTGAAATGTAGAAAATATAATTACAACAAAGTTAAAATTAAACCTTACCCGACAAACCATATAATGCATTGCATATCCTTACTATGGTTGTTCAATGACATTAGATTTTTTTTCCTTTTTTTTTTTG

Coding sequence (CDS)

ATGGTTGTGAAGTCACGAGTACTACGCTCTTCCGCTAATGGAGAGCTGCATTCTCCAGTAACTCCCGAGGAGAAGCCGAAACGTAGCAAAGTAGCTACGCATGGACGGAAGAATGCTAAAGCTGACGCACCGAAGGGAGGTGCAGAAGAGCCATCTCCTTCTCCCCAGAGGAGGACGAGTGCTCGAATCCAGATAAAGCAGCTGGCTGAGAAGGAGCTCCTAGTGCGTCAGAGAGTAGAGCTCCTTGATGAAACCGACAGTCCGAGCAAAAGGAAGAAGACGAACGGTCAGGTAAGAAGTAAGCGTAAGACTGCGAGGGTTGAGGACGAGGTGGTGGAAGAGAAGGCCGTTTCTGTTCCGGTATCCAAGGATGTCACTAAATCTAAAGTCGGTGATGCAAGCGAGCCAATGGAAGTGTGTGCGCCAGAAAAGAGTAGAACTGGTGACGAAGGTGGTCTGGCTAATATGGTTGAGAAGAGTGACCATGCCAAGGTTAAGGAGACTCTCAGGTTGTTCAACAAGCACTATCTTCATTTTGTGCAGGAAGAGGAAAAAAGATGCAAAAAAGCCGAAGTAGCTCAAAAAGCTTCCAAAGGGTCAAGATCTAAGAAGGCGGCTCCTGCAGAAGATACAAAAAACAAATCTAAGAGGCCAGATTTGAAGGCAATTTCTAAGATGTTGGTGGCAAATGAAATTTTGAACCCTGAGAAAAGAATTGGCAACGTTCCAGGTATCAATATTGGGCATAGGTTCTATTCAAGGGCTGAAATGGTAGCTGTTGGGTTTCACAGCCACTGGCTGAATGGAATTGATTATATGGGGTTGTCATACAGCAAAGCGTATAGTAATTACTCCTTCCCACTTGCGGTGTCCATTGTTTTATCGGGCATGTATGAGGATGACTTGGATAATGCTGAGGATGTCGTTTACACTGGTCAAGGTGGGCAAAATTTAACTGGCAATAAACGTCAGATCCGGGATCAAGTTATGGAACGTGGTAACTTGGCTCTCAAGAATTGTATTGAGCAAGCTGTCCCAGTTAGAGTGGTACGGGGGCATGAATCTGCAAGTAGTTACTGTGGGAAACTTTACACATATGATGGCTTGTATAAGGTTATACAGTATTGGGCCGAAAAAGGTATTTCTGGGTTTACTGTGTTCAAATTTCGTCTTAGGCGGATTGAAGGACAGTCATTGTTGACTACGAACCAGGTTCAATTTATTTATGGTCGAGTTCCCAAGTCAGTTTCAGAAATACGTGGGTTGGTGTGCGAGGATATCACTGGGGGTCAGGAGGATATTCCGATTCCAGCTACTAATTTGGTTGACGATCCACCTGTTGCACCCACAGGTTTCACTTATCGAAAATCTATTAAAGTTGCACACGGTGTGAAACTTCCTTCAAATGCTAATGGATGTGACTGTAGAGGATCATGTATAGCTTCGAGGACGTGTTCATGTGCTAAGCTTAATGGATTAGACTTCCCATATGTGCATCGTGATGGTGGAAGACTTATAGAAGCCAAGGATGTAGTTTACGAATGTGGTCCCAATTGTGGTTGTGGTCCTGGTTGTGTGAATCGAACTTCTCAGAGGGGGATCAGATATCGACTTGAGGTTTTTCGAACACCAAAGAAAGGGTGGGCTGTAAGGTCATGGGATTTTATACCTTCTGGTGCACCTGTTTGCGAATACACGGGAATACTTACAAGGACAGAGGATCTTGATCACGTGTCTGAAAATAATTATATCTTCGACATTGATTGTTTGCAAACAATTAGAGGCATTGGTGGACGAGAGAGGCGTTCAAGAGATGCATCTTTACCAGCAAACAATTCTGTGGATGGAATAGATGATCAAAGATCTGAAAATGTGCCAGAGTTCTGCATTGATGCTTGTTCCACCGGAAATATTGCAAGGTTTATCAATCATAGTTGCGAACCTAATCTTTTCGTCCAATGTGTATTGAGCTCACACCATGACATCAAACTTGCTCGAGTGGTACTATTTGCCGCAGAAAACATACCACCCCTCCAGGAACTGACATACGACTATGGCTATGCACTTGATAGCGTGTATGGTCCAGATGGGAAGATAAAACAGATGCTCTGTTTCTGTGGTGCAACTGAGTGTAGGAAACGCTTGTTTTAG

Protein sequence

MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTSARIQIKQLAEKELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSVPVSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLHFVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKRIGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMYEDDLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASSYCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSEIRGLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGSCIASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRERRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSHHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF

Homology

[Close]

BLAST of Tan0015002 vs. ExPASy Swiss-Prot
Match: Q8GZB6 (Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 OS=Arabidopsis thaliana OX=3702 GN=SUVH4 PE=1 SV=2)

HSP 1 Score: 748.0 bits (1930), Expect = 9.6e-215
Identity = 384/685 (56.06%), Postives = 478/685 (69.78%), Query Frame = 0


Query: 37  KNAKADAPKGGAEEPSPSPQRRTSARIQ---IKQLAEKELLVRQRVELLDETDSPSKRKK 96
           K  +A+AP           +RR+S R+Q    K L EK  LV++RV+LL +         
Sbjct: 4   KRKRANAP--------DQTERRSSVRVQKVRQKALDEKARLVQERVKLLSD--------- 63

Query: 97  TNGQVRSKRKTARVEDEVVEEKAVSVPVSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGL 156
                  ++    V+D  + EK       ++V  S       P ++ A +K +      L
Sbjct: 64  -------RKSEICVDDTELHEKE-----EENVDGSP--KRRSPPKLTAMQKGKQKLSVSL 123

Query: 157 -ANMVEKSDHAKVKETLRLFNKHYLHFVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTK 216
               V    H KV + LRLFNK YL  VQ                               
Sbjct: 124 NGKDVNLEPHLKVTKCLRLFNKQYLLCVQA------------------------------ 183

Query: 217 NKSKRPDLKAISKMLVANEILNPEKRIGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDY 276
            K  RPDLK +++M+ A  IL P K IG++PGI++GHRF+SRAEM AVGFH+HWLNGIDY
Sbjct: 184 -KLSRPDLKGVTEMIKAKAILYPRKIIGDLPGIDVGHRFFSRAEMCAVGFHNHWLNGIDY 243

Query: 277 MGLSYSKAYSNYSFPLAVSIVLSGMYEDDLDNAEDVVYTGQGGQNLTGNKRQIRDQVMER 336
           M + Y K YSNY  PLAVSIV+SG YEDDLDNA+ V YTGQGG NLTGNKRQI+DQ++ER
Sbjct: 244 MSMEYEKEYSNYKLPLAVSIVMSGQYEDDLDNADTVTYTGQGGHNLTGNKRQIKDQLLER 303

Query: 337 GNLALKNCIEQAVPVRVVRGHESASSYCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLR 396
           GNLALK+C E  VPVRV RGH   SSY  ++YTYDGLYKV ++WA+KG+SGFTV+K+RL+
Sbjct: 304 GNLALKHCCEYNVPVRVTRGHNCKSSYTKRVYTYDGLYKVEKFWAQKGVSGFTVYKYRLK 363

Query: 397 RIEGQSLLTTNQVQFIYGRVPKSVSEIRGLVCEDITGGQEDIPIPATNLVDDPPVAPT-G 456
           R+EGQ  LTT+QV F+ GR+P S SEI GLVCEDI+GG E   IPATN VDD PV+PT G
Sbjct: 364 RLEGQPELTTDQVNFVAGRIPTSTSEIEGLVCEDISGGLEFKGIPATNRVDDSPVSPTSG 423

Query: 457 FTYRKSIKVAHGVKLPSNANGCDCRGSCIASRTCSCAKLNGLDFPYVHRDGGRLIEAKDV 516
           FTY KS+ +   V +P ++ GC+CRGSC  S+ C+CAKLNG +FPYV  + GRLIE++DV
Sbjct: 424 FTYIKSLIIEPNVIIPKSSTGCNCRGSCTDSKKCACAKLNGGNFPYVDLNDGRLIESRDV 483

Query: 517 VYECGPNCGCGPGCVNRTSQRGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTR 576
           V+ECGP+CGCGP CVNRTSQ+ +R+ LEVFR+ KKGWAVRSW++IP+G+PVCEY G++ R
Sbjct: 484 VFECGPHCGCGPKCVNRTSQKRLRFNLEVFRSAKKGWAVRSWEYIPAGSPVCEYIGVVRR 543

Query: 577 TEDLDHVSENNYIFDIDCLQTIRGIGGRERRSRDASLPANNSVDGIDDQRSENVPEFCID 636
           T D+D +S+N YIF+IDC QT++G+GGR+RR RD ++P NN V        EN PEFCID
Sbjct: 544 TADVDTISDNEYIFEIDCQQTMQGLGGRQRRLRDVAVPMNNGVS--QSSEDENAPEFCID 603

Query: 637 ACSTGNIARFINHSCEPNLFVQCVLSSHHDIKLARVVLFAAENIPPLQELTYDYGYALDS 696
           A STGN ARFINHSCEPNLFVQCVLSSH DI+LARVVLFAA+NI P+QELTYDYGYALDS
Sbjct: 604 AGSTGNFARFINHSCEPNLFVQCVLSSHQDIRLARVVLFAADNISPMQELTYDYGYALDS 624

Query: 697 VYGPDGKIKQMLCFCGATECRKRLF 717
           V+GPDGK+KQ+ C+CGA  CRKRL+
Sbjct: 664 VHGPDGKVKQLACYCGALNCRKRLY 624

[Close]

BLAST of Tan0015002 vs. ExPASy Swiss-Prot
Match: O82175 (Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH5 OS=Arabidopsis thaliana OX=3702 GN=SUVH5 PE=1 SV=1)

HSP 1 Score: 345.9 bits (886), Expect = 1.1e-93
Identity = 237/666 (35.59%), Postives = 330/666 (49.55%), Query Frame = 0


Query: 69  AEKELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSVPVSKDVTKS 128
           A++ + V +   +L+++DS        G      +  + E  ++ +K V +P     ++ 
Sbjct: 206 AKRSISVEEENLVLEKSDSGDHL----GPSPEVLELEKSEVWIITDKGVVMPSPVKPSEK 265

Query: 129 KVGDASE-----PMEVCAPEKSRTGDE-----GGLANMVEKSDHA--KVKETLRLFNKHY 188
           + GD  E       E  A +K R   +     GGL +     D A  KVKET+RLF++  
Sbjct: 266 RNGDYGEGSMRKNSERVALDKKRLASKFRLSNGGLPSCSSSGDSARYKVKETMRLFHETC 325

Query: 189 LHFVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPE 248
              +QEEE R +K +       G   K    A           LK+  K L +   +   
Sbjct: 326 KKIMQEEEARPRKRD-------GGNFKVVCEASKI--------LKSKGKNLYSGTQI--- 385

Query: 249 KRIGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSG 308
             IG VPG+ +G  F  R E+  +G H    +GIDYM     +        +A SIV SG
Sbjct: 386 --IGTVPGVEVGDEFQYRMELNLLGIHRPSQSGIDYMKDDGGEL-------VATSIVSSG 445

Query: 309 MYEDDLDNAEDVVYTGQGGQ-NLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHES 368
            Y D LDN++ ++YTGQGG      N    +DQ +  GNLALKN I +  PVRV+RG ++
Sbjct: 446 GYNDVLDNSDVLIYTGQGGNVGKKKNNEPPKDQQLVTGNLALKNSINKKNPVRVIRGIKN 505

Query: 369 A---SSYCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRV 428
               SS   K Y YDGLY V +YW E G  G  VFKF+LRRI GQ  L   +V       
Sbjct: 506 TTLQSSVVAKNYVYDGLYLVEEYWEETGSHGKLVFKFKLRRIPGQPELPWKEV------A 565

Query: 429 PKSVSEIRGLVCE-DITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNAN 488
               SE R  +C  DIT G+E +PI A N +DD    P  F Y   +      + P    
Sbjct: 566 KSKKSEFRDGLCNVDITEGKETLPICAVNNLDDE--KPPPFIYTAKMIYPDWCR-PIPPK 625

Query: 489 GCDCRGSCIASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQ 548
            C C   C  S+ C+C   NG   PY     G ++E K +VYECGP+C C P C  R SQ
Sbjct: 626 SCGCTNGCSKSKNCACIVKNGGKIPYY---DGAIVEIKPLVYECGPHCKCPPSCNMRVSQ 685

Query: 549 RGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVS-ENNYIFDIDCL 608
            GI+ +LE+F+T  +GW VRS + IP G+ +CEY G L   +  + ++ ++ Y+FD+   
Sbjct: 686 HGIKIKLEIFKTESRGWGVRSLESIPIGSFICEYAGELLEDKQAESLTGKDEYLFDL--- 745

Query: 609 QTIRGIGGRERRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNL 668
                                    G +D        F I+A   GNI RFINHSC PNL
Sbjct: 746 -------------------------GDEDD------PFTINAAQKGNIGRFINHSCSPNL 794

Query: 669 FVQCVLSSHHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATE 717
           + Q VL  H +I++  ++ FA +NIPPLQEL+YDY Y +D VY  +G IK+  C+CG+ E
Sbjct: 806 YAQDVLYDHEEIRIPHIMFFALDNIPPLQELSYDYNYKIDQVYDSNGNIKKKFCYCGSAE 794

[Close]

BLAST of Tan0015002 vs. ExPASy Swiss-Prot
Match: Q8VZ17 (Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH6 OS=Arabidopsis thaliana OX=3702 GN=SUVH6 PE=1 SV=2)

HSP 1 Score: 345.5 bits (885), Expect = 1.4e-93
Identity = 229/577 (39.69%), Postives = 296/577 (51.30%), Query Frame = 0


Query: 160 SDHAKVKETLRLFNKHYLHFVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSK--R 219
           S   KVKETLRLF+      +QE+E                     A  ED + K K  R
Sbjct: 268 SSRNKVKETLRLFHGVCRKILQEDE---------------------AKPEDQRRKGKGLR 327

Query: 220 PDLKAISKMLVANEILNPEKRI-GNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLS 279
            D +A + +    + LN    I G VPG+ +G  F  R E+  +G H     GIDYM   
Sbjct: 328 IDFEASTILKRNGKFLNSGVHILGEVPGVEVGDEFQYRMELNILGIHKPSQAGIDYM--K 387

Query: 280 YSKAYSNYSFPLAVSIVLSGMYEDDLDNAEDVVYTGQGGQNLTGNK-----RQIRDQVME 339
           Y KA       +A SIV SG Y+D LDN++ + YTGQGG  +   K     ++  DQ + 
Sbjct: 388 YGKA------KVATSIVASGGYDDHLDNSDVLTYTGQGGNVMQVKKKGEELKEPEDQKLI 447

Query: 340 RGNLALKNCIEQAVPVRVVRG-HESASSYC-GKLYTYDGLYKVIQYWAEKGISGFTVFKF 399
            GNLAL   IE+  PVRV+RG H+S      G  Y YDGLY V +YW + G  G  VFKF
Sbjct: 448 TGNLALATSIEKQTPVRVIRGKHKSTHDKSKGGNYVYDGLYLVEKYWQQVGSHGMNVFKF 507

Query: 400 RLRRIEGQSLLTTNQVQFIYGRVPKSVSEIRGLVCE-DITGGQEDIPIPATNLVDDPPVA 459
           +LRRI GQ  L+       +  V KS S+ R  +C+ DI+ G+E  PI A N +DD    
Sbjct: 508 QLRRIPGQPELS-------WVEVKKSKSKYREGLCKLDISEGKEQSPISAVNEIDDE--K 567

Query: 460 PTGFTYRKSIKVAHGVKLPSNANGCDCRGSC--IASRTCSCAKLNGLDFPYVHRDGGRLI 519
           P  FTY   +      + P     C C   C    +R C+C + NG + PY     G ++
Sbjct: 568 PPLFTYTVKLIYPDWCR-PVPPKSCCCTTRCTEAEARVCACVEKNGGEIPY--NFDGAIV 627

Query: 520 EAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYT 579
            AK  +YECGP C C   C  R +Q GI+  LE+F+T  +GW VR    IP G+ +CEY 
Sbjct: 628 GAKPTIYECGPLCKCPSSCYLRVTQHGIKLPLEIFKTKSRGWGVRCLKSIPIGSFICEYV 687

Query: 580 G-ILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRERRSRDASLPANNSVDGIDDQRSENV 639
           G +L  +E    +  + Y+FD         IG R     D SL    S   +  Q   ++
Sbjct: 688 GELLEDSEAERRIGNDEYLFD---------IGNR----YDNSLAQGMSELMLGTQAGRSM 747

Query: 640 PE------FCIDACSTGNIARFINHSCEPNLFVQCVLSSHHDIKLARVVLFAAENIPPLQ 699
            E      F IDA S GN+ RFINHSC PNL+ Q VL  H D ++  V+ FA +NIPPLQ
Sbjct: 748 AEGDESSGFTIDAASKGNVGRFINHSCSPNLYAQNVLYDHEDSRIPHVMFFAQDNIPPLQ 790

Query: 700 ELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           EL YDY YALD V    G IKQ  CFCGA  CR+RL+
Sbjct: 808 ELCYDYNYALDQVRDSKGNIKQKPCFCGAAVCRRRLY 790

[Close]

BLAST of Tan0015002 vs. ExPASy Swiss-Prot
Match: Q9C5P4 (Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH3 OS=Arabidopsis thaliana OX=3702 GN=SUVH3 PE=2 SV=2)

HSP 1 Score: 334.0 bits (855), Expect = 4.3e-90
Identity = 198/510 (38.82%), Postives = 272/510 (53.33%), Query Frame = 0


Query: 215 SKRPDLKAISKMLVANEILNPEKRIGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMG 274
           +K    KA   ++      N +KR+G VPGI +G  F+SR EM  VG H   + GIDY+ 
Sbjct: 183 TKSATSKAAGTLMSNGVRTNMKKRVGTVPGIEVGDIFFSRIEMCLVGLHMQTMAGIDYI- 242

Query: 275 LSYSKAYSNYSFPLAVSIVLSGMYEDDLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGN 334
              SKA S+    LA SIV SG YE +  + E ++Y+GQGG       RQ  DQ +ERGN
Sbjct: 243 --ISKAGSDEE-SLATSIVSSGRYEGEAQDPESLIYSGQGGN--ADKNRQASDQKLERGN 302

Query: 335 LALKNCIEQAVPVRVVRGHESASSYCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRI 394
           LAL+N + +   VRVVRG E A+S  GK+Y YDGLY + + W EKG SG   FK++L R 
Sbjct: 303 LALENSLRKGNGVRVVRGEEDAASKTGKIYIYDGLYSISESWVEKGKSGCNTFKYKLVRQ 362

Query: 395 EGQ--SLLTTNQVQFIYGRVPKSVSEIRGLVCEDITGGQEDIPIPATNLVDDPPVAPTGF 454
            GQ  +      VQ    +  + ++   GL+  D+T G E  P+   N VD+    P  F
Sbjct: 363 PGQPPAFGFWKSVQ----KWKEGLTTRPGLILPDLTSGAESKPVSLVNDVDEDK-GPAYF 422

Query: 455 TYRKSIKVAHGVKLPSNANGCDCRGSCI-ASRTCSCAKLNGLDFPYVHRDGGRLIEAKDV 514
           TY  S+K +   KL     GC C GSC   +  CSC + N  D PY+  +G  L+  + V
Sbjct: 423 TYTSSLKYSETFKLTQPVIGCSCSGSCSPGNHNCSCIRKNDGDLPYL--NGVILVSRRPV 482

Query: 515 VYECGPNCGCGPGCVNRTSQRGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTR 574
           +YECGP C C   C NR  Q G++ RLEVF+T  +GW +RSWD + +G+ +CEY G +  
Sbjct: 483 IYECGPTCPCHASCKNRVIQTGLKSRLEVFKTRNRGWGLRSWDSLRAGSFICEYAGEVKD 542

Query: 575 TEDL-DHVSENNYIFDIDCLQTIRGIGGRERRSRDASLPANNSVDGIDDQRSENVPE--- 634
             +L  +  E+ Y+FD     T R            S   N   + +D+  S  VPE   
Sbjct: 543 NGNLRGNQEEDAYVFD-----TSRVFN---------SFKWNYEPELVDEDPSTEVPEEFN 602

Query: 635 ----FCIDACSTGNIARFINHSCEPNLFVQCVLSSHHDIKLARVVLFAAENIPPLQELTY 694
                 I A   GN+ARF+NHSC PN+F Q V+   +   +  +  FA  +IPP+ ELTY
Sbjct: 603 LPSPLLISAKKFGNVARFMNHSCSPNVFWQPVIREGNGESVIHIAFFAMRHIPPMAELTY 662

Query: 695 DYGYALDSVYGPDGKIK-QMLCFCGATECR 713
           DYG +  S    +  +  Q  C CG+ +CR
Sbjct: 663 DYGISPTSEARDESLLHGQRTCLCGSEQCR 665

[Close]

BLAST of Tan0015002 vs. ExPASy Swiss-Prot
Match: Q93YF5 (Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH1 OS=Nicotiana tabacum OX=4097 GN=SUVH1 PE=1 SV=1)

HSP 1 Score: 322.4 bits (825), Expect = 1.3e-86
Identity = 192/506 (37.94%), Postives = 267/506 (52.77%), Query Frame = 0


Query: 208 AEDTKNKSKRPDLKAISKMLVANEILNPEKRIGNVPGINIGHRFYSRAEMVAVGFHSHWL 267
           + D     +RPDLKA + ++      N  KRIGN PGI +G  F+ R E+  VG H+  +
Sbjct: 233 SRDGPGSGRRPDLKASNMLMTKGVRTNQTKRIGNAPGIEVGDIFFFRMELCLVGLHAPTM 292

Query: 268 NGIDYMGLSYSKAYSNYSFPLAVSIVLSGMYEDDLDNAEDVVYTGQGGQNLTGNKRQIRD 327
            GIDYM +  +        PLAVSIV SG Y+DD  + + ++YTGQGG  +     Q+ D
Sbjct: 293 AGIDYMSVKLTMDEE----PLAVSIVSSGGYDDDGGDGDVLIYTGQGG--VQRKDGQVFD 352

Query: 328 QVMERGNLALKNCIEQAVPVRVVRGHESASSYCGKLYTYDGLYKVIQYWAEKGISGFTVF 387
           Q +ERGNLAL+  + +A  VRV+RG +  +   GK+Y YDGLYK+ + WAEK   G  VF
Sbjct: 353 QKLERGNLALEKSVHRANEVRVIRGVKDVAYPTGKIYIYDGLYKIQESWAEKNKVGCNVF 412

Query: 388 KFRLRRIEGQSLLTTNQVQFIYGRVPKSVSEIRGLVCEDITGGQEDIPIPATNLVDDPPV 447
           K++L R+ GQ      +V     +    V+   G++  D+T G E  P+   N VDD   
Sbjct: 413 KYKLLRVPGQP--EAFKVWKSIQQWKDGVASRVGVILPDLTSGAESQPVCLVNDVDDEK- 472

Query: 448 APTGFTYRKSIKVAHGVKLPSNANGCDCRGSC-IASRTCSCAKLNGLDFPYVHRDGGRLI 507
            P  FTY  S+K +    +P  +  C C G C      C+C + NG   PY     G L+
Sbjct: 473 GPAYFTYIPSLKYSKPFVMPRPSPSCHCVGGCQPGDSNCACIQSNGGFLPY--SSLGVLL 532

Query: 508 EAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYT 567
             K +++ECG  C C P C NR SQ G + RLEVF+T  +GW +RSWD I  G  +CEY 
Sbjct: 533 SYKTLIHECGSACSCPPNCRNRMSQGGPKARLEVFKTKNRGWGLRSWDPIRGGGFICEYA 592

Query: 568 GILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRERRSRDASLPANNSVDGIDDQRSENVP 627
           G      D  + S++NYIFD   +                  P     D  D+ R    P
Sbjct: 593 G---EVIDAGNYSDDNYIFDATRIYA----------------PLEAERDYNDESRKVPFP 652

Query: 628 EFCIDACSTGNIARFINHSCEPNLFVQCVLSSHHDIKLARVVLFAAENIPPLQELTYDYG 687
              I A + GNI+RF+NHSC PN++ Q V+   ++     +  FA  +IPP+QELT+DYG
Sbjct: 653 -LVISAKNGGNISRFMNHSCSPNVYWQLVVRQSNNEATYHIAFFAIRHIPPMQELTFDYG 700

Query: 688 YALDSVYGPDGKIKQMLCFCGATECR 713
             +D     D + K+  C CG+  CR
Sbjct: 713 --MDKA---DHRRKK--CLCGSLNCR 700

[Close]

BLAST of Tan0015002 vs. NCBI nr
Match: XP_022928428.1 (histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X1 [Cucurbita moschata] >XP_022928429.1 histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X1 [Cucurbita moschata])

HSP 1 Score: 1316.2 bits (3405), Expect = 0.0e+00
Identity = 653/716 (91.20%), Postives = 683/716 (95.39%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVLRS+ NGELHS VTPEEKPKR+KVAT GRKN KA A KG AEEPSPSPQRRTS
Sbjct: 1   MVVKSRVLRSATNGELHSSVTPEEKPKRAKVATRGRKNVKAAAVKGDAEEPSPSPQRRTS 60

Query: 61  ARIQIKQLAEKELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSVP 120
           ARIQIKQLA+KELLVRQRVE+LDETDSPSKRKK NG VRSKR T + +D+ VE+KAV+VP
Sbjct: 61  ARIQIKQLADKELLVRQRVEILDETDSPSKRKKKNGPVRSKRNT-KSKDKAVEDKAVAVP 120

Query: 121 VSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLHFV 180
           VS DVTKSK G ASEPMEVCA EKS T DEGG AN+VEKSDHAKVKETLRLFNK+YLHFV
Sbjct: 121 VSNDVTKSKDGGASEPMEVCALEKSTTADEGGPANVVEKSDHAKVKETLRLFNKYYLHFV 180

Query: 181 QEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKRIG 240
           QEEE+RCKKAEVAQK SKGS+SKKAAP EDTK+K KRPDLKAI+KM+ ANEILNPEKRIG
Sbjct: 181 QEEEQRCKKAEVAQKVSKGSKSKKAAPEEDTKSKRKRPDLKAITKMMEANEILNPEKRIG 240

Query: 241 NVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMYED 300
           ++PGI+IGHRFYSRAEMVAVGFHSHWLNGIDYMG+SYSK YSNYSFP+AVSIVLSGMYED
Sbjct: 241 DIPGISIGHRFYSRAEMVAVGFHSHWLNGIDYMGMSYSKMYSNYSFPVAVSIVLSGMYED 300

Query: 301 DLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASSYC 360
           DLDNAEDVVYTGQGGQ+LTGNKRQIRDQVMERGNLALKNCIEQAVPVRV+RGHESASSYC
Sbjct: 301 DLDNAEDVVYTGQGGQDLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVLRGHESASSYC 360

Query: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSEIR 420
           GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSVSEIR
Sbjct: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVSEIR 420

Query: 421 GLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGSCI 480
           GLVCEDITG QEDIPIPATNLVDDPPVAPTGFTY KSIKV HGVKLPSNANGCDC GSCI
Sbjct: 421 GLVCEDITGSQEDIPIPATNLVDDPPVAPTGFTYCKSIKVGHGVKLPSNANGCDCSGSCI 480

Query: 481 ASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEV 540
           +SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRLEV
Sbjct: 481 SSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRLEV 540

Query: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRE 600
           FRTPKKGWAVRSWDFIPSGAPVCEYTGIL+RT+DLDHVSENNYIFDIDCLQTIRG GGR 
Sbjct: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILSRTDDLDHVSENNYIFDIDCLQTIRGFGGRM 600

Query: 601 RRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSHH 660
           RRSRDASLPANNSVDGIDDQRSE+VPEFC+DACSTGNIARFINHSCEPNLFVQCVLSSHH
Sbjct: 601 RRSRDASLPANNSVDGIDDQRSESVPEFCVDACSTGNIARFINHSCEPNLFVQCVLSSHH 660

Query: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           DIKLARVVLFAAENIPPLQELTYDYGYALDSVYG DGKIKQM CFCGATECRKRLF
Sbjct: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGSDGKIKQMPCFCGATECRKRLF 715

[Close]

BLAST of Tan0015002 vs. NCBI nr
Match: KAG6588860.1 (Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 1314.3 bits (3400), Expect = 0.0e+00
Identity = 652/716 (91.06%), Postives = 682/716 (95.25%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVLRS+ NGELHS VTPEEKPKR+KVAT GRKN KA A KG AEEPSPSP RRTS
Sbjct: 1   MVVKSRVLRSATNGELHSSVTPEEKPKRAKVATRGRKNVKAAAVKGDAEEPSPSPLRRTS 60

Query: 61  ARIQIKQLAEKELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSVP 120
           ARIQIKQLAEKELLVRQRVE+LDETDSPSKRKK NG VRSKR T + +D+ VE+KAV+VP
Sbjct: 61  ARIQIKQLAEKELLVRQRVEILDETDSPSKRKKKNGPVRSKRNT-KSKDKAVEDKAVAVP 120

Query: 121 VSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLHFV 180
           VS DVTKSK G ASEPMEVCA EKS T DEGG AN+VEKSDHAKVKETLRLFNK+YLHFV
Sbjct: 121 VSNDVTKSKDGGASEPMEVCALEKSTTADEGGPANVVEKSDHAKVKETLRLFNKYYLHFV 180

Query: 181 QEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKRIG 240
           QEEE+RCKKAEVAQK SKGS+SKKAAP EDTK+K KRPDLKAI+KM+ ANEILNPEKRIG
Sbjct: 181 QEEEQRCKKAEVAQKVSKGSKSKKAAPEEDTKSKRKRPDLKAITKMMEANEILNPEKRIG 240

Query: 241 NVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMYED 300
           ++PGI+IGHRFYSRAEMVAVGFHSHWLNGIDYMG+SYSK YSNYSFP+AVSIVLSGMYED
Sbjct: 241 DIPGISIGHRFYSRAEMVAVGFHSHWLNGIDYMGMSYSKMYSNYSFPVAVSIVLSGMYED 300

Query: 301 DLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASSYC 360
           DLDNAEDVVYTGQGGQ+LTGNKRQIRDQVMERGNLALKNCIEQAVPVRV+RGHESASSYC
Sbjct: 301 DLDNAEDVVYTGQGGQDLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVLRGHESASSYC 360

Query: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSEIR 420
           GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSVSEIR
Sbjct: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVSEIR 420

Query: 421 GLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGSCI 480
           GLVCEDITG QEDIPIPATNLVDDPPVAPTGFTY KSIKV HGVKLPSNANGCDC GSCI
Sbjct: 421 GLVCEDITGSQEDIPIPATNLVDDPPVAPTGFTYCKSIKVGHGVKLPSNANGCDCSGSCI 480

Query: 481 ASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEV 540
           +SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRLEV
Sbjct: 481 SSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRLEV 540

Query: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRE 600
           FRTPKKGWAVRSWDFIPSGAPVCEYTG+L+RT+DLDHVSENNYIFDIDCLQTIRG GGR 
Sbjct: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGVLSRTDDLDHVSENNYIFDIDCLQTIRGFGGRM 600

Query: 601 RRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSHH 660
           RRSRDASLPANNSVDGIDDQRSE+VPEFC+DACSTGNIARFINHSCEPNLFVQCVLSSHH
Sbjct: 601 RRSRDASLPANNSVDGIDDQRSESVPEFCVDACSTGNIARFINHSCEPNLFVQCVLSSHH 660

Query: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           DIKLARVVLFAAENIPPLQELTYDYGYALDSVYG DGKIKQM CFCGATECRKRLF
Sbjct: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGSDGKIKQMPCFCGATECRKRLF 715

[Close]

BLAST of Tan0015002 vs. NCBI nr
Match: KAG6581138.1 (Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 1313.1 bits (3397), Expect = 0.0e+00
Identity = 657/718 (91.50%), Postives = 684/718 (95.26%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVL S+ NGELHSPVTPEEKPKR KVATHGRKNAKA  P+G AEEPSPSPQRRTS
Sbjct: 1   MVVKSRVLHSAVNGELHSPVTPEEKPKRHKVATHGRKNAKAAKPEGDAEEPSPSPQRRTS 60

Query: 61  ARIQIKQLAE-KELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTA-RVEDEVVEEKAVS 120
           ARIQ+KQLAE KELL RQRVE+LDE +S SKRKKTNGQV+SKR T   V +EVVE+KAV+
Sbjct: 61  ARIQLKQLAEKKELLARQRVEVLDEPESASKRKKTNGQVKSKRNTTPSVAEEVVEDKAVA 120

Query: 121 VPVSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLH 180
           VPVS DV +S+ GDASEP+E+CA EKSRTGDEGG AN+VEKSDHAKVKETLRLFNK+YLH
Sbjct: 121 VPVSNDVAESRDGDASEPLELCASEKSRTGDEGGPANIVEKSDHAKVKETLRLFNKYYLH 180

Query: 181 FVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKR 240
           FVQEEEKRCKKAEVAQKASK S+S++ APAEDTK+KSKRPDLKA+SKML ANEILN EKR
Sbjct: 181 FVQEEEKRCKKAEVAQKASKRSKSEE-APAEDTKHKSKRPDLKAVSKMLEANEILNHEKR 240

Query: 241 IGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMY 300
           IGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSK YSNYSFPLAV+IVLSGMY
Sbjct: 241 IGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKMYSNYSFPLAVAIVLSGMY 300

Query: 301 EDDLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASS 360
           EDDLDNAEDV+YTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHE ASS
Sbjct: 301 EDDLDNAEDVIYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHECASS 360

Query: 361 YCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSE 420
           YCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSV+E
Sbjct: 361 YCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVAE 420

Query: 421 IRGLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGS 480
           IRGLVCEDITGGQEDIPIPATNLVDDPPVAP GFTY KSIKVAHGVKLPSNANGCDC GS
Sbjct: 421 IRGLVCEDITGGQEDIPIPATNLVDDPPVAPIGFTYCKSIKVAHGVKLPSNANGCDCVGS 480

Query: 481 CIASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRL 540
           CI SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRL
Sbjct: 481 CIDSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRL 540

Query: 541 EVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGG 600
           EVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIF+IDCLQTI GIGG
Sbjct: 541 EVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFEIDCLQTISGIGG 600

Query: 601 RERRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSS 660
           RERRSRDASLPANNS DGIDDQRSE+VPEFCIDACSTGNIARFINHSCEPNLFVQCVLSS
Sbjct: 601 RERRSRDASLPANNSSDGIDDQRSESVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSS 660

Query: 661 HHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           HHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKI QM CFCGATECRKRLF
Sbjct: 661 HHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIIQMPCFCGATECRKRLF 717

[Close]

BLAST of Tan0015002 vs. NCBI nr
Match: XP_022934519.1 (histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 isoform X1 [Cucurbita moschata] >XP_022934520.1 histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 isoform X1 [Cucurbita moschata] >XP_022934521.1 histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 isoform X1 [Cucurbita moschata])

HSP 1 Score: 1312.0 bits (3394), Expect = 0.0e+00
Identity = 657/718 (91.50%), Postives = 683/718 (95.13%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVL S+ NGELHSPVTPEEKPK  KVATHGRKNAKA  P+G AEEPSPSPQRRTS
Sbjct: 1   MVVKSRVLHSAVNGELHSPVTPEEKPKSHKVATHGRKNAKAAKPEGDAEEPSPSPQRRTS 60

Query: 61  ARIQIKQLAE-KELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTA-RVEDEVVEEKAVS 120
           ARIQ+KQLAE KELL RQRVE+LDE +S SKRKKTNGQV+SKR T   V +EVVE+KAV+
Sbjct: 61  ARIQLKQLAEKKELLARQRVEVLDEPESASKRKKTNGQVKSKRNTTPSVAEEVVEDKAVA 120

Query: 121 VPVSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLH 180
           VPVS DV +SK GDASEP+E+CA EKSRTGDEGG AN+VEKSDHAKVKETLRLFNK+YLH
Sbjct: 121 VPVSNDVAESKDGDASEPLELCASEKSRTGDEGGPANIVEKSDHAKVKETLRLFNKYYLH 180

Query: 181 FVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKR 240
           FVQEEEKRCKKAEVAQKASK S+S++ APAEDTK+KSKRPDLKA+SKML ANEILN EKR
Sbjct: 181 FVQEEEKRCKKAEVAQKASKRSKSEE-APAEDTKHKSKRPDLKAVSKMLEANEILNHEKR 240

Query: 241 IGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMY 300
           IGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSK YSNYSFPLAV+IVLSGMY
Sbjct: 241 IGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKMYSNYSFPLAVAIVLSGMY 300

Query: 301 EDDLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASS 360
           EDDLDNAEDV+YTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHE ASS
Sbjct: 301 EDDLDNAEDVIYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHECASS 360

Query: 361 YCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSE 420
           YCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSV+E
Sbjct: 361 YCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVAE 420

Query: 421 IRGLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGS 480
           IRGLVCEDITGGQEDIPIPATNLVDDPPVAP GFTY KSIKVAHGVKLPSNANGCDC GS
Sbjct: 421 IRGLVCEDITGGQEDIPIPATNLVDDPPVAPIGFTYCKSIKVAHGVKLPSNANGCDCIGS 480

Query: 481 CIASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRL 540
           CI SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRL
Sbjct: 481 CIDSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRL 540

Query: 541 EVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGG 600
           EVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIF+IDCLQTI GIGG
Sbjct: 541 EVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFEIDCLQTISGIGG 600

Query: 601 RERRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSS 660
           RERRSRDASLPANNS DGIDDQRSE+VPEFCIDACSTGNIARFINHSCEPNLFVQCVLSS
Sbjct: 601 RERRSRDASLPANNSSDGIDDQRSESVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSS 660

Query: 661 HHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           HHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKI QM CFCGATECRKRLF
Sbjct: 661 HHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIIQMPCFCGATECRKRLF 717

[Close]

BLAST of Tan0015002 vs. NCBI nr
Match: XP_022928431.1 (histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X2 [Cucurbita moschata])

HSP 1 Score: 1310.4 bits (3390), Expect = 0.0e+00
Identity = 652/716 (91.06%), Postives = 682/716 (95.25%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVLRS+ NGELHS VTPEEKPKR+KVAT GRKN KA A KG AEEPSPSPQRRTS
Sbjct: 1   MVVKSRVLRSATNGELHSSVTPEEKPKRAKVATRGRKNVKAAAVKGDAEEPSPSPQRRTS 60

Query: 61  ARIQIKQLAEKELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSVP 120
           ARIQIKQLA+KELLVRQRVE+LDETDSPSKRKK NG VRSKR T + +D+ VE+KAV+VP
Sbjct: 61  ARIQIKQLADKELLVRQRVEILDETDSPSKRKKKNGPVRSKRNT-KSKDKAVEDKAVAVP 120

Query: 121 VSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLHFV 180
           VS DVTKSK G ASEPMEVCA EKS T DEGG AN+VEKSDHAKVKETLRLFNK+YLHFV
Sbjct: 121 VSNDVTKSKDGGASEPMEVCALEKSTTADEGGPANVVEKSDHAKVKETLRLFNKYYLHFV 180

Query: 181 QEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKRIG 240
           QEEE+RCKKAEVAQK SKGS+S KAAP EDTK+K KRPDLKAI+KM+ ANEILNPEKRIG
Sbjct: 181 QEEEQRCKKAEVAQKVSKGSKS-KAAPEEDTKSKRKRPDLKAITKMMEANEILNPEKRIG 240

Query: 241 NVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMYED 300
           ++PGI+IGHRFYSRAEMVAVGFHSHWLNGIDYMG+SYSK YSNYSFP+AVSIVLSGMYED
Sbjct: 241 DIPGISIGHRFYSRAEMVAVGFHSHWLNGIDYMGMSYSKMYSNYSFPVAVSIVLSGMYED 300

Query: 301 DLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASSYC 360
           DLDNAEDVVYTGQGGQ+LTGNKRQIRDQVMERGNLALKNCIEQAVPVRV+RGHESASSYC
Sbjct: 301 DLDNAEDVVYTGQGGQDLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVLRGHESASSYC 360

Query: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSEIR 420
           GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSVSEIR
Sbjct: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVSEIR 420

Query: 421 GLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGSCI 480
           GLVCEDITG QEDIPIPATNLVDDPPVAPTGFTY KSIKV HGVKLPSNANGCDC GSCI
Sbjct: 421 GLVCEDITGSQEDIPIPATNLVDDPPVAPTGFTYCKSIKVGHGVKLPSNANGCDCSGSCI 480

Query: 481 ASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEV 540
           +SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRLEV
Sbjct: 481 SSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRLEV 540

Query: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRE 600
           FRTPKKGWAVRSWDFIPSGAPVCEYTGIL+RT+DLDHVSENNYIFDIDCLQTIRG GGR 
Sbjct: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILSRTDDLDHVSENNYIFDIDCLQTIRGFGGRM 600

Query: 601 RRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSHH 660
           RRSRDASLPANNSVDGIDDQRSE+VPEFC+DACSTGNIARFINHSCEPNLFVQCVLSSHH
Sbjct: 601 RRSRDASLPANNSVDGIDDQRSESVPEFCVDACSTGNIARFINHSCEPNLFVQCVLSSHH 660

Query: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           DIKLARVVLFAAENIPPLQELTYDYGYALDSVYG DGKIKQM CFCGATECRKRLF
Sbjct: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGSDGKIKQMPCFCGATECRKRLF 714

[Close]

BLAST of Tan0015002 vs. ExPASy TrEMBL
Match: A0A6J1EP01 (histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111435244 PE=4 SV=1)

HSP 1 Score: 1316.2 bits (3405), Expect = 0.0e+00
Identity = 653/716 (91.20%), Postives = 683/716 (95.39%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVLRS+ NGELHS VTPEEKPKR+KVAT GRKN KA A KG AEEPSPSPQRRTS
Sbjct: 1   MVVKSRVLRSATNGELHSSVTPEEKPKRAKVATRGRKNVKAAAVKGDAEEPSPSPQRRTS 60

Query: 61  ARIQIKQLAEKELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSVP 120
           ARIQIKQLA+KELLVRQRVE+LDETDSPSKRKK NG VRSKR T + +D+ VE+KAV+VP
Sbjct: 61  ARIQIKQLADKELLVRQRVEILDETDSPSKRKKKNGPVRSKRNT-KSKDKAVEDKAVAVP 120

Query: 121 VSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLHFV 180
           VS DVTKSK G ASEPMEVCA EKS T DEGG AN+VEKSDHAKVKETLRLFNK+YLHFV
Sbjct: 121 VSNDVTKSKDGGASEPMEVCALEKSTTADEGGPANVVEKSDHAKVKETLRLFNKYYLHFV 180

Query: 181 QEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKRIG 240
           QEEE+RCKKAEVAQK SKGS+SKKAAP EDTK+K KRPDLKAI+KM+ ANEILNPEKRIG
Sbjct: 181 QEEEQRCKKAEVAQKVSKGSKSKKAAPEEDTKSKRKRPDLKAITKMMEANEILNPEKRIG 240

Query: 241 NVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMYED 300
           ++PGI+IGHRFYSRAEMVAVGFHSHWLNGIDYMG+SYSK YSNYSFP+AVSIVLSGMYED
Sbjct: 241 DIPGISIGHRFYSRAEMVAVGFHSHWLNGIDYMGMSYSKMYSNYSFPVAVSIVLSGMYED 300

Query: 301 DLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASSYC 360
           DLDNAEDVVYTGQGGQ+LTGNKRQIRDQVMERGNLALKNCIEQAVPVRV+RGHESASSYC
Sbjct: 301 DLDNAEDVVYTGQGGQDLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVLRGHESASSYC 360

Query: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSEIR 420
           GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSVSEIR
Sbjct: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVSEIR 420

Query: 421 GLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGSCI 480
           GLVCEDITG QEDIPIPATNLVDDPPVAPTGFTY KSIKV HGVKLPSNANGCDC GSCI
Sbjct: 421 GLVCEDITGSQEDIPIPATNLVDDPPVAPTGFTYCKSIKVGHGVKLPSNANGCDCSGSCI 480

Query: 481 ASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEV 540
           +SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRLEV
Sbjct: 481 SSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRLEV 540

Query: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRE 600
           FRTPKKGWAVRSWDFIPSGAPVCEYTGIL+RT+DLDHVSENNYIFDIDCLQTIRG GGR 
Sbjct: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILSRTDDLDHVSENNYIFDIDCLQTIRGFGGRM 600

Query: 601 RRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSHH 660
           RRSRDASLPANNSVDGIDDQRSE+VPEFC+DACSTGNIARFINHSCEPNLFVQCVLSSHH
Sbjct: 601 RRSRDASLPANNSVDGIDDQRSESVPEFCVDACSTGNIARFINHSCEPNLFVQCVLSSHH 660

Query: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           DIKLARVVLFAAENIPPLQELTYDYGYALDSVYG DGKIKQM CFCGATECRKRLF
Sbjct: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGSDGKIKQMPCFCGATECRKRLF 715

[Close]

BLAST of Tan0015002 vs. ExPASy TrEMBL
Match: A0A6J1F7X9 (histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111441673 PE=4 SV=1)

HSP 1 Score: 1312.0 bits (3394), Expect = 0.0e+00
Identity = 657/718 (91.50%), Postives = 683/718 (95.13%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVL S+ NGELHSPVTPEEKPK  KVATHGRKNAKA  P+G AEEPSPSPQRRTS
Sbjct: 1   MVVKSRVLHSAVNGELHSPVTPEEKPKSHKVATHGRKNAKAAKPEGDAEEPSPSPQRRTS 60

Query: 61  ARIQIKQLAE-KELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTA-RVEDEVVEEKAVS 120
           ARIQ+KQLAE KELL RQRVE+LDE +S SKRKKTNGQV+SKR T   V +EVVE+KAV+
Sbjct: 61  ARIQLKQLAEKKELLARQRVEVLDEPESASKRKKTNGQVKSKRNTTPSVAEEVVEDKAVA 120

Query: 121 VPVSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLH 180
           VPVS DV +SK GDASEP+E+CA EKSRTGDEGG AN+VEKSDHAKVKETLRLFNK+YLH
Sbjct: 121 VPVSNDVAESKDGDASEPLELCASEKSRTGDEGGPANIVEKSDHAKVKETLRLFNKYYLH 180

Query: 181 FVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKR 240
           FVQEEEKRCKKAEVAQKASK S+S++ APAEDTK+KSKRPDLKA+SKML ANEILN EKR
Sbjct: 181 FVQEEEKRCKKAEVAQKASKRSKSEE-APAEDTKHKSKRPDLKAVSKMLEANEILNHEKR 240

Query: 241 IGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMY 300
           IGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSK YSNYSFPLAV+IVLSGMY
Sbjct: 241 IGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKMYSNYSFPLAVAIVLSGMY 300

Query: 301 EDDLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASS 360
           EDDLDNAEDV+YTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHE ASS
Sbjct: 301 EDDLDNAEDVIYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHECASS 360

Query: 361 YCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSE 420
           YCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSV+E
Sbjct: 361 YCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVAE 420

Query: 421 IRGLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGS 480
           IRGLVCEDITGGQEDIPIPATNLVDDPPVAP GFTY KSIKVAHGVKLPSNANGCDC GS
Sbjct: 421 IRGLVCEDITGGQEDIPIPATNLVDDPPVAPIGFTYCKSIKVAHGVKLPSNANGCDCIGS 480

Query: 481 CIASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRL 540
           CI SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRL
Sbjct: 481 CIDSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRL 540

Query: 541 EVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGG 600
           EVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIF+IDCLQTI GIGG
Sbjct: 541 EVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFEIDCLQTISGIGG 600

Query: 601 RERRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSS 660
           RERRSRDASLPANNS DGIDDQRSE+VPEFCIDACSTGNIARFINHSCEPNLFVQCVLSS
Sbjct: 601 RERRSRDASLPANNSSDGIDDQRSESVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSS 660

Query: 661 HHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           HHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKI QM CFCGATECRKRLF
Sbjct: 661 HHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIIQMPCFCGATECRKRLF 717

[Close]

BLAST of Tan0015002 vs. ExPASy TrEMBL
Match: A0A6J1IZZ3 (histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111481473 PE=4 SV=1)

HSP 1 Score: 1310.4 bits (3390), Expect = 0.0e+00
Identity = 655/717 (91.35%), Postives = 681/717 (94.98%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVL S+ANGELHSPV PEEKPKR KVATH RKNAKA  P+G AE PSPSPQRRTS
Sbjct: 1   MVVKSRVLHSAANGELHSPVNPEEKPKRHKVATHERKNAKAAKPEGDAEGPSPSPQRRTS 60

Query: 61  ARIQIKQLAE-KELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSV 120
           ARIQ+KQLAE KELL RQRVE+ DE +S SKRKKTNGQV+SKR T  V +EVVE+KAV+V
Sbjct: 61  ARIQLKQLAEKKELLARQRVEVPDEPESASKRKKTNGQVKSKRNTPSVAEEVVEDKAVAV 120

Query: 121 PVSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLHF 180
           PVS DV KSK GDA+EP+E+CA EKSRTGDEGG AN+VEKSDHAKVKETLRLFNK+YLHF
Sbjct: 121 PVSNDVAKSKDGDANEPLELCASEKSRTGDEGGSANIVEKSDHAKVKETLRLFNKYYLHF 180

Query: 181 VQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKRI 240
           VQEEEKRCKKAEVAQKASK S+S++ APAEDTK+KSKRPDLKA+SKML ANEILN EKRI
Sbjct: 181 VQEEEKRCKKAEVAQKASKRSKSEE-APAEDTKHKSKRPDLKAVSKMLEANEILNHEKRI 240

Query: 241 GNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMYE 300
           GNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSK YSNYSFPLAV+IVLSGMYE
Sbjct: 241 GNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKMYSNYSFPLAVAIVLSGMYE 300

Query: 301 DDLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASSY 360
           DDLDNAEDV+YTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHE ASSY
Sbjct: 301 DDLDNAEDVIYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHECASSY 360

Query: 361 CGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSEI 420
           CGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSV+EI
Sbjct: 361 CGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVAEI 420

Query: 421 RGLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGSC 480
           RGLVCEDITGGQEDIPIPATNLVDDPPVAP GFTY KSIKVAHGVKLPSNANGCDC GSC
Sbjct: 421 RGLVCEDITGGQEDIPIPATNLVDDPPVAPIGFTYCKSIKVAHGVKLPSNANGCDCIGSC 480

Query: 481 IASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLE 540
           I SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRLE
Sbjct: 481 IDSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRLE 540

Query: 541 VFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGGR 600
           VFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIF+IDCLQTI GIGGR
Sbjct: 541 VFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFEIDCLQTISGIGGR 600

Query: 601 ERRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSH 660
           ERRSRDASLPANNS DGIDDQRSE+VPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSH
Sbjct: 601 ERRSRDASLPANNSSDGIDDQRSESVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSH 660

Query: 661 HDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           HDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKI QM CFCGATECRKRLF
Sbjct: 661 HDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIIQMPCFCGATECRKRLF 716

[Close]

BLAST of Tan0015002 vs. ExPASy TrEMBL
Match: A0A6J1EK99 (histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111435244 PE=4 SV=1)

HSP 1 Score: 1310.4 bits (3390), Expect = 0.0e+00
Identity = 652/716 (91.06%), Postives = 682/716 (95.25%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVLRS+ NGELHS VTPEEKPKR+KVAT GRKN KA A KG AEEPSPSPQRRTS
Sbjct: 1   MVVKSRVLRSATNGELHSSVTPEEKPKRAKVATRGRKNVKAAAVKGDAEEPSPSPQRRTS 60

Query: 61  ARIQIKQLAEKELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSVP 120
           ARIQIKQLA+KELLVRQRVE+LDETDSPSKRKK NG VRSKR T + +D+ VE+KAV+VP
Sbjct: 61  ARIQIKQLADKELLVRQRVEILDETDSPSKRKKKNGPVRSKRNT-KSKDKAVEDKAVAVP 120

Query: 121 VSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLHFV 180
           VS DVTKSK G ASEPMEVCA EKS T DEGG AN+VEKSDHAKVKETLRLFNK+YLHFV
Sbjct: 121 VSNDVTKSKDGGASEPMEVCALEKSTTADEGGPANVVEKSDHAKVKETLRLFNKYYLHFV 180

Query: 181 QEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKRIG 240
           QEEE+RCKKAEVAQK SKGS+S KAAP EDTK+K KRPDLKAI+KM+ ANEILNPEKRIG
Sbjct: 181 QEEEQRCKKAEVAQKVSKGSKS-KAAPEEDTKSKRKRPDLKAITKMMEANEILNPEKRIG 240

Query: 241 NVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMYED 300
           ++PGI+IGHRFYSRAEMVAVGFHSHWLNGIDYMG+SYSK YSNYSFP+AVSIVLSGMYED
Sbjct: 241 DIPGISIGHRFYSRAEMVAVGFHSHWLNGIDYMGMSYSKMYSNYSFPVAVSIVLSGMYED 300

Query: 301 DLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASSYC 360
           DLDNAEDVVYTGQGGQ+LTGNKRQIRDQVMERGNLALKNCIEQAVPVRV+RGHESASSYC
Sbjct: 301 DLDNAEDVVYTGQGGQDLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVLRGHESASSYC 360

Query: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSEIR 420
           GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSVSEIR
Sbjct: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVSEIR 420

Query: 421 GLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGSCI 480
           GLVCEDITG QEDIPIPATNLVDDPPVAPTGFTY KSIKV HGVKLPSNANGCDC GSCI
Sbjct: 421 GLVCEDITGSQEDIPIPATNLVDDPPVAPTGFTYCKSIKVGHGVKLPSNANGCDCSGSCI 480

Query: 481 ASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEV 540
           +SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRLEV
Sbjct: 481 SSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRLEV 540

Query: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRE 600
           FRTPKKGWAVRSWDFIPSGAPVCEYTGIL+RT+DLDHVSENNYIFDIDCLQTIRG GGR 
Sbjct: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILSRTDDLDHVSENNYIFDIDCLQTIRGFGGRM 600

Query: 601 RRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSHH 660
           RRSRDASLPANNSVDGIDDQRSE+VPEFC+DACSTGNIARFINHSCEPNLFVQCVLSSHH
Sbjct: 601 RRSRDASLPANNSVDGIDDQRSESVPEFCVDACSTGNIARFINHSCEPNLFVQCVLSSHH 660

Query: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           DIKLARVVLFAAENIPPLQELTYDYGYALDSVYG DGKIKQM CFCGATECRKRLF
Sbjct: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGSDGKIKQMPCFCGATECRKRLF 714

[Close]

BLAST of Tan0015002 vs. ExPASy TrEMBL
Match: A0A6J1JMU1 (histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111486639 PE=4 SV=1)

HSP 1 Score: 1300.4 bits (3364), Expect = 0.0e+00
Identity = 649/716 (90.64%), Postives = 677/716 (94.55%), Query Frame = 0


Query: 1   MVVKSRVLRSSANGELHSPVTPEEKPKRSKVATHGRKNAKADAPKGGAEEPSPSPQRRTS 60
           MVVKSRVLRS+ NGELHS VTPEEKPKR+KVAT GRKN KA A KG AEEPSPSPQRRTS
Sbjct: 1   MVVKSRVLRSATNGELHSSVTPEEKPKRAKVATRGRKNVKAAAVKGDAEEPSPSPQRRTS 60

Query: 61  ARIQIKQLAEKELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSVP 120
           ARIQIKQLAEKELLVRQRVEL DETDSPSKR K NG +RSKR T + +D+ VE+KAV+VP
Sbjct: 61  ARIQIKQLAEKELLVRQRVELPDETDSPSKRTKKNGPLRSKRNT-KSKDKAVEDKAVAVP 120

Query: 121 VSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGLANMVEKSDHAKVKETLRLFNKHYLHFV 180
           VS DVT SK G ASEP EVCA EKS T DEGGLAN+VEKSDHAKVKETLRLFNK+YLHFV
Sbjct: 121 VSNDVTNSKDGGASEP-EVCALEKSTTADEGGLANVVEKSDHAKVKETLRLFNKYYLHFV 180

Query: 181 QEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPEKRIG 240
           QEEE+RCKKAEVAQKASKGS+SKK AP EDTK+K KRPDLKAI+KM+ ANEILNPEKRIG
Sbjct: 181 QEEEQRCKKAEVAQKASKGSKSKKVAPEEDTKSKRKRPDLKAITKMMEANEILNPEKRIG 240

Query: 241 NVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSGMYED 300
           N+PGI+IGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSK YSNYSFP+AVSIVLSGMYED
Sbjct: 241 NIPGISIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKMYSNYSFPVAVSIVLSGMYED 300

Query: 301 DLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHESASSYC 360
           DLDNAEDVVYTGQGGQ+LTGNKRQIRDQVMERGNLALKNCIEQAVPVRV+RGHESASSYC
Sbjct: 301 DLDNAEDVVYTGQGGQDLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVLRGHESASSYC 360

Query: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRVPKSVSEIR 420
           GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQF+YGRVPKSVSEIR
Sbjct: 361 GKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFVYGRVPKSVSEIR 420

Query: 421 GLVCEDITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNANGCDCRGSCI 480
           GLVCEDITG QEDIPIPATNLVDD PVAPTGFTY KSIKV HGVKLPSNANGCDCRGSCI
Sbjct: 421 GLVCEDITGSQEDIPIPATNLVDDQPVAPTGFTYCKSIKVGHGVKLPSNANGCDCRGSCI 480

Query: 481 ASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEV 540
           +SRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGI+YRLEV
Sbjct: 481 SSRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQRGIKYRLEV 540

Query: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRE 600
           FRTPKKGWAVRSWDFIPSGAPVCEYTG+L+RT+DLDHVSENNYIFDIDCLQTIRG GGR 
Sbjct: 541 FRTPKKGWAVRSWDFIPSGAPVCEYTGVLSRTDDLDHVSENNYIFDIDCLQTIRGFGGRM 600

Query: 601 RRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNLFVQCVLSSHH 660
           RRSRDASL  NNS DGIDDQRSE+VPEFC+DACSTGNIARFINHSCEPNLFVQCVLSSHH
Sbjct: 601 RRSRDASLLPNNSADGIDDQRSESVPEFCVDACSTGNIARFINHSCEPNLFVQCVLSSHH 660

Query: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           DIKLARVVLFAAENIPPLQELTYDYGYALDSVYG DGKIKQM CFCGATECRKRLF
Sbjct: 661 DIKLARVVLFAAENIPPLQELTYDYGYALDSVYGSDGKIKQMPCFCGATECRKRLF 714

[Close]

BLAST of Tan0015002 vs. TAIR 10
Match: AT5G13960.1 (SU(VAR)3-9 homolog 4 )

HSP 1 Score: 748.0 bits (1930), Expect = 6.8e-216
Identity = 384/685 (56.06%), Postives = 478/685 (69.78%), Query Frame = 0


Query: 37  KNAKADAPKGGAEEPSPSPQRRTSARIQ---IKQLAEKELLVRQRVELLDETDSPSKRKK 96
           K  +A+AP           +RR+S R+Q    K L EK  LV++RV+LL +         
Sbjct: 4   KRKRANAP--------DQTERRSSVRVQKVRQKALDEKARLVQERVKLLSD--------- 63

Query: 97  TNGQVRSKRKTARVEDEVVEEKAVSVPVSKDVTKSKVGDASEPMEVCAPEKSRTGDEGGL 156
                  ++    V+D  + EK       ++V  S       P ++ A +K +      L
Sbjct: 64  -------RKSEICVDDTELHEKE-----EENVDGSP--KRRSPPKLTAMQKGKQKLSVSL 123

Query: 157 -ANMVEKSDHAKVKETLRLFNKHYLHFVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTK 216
               V    H KV + LRLFNK YL  VQ                               
Sbjct: 124 NGKDVNLEPHLKVTKCLRLFNKQYLLCVQA------------------------------ 183

Query: 217 NKSKRPDLKAISKMLVANEILNPEKRIGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDY 276
            K  RPDLK +++M+ A  IL P K IG++PGI++GHRF+SRAEM AVGFH+HWLNGIDY
Sbjct: 184 -KLSRPDLKGVTEMIKAKAILYPRKIIGDLPGIDVGHRFFSRAEMCAVGFHNHWLNGIDY 243

Query: 277 MGLSYSKAYSNYSFPLAVSIVLSGMYEDDLDNAEDVVYTGQGGQNLTGNKRQIRDQVMER 336
           M + Y K YSNY  PLAVSIV+SG YEDDLDNA+ V YTGQGG NLTGNKRQI+DQ++ER
Sbjct: 244 MSMEYEKEYSNYKLPLAVSIVMSGQYEDDLDNADTVTYTGQGGHNLTGNKRQIKDQLLER 303

Query: 337 GNLALKNCIEQAVPVRVVRGHESASSYCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLR 396
           GNLALK+C E  VPVRV RGH   SSY  ++YTYDGLYKV ++WA+KG+SGFTV+K+RL+
Sbjct: 304 GNLALKHCCEYNVPVRVTRGHNCKSSYTKRVYTYDGLYKVEKFWAQKGVSGFTVYKYRLK 363

Query: 397 RIEGQSLLTTNQVQFIYGRVPKSVSEIRGLVCEDITGGQEDIPIPATNLVDDPPVAPT-G 456
           R+EGQ  LTT+QV F+ GR+P S SEI GLVCEDI+GG E   IPATN VDD PV+PT G
Sbjct: 364 RLEGQPELTTDQVNFVAGRIPTSTSEIEGLVCEDISGGLEFKGIPATNRVDDSPVSPTSG 423

Query: 457 FTYRKSIKVAHGVKLPSNANGCDCRGSCIASRTCSCAKLNGLDFPYVHRDGGRLIEAKDV 516
           FTY KS+ +   V +P ++ GC+CRGSC  S+ C+CAKLNG +FPYV  + GRLIE++DV
Sbjct: 424 FTYIKSLIIEPNVIIPKSSTGCNCRGSCTDSKKCACAKLNGGNFPYVDLNDGRLIESRDV 483

Query: 517 VYECGPNCGCGPGCVNRTSQRGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTR 576
           V+ECGP+CGCGP CVNRTSQ+ +R+ LEVFR+ KKGWAVRSW++IP+G+PVCEY G++ R
Sbjct: 484 VFECGPHCGCGPKCVNRTSQKRLRFNLEVFRSAKKGWAVRSWEYIPAGSPVCEYIGVVRR 543

Query: 577 TEDLDHVSENNYIFDIDCLQTIRGIGGRERRSRDASLPANNSVDGIDDQRSENVPEFCID 636
           T D+D +S+N YIF+IDC QT++G+GGR+RR RD ++P NN V        EN PEFCID
Sbjct: 544 TADVDTISDNEYIFEIDCQQTMQGLGGRQRRLRDVAVPMNNGVS--QSSEDENAPEFCID 603

Query: 637 ACSTGNIARFINHSCEPNLFVQCVLSSHHDIKLARVVLFAAENIPPLQELTYDYGYALDS 696
           A STGN ARFINHSCEPNLFVQCVLSSH DI+LARVVLFAA+NI P+QELTYDYGYALDS
Sbjct: 604 AGSTGNFARFINHSCEPNLFVQCVLSSHQDIRLARVVLFAADNISPMQELTYDYGYALDS 624

Query: 697 VYGPDGKIKQMLCFCGATECRKRLF 717
           V+GPDGK+KQ+ C+CGA  CRKRL+
Sbjct: 664 VHGPDGKVKQLACYCGALNCRKRLY 624

[Close]

BLAST of Tan0015002 vs. TAIR 10
Match: AT2G35160.1 (SU(VAR)3-9 homolog 5 )

HSP 1 Score: 345.9 bits (886), Expect = 7.8e-95
Identity = 237/666 (35.59%), Postives = 330/666 (49.55%), Query Frame = 0


Query: 69  AEKELLVRQRVELLDETDSPSKRKKTNGQVRSKRKTARVEDEVVEEKAVSVPVSKDVTKS 128
           A++ + V +   +L+++DS        G      +  + E  ++ +K V +P     ++ 
Sbjct: 206 AKRSISVEEENLVLEKSDSGDHL----GPSPEVLELEKSEVWIITDKGVVMPSPVKPSEK 265

Query: 129 KVGDASE-----PMEVCAPEKSRTGDE-----GGLANMVEKSDHA--KVKETLRLFNKHY 188
           + GD  E       E  A +K R   +     GGL +     D A  KVKET+RLF++  
Sbjct: 266 RNGDYGEGSMRKNSERVALDKKRLASKFRLSNGGLPSCSSSGDSARYKVKETMRLFHETC 325

Query: 189 LHFVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSKRPDLKAISKMLVANEILNPE 248
              +QEEE R +K +       G   K    A           LK+  K L +   +   
Sbjct: 326 KKIMQEEEARPRKRD-------GGNFKVVCEASKI--------LKSKGKNLYSGTQI--- 385

Query: 249 KRIGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLSYSKAYSNYSFPLAVSIVLSG 308
             IG VPG+ +G  F  R E+  +G H    +GIDYM     +        +A SIV SG
Sbjct: 386 --IGTVPGVEVGDEFQYRMELNLLGIHRPSQSGIDYMKDDGGEL-------VATSIVSSG 445

Query: 309 MYEDDLDNAEDVVYTGQGGQ-NLTGNKRQIRDQVMERGNLALKNCIEQAVPVRVVRGHES 368
            Y D LDN++ ++YTGQGG      N    +DQ +  GNLALKN I +  PVRV+RG ++
Sbjct: 446 GYNDVLDNSDVLIYTGQGGNVGKKKNNEPPKDQQLVTGNLALKNSINKKNPVRVIRGIKN 505

Query: 369 A---SSYCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRIEGQSLLTTNQVQFIYGRV 428
               SS   K Y YDGLY V +YW E G  G  VFKF+LRRI GQ  L   +V       
Sbjct: 506 TTLQSSVVAKNYVYDGLYLVEEYWEETGSHGKLVFKFKLRRIPGQPELPWKEV------A 565

Query: 429 PKSVSEIRGLVCE-DITGGQEDIPIPATNLVDDPPVAPTGFTYRKSIKVAHGVKLPSNAN 488
               SE R  +C  DIT G+E +PI A N +DD    P  F Y   +      + P    
Sbjct: 566 KSKKSEFRDGLCNVDITEGKETLPICAVNNLDDE--KPPPFIYTAKMIYPDWCR-PIPPK 625

Query: 489 GCDCRGSCIASRTCSCAKLNGLDFPYVHRDGGRLIEAKDVVYECGPNCGCGPGCVNRTSQ 548
            C C   C  S+ C+C   NG   PY     G ++E K +VYECGP+C C P C  R SQ
Sbjct: 626 SCGCTNGCSKSKNCACIVKNGGKIPYY---DGAIVEIKPLVYECGPHCKCPPSCNMRVSQ 685

Query: 549 RGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTRTEDLDHVS-ENNYIFDIDCL 608
            GI+ +LE+F+T  +GW VRS + IP G+ +CEY G L   +  + ++ ++ Y+FD+   
Sbjct: 686 HGIKIKLEIFKTESRGWGVRSLESIPIGSFICEYAGELLEDKQAESLTGKDEYLFDL--- 745

Query: 609 QTIRGIGGRERRSRDASLPANNSVDGIDDQRSENVPEFCIDACSTGNIARFINHSCEPNL 668
                                    G +D        F I+A   GNI RFINHSC PNL
Sbjct: 746 -------------------------GDEDD------PFTINAAQKGNIGRFINHSCSPNL 794

Query: 669 FVQCVLSSHHDIKLARVVLFAAENIPPLQELTYDYGYALDSVYGPDGKIKQMLCFCGATE 717
           + Q VL  H +I++  ++ FA +NIPPLQEL+YDY Y +D VY  +G IK+  C+CG+ E
Sbjct: 806 YAQDVLYDHEEIRIPHIMFFALDNIPPLQELSYDYNYKIDQVYDSNGNIKKKFCYCGSAE 794

[Close]

BLAST of Tan0015002 vs. TAIR 10
Match: AT2G22740.2 (SU(VAR)3-9 homolog 6 )

HSP 1 Score: 345.5 bits (885), Expect = 1.0e-94
Identity = 229/577 (39.69%), Postives = 296/577 (51.30%), Query Frame = 0


Query: 160 SDHAKVKETLRLFNKHYLHFVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSK--R 219
           S   KVKETLRLF+      +QE+E                     A  ED + K K  R
Sbjct: 268 SSRNKVKETLRLFHGVCRKILQEDE---------------------AKPEDQRRKGKGLR 327

Query: 220 PDLKAISKMLVANEILNPEKRI-GNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLS 279
            D +A + +    + LN    I G VPG+ +G  F  R E+  +G H     GIDYM   
Sbjct: 328 IDFEASTILKRNGKFLNSGVHILGEVPGVEVGDEFQYRMELNILGIHKPSQAGIDYM--K 387

Query: 280 YSKAYSNYSFPLAVSIVLSGMYEDDLDNAEDVVYTGQGGQNLTGNK-----RQIRDQVME 339
           Y KA       +A SIV SG Y+D LDN++ + YTGQGG  +   K     ++  DQ + 
Sbjct: 388 YGKA------KVATSIVASGGYDDHLDNSDVLTYTGQGGNVMQVKKKGEELKEPEDQKLI 447

Query: 340 RGNLALKNCIEQAVPVRVVRG-HESASSYC-GKLYTYDGLYKVIQYWAEKGISGFTVFKF 399
            GNLAL   IE+  PVRV+RG H+S      G  Y YDGLY V +YW + G  G  VFKF
Sbjct: 448 TGNLALATSIEKQTPVRVIRGKHKSTHDKSKGGNYVYDGLYLVEKYWQQVGSHGMNVFKF 507

Query: 400 RLRRIEGQSLLTTNQVQFIYGRVPKSVSEIRGLVCE-DITGGQEDIPIPATNLVDDPPVA 459
           +LRRI GQ  L+       +  V KS S+ R  +C+ DI+ G+E  PI A N +DD    
Sbjct: 508 QLRRIPGQPELS-------WVEVKKSKSKYREGLCKLDISEGKEQSPISAVNEIDDE--K 567

Query: 460 PTGFTYRKSIKVAHGVKLPSNANGCDCRGSC--IASRTCSCAKLNGLDFPYVHRDGGRLI 519
           P  FTY   +      + P     C C   C    +R C+C + NG + PY     G ++
Sbjct: 568 PPLFTYTVKLIYPDWCR-PVPPKSCCCTTRCTEAEARVCACVEKNGGEIPY--NFDGAIV 627

Query: 520 EAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYT 579
            AK  +YECGP C C   C  R +Q GI+  LE+F+T  +GW VR    IP G+ +CEY 
Sbjct: 628 GAKPTIYECGPLCKCPSSCYLRVTQHGIKLPLEIFKTKSRGWGVRCLKSIPIGSFICEYV 687

Query: 580 G-ILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRERRSRDASLPANNSVDGIDDQRSENV 639
           G +L  +E    +  + Y+FD         IG R     D SL    S   +  Q   ++
Sbjct: 688 GELLEDSEAERRIGNDEYLFD---------IGNR----YDNSLAQGMSELMLGTQAGRSM 747

Query: 640 PE------FCIDACSTGNIARFINHSCEPNLFVQCVLSSHHDIKLARVVLFAAENIPPLQ 699
            E      F IDA S GN+ RFINHSC PNL+ Q VL  H D ++  V+ FA +NIPPLQ
Sbjct: 748 AEGDESSGFTIDAASKGNVGRFINHSCSPNLYAQNVLYDHEDSRIPHVMFFAQDNIPPLQ 790

Query: 700 ELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           EL YDY YALD V    G IKQ  CFCGA  CR+RL+
Sbjct: 808 ELCYDYNYALDQVRDSKGNIKQKPCFCGAAVCRRRLY 790

[Close]

BLAST of Tan0015002 vs. TAIR 10
Match: AT2G22740.1 (SU(VAR)3-9 homolog 6 )

HSP 1 Score: 345.5 bits (885), Expect = 1.0e-94
Identity = 229/577 (39.69%), Postives = 296/577 (51.30%), Query Frame = 0


Query: 160 SDHAKVKETLRLFNKHYLHFVQEEEKRCKKAEVAQKASKGSRSKKAAPAEDTKNKSK--R 219
           S   KVKETLRLF+      +QE+E                     A  ED + K K  R
Sbjct: 268 SSRNKVKETLRLFHGVCRKILQEDE---------------------AKPEDQRRKGKGLR 327

Query: 220 PDLKAISKMLVANEILNPEKRI-GNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMGLS 279
            D +A + +    + LN    I G VPG+ +G  F  R E+  +G H     GIDYM   
Sbjct: 328 IDFEASTILKRNGKFLNSGVHILGEVPGVEVGDEFQYRMELNILGIHKPSQAGIDYM--K 387

Query: 280 YSKAYSNYSFPLAVSIVLSGMYEDDLDNAEDVVYTGQGGQNLTGNK-----RQIRDQVME 339
           Y KA       +A SIV SG Y+D LDN++ + YTGQGG  +   K     ++  DQ + 
Sbjct: 388 YGKA------KVATSIVASGGYDDHLDNSDVLTYTGQGGNVMQVKKKGEELKEPEDQKLI 447

Query: 340 RGNLALKNCIEQAVPVRVVRG-HESASSYC-GKLYTYDGLYKVIQYWAEKGISGFTVFKF 399
            GNLAL   IE+  PVRV+RG H+S      G  Y YDGLY V +YW + G  G  VFKF
Sbjct: 448 TGNLALATSIEKQTPVRVIRGKHKSTHDKSKGGNYVYDGLYLVEKYWQQVGSHGMNVFKF 507

Query: 400 RLRRIEGQSLLTTNQVQFIYGRVPKSVSEIRGLVCE-DITGGQEDIPIPATNLVDDPPVA 459
           +LRRI GQ  L+       +  V KS S+ R  +C+ DI+ G+E  PI A N +DD    
Sbjct: 508 QLRRIPGQPELS-------WVEVKKSKSKYREGLCKLDISEGKEQSPISAVNEIDDE--K 567

Query: 460 PTGFTYRKSIKVAHGVKLPSNANGCDCRGSC--IASRTCSCAKLNGLDFPYVHRDGGRLI 519
           P  FTY   +      + P     C C   C    +R C+C + NG + PY     G ++
Sbjct: 568 PPLFTYTVKLIYPDWCR-PVPPKSCCCTTRCTEAEARVCACVEKNGGEIPY--NFDGAIV 627

Query: 520 EAKDVVYECGPNCGCGPGCVNRTSQRGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYT 579
            AK  +YECGP C C   C  R +Q GI+  LE+F+T  +GW VR    IP G+ +CEY 
Sbjct: 628 GAKPTIYECGPLCKCPSSCYLRVTQHGIKLPLEIFKTKSRGWGVRCLKSIPIGSFICEYV 687

Query: 580 G-ILTRTEDLDHVSENNYIFDIDCLQTIRGIGGRERRSRDASLPANNSVDGIDDQRSENV 639
           G +L  +E    +  + Y+FD         IG R     D SL    S   +  Q   ++
Sbjct: 688 GELLEDSEAERRIGNDEYLFD---------IGNR----YDNSLAQGMSELMLGTQAGRSM 747

Query: 640 PE------FCIDACSTGNIARFINHSCEPNLFVQCVLSSHHDIKLARVVLFAAENIPPLQ 699
            E      F IDA S GN+ RFINHSC PNL+ Q VL  H D ++  V+ FA +NIPPLQ
Sbjct: 748 AEGDESSGFTIDAASKGNVGRFINHSCSPNLYAQNVLYDHEDSRIPHVMFFAQDNIPPLQ 790

Query: 700 ELTYDYGYALDSVYGPDGKIKQMLCFCGATECRKRLF 717
           EL YDY YALD V    G IKQ  CFCGA  CR+RL+
Sbjct: 808 ELCYDYNYALDQVRDSKGNIKQKPCFCGAAVCRRRLY 790

[Close]

BLAST of Tan0015002 vs. TAIR 10
Match: AT1G73100.1 (SU(VAR)3-9 homolog 3 )

HSP 1 Score: 334.0 bits (855), Expect = 3.1e-91
Identity = 198/510 (38.82%), Postives = 272/510 (53.33%), Query Frame = 0


Query: 215 SKRPDLKAISKMLVANEILNPEKRIGNVPGINIGHRFYSRAEMVAVGFHSHWLNGIDYMG 274
           +K    KA   ++      N +KR+G VPGI +G  F+SR EM  VG H   + GIDY+ 
Sbjct: 183 TKSATSKAAGTLMSNGVRTNMKKRVGTVPGIEVGDIFFSRIEMCLVGLHMQTMAGIDYI- 242

Query: 275 LSYSKAYSNYSFPLAVSIVLSGMYEDDLDNAEDVVYTGQGGQNLTGNKRQIRDQVMERGN 334
              SKA S+    LA SIV SG YE +  + E ++Y+GQGG       RQ  DQ +ERGN
Sbjct: 243 --ISKAGSDEE-SLATSIVSSGRYEGEAQDPESLIYSGQGGN--ADKNRQASDQKLERGN 302

Query: 335 LALKNCIEQAVPVRVVRGHESASSYCGKLYTYDGLYKVIQYWAEKGISGFTVFKFRLRRI 394
           LAL+N + +   VRVVRG E A+S  GK+Y YDGLY + + W EKG SG   FK++L R 
Sbjct: 303 LALENSLRKGNGVRVVRGEEDAASKTGKIYIYDGLYSISESWVEKGKSGCNTFKYKLVRQ 362

Query: 395 EGQ--SLLTTNQVQFIYGRVPKSVSEIRGLVCEDITGGQEDIPIPATNLVDDPPVAPTGF 454
            GQ  +      VQ    +  + ++   GL+  D+T G E  P+   N VD+    P  F
Sbjct: 363 PGQPPAFGFWKSVQ----KWKEGLTTRPGLILPDLTSGAESKPVSLVNDVDEDK-GPAYF 422

Query: 455 TYRKSIKVAHGVKLPSNANGCDCRGSCI-ASRTCSCAKLNGLDFPYVHRDGGRLIEAKDV 514
           TY  S+K +   KL     GC C GSC   +  CSC + N  D PY+  +G  L+  + V
Sbjct: 423 TYTSSLKYSETFKLTQPVIGCSCSGSCSPGNHNCSCIRKNDGDLPYL--NGVILVSRRPV 482

Query: 515 VYECGPNCGCGPGCVNRTSQRGIRYRLEVFRTPKKGWAVRSWDFIPSGAPVCEYTGILTR 574
           +YECGP C C   C NR  Q G++ RLEVF+T  +GW +RSWD + +G+ +CEY G +  
Sbjct: 483 IYECGPTCPCHASCKNRVIQTGLKSRLEVFKTRNRGWGLRSWDSLRAGSFICEYAGEVKD 542

Query: 575 TEDL-DHVSENNYIFDIDCLQTIRGIGGRERRSRDASLPANNSVDGIDDQRSENVPE--- 634
             +L  +  E+ Y+FD     T R            S   N   + +D+  S  VPE   
Sbjct: 543 NGNLRGNQEEDAYVFD-----TSRVFN---------SFKWNYEPELVDEDPSTEVPEEFN 602

Query: 635 ----FCIDACSTGNIARFINHSCEPNLFVQCVLSSHHDIKLARVVLFAAENIPPLQELTY 694
                 I A   GN+ARF+NHSC PN+F Q V+   +   +  +  FA  +IPP+ ELTY
Sbjct: 603 LPSPLLISAKKFGNVARFMNHSCSPNVFWQPVIREGNGESVIHIAFFAMRHIPPMAELTY 662

Query: 695 DYGYALDSVYGPDGKIK-QMLCFCGATECR 713
           DYG +  S    +  +  Q  C CG+ +CR
Sbjct: 663 DYGISPTSEARDESLLHGQRTCLCGSEQCR 665

The following BLAST results are available for this feature:

BLAST of Tan0015002 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
Q8GZB6	9.6e-215	56.06	Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 OS=Arabidopsis th...	[more]
O82175	1.1e-93	35.59	Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH5 OS=Arabidopsis th...	[more]
Q8VZ17	1.4e-93	39.69	Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH6 OS=Arabidopsis th...	[more]
Q9C5P4	4.3e-90	38.82	Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH3 OS=Arabidopsis th...	[more]
Q93YF5	1.3e-86	37.94	Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH1 OS=Nicotiana taba...	[more]

BLAST of Tan0015002 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_022928428.1	0.0e+00	91.20	histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X1 [...	[more]
KAG6588860.1	0.0e+00	91.06	Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4, partial [Cucurbi...	[more]
KAG6581138.1	0.0e+00	91.50	Histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4, partial [Cucurbi...	[more]
XP_022934519.1	0.0e+00	91.50	histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 isoform X1 [Cucur...	[more]
XP_022928431.1	0.0e+00	91.06	histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X2 [...	[more]

BLAST of Tan0015002 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A6J1EP01	0.0e+00	91.20	histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X1 O...	[more]
A0A6J1F7X9	0.0e+00	91.50	histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 isoform X1 OS=Cuc...	[more]
A0A6J1IZZ3	0.0e+00	91.35	histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4 isoform X1 OS=Cuc...	[more]
A0A6J1EK99	0.0e+00	91.06	histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X2 O...	[more]
A0A6J1JMU1	0.0e+00	90.64	histone-lysine N-methyltransferase, H3 lysine-9 specific SUVH4-like isoform X1 O...	[more]

BLAST of Tan0015002 vs. TAIR 10


Match Name	E-value	Identity	Description
AT5G13960.1	6.8e-216	56.06	SU(VAR)3-9 homolog 4	[more]
AT2G35160.1	7.8e-95	35.59	SU(VAR)3-9 homolog 5	[more]
AT2G22740.2	1.0e-94	39.69	SU(VAR)3-9 homolog 6	[more]
AT2G22740.1	1.0e-94	39.69	SU(VAR)3-9 homolog 6	[more]
AT1G73100.1	3.1e-91	38.82	SU(VAR)3-9 homolog 3	[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
IPR001214	SET domain	SMART	SM00317	set_7	coord: 536..692 e-value: 1.2E-36 score: 137.7
IPR001214	SET domain	PFAM	PF00856	SET	coord: 547..686 e-value: 5.2E-20 score: 72.5
IPR001214	SET domain	PROSITE	PS50280	SET	coord: 536..686 score: 19.16395
IPR003105	SRA-YDG	SMART	SM00466	G9a_1	coord: 235..397 e-value: 2.4E-57 score: 206.5
IPR003105	SRA-YDG	PFAM	PF02182	SAD_SRA	coord: 239..397 e-value: 2.3E-50 score: 170.3
IPR003105	SRA-YDG	PROSITE	PS51015	YDG	coord: 240..393 score: 52.283016
IPR007728	Pre-SET domain	SMART	SM00468	preset_2	coord: 424..520 e-value: 3.8E-20 score: 82.9
IPR007728	Pre-SET domain	PFAM	PF05033	Pre-SET	coord: 428..528 e-value: 6.5E-17 score: 62.2
IPR007728	Pre-SET domain	PROSITE	PS50867	PRE_SET	coord: 471..533 score: 11.470532
IPR036987	SRA-YDG superfamily	GENE3D	2.30.280.10		coord: 224..410 e-value: 2.8E-62 score: 211.6
None	No IPR available	GENE3D	2.170.270.10	SET domain	coord: 419..716 e-value: 6.6E-88 score: 296.6
None	No IPR available	PIRSR	PIRSR009343-2	PIRSR009343-2	coord: 435..591 e-value: 3.5E-22 score: 76.7
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 20..44
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 80..153
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 101..117
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 1..64
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 191..219
None	No IPR available	PANTHER	PTHR45660	HISTONE-LYSINE N-METHYLTRANSFERASE SETMAR	coord: 57..715
None	No IPR available	PANTHER	PTHR45660:SF30	HISTONE-LYSINE N-METHYLTRANSFERASE, H3 LYSINE-9 SPECIFIC SUVH4	coord: 57..715
None	No IPR available	SUPERFAMILY	82199	SET domain	coord: 420..693
IPR003616	Post-SET domain	PROSITE	PS50868	POST_SET	coord: 700..716 score: 8.773742
IPR025794	Histone H3-K9 methyltransferase, plant	PROSITE	PS51575	SAM_MT43_SUVAR39_2	coord: 71..716 score: 160.356766
IPR015947	PUA-like superfamily	SUPERFAMILY	88697	PUA domain-like	coord: 224..406

Relationships

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


Feature Name	Unique Name	Type
Tan0015002.1	Tan0015002.1	mRNA
Tan0015002.2	Tan0015002.2	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0034968	histone lysine methylation
biological_process	GO:0016571	histone methylation
cellular_component	GO:0005634	nucleus
molecular_function	GO:0018024	histone-lysine N-methyltransferase activity
molecular_function	GO:0005515	protein binding
molecular_function	GO:0008270	zinc ion binding