Spg015522 (gene) Sponge gourd (cylindrica) v1

Overview


Name	Spg015522
Type	gene
Organism	Luffa cylindrica (Sponge gourd (cylindrica) v1)
Description	Non-specific serine/threonine protein kinase
Location	scaffold10: 15544757 .. 15605142 (+)
RNA-Seq Expression	Spg015522
Synteny	Spg015522

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: five_prime_UTRCDSpolypeptide

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

AAATTACCCTTTCTGCCATTAAAATTCCCTCTCCACATTCGCGAAGAAAGAGATTTGCAGCCGATCATCTTTCCATCGGAGCCGAATAAATCGGGCGATCGGTTTCGAGGTTCTGTTTGAGTAATCGGAAATCAGTTTCTCAGTGGGCTCCCTTTTTTTACTGCTATCTTTTTACTACCACAGGTTCGATTTTCGTTTCCCTTCCATCTATTTTTTCTTTTTCATCAATACTTCCTTTCCTTTTTTTTCTTTTTCCATTTTAAAAATTTTATCTTTCCTATTCTTTTACTTAGATGGAGTTTTGTTTTTTTACCTGGTTGATTTCGTTCATGTTTCTTCAATAATTTGTTTTTAAAAATTAGAGCTTTTTACGAGGGTGAAAATTAGTATGTACTCTTCTCTTTATTCGAGGTTCAAAATTATATATATCCCATATTTGTTGTACCAACAAAATAATAAAAAATAATAATTTGTTTTTAAAACGAATTTTTCAGGAGGAGAGACAAAATTTTTCTTTTAGTATATATATATATATATATATATATATATATATATATATATATATTATCTACGTACTTTGGTAGTTTCACTTTTTTCATAATTAAATGAGGGATCAAAATTTTCTTGTTCATCATTTTCTTTTTCTTTTTCCTTTTTTTTTCCCTTTCATTCTTTTACTTTTTGTGGTGTTGGAAGGATCTTTCAATTATTATGATTATTATTAGTTTTACTTGTCATTAAGCTAACTTTAATACCATCACTCTATATTTTAAAGGCGTTTCTTAGATCGTTACATGGATAAGCGGATTAAACATGAAGATAGAAACGTTGACGTGTTTCTAAAAAATTACAAGCTTGACAAAATTCTTGGAATTGGCTCAACTGGAAAAGTTAAACTTGCAAAACATAAATTGACTGGACGTGAAGTAGCAATAAAGATCCTCAACCGTAAGAAGATTGCAAAGATGGGTTTGGAACAAAAAGGTTTGTCTTATCTATTATCTATCTATCTATATTTTGTCCCTACAATTTAATTTAATTTAATTAAAAATTAATAAGGTTAGATTATATATTATTTGTTTCATGCTCAATTTTAAAAATAATCCAGGGTACATTTGTTTTTTTTTTTTTTTTTTTTTTTGACATGTAGGTACATTTAGTTTGTGATATGAAAAAAAAAATTCGAAAATAAAGAATTTATAAGTATAAAACAAAAAACAAATTCTTTATTTTCACTATACTTAAAACATGTTTGGTTTCAATTTGAAAATTTTAAATAAACTTGAAAGGATTAATGTGAGTTTGATAAAATCTATTCCTTAAGAAAAAATCTAATTTGTGATATGGAATTCTAAAAAGAAAAAAAAAACTTATAATAATTAATTAAACACAATCTATTTCATAATTTTCACCTCTTTTTTACACAAGAATCATAGGGCAAGATGAAGCTTTTCGACATGCAAGAGGTTGTCTAGTGGCTATATAATTGGACTTTGCACTAAAATAATCAATTATGAAGTGAAAAAAGAAGAAGAAAAAAAAAAAAAAAAAACTTGTTGCAGGGAGAGAAGAGAGAGTAAGAGATGTTGGGAATGACTTGGATATTTATTTAGATATTTTGGCCTTTTAATGTTTTACTTTACATTTGTCCCACATGGAAAGATTTGGAGTTGGGAAGAGTGTTTTTATACGATCACTCTTCTCTACTCTTGTAAAGTGGTTATGGGTGGTACTTAAACTTTTTCCCACATGCGCGCGCCACTGCCGCCGTCAGTTGGACGGGTTTCGGTAATCACAGTCGTGCGTAATAAAGAGAAATGTGTTTTACTTTTTGGCCAAAATATTTTTTATTTTATTTTCCCAATAGCCCACGTGTCACGGTTTGGGTTTTTCATGTCCGGTTCGGTTTTGGTCCACGTTGTTGGTTCGGTTTTCTTGTGCTTTAGTCCACGCACGTTGTTAGTCCACACCCGTAGCTCGTTCAAAGCGTCCGTTTCGCAAGCTGATGACCGTTCCCGTTCGCTTGGATGACCGTCGTTTTCGTCAACACGTGGCCGTCTTTCCTTCTTTGACCGATCCAACCATGACACGTGGCTGGCATACCTTCAATACAACATCTTCAGTTGTGGAGAAACGGTTTGGCCTACCCCTATATAAACCATGCTGAGCAGAGTGGAAGACAGAGCATTCATTACTCGTTCTTCCTACCTTTTTCCCTTATTCCAATCCTTCTCTCTCGAGTGCACGAATGAGGAGGGTGTTGTGGTAACCTTGGGGAGCAACCGGCGTTAACGATTTAGTGCCGTGGTCCTGCCGAAATTGCTTTCAAGGCAGTGGTTTCATCCACGACACAACAATTGTCCTAATTTTCTTCCTACAAGAGATAGTGTGAAGGGAGAAAGAATAATTTTTGGTTTCTTAAAATACAAACAATAAAATTTTAAAAAGAAGGAAGAAATCCTTTCGACAAAACAAAACCAAAAAAAAAAAAAAAAAAAAAAAGTGAAAGGAAAATAAATCATTTGACAGAAAGGAAGATATGACAAAATTTTATGTGATTAAAGTTTGAAAAAGTTTAGTATGACATAAACTTGTTTTCTAAAAATCATATCCCTTGTTTTCATAGTTTTTAAAAACAGCGAAGATAATAATTCATCGTTCAAAACAAACTATTTTTGAACTTGTTTTGGAAAATAAGTAACCAAACACATTTTTTTATTTAATTTCCCTCGTATTTCTTATTTTAAAAAACAAAAAAATGAAAACAGATCACCACGAACTAAATAAGACCTCAACTATCTCTACCCAAACAAAATAAATTATATATATATATACACACACGCAAAGGAAAATACCCTCAATTTTAAAAAAAATATGGAATTTACTAATTCCTTTTTTAGGGAAAAATCAATTTAATTATACACCTAAACTTTAGGGGTTGTACGTTTAAGACTCAAAATTAATAATTGTTGATGCCAACATCCGGACAGAAGAGTTACTTAACCTTCACGTAACACCAACAGTGAATTTGTAGAGACTGGGGAAGACGTGACCTGTAAAACCAGTAGAGATTGCACATCGGTGTGGTGCTTGCCACACCGCCTCCGTTGCTTAAGTCAGTAAGGAAATAGATGAGAAGCAAATAAGAGAGCAAGAGCAAGAGAAGAGGGTCTAAAGAATAGTTTCGGGGATCCCTTCTTCAATGATGGAGAAGGGTTTATATACATTTTCCTGTCTTAGGGTGTCTAGGCGTTTGGAGATGACTCGGGGTTGAACCAAGTCAAACCGATTTGACCCAGGACACTAGGGACCGAGCGGAGGGGAGAGGACTCGGCCCGCTTGATCGGCCGATGCCGAGCATGGGGTTGGGCCAAGGCCCAATCCCTTCAGCCATGGCCCAATCCTCCGACCTATTTCTCCTCCAGGGTCCATTTCCTGGTCGTGTCCTTGGGTTGGTGTTGTGTTGTCCTCATTAGCTCCTTACATATCAGAGTGGTCCAGAATTACCTATAACATTAAGCCCCCACTCTTGAATTGGGATTCATGTGTGACTTACTGCTATAGGTTAGACTCCTTAAGTCCGATTTAAGAGTATAGCTTTGTCTTGTGCTGACTCATGTGTGGATTTTGGGTTATCCTGCAAGAGATGACAAAAACTGGACAAATTAGGGCCCGTTTGGTAACGTTCTCGTTTCTTGTTTCCGTTTCTAAATTTTTAATAAAGAAAAATAGAATTTCATGACCCTAACACCTATACATTCAATAATAATAAACCTATATTCTTATTTATGTTTGGAAAAAATTGGAAACAAGAACAAAAAAGAAGAAACTAGTTTTAGTTGTTCCCAAAAGTTCTATACAAATTTTGGGAGTGTTTCTAAAAAATGAGAAACAAGAAACATACATAGTTATTAAATGCTTAGATTTCTTATTAAATTGGAAACAAGAAACAAGAAACGAGAACGTTACCAAACGAGCCCTTAGAGGCTCCCTAAATAGGGGTTAGGTAAGATAAAAATGAGAAAAGTGAGGGATTAAAGGAATAGCTGGACGAGCTTTGCCCTCAGCCTCGACCTCGGGATGAGGCGTTAGCGGAGGTTTGGGGTGAGTCCATACCTTCGCGCCTTTGAACATTGTTCAATCCATTCCTTTGTTTTGAAGCCCCCTTTGTAAATGCTTCTCTTGCTTAACCATTCATATGGCACATGTGGTAAGACCATAGGATCGCCCTCAGCCACTTTCCATGTTATTGAAAATTCTGAGTTCCTACTGACACGCCCCGCCCCAGATTATTCTAACCAACCTAGGACATGACGTGTCGACAATGAAATCCCAAATAAACTATGAACTTCATTGTCAACTATACCTGAACTAGATTGACCATGAAAAAAAAAATTTAAACGTGGCTAGCACTAGTTTAGTAAATAAAAAGAAATCATAAAAATTTCGGCAGAGTTTCCTCTAAAATTTGGATATAAACCCACTTGAAATCAAAATTTAACACTCCCAGATAACAATACGATCAAATAATCCAGCACTAATACCCAAATCAGTTCAGAAATTGACAATCATGGCATAGTCGAACAACAACAAAATGACATAGAAGTTCAATCACCAAAACCATGATTATACATCGCCATGAAAGATGCTAGCCATCCTAGTTACAAAAAAATGTATCTATAAGTCATGCAAATGACATGCAACCTATCGAGTCCGGTGGCAGATATCAACTCTGGTAGGCTCGTCGGAAACTCAAACGCTACCTGGTGGAAAAAAAATTTAGGAAGAAAAAGGGTGAGCTAACAAGCCCAATGAGTGGTAAGAGTTCATAAAAGAAAAATATTTGTTAAAAGTCATAACATACTAAACACTTTGCAAGAAGCTTTTAAAAACACTTTAGTAAAAACCTTTTTCATTTAACTTACTTGAAAGTGGTTACACCAAGAGTTCAATAAAACATAAATTTTAAAACGTAATAACATGGCTAAGAAAACACACCACTGAACATGTACCCAAACTAGTCATACTGTCGTAGAGTAATCTCGATACGCACAGTAGAGCAACTAGTCATACTATGTACCGAGGGATCTCAAGGCACATAGCAGAGCAAATCTAGTCATACTATACACCGAGTAGTCTCAAGATGCAAAGCAAAGCAGCTAGTCATACGCGCGCAGAGCAACCCCCAAAAGGCAAACACCCCAACACATGGCCCAAAACTTATGTGTGTGCCAGAGTAGGTCCCAAAGACCTCATATACATATATCACATCACACATACACTACGGAAACACATTCACGTAAGTGTATCGGGAAATATCCATGGGTACACCATCAAATGGCTTAAAAACGATTTTCTTTTCCTTTCAATACTACACATAATTTTCAGCCATGCTACAATCATAATTCTTCTCAAAACTAAGTCTCATAAACTATTAATCATAAATCAAGAATCAATTGCCATAACCAATTTCTCAACAATCACAACTTGAGTTATACCTCAAGCAATATATAAACCAGTTAAAATCAAGATTTAGAAATTAACCACTTCTAAACATCCACCAAAATTTTAAATAGATAAAACAAGGCTTGTAAGGAAAAATACGAGGAACTAAATCAAGAGGCTTCTCAAATTCCGTTAATTTCGAATCCAACCATAAAATTCAACATAATACATAATCATAAATTTTCCCAAAACTGACGCTTCTAACTTGTAAAATCATTTGGATAAAACGAATCATTCTTTTTTTTTTTTTAATGTGGAAATCAATTAATTTGTAAAATAACCACTCACAGTACTATTGGCAAGAGAAACTCGGGTCGTAGTCCTTCCCAATCTCCGCTTAACCTGAAACAATTATTTTGCCAAGTATTAGTAATGCTTATCTCTCCAAATTTGAATACAAAACCACTAAATTACACCAACCCTTAATTCCTCCATAAGACTTAAGTTAGACCATAATTTTCCATCGGTTTAAACTACAAATATCTTGCAGCTAGGACCATATTTTTCGAATAAAGTTTCCAATAACTCCGTTATGCCCGTCACCATAATAAGCTTAATTCTTTTTATTCTTTCTCTTCCTCCCCATGAACATTATCTCTTTGTTCTTCAAGAACATTATCCCTTAAAAGCTTGCAAACCAACAACCTATGAATAACTATTATCAATTTCTCTTTTGGTTTAATCTATGGGTTTTTATCAAGCTTTTCTCTCTTGGAACACAACCCATTTTGTCCCTTTTAGTTTTCAAACTAATCCATGGAGTATCCAAGTCAAAGAAGAAAAACCCATAAATCAAACCCATTCTTTAGCTTCTTAACTCGTGCAAAAACTCAACCCAAGGACAAGAAAACTTACCCAATGCTTGAATCCAAGGTTGAGTGCTTCTTGATTTGTTTTTCCCTTCCAAAAATCGTTCAAGAATGTCCTAGGTTTTGCTTCTCCTTCCTTTTCGTCTCCTTTGTTCCCTCTCTCTGTTTTCTCTTTTTCACTTCCCACAATCTGACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAAGTAAGCTTCCGCTGAAGCTTTAACTTTCTTTTCTTTTTTTTTTTTTTTTTTTAATAATTCTTTCTAAAGCTTCCGTTGGAAGCTTGCTTTTTTTTTTTTTTTTTTTTTCTAAAGCTTCTATTGGGAGCTTTCTTCTTCTTCTTCTTTTTTTTATTTTATTTTATGTTATTATTATTATTATTTTTTTACCCAATGTCTTTTATTTATTTATTTTTATTATTATTATTTTAACCCGTAGAAATAGGTATTACACCTAAATCAAAACATTAGTTTCTGCAAAAGAAAAGTGAGGGAAGAGGCTAAGGTCGACCTCGGCCTCAAGCCCCCTTTAACTTCAATATCAGCTGAAAAATGAGGGAAGAAGTTAGGGTCGGCCTCGGCCTCAAGCCCTTGTTAACTCAAATGTCAGCTCCTTGCATTCATACATTAGTTTTTGGAAAATAAAAATGAGGGAAAAGGCTTGAACATGTAATCATGCTATGCTTGCTTTTTGTTAATTGGGAGCGCATATCCTTTGTTACTTGCTTTTTGTTTAATAGGGAGTGCATATCCCTTGTGTAGCCCCCTTACTCAAGTAAAATTTTACTAAAATATAAAATATTATTGAGTAAAGAGAAAAATACATTTAAAGTTTAGGGTCGGCCTCGGCCTTCAGAGGGTCGGTCTCGATCCCATTTTCTAACCTCTTCAGTCCCCTCCGAATTATTGAGTCTCCACCTCCGGGCTCCATCACTTGAGCAATTATCAGACTCAGCCTAGTTGAGAATATAGATGACTCAATCTTGCTGAGGATTGTTATGTTTTATTTTTTAGGGAGTGTATATCCCATGTTTGATTGCTTTTTTCTTAATAGGGAAGCATATCCCCTCTTGCCTTTTGTTTAATAGGGAAGCATATCCCCTCTTGCCTTTTGTTTAATAAGGAAGCATATCCCCTCTTGCCTTTTGTTTAGTAGGGGAGCATATCCCCTCTCATTTCTTGTTTAATAGGGAAGCATATCCCCTCTTGCCTTTTGTTTAATAGGGAAACATATCCCCTCTTGCTTTTTGTTTAGGCGAAGAATAGGAGAGAGGAAGAAGGAGCGGTCAGAGTTAGGGGAAGAAGGGAGAGAGAAAGGGGAGGAGAAGAAGAATGAAAGAAAAGTGAAGAAAACAGAAAAAAGAATAAAAAAATACCAGCGACAGTGGTCATCTACGGCAAACGACACTGGTCAGAGTTGAGCGACGACTGTCGACGGAGACAATGGTGGAGGAGGAGGATGAAGATTTTAGGGTCTTAGGTTTTAGGAAGAAGAAGATGGAGGATGAGAAAGAAGAAGGAGATAAAAGTAAAAGGAAAAAGAAAATTAAAAAATATATTTTTTAATAAAAAATGTTTTTAAATTAAAATTTTGAAATAATAAATAATAATAATAAATATATTTTTTTAATAAAAAACAAAAGCCACGTCACCTTTCCGTTAGGAGTTGGAAAAATAGATGGAGGGACTAAAATGAAACGAAATCCAAATCTCAAGGGCTAAATTGTTGAGTTTGAAAACTCATGGACCAAAATGAAACCTAACTCAAACCTCAGGGACCAAAAGTGTATTTTTCCCAAATTCTTATTTAGAATCTTAATTGATATTATTTTTATAACTTGATAATTAATTAAAGAAAAAGTATGGAATAATACAATTGAAATATTACCATAAAGAGAGAAAACATACCTGGTTGAGTTTCTTCTTTTGTCCAAATTTGCAGCATAATTAGCATCAACATAGCCTATTAAAGGATTTTCTCTAGAATTATCAATTTTATAAAGAAGTCCATGCTTCTCAGTACCATTTAGATACCTAAACATCCATTTAACTGTTGACCAGTGAGTCTTACCAGGATTTCTCATAAATTGACTCACTATGTCCATATTGTGTGCCAAGTCAGGACGAGTGCAGACCATAACATACATAAGCCTTCCCACAACACTTGTGTATGGAATAGCTTCCATCACAATTCTCTCCTGACCAGTTTTAGGACTTTCACTTGCTGACAGATGAAAATGAGAAGCTAATGGAGTTGACATCGACTTGGAACTATCCATATTATACCTAGACAATAACTGATCAATAGTTGCAAGAACATAAGCTACTAAGTTTGCTTCACCACATCGTCATGGAGGTCTGATCATCATTCTTGCTCTATCTCTAGTCAATCTATAATCATCCAAACTCGAAGTTTCAACTACTGTTGCTTGTTGTTCTATGTTCCCATTATCATTTACTTCATCATATGTGTCATGTCTTTCAATTGCTAAAGAGCTGGGAACATTAACTTGATTTGCATTTCTTTGAATTTATTCTATTTCTAGCTCAATCTCAAAGGAATCAATCTCTTGTTTGTTTGCTTATGACAATACATTCCTTTTGGAGTATGGCATGGATCACTCATCAAATTTTACATCCTTGCTAGCAATGCATTTTGATTTGTTTGGTTCTAAGTAACAAAGTTTATACCCCTTCACACCTTCGAGACATCCAATGAATACACACTTGAGAGCTCCTGGTTCAAGTTCCCTTGATTAATATGTGCATAGGCAACACATTCAAAAGACCTTAAGTGAGTTTGATCTGACTTTCTTCCACTCCACATCTCCTCTGGAGTTTTAAGTTCAATGGCCGAAGAAGGTGTCATGTTGATCAAATAACATGCAGTGGCAGTAGCTTCTCCCCAAAATGTCTTTGGTAAATTTGATCGTGATAAGAGATATCTTACCCTTTCTAGGATAGTTTTATTCATGTGCTCAACAAGACCATTTTTCTATGGGGTATAACCCACTATCAAATTTCTGGTGATTCCATTTCTCTTGCAAAGTTCAGCAAACTGATGGTTTAAAAATTCAAGTCCTCTATTTGTTCGGATAGTGTTACCCTCTTTCCAAATTGATTTTGAACTAAAATTAGCCAATCTGAGAACTTTGACACAACCTTAACCTTATTTTTCAAGAAATATAACTAAACCTTCCTGCTATAGTTGTTGATTATAGACAAAAAATATCTTGCTCCACCATGAGTATCTATCCTTGTTGGTCCCTATAAGTTAGAATGAATGTACTCAAGTTTATCCTTAGTACAATGTATTTGTTTGGCGAATTTCACTCTAGTAGCCTTGCAGATGGACAGATCACTTACTTGCTTCAGTTGTAAAACTCATTGTTTGTTTAATTCTCTCCTACGTCTTTCACTAACATGTTCCAACCGATTATGCCAAAGTTTGGTTTCCCTAATATCCTTGCCAGTCTCATCTCTAGTTACTAGTAGATTTCTAGATATAGTTAGTCCACACAAGACATGCAAACCATTTGTGAGTTTTCCTTTAAGCTTCAACAGTGATCCTTTATAGATTTGCATTTCACCATTTGCTATTATGCTTTTATACCCTAACTTATCCAAAGCTCCCAAAGAAATAAGGTTCCTTTTTAATTTTGGAACATGCCTCAAATTAGTCAAAATTTTCACCAAATTGTCATGGAGTTTTAACCTAACAGTCCCAATACCTTTTACTTCACAAACTTGGTTGTTCCCTAGGTATACTCTACCGGCTTGTACTTCCTTGAACTCTATGAAGTGTTCTTTTGTACGTGTCATATGGAATGTGCATCCGGAATCCATCATCCAATCCTTAAACAATTCATCTCTTGCTACTAACAAAACTTTAGCTGATTCATATCCATCGAATACACATTTGTTGATTTTTCTCCTTCATTATTTTCAACTGTATGTTGTTTTCCTCTTAACAATTTTGGGCAAAATTTTTTAAAATGCCCCTCCTTCTGATAGTGATAATATTTCATACCTTTAGCTCTAGATATTTCATACCTTTAGCTCTAGATTTTGATCGTGATTTACCTCTGTGCTTATTATTCTTCATTTTAGTTCTTCCCCTTGTAAAAAATGCTTCACTATCCTTTTTCATACTTGATTGCCAATTTTACCTCTTTATAAGAGTCAGGAAGTGAGTTTAGCAATATTACAACTTGATTCTCCTTAGCATCAAGTTGGCTAGTTCAAATGTAATCTTACTAAAGTCATCTAGGTTAGCATCAAGTGACTTATTGGGATCCATTTTGAAAACGAAGAACTTTTCCTTTAGTTAAATCTTATTGGACAATGATTTAACTAAATAAATATTTTAAAGCTTAGCCCACACCTTCGACATAGTGTCTTCTTCATCAATTTGTCTTAGTACATTATTTGACAAATATAGAATAATGGGAAAAAAATACACTTTTAGTCCCTGAGGTTTGGGTTAGGTTTCATTTTGGTCCCTGAGTTTTCAAACTCAACAATTTAGTCCCTAAGGTTTGATTTTAGTCCCTCCATCCATTTTTCCGTTAAAAACTAACGGTTTGCTGACGTGACACCTATTTTTTTTATTAAAATTTATTTTTTAAAATTTAAAATAAAATAATTAAAAATATATATTTTTTTAAAGTTTCATTTTCCCTCTTCTTTTTCCTCCCTTTCTTCTTCTTCTTAACCCAACCATCATTATCTTCTTCCTCTCAACCACCATTCTTCTTCTTTAACTCCGGCGCTGGCCGACACTGGTTTTTTTTTCCTCCTCCTCCTCCCCCTCTTCTCTTCTTCTTCTTCTATCTTCTCCCACTTTTTTCTTCTTTTTTTTTTTTATAATAAAACAGAGGAGGGAGGGAGGAGCATCCTCCCTCCTCCTCGGTTTCGCGGTCGGTGGAGGCCGGTCAGTGGAGGTCGTGGCGGCTGGTTAGCGGAGGTCGGCGACACCCGGTAGTCGGAGGTCGACGGTGGCGCCCGATAGTCAAAGGTCGACAGTAGCGGTCGGTCGACGGAGGTCGGTGACGGCTGATAGTCCGAGGTCGATGGTAGCAGTTGGTCGCGACTGGTAGTTAGAGGTCGACGATGGCTGTCGGTCGGTAGTCGCATGTCGAAGGTGGTGGTCGGTAGTCGTAGGTCAACTGTGGTGCCCGGTAGTCAGAGGTCGACAGTGGCAGTCGGTCAGCGGAGGTCGGCGACGACTAACAGTCAGAGGTCAACAGTGGCGATCGGTCGGTGGAGGTCGATGGCGACCAGTAGTTTGAGGTCAACAGTGGCGACCGGTCGGAGGCAGTCGGTCAGCAGAGATCGACGGCGGCCGGTAGTCGGAGGTTAACAGTAGCAATCGATCGTAATTGGTAATCGAAGGTCGGCGACGACCGATAGTCGAAGGTGGACGGTGGCGGTCGGTCGGCGGAGGTCGACAATGGCCGGTAGTCGAAGGTCGACGGTGGCGGTCGGTCAGTAGAGGTCGACAGCGGCCGATCGTTGGAGGTCGAGAATAGCAGTCGGCCGCGACCGGTAGTCGGAGGTCGACGATGGCGGGCGATTAACAGAGGTCGGCGAATAGGTGTAGGAATGGGAGGGAGAGATGGATACATGCATGAAAGATAGAAAAAAAACAGAAACAGAATTTGAGAAACAACTTTTTGTAGTTTCTCAAATTTGGCCTATTTTTTAGAAACGTTTCTAGAAATTTAGAAACAGGAAACATGGATGAGTTATCAAACAAGTCTGTTTCTTAAAAAAGGAGAAACGGGAACAAGAAACAGGAAACGAGAACGTTATCAAACGAGCCCTTAAAGTCTTTTTAGGCATCCGAAGGGGGGATTTGCATAAAAGAAATGGTAAGAAATTAAAAGCAAAGATCGAATAATTTTACCAAACAACACCAATTCAAGAGATAATGAGGTTTAATTAGCTAAGTTTGATCATTGAATTGCTTTCAATTAAAGAGAGTTTCATCCTTAATCACCCAATCGATCTAATCGAATAGGTCGAAAAGACCCTAAGTCTGCATAGATTTGCTAACCCGATACAACATCGAAATTAACTTCTAACTAATCAATTAATTAACCCAATACAACATCGAAATTAATAAATAATTAATTGCATCAAGCTTTAGGGATTGATTAGGATGTTTGAGATAAATCGGCCAAATTTACTCTAACGGTATTTTAGATCTAAGACCTATTATGCAAGCTACAAGTCAAAGAAATGCTCTTGGGAGACGCACACATGAGCCAGGCTAATTGCTACTCAAATTAGCGAATATATAAACATACAAGTTGTGATTAAGGCATCATTTGAATCTACTATGCATGCTTATAATAAAACAAGATCTAAAAAATAAAAACAATGACATTAATAGTATTCAAGTTCAAATACTCACAAACATTTTAATCTACTTTGAATTGGTGTCTACAGACCTAGCCGACCATCAGGACGACTAAAACACAATGCATGGCAAAATTAAACATCTAAAACTAATCTAAACTAACTAAGAAAAATAAAATACAAGACTGGAAATGTAAATGAAAGAAAAAGAATGCACAAAAACCAAAATCTAATCCAATTCGGCTAAAGGGGAAAAATACATATGTATTATACTGTCAGAGGGTAGTGTTAAGACACTGTCCATAGCGTCTCAACACTACGGACGGAAAAACGGTAAAACGCACACACACACTTACAACATCGAGACGTTGAGGTCAGCGTCTCAATGCTTTGGATGGAAAACTCAGGTTGCACGTGTTTTCAGTGTCAATGCTTTGGATGGAAAACGCACACACACGCTTACAACAACATCTGGTTATGTTTTTTGCATTAGTTCGGGTGTTTTTTCATGGACTTCAAAGAAACAACCTGTTGTTGCTCTTTCTACCACCGAAGCAGAATATATCTCTTTATCCGCAGTTGGATGTCAAGAGCTTTATGGCTTAAATGGATGTTGAAAGAATTGAAGTGTGCTCAAAGAAGTGAGACTGTTTTATTTTGCGATAATGGTTCTGCTATTGCATTATCAAAAAATCCAGTCTTCCATGGAAGAAGCAAGCATATTAGAATCAAGTATCATTTTATCAGAGACTTGGTTAAAGATGGAGAAGTGATGGTGAAGCATTGCAAGACTCAAGATCAGGTGGCGGATATTTTTACGAAGGCGCTGAAGTTTGACTTATTTGTTAAGTTCAGAAAAAAGCTTGGAGTTGTTCAAGTCTAGATTAAGTGGGGATGTTAAAATTAATCTAGACATATTTCAAGTACATGAATCACATTTAAGTAGATACATGAATAGTTAAGATTCAAGGAATAGTTGAATACATGAATTACAAGATACATGATGAATGTTCATGTATTGGTGAAAAGTCACATGTATTAGCATTTATTATTGATGTTTTTTGATGTACTTTCCTACTAGTATAAATATGTGTAGGATTTGTCATTTGTAAAAAAGCCAAAACGAAGAAGAAACAAAAGTTATATTCAAGTTCTAGTTTCTCCAATCTTGTGTGAGTGAGGGAAAAATCTTCTTCTCTTATCTCTTGAGTTATATTGTGAGGGCCTACTTCGTTTCCAACAGTACCAAATGTCACGGTCGTGACTCTTCCAATCGTGCGGTACCATAATCTTACGATGTTCATGGCCAACCTTAAGGCTAACTCTAGCCTAAGTCTTTTAAAGTTCAGTTCGATTTTTCAAATTTTTAAAGATGAAAACATGAAAAAAATCTCAGTCTTTCAAAAGAATAAACTAAGAAAATTGAAAATTTTAAAAAGAATCAAACCAGTCAATTCAGTTCAGTCCAGCTCGACTTGGTTGTTGCACACCAGTTCATGAACTGGTAAAGATCAACAACCTTATTAATTGTTAAAAGTAAAACACCTTCAAGTTGAAGGAGGTTAGTAGGTCAAGAGAAAAAGCTTCATGAGAGAAAATCATGAAACACAAATCGATGGAATGTGAGTCCATGGACGAAGCTAGGAAAATAACAAAGAAAGCAATTTACTGGTAGAGAAAGACAGTTTTCATCCTCAACAGTAAGAGCTTTATGAAATAATTGTGATATCCCTAGATTCAGTTGTCTTGATTTTTTTTTGTTTGTTGATTTCTTTCTTCTTCATTCATGCTCGAAAACCCTGATTTTCATCTATTAATTGTGAGAGATCAAAACCCTTATTCTCTTAAAAATTTTGTTTCCCCTAAATCTTTTGATTTTCAGTTGACTTGCCTCTATGGTGTAGTTAACTAACTTTGGAGTTATGGAGGCTTACACTTTCTCATTTATCTTTTAAATTGATGCAGTTAGAAGGGAAATTAAAATAATGAAGTTGTTTATGCATCCTCACATAGTACAACTATATGAGGTTATAGAGACACCAACTGATACATATGTAGTGATGGAATATCTCAAGTCAGGAGATGCATTTGATTATATTACACAGAAGGGAAGGTTGAAGGAAGATGAAGCTCGTAGGCTTTTCCAACAGGTATCATATACCTTATTAATTAGGTTGAATTTAGAATCACTTTTCAAAAAAAAGTAAATGATAGTGAGGATGTTTGAGGCAGATAATATCTGGAGTGGAACACTGCCACAGAAATATGATAGTTCACAGAGATCTTAAGCCCGAGAATGTGCTTTTGGATTCCAATTTCAATGCAAAGATAGCTGATTTTGGTTTTAGCAATGTCATGTATGATGGCCATTTCCTCAAAACAAGTTGTGGGAGTCCTGATTATGCTGCTCCAGAGGTACAACTTCTTACTCCAATCAAAATATGAATCAGTGTGTGTTTAATGTAAATTTTTTTAAGTGATTTCGGAAAACTTTAGGTCACGTTTGATAACCATTTGGTTTTTGAAAATTAGGCTTATTTTCTTCCATTTTCCTTACAATAGTTTTCATCTTAATTTGTTAAAAACATTTGAATTTCTAACCAAATCCCAAAAATAAACATGAGCTGTTTTAGTTTTCAAAACTTAACTTGGTTTTTTAAAACATGGGAAGAAGATAGATAACAAAACAAATAAACTTATAAATGAAAGCAGTGTTTATAAGCTCAATTTTTTAAAACAAAAAACCAATACCCTGTTTGATAACCATTTGATTTTTTGTTTTTGTTTTTGAAATTATGTTTGTTTTCTCCCAATTTTCTTATAATAGTTTTCATTTTGTTAGGACACATTTTAATTTTTAACCAAATTCGAAAAACAAAAAGTAAGTTTTTAAAAACTACTTTGTTTTTTTTTTTTTTTTTTGAAAACTTGACTTAGTTTTTTAAAACATGGGAAAATGAGGTGATATGACAAAACAAAGAGGTTGAAGTAGTGTCTATAACCTTAATTTTCAAAAACAAAAAATCAAATAGTTATCAAACGGGAAACAAATAGTTATCAAATGGAGCCTAAAATACTTAAAAAGAAGTCGGTAGTTTTGAAACTCCCCTAACTTTGAACTTTCCTTCAATGAATTTGCAGATTATTTGTGGTAAATTGTATGCTGGGCCTGAAGTAGACATATGGAGTTGTGGGGTTATATTGTACGCTCTTTTATGTGGTTTTCTTCCTTTTGGTAATGGAAACTTACCCATCCTTCAACAAAAGATAAAGGTAAATCCTAAATTAATGAACTAGAATAATGTCAACGTAAATTATAAAGTATTTAATTCGAATTTAGATAGGTCGTCTATGGTTGTTACCTTTTTTACTTATTTTGTGTGTGTTGACTTTAGAATGGAGTGTATAGGATTCCAAGTTTCTTATCAGCTGCGGCAGGAAACTTGATCTCAAGGATACTTGTAGTTGATCCACTTAGACGAATAACCATACCTCAAATTCGCCAGCATCCATGGTTTCAAGCTCATCTTCCTCGCTATTTGGCTGTCAAACCAATTTCTATTATCCAACAATCTCAAAAGGTTAGTGATTACTTTCAAATTCTTATGACAGTTAAGACTCATACGAGTTCTTTTTTATGAACTTCCGACTTTAGAAGGAGGAATAGATGTTTTAACATTTGAGTTGTGCTCATGTCGGAGAAAAAATCATACAACGGTTTTGTGTTTTTTGTTTTTGAAAATTAAGCCTACAAAACACTACATCCACCTGTAAGTTTGTTTGTGTTGTTATCTATCTTCTTCCCATGTTTTCAAAAACCAACTCAAGTTTTGAAAACTAAAAAAATTAGGCTCCATCTGATAACCATTTGGTTTTTTGTTTTTGGTTTTTGAAAATTAAACTTGTTTTCTCCCCATTTCCTAAGAATGATTTTTATCTTTGTTGAGGTTACATTTGCATTCCTAGCCAAATTCCAAAAACAAAAACAAGTTTTTGAAAACTACCTTTTTTAGTTTTCAAAACGAAAAACTTGAGTTGGTTTTTGAAAACATGGGAAGAAAGATATATAACAATACAAAGAAACTTATGGGTGAAAATAGTGTTTGTAGGCTTAATTTTCAAAAACCAAAAATCAAATGGTTACCAAACGGGGCCTTAGTTTTCAAAAACTTGTTTTTGTTTTTGGAATTTGGCTAGGAATGCAAATGTGTCCTTAACAAAGATGAAAATCATTCTAAGGAAATGAAGAGAAAATAAGCTTAATTTTTAAGAACCAAAAATCAAATGGTTATCAAACGGGGTCTAAATTTTTATTATCTATGTATTATTGTAATATTAAATGAGGTCTTTGTTTTTTAGTTCAACAAATGTGGGAATGTCGAAGATTAAAATATCTAATTTTTGGGACGTACGTGTAGTACTTTAATCAATTGAGTTATGCTTATGTGGGTAGTTATTAGATTCTTATTAGTAGTCGTTGATTTCTAGTTGGGAGAGTTTTATTCTCTCAAAAGAGTAAGGAATGTGGATTTTGTTCTCAAATACTTTTTTTTTTAGAAACAATAAATTAGCATTAAACAAAATCCAGTCCGTTACACCTTCCCTCATTAATAAAAGGGTAAAACCAAGAAGGGATATTTGGAGCCCAAAAAAGCACGCTCCTTTTCCCGCGAGAGAGAGGCGTTGATCCTACCGGAAATAAACGGAGAAGACGACGAAGAAACCGGTTGAGGAGCAGACACAACTGCAGCTCTTTTCGCAACACAGTGCGTGTCTGTGTTCAAAAGGCGACTACAATGGCTGAATTCCATGGAGACAGAGCTATCGGCGATGGCGTAAATGTCGTCTGTGAAAATCTTCAAATCAGAGAGGTCTTCAGCTTCTCCTTTGAGGACTTTTATCACTTCTAAGCCATCCGACTCGATCTGAAGAGGAATTTGGAGCCGGTTACAGGTATCAGTGATATGATTAAGCCCCTCGAGAATAGCTCTTGCTTCCAATGTCTTGATTGCCCACTTCTTATCAATTTGATGTATTTCGAAACAGATCACGGCTCCGTTAGAGTCACGCACTATCCACCCGAGTCCTCCCCTGCTATCTTTCTTGTTCCAAGCGGCGTCTGAGTTCATTTTCCAGCAATTTGGAGGAGGCTTCTTCCATTGCGCTTGACTCACGAGGTTCCCTGGCCTTTTCGACGATTGGGTCTTGAGTTAAGAAGATTCCCATTCCTTAATGCTTACTTCAATGCTTTGTTGGATCCGCTTTGCTGTGGCTTTTTGGTTGTGAATTGCTGCTTTGTTTTTGAATTCCCAAATTTTCCATAAGATGATGATCTCTTTTGCAATTTCTTCCTTGCTCAAGTGAGCTTCCATCCACCCCAGTGCTCCTTGGCTGACCAATCTTCCTTGCAAATCGAGAACAAAGTAAGTGATCTTGGAATTAAATTAGACCACACTTCTCTCGCCACTTTACATCCCCAAAATAAATGGGATGTCGACTCTCTTTTTTTCCTACAGAAATAATAGGAAGGGAGGACTTTCCTCGATGCTCCGATAGGAAACTCCCCTTCTCTCACCTGACGAAGTATATGCTGGGGTCTGAGTTGTTCCTCATAGGGTATCAATGGAGGGTGGGGAACGAGTCTCTCATCACAATAGACCAAGATCCTTGGATCAATAGAGAAGGAAGTCCTAGAACTATCTCCAAGCCGATAGAACTCAAAAACCATAGAGTTAAAGAGCTGTTGGACGATAATAATGTTGGGAGAAAAACGCGGAATACAAATAACAATAATATTATGACGACAATCAATAATATTATAACTATCTCCCCTTCCACAGGTTAAGCCAAAAATAATAGTCACGAAAAATAATAAGAGATAGGGAAAAAGAAAACGACACCGAAAATATACTGGTTCGCCCCAAGCTCGGGACTACGTCCAATCTTCTGCAACTGTAGGTTCTACTAGAATTTGGGAAATTACAGGAAGCCTTTAATAACGCCACAAACCAACCTTCAATAGCCCAACAAAAGCTATTGACTTCCAAGTATCACAACCCGATAGCTTGGGATCAACAAAGAAACAAAACCCTCACCAACCCAAGAGGATAAATCTAATTTTCTCAAGATTTCCCTCACTGCCGTACAAACTTGCTGAAGCAAAGAAAACAGCCTCAAGTCTCCAAGAAAAAGTCCCCCCCCCCCCGTCGGCTGCATACATCACATATATATATATAAATTGCAACCCTACTTAAGTTATGGGCCTGGCCCATTTACTTCTCTAATGTTTTCTTCACACGGCAAACTAAGGATGGAGTTTTGTCTCCACAAGTCCTGACAATTTCCTACTTGGAGACAAAACAACGATCTCGTCTCCCACTGCAACAAAACTCTAAACATCTTGGCAAACTCCAAGGATCTCTACTCCCACTACAACTATTATCTCTGATCTTCTTGGTAAAACTCCAAGGCTCAAAAATACCTGAAAAACAACAAACTCACAAAAACAGGCAACTATCAGAATATAACTGTAGCTCATCTGTGCTTGCCCCGAGGTATGGGCTAGCTACGTGGACCTGTCACCCAGACGAAAAGACAGACACGTATTCCCACTTCAGCTAAGTGGTATCACCTGTCATCTTCTTCCAACCCGAACAACTGTTCCTGAAGAAGATACACTTTGAGAATGGCTTGAATCCTCTATTCAAACCTGTTACCAAGCTAGAGACCTGACCTTTCACCTTAGCAACTGCTCTGGCCTTCCACTTTGATGCCTCAACTCGCCTAAGCGACTTCTTCAATTCATTCGAGCGTCTGACAACTGAGGATTCACGATAGCCATCAACTTTCTCTCCTGGACTTCCCAATTGTTTCTGAACTAAAGGATCTTGATCGGACTGATCGAAATTGGCTATCCTTGCTGCTGGCTCAACTGTACCTCTACAACTACCATCTGCAGCTTTAACCGGCATCCACTGTCTCTCTGAACCTTTGGCAACATTCAACTGACATCTGTACAGTGTAGATTTCCTGTGACCAACTGCCACTACCTGGGATCCGAACTTGAGTTTACACTGGCGACTACCAAACTCACACACGAAACCATCATCTGCCAACTTACCAATAGAAATAAGATTCATCTTGATATTAGGCACGTACCTGACATCTCGCAGTAACAATTTACCTCCACATTCTGTCTTCAGACTAACATCTCCAATCCCTCTAGTCTTGGAGGTTCTACCATTCCCCATCCTCACTAGGCCATGATGCCCTCCTGTGAATGATGTGAACAAACTCCTATCTGAAGCTATGTGAACAGAAGCTGCACTGTCTAATATCCAATCTGATAAGTGGTTACTATACTTTGTGTCACTCTCAACACAAGCTAAGACAACCTCCTCCACTATATTTGCCTCTGGTTTTCTTTTCTGATCCTCTTTAAATTTCCTACACTGATACTTCAAGTGACCTTTCTTATGGCAGTAATAACATTCTACCTCATTCCTGTTTTTCCACTTTTTCCTACTGCTACTCGGTTCATTATCTTCATCGACCTTATCTTTACCTTTAGTCATAACCAAAGTTGACCCTACAGTAGACTCTTTATTACTACCCTGCCTACGAATTTCCTCAGCTATGGCTAAATCACAAACTTCTGAAAATTTTAAAGTGTTATTTCCAGTCGAATTAAACACTGCTGTCTTCATTGTTTCCCAACTATCAGGTAAAGACGTTAACAACTGAATAGCATTCACCTCATCAGAAAATTCTATCTTAACAGATTTTAACTGATTAATCAAAGTGGTAACCTCATTAATATAGGAATTCACAGAAGCATCCTCAGACATTTGCATGTTGAAAAACTTCTTAACTAGGTAGACCTTATTATTTGCAGAGGGTTTTTCATACCTGTTTGTAAGCGATTCCATCAACTTGACTGCAGTTGTCTCATGGGCTACTAGACTTGCCACATCCATCGACAAACACATCCTTATGGTTGCAACTGCCTCTTCATCTAGAGCTTCCCAATCTTCGTCCGTCATCCCTTTCGGTCTCTCCTTCAATGCCTTATGCACTTTCTTGCAAGTTAAATAATCCTTGACTTGCATCTTCCAATATCCAAAATTTTTCCCATCGAACTTCATGACTCCATCGAAACTTTTTGGCTCTACAAAACCCATGACTCCTGAACCAAAAGCTCTGATACCAATTGTTGGGAGAAAAACGCGGAATACAAATAACAATAATATTATGACGACAATCAATAATATTATAACTATCTCCCCTTCCACAGGTTAAGCCAAAAATAATAGTCACGAAAAATAATAAGAGATAGGGAAAAAGAAAACGACACCGAAAATATACTGGTTCGCCCCAAGCTCGGGACTACGTCCAGTCTTCTGCAACTGCAGGTTCTACTAGAATTTGGGAAATTACAGGAAGCCTTTAATAACGCCACAAACCAACCTTCAATAGCCCAACAAAAGCTATTGACTTCCAAGTATCACAACCCGATAGCTTGGGATCAACAAAGAAACAAAACCCTCACCAACCCAAGAGGATAAATCTAATTTTCTCAAGATTTCCCTCACTGCCGTACAAACTTGCTGAAGCAAAGAAAACAGCCGCAAGTCTCCAAGAAAAAGTCCCCCCCCCCCCCCCCCGTCGGCTGCACACATCACATATATATATATAAATTGCAACCCTACTTAAGTTATGGGCCTGACCCATTTACTTCTCTAATGTTTTCTTCACACGGCAAACTAAGGATGGAGTTTTGTCTCCACAAGTCCTGACAATTATTGATTGTTGGGAGTGCGACCAAAGTCCCACATCGGCTAGATGAGGGGAAGACCATGGGTTTATAAGGGAGGACAGCTATCTCCACTAGTATGAGGCCTTTTGGAGTGAACCAAAAGCAAAGCCATGAGGGTTATGCCCAAAGTGGACAATATCATACGATTGTGGAGATATGTGTAGTGTCCCGTAATCCCTTACATGTGGTATCAGAGCCATACCCCAAACATAGCCGTGTCGGATAAAATCCTCAGGTACCGAACAAAGAAGTTGTGAGCCTAAGTAGTCATGGGGAAATCCGTTGTTGAGCTCTGGGCAGGCAGTATACTCCGGAGGAAAGGAGTTGTGTCTTGGATGAGAGTAAACTCTCGGTAAAGCATTGAGGCCTAGAGAGTTGGAACCCAGAGAATTTGACGGACTCTGAAGAGTTCGACGGATAGATGACTAATTAAGGGGAGGCTCGGTGGTACTTTGTTCGAGGGGAGGATTGTTGGGAGTGCGACCAAAGTCCCACATCGGCTAGATGAGGGGATGACCATGGGTTTATAAGGGAGGATAGCTATCTCCACTAGTATGAGGCCTTTTGGAGTGAACCAAAAGCAAAGCCATGAGGGTTATGCCCAAAGTGGACAATATCATACGATTGTGGAGATATGTGTAGTGTCCCGTAATCCCTTACAAATAATGACTGGAAAGAGGACCTCATTATGCAATTGTTCACCCATCAAGAAGCTCTCGATATTCTAAACATGCCAACAGGAAACAAAAATAAAAAAGGATGAAATAGTTTGGCATCTCGACAAGAAGGGAGTTTTCTCCGTGAAGAGTGCCTATCGCTTAGCTATGAAAGAGGCCTCCTCCCAAGAAGCCACACAATCGGATAATAGCAAGGATGCCGCTCTTTGGAATAGCCTATGGAATTCAAATGTGTTCCCTCATGCTAAAGTGTGTGCGTGGAAGATTGTAAATGACATCATCCCTACAAAGACCAACATTCTCAAGAAGGGAGTGAATCTTAACCCTTCCTGTTATTTCTGTTCTCAAATACTTAAAACACAACTTTTTCATACTTTCTAGGGTCTGAAATTAGGTCGAAAGGGAGTCAATTGTAACTTTAACTTCTAATTTTCCATCAATTTAATTCCTAAAGTTGAATATGTTTGTAATTAATAGTACTTTCTCAACACTACATTTAAAAATTGGACATGAACTAACAAATCAATATTTAAGATTCAACTAATAAAACACTCAGAATCCTAATAAAGAAATGCTAAAACCCAATCACACACAAATGATATTGAATCAAGCTACAAAATCGAGCAATAAAAAAGACTCAAACTTAGTCTTAAAAAGCTCAAATTCAACCCATTAAAATCATCCAACACAATTAAAAAAAAAAAAAAGACAATATAATATAACAAAATATAGTCTCATACACTTATAAAGACACCCTAGCTAGTAAAATAACATAAAAAAAGTAACATAACTAATATTAATTGCATAACTTCTTGAAGTATGCATAGAGTTTAAATTGCAAAGCTTATTTAATTAAGTTCAAGGTTTAAATCAATGAATTTTACTGACGAGACGTAAGGAGGGTGTCGAATTCTCCAATGTCCATATCAAATAAATTTAGAATCACCAACCCCTAAAGCTAAATTGTAGCAGTAGTGGTCGGGGTTGAACACAGTGAGCACAATTGTTAATTCGTCTAAATCAGGTTTATTACAAAGACGGGACTAATGAGGGTTTTGGATTTGGCTAGATTAAAAACGAGGGAAGATAAAGTGCTGAAAATGAAATTGCAAGAATGTAAAGACGGGAAAATAAAACAAGAATTAAAAGGTGGGTAGGCTAATCGTACCTTGGTGATTACTGCAATCGGAAATACTCTGGTATTCAGTACATTCAATTTCATTAATCGATTATCTAAGGATTTATTTTAATGAATTATTATGAGCCCGAAATGGTTCTTGGCTTTTCAGATAATCCACCTACTCAACTTGTGTCTAATTGATTAATTTACCCAATACTCCACGAATTCATTAACCAATTGGTTATATAATTTGCGCCCACTGCTCCTCATGCTTAGACCGATAAATCCTCAATCTATATATAATTAATTAAATTAGCAATCTGATAAATCCTCAAAACTACTAATCAATTAACTGCATTATCATACACGGTCCGGAATTAATTAATTTAATTAGGAGTTCTAATTCTCTAACTAAATTAATCTAATTTCTCCTAGGTTCTTAGGTCTATCGAAAGTCTACACTAGCCTACAATGGAACTAACGATGGAATTGCTTCAACCTAGTGGCTATCTAAAAATAATGGATAAATCACAATTTTCATGCAACCTAAGAGACGTCAATTCAAAGGAAACATAAAAAACATGATTGTTTAATCAAGAACACTAGGATGCATCATAAAGCATTCATTAAAACCCAATACATAACAGAAATCTCATGAAAACTGAATATACTTACAAACCGAGGTTCCAATCACAACAATCTAAGCTTAGATGACCATAGACGAGCCTAATCTAAGCCCCAAGGCTTGATTAACCAACCTAAAACCAACCTAAACTAAGGAAATACAAGAAAATAGAAAGGATTCGAAGAAGAATGGAGGAAAACCGAGAGAAAACGGTTGAAGAATGACCTAGAAATCGAAAAAAGCATATTTATAAAATGCCGACAGCGTCTCGACGCTGTGTCTTCTAGACCGCATTTTGGAATCGTGGCAACGTCGAGACATTGACCTCTCGGGTAGCATGGCTTGGCTGCAACAGTTTTTGGTCATTTTGGCTCAGACTTCAAAACTCGAGCATCTCACTCATGCTCCTTTGTCTCTCCGTCGTCCTGAAGACTTCAAGAACACCAAACGACTTCAATTTAGCTCTTTTTAGCACCTTTTTACCCAAAATGCGTTCTCGACCTCTTGCTCATAAAATCCTGCAAAATAACATAATTAAGCACATAATCAATTATAAAACTAGCATGATTAGGACTAAATAAATAGGACCAAATTGGTCCTATCACCTACTGTGTAAATGTTTTGAATTAGTTATCATTTAATTGTTAGTAGTTGATGTTGTGTCACTTACCTACATAGAGTAGTGTGTGATAGTGACAAACTATTTAGAGTGGATGTGGCTTACTGGTGTTGGTAAGATATATCTTTTAAGGGTATCATTGTCTAGGTTAGTGGTAAGTTATTTATTCTCCTATGAATATAATAAGTGTTGCTTTTAAATTTCAGACAGGAGAAAACGCATCTGGCCTTCATGTGACAACAACTGTAAATTTGTTTGGGGGGGGGGGGGGGGCGGGGAGACGTGGCTTGAAAAACAAGAGAAAACTGCACACCGGTGTGGTGCTTGTCACATCGACTTCGATGCTTAAGTCAGTAAGGAGGTTATGGAGTATGGCAAGTAGAGAGCAAGGGGAAGAAGATTAGAATTAGAGTTGAGAACTAGTCTCACATTGGCTAGACAAGGGGATGATCATGAGCATATAAGGGAGAATAAGTATCTCTATTGGTATGAGGCCTTTTGGGTGGAACAAAAAACAAAGCCATGAGAGCTTATGCCCAAAGTGGACAATATCATACCATTGTAGAGATATGTGGAATGTCTATTTTCCTTAACAATTGGTATCAGAGTCATGCCCCAGACGTAGTCGTGTCGTGTGGAATCCTCAGGTGCCGAACAAAGTAGTTGTGAGCCTTAATAGTCATGGTGATAGTTCGTGGTTGAGCTCTGGGCAGGCGGTATACTCCGATGAAGAGGAGTTGTCCTGAATAAGAGCAAACTCTTGGTAAAGCGGTAAAACATAGAGAGTTGGACGAATCGATGACTATTTGAGGGGAGGTCCGGTGGTACTTTGTTCGAGGGGAGGATTGTTGGGATACAACTAAAGTCCCACATTGGCTACAAGGGGATGATCATGGGTATATAAGGGAGGACATAAGTATCTCCATTGGTATGAGGCCTTTTGGGTAGAACCAAAAGTGAAGCCATGAGGGCTTATGCCCAAAGTGGACAATATCATAGCATTGTGGAAATATGTCAAGTGTCTGTTATCCTTAACAGAAACCTTCTGCAAGATTGAAGAAAAGTATTTATACCTTGGTCCGTTTTAGGGTTTTGTTCGTTTGAGGATGGTCTAGGGTTGGAACAGATTGAACTAGGCCGACAAAGAACTCTAGGAACCGAGCTTGGGTAGGGCAACTGAGACCAAATTTTGGGCCTAGGGTCAACCTCGGCATGGGTCGAGGTTGGGGATTGGGCTATCCCCTCGGTCTTTCTCTTCTCTGGGGTCGGTTTCCTATAGTCTTTCGTGTAGTTGGGTCTGATCCTTCGTGTTTCCTCGAGCTGATGTTGTTTAGCTCTGTATGTTCCTCAATAATCGGAATGGTCCAAAATTGCCTATAACAGTAAGCCTTCACTCCTTAATTTAGATTCACCAGTTTGACTTATTGTTATAAGTTGAACCCTTAAATCCTATTTGGGGGTATAGAATGGACTTTTTTATGCAAACTTCCTCTTGGTCCCATTGGACTATCTTACTTCTTTTTTTATTATTGTTATTTTGTAAGGTTTGTGATGTGTACCTTAAATCAATCCATTATGCCTCCTGTTGAGGCAATTATGTGGACTTCTTTAAGTATGAGTGTCTCTTCTAGAAAGATGAATATTGATTTTGTTTTCTCTATCCATGTTTCTGTCATAAGTTAGGTCAACCTCGATTTTTTTTTCGCAAGTCAGCCTCGACCAATCTGAGGCTGAGGTCAGGCTCGACCCTTCATTTCTCAACACTCATGTGTTATGATTTCAGCCATGTCACCTTGATCAGCCTCTTTGTTTGAACTTCGTGGAAGGAAATCAAAGAAGAGCTCCCGTGGAGAGATAGGGACTTCAAGAGTATTTGACCAAGGATGACACTTTCAACGCTCCTCCAATTCTTCCATGTTCCTTGGAACTCTGTAGATCTAGGCGGCACATGGCCTTTTTTGCTTTTGAAGGCGAGCCCTAAGGCCAAGTCCAGGCCTTTATTCTCCCAAAGGATTATTTTGGCATGGACAACGAGGTTGCACTTCTAAAACAAAGCTTTAGATTTTTGTTGGGTTGGTAAAATATGACCTTGAAGGAGAAATTAACCTCAATAACCCATCTAAAAGTCATGATTCAAGCCTTTATGAGCTACTTTGCTTTATTCGTTTACTTTTGAATTTGATTCTCATCATTGAATTGTCTTCCTTTGAGTCTAAGCTTTTGGTCAGATTTCTACGCCAGCCATAAGCATGGCCAACAAGATCAATTCCTTGCAAAAGAATAACGTCCCCTAAGTTAAACTCAAGCTCAAAATAGTCTGAATTGGACTAACTGCCTTTTGGCTCAAGTTAGACTTGAACTTGAATCCATCAAGGTTGAAATGGAGACCCTCAAATCCTAATTGGATAAGGGCCAGGCTTATATTACAAACGCCAAGTTTTTGGCTGATGAGTTCAAGAAGTTTGAAGAGTTTACCTCTATGCAAAATGAGGTAATGAAATATGTGAAGGAGTGTAGAACACTCTTGCTTTCGTTAATTTTACAAAGGAAAACATGCTATTTCAAGAACAAAACAGGGGCAGTGAGTGTACCAACCTTGTGAGCCGACGACTTCTAGTGTCTTCCCCGCTATCCTCCGACCGAGTTGTGGGACTCAAATCGATGATGAATTTTTGGGAGTAAAGAGAGTAGAGATGAGAGAGTTGGTCTTTGTTTTAGAGAGAAATTGTTCATCTATCCATCCAGCATCCAGCACTCAATTTCACCTCTTTAATGCACTTTTTCAAGAGTGTATCATGCAAGCTGAATCAAGCTCATGTAGCCACCAACATGAGATTGATTAGGTGGGTTAATAGGTGGCTTATTGTGAGCTAATTCAAAGATATTAGTCACAAGCCACCTCCAAAAATAGATATGATTTTCTATTTAATTAATTGATTTCTAAAATCAATTAATTTCTAAATTGATTTTAAATAAACTTAATTCTAATAATTAAATTTAAATAAAATTAATTTTTAAATAATTAATTAAACAATTTAATTAATTATATTAATTTAATATCAAATATTAAATTAATAATTTATACCAATCACGACTTCTCTCAAAACCAAATACTTAAACATGAATTTCTATTCATGTGTATTTAAATACTTTAACTCTCTCCAATTATAGTTTAAATCATAATTAAACTATTGTGTTAATAATATCGTATATAATTAACGTTAACTCCCTAAACCAAATTTGAATGATTCAAATTCTTTCATCACACTGTTCTAAGGTTTAGTCTGTATAAACTAGCAGGGGACCTAATGGACCTACAGATCATGGGCTCCAATGATTCGAGATTAATTGGCTAAACTCATTAACCTAGTTAACCAATATTCGTTAACTACCAAGACACTCCACTATAGCCCGATAGTTGAACTCCTCCCATCACTATAGATATATTTCTGTCCATCCAATATAACCATGATTAGTAAGTCAATCCTTCACAGGTTGTTCGTAACTACAACGGGTCAAATGTCTGTTTTACCCTTGAAGTTACCTCTAGTTCCTTAAGCCCCACTGATCCTCTAATGAATAATTGGTTTGTGGTTCAACCACCAAACCGAGTCCCTCTCTGGCCAATGAGAGGGTGGGGCCCCTTGTTCAAGTCTCGGAGTCAGTACTTAAGGGAACAACCTTTCTACTATCCCTAAATACGGGTAGGAGCAAATTCCATCTTGCAGGACTATGTCCCCAGCTATCTACTTGTTCCTATCCCTGAAATGAGGGGTTTATTGAGTCAATGATGCTGAGCCACTCTCACCCATGCAGATCTAAGGATAAGCCCGAATAAACAAGAGTTCATAGTTAGCTCAGGATTAAGATCAAGTTACCTCGGTCATCGCATGAAATAGTCAGTCTCAACAGTAAATGACGTTATAAAGTGAGAGTGATTTAGTTCTTAGTCCTGGTCTTTTGCAAACTCAATGCATAGGACACCCCCACTCGCATGTCTCTACATGAACGATTCAGGATCACATCGTTTCTATTAACTACAAAGTGGGTCGCGTCTCATAGTGTCCCCAGGATAAGGTACCCAACCCTATCCCTATACTATAGACAATTTTGGCTATTTACTCGAGCCTGATCCACTTTTATGTCTCCACATAAAGCTCAAGTACACATTTTAATAGCCAGTGATCTTAGTTTATTGGATTTGGGTTATTTAATGTGTAATTCACTTAATAATAACATAAGTGAACAAACCTCAATAACGACTTTATTAAACAAGAATAATTTGTTAATACTCATTATCTACGAGTTTAAGACACCAACCCCAACAATATGGAGTGACTTGGTCTATTAAGTGCACCACCAAGCGTCATCCAGAGATGGATTTCAACTTTTTGAATGAGGAATTCTCAAATCTTCGCAATGACAATTATGCCTTTCCTGATTATGATGAATCCAATATGGGTGAGTCGACACCAACATGGAGACCAACCAAGGTGACAAGGAGAGCTAATCTTCTATTTTTTATCTTGCCTTCCAAATGTCATGTATTTGTTTTCTTGTCCTCCTTGTTTTTGCTGATGGTTTAAGATTGTCTCTAAACATGGAATAAAATGAAGTTATTTGTGTTGGCTCTAGTAATTTACCTGATTTCGATGATTTCCATAGAATATGACTATGGACTCGACCTTAATCATTCCACGTTTTCTAAAAGCTCTCTATTCATCAAATGAAGGACATGCATTCAAATTTTGAATTTTCTTTGATACGTGCATGGGAATATTGTAGGGTTGGACTCGTCCATACTTTGGTTTCGATGTAAATTCCTAGCCTTAAGTTGGCACAGAGAATATGTATGTAACAAAGATTTAGAATGAGAAAGAAGCTTAGACTATCTAGGTTGAAGAAGAATATTTACATTGGAGTTGCTTAAGGTTTCCTCTCTTTTCCTCTGCCAATCAAATTCAAAGAGAACCAAGCCAGACTCAATCAAATGTATCCGGGATTGGGAGCGTGCAATGCATATGACTCAGGATTTGGGCAGAGGACGATCGAGGCCGACCATAGCCTCGGCCAAGGTAGAATTGAGCGGAGTCCAAGGCAGAGGCCGATCGAGGCCGATTGAGGCCGACCATGGCCTCGACCAAGGTAGAATTGAGCGGAGACCATGGCCTCGGCCAAGGTAGAATTGGACCTTCAGTATTTTTCAAGTCAACCCACATCGGACTTGATTCTTTCCTTCGTTATTGGACTCATGCTTTAAGTATAAAATTTACCCATAACATTATTTACTTAAATTTTTAGTGCAGTTGCTCGAGATATATATATTCTAGTATTTTTTATTACAGCACAAGGTAAATAAACCTTTCTTGATTTATTGATAGAAGAAAGGCTGAATATATAGCCAAGCTTACAAGTGGTTACAGATGGAAAAATACCAGAATAACAATGATACAACAAATATAACTAGAATGTAACTAAATAAATGTTAATACTCCCCCTCAAGATGGGCTTAGGATGTTTAGAACACCCATCTTGGATAACAATGTAGAAACAGTAGACAGAGGCAAAGCCTTAGTAAATATATCCGCGAGCTGAAGTTGAGAGCGGATTGGGAGGAGTTTGATATCACCACTTGTAATCTTATCACGGACAAAATGACAATGTAGCTCAATATGCTTCGTTCTCTCATGAAATATGGGATTGGAAGCAATATGTATTGCTGAAGTATTATCACAAAACATCAAAGCATGCTTGATATACGAGACTTGGAGATCCTTCAACAGTTGTTGTAACCACACGAGTTCACTGGTAGTAGCAGCAAGAGCGCGGTATTCTGCCTCTGCAGAAGAACGAGACACTGTCGTCTGCTTTTTGGCTTTCCAGGAGACGAGTGAATCACCTAAGAAAATGCAAAACCCAGAAGTGGATTTTCGAGTATCAAGGCATGAAGCCCAATCAGCGTCTGTGAAGGCTTTTAAGCAAAATGAGGATGAAACAGGTAAGAAAATTCCCTGTCCAGGCATCCATTTCAAATATCGTAACAAAGAGTGAGCAGCGGAGAGGTGAGGGACTCGAGGCTGAGCAACATATTGGCTCAATTTGTGTACTGCAAAGGTGATGTCCGGACGAGATATAGTAAGATATAAGAGTCGTCCAATCAGCCTTCGATAAGAGGAAGGATCTGTAAGCAATTCACCCTTATCAGAACAGAGCTTCAGAGTAAGATCCAAAGGAAGGGAACATGACTTAGAAGTCAGAAAACCAGTGTCTTCCAGCAGTTGAAGAGTGTAATTTCGTTGAGACAGAGCAATTCCCTTAGAAGATCTGGCTAGTTCAAGTCCCAAAAAGTATTTCAATGAGCCCAAATCCTTAAGTTTGAAAACATCATTAAGGTGGGACTTGAGAATGCCGATATCGTGCATAAATGCTCCAGTGATGATAATATCATCGACGTATACAAGCAAAGCAATGAAAGTAGCCCCACTACCTTTAGTAAACAGTGAGTAGTCGGACTTTGATTGACGAAAACCAAGGCTAAGAAGGGCATGAGAGAACTTGTCAAACCACTGCTGAGAGGCTTGTTTGAGGCCATATATGGATTTGTGGAGTCTGCATACTAAACACTCCCCCTTAGGCACAACCACTTGATGTTTATAACTGAGAGGCAAATCCATATACACTTCTTCATATAAGTCTCCGTGTAAAAAGGCGTTGTTGACATCTAATTGCACGAGCGGCCAATGTAGGGAAACAACAATGGAAAGAAGTACCTTTACTGTGGCTAACTTGGCCACGGGAGAGAATGTTTCTATATAGTCAAGACCCTCCTTTTGTGTGTACCCTTTTGCAACAAGAGTAGCCTTGTAACGTTCAACCGATCCATCAAACTTGTGTTTGACCTTGTATATCCACTTGCGTCCAATAGAGTGATGTCCTTGTGGGAGAGGTACAACAGTCCAAGTCTTGTTGCGTTCCATTGCTTTAAGCTCATCATTCATGGCTTCCTTCCAATGTGGAAAAGGGATAGCCTGATGATAGTATTGGGGCTCATATTCAGATGAGATATTGAGTACTGTTGGGTTCCTAGAGTGAGTAAAAATAAGATGTAAATTGACTCTAGACTCTGTGCAAGTATACACAGTCCGTAGCAAGTAATAAGTATTATCAATCCAAGGTCTGAACTAGCTTCCACTTTATCTATTTTGTATAATTCTTTAATGGTTTCAAAGATGGTAAAAATGATTGGTTTTTATAAGAATAATGCTAAAGCAAAAGAAATGACAGAACAGTAAGTAAACGGATAGACAGACAGATTAGAAACAGGCGCTGGTCAGGATTTAGTAATTGTTTTAAAAGATGCTCTAGCAATAGCATTGATCATGCAAAACTCTCGCAGTCTTGTTAGCAGATTCCTCTCGGAACTCCGGATTTTTTAGAATATGTTTCAACTCCAATGAAGTACTACCGATCAAGCACTAGGCAACTGGCTATCCCTAGCTCAGTCACTGGCGTTCACCAATACACAATGATCTAGTGTGATTAACCGCCACACACTCCCTAAATCATCCCTGAAACTAGAGAGAGGTATTCATACCGGCTGGCCAAGCGGGCACAAAATGTAAATGAGCACAACAATTAATCAAGATGCATTAATCAATATTTATTACTAGAAATTAAGCACGACAATCACATTGTTTCCTAACCAACGCCTAAGCTACTTAGTTCATAAAATGCATGGAAACACACGTTACAATCTGAGTACGCATATCCATAATTACAAAATAATAAAGGAAAATATTAATTTCCTCGATCAGCTTGCAAATGATGGTCTTCTTGATGGTCTCCAATCTCTCTCCTCTATTCGGCTCCCAAAAGTGGAAATGAGAGTGAACTCGTCCCCAAAAGTGGAATGAATTTGACTTGGGCGGCTATCTCCTTTTATAGAGTTGAGGAAAGCTTGAATTAGGTTGACCTAAACACGTGGATGGCTCTCCTTGCTCCTTTATCCCGAGATTAGCTTAACAGAATTCAGTTTGTTAAATTGGCTAACGAGCTGTGACGTGGCAGTTTTTCTCCCAGCTTTGCTGCAGCACAGCATTTGCTCCCTGAAGTCGCCCATCAACAGATTTTGCACAAAATAATTTCCAAAGCTTCCATTCTTCCAAATGGGTTAAAACATGTAATATCTATCTAAAAACAACCCTAATAAGCACAAGAGACACATAAATCAATATAGAAATAAGGTCTAAATAACTCCCTTTTGGAGAGTTATCAAGTACAAAATTCTTGTAGTGAGATGACAGTTTGTCATATGAAAGAGTATCAGACAAAGGATACTTTACTGGAGAAAAGCAATCAGATGGCATGTTAACAGAATGCAGTAAACTGCAGTGATATTCCCTTAAGTAGGATGGTTTCTTTGATTGCCGTGTAGACCTCCTCAACTGTTGATTTAATGAACCTTGAGGGGCAAGATTCACATCTGTACTTGTAGAAGGAAGAATATCAGGTGGAGGATCAATGGACACAACTGCATCATTGGTTCCCGATGAAGAGTGAGAAATGTGATTAGTTTCAAGCTCAGCATTCGCAAGCATGTCATCAGCCTGAGGATTGGTGTTAGGTTGTTCAATGTTCGGTGCTTCAGAAGCTGGTGGTTGTATGAGGTCATTAGAGGCAGCAGCTGAAGTAAGGTTGCCAGAGAAGTTGGGTAAGACCAAGTCAGGGAATGAGTTAACAACTTCCTCTTGGGCAGAAACTGTATGAAATGGAAATATGTCCTCGTGGAACACAACATCACGAGATATGACAATCTTTTTGTTCTCAATATCATACAGACGATAGGCCTTCATACCGGGAGGGTAACCAAGGAACACAGTGGGAACCGCACGAGGATAAAACTTTGCTCTGTGTTGTGGGATGGTAGAGGCAAAGGATAAGCATCCAAAAGTACGGATGTTAGAATAGTCAGCATGCTTACCATGGAGCTTGTAAAATGGAGTAGACCAATTCAATAGTGGAGAAGGAGTCTGGTTTATAAGAAAACAGGCAGTCAAGACACATTCTCCCCAAAATTTGATTGGAACACGTGATTGGAAGAGCAAGGAACGGGCTACATTAAGTAGGTGCTGGTGCTTTCTTTCGACAACTGAATTTTGCTCGGGGCGTGCAGTACAAGAAAACTGATGGAGAACACCCTTTGACTCAAAAAAATCCGTGAATCGGAGCTCAGGGGCATTGTCAGACCTGAACTGTTTTATACACACGCCATATTGGGTTTCCACAAGTTTAAAAAACTTGGGAATAAGGAAAGAAACATCTGACTTATGTCTCATTAAAAACACCCAGGTGTACCGTGAGAAGTCATCAACAATTAGGGGTGTTCATCGGTCGGTCGGAGTCGGTTTTGGGCTAAAACCGACGTCGACCACCGACAAAATCGGTCGGTCGGTTTTAGTTGTTGTCGGTTTTCTAGAGGTTGGTGACGCCGACCGACCGAACTCACGGTCGGTCGGTCGGTTTCAGTCGGTTTACTCCGGCGAACTAAATTACAGTGAAAGGGAGAAAAGAGAAAGAAAAAAAAAGAGAAGAGAGAAATATGGAGAAGAAAGAAGAAAGAAATATCCATGGTCGGATTCATGACTCCGGTGAACTAACCCAAAAGAGGGAAGAAAAGAAAAAAATAAGAGAAGAGAGAAGAAACGGACGGCGGTCTTCGCCGGTGGGAGGAGGGAAGAGAAGAGAAAGAATGAGGAAGAAGAGTTGGGAGAGAAGAGGGGAAAGAGAAAGGAAGAGAGAGATGAAAGTTGAATTTTGAAATGAAAATGGGAAGGTAACGTGGGAAAGGGAAGAGAGAGGAGAGAGATAAAAAAAAGTAATCATTACTATGGTAAAACCATGAGTGGTTTTGAGAAAACCATGGACACCCATGGTTTTCTCATTAATGCATTTGTGGGAAATCTGAAAAAGTCACCTTTTTTTTTTTACTTTTTTGGTTTTTAATTAATGCATTAATGCATTTACATGGGAAAACGAAAAGGTGCTCATACCTTCGGTCGGTCGGTAGGAAAATTTCAATTTTTTCCTCCGACCGACCGACCCCGACCGATTCACTCTCTAAACCGACCGACCGACATCGATTCGGTCGGTTTCGGTCGGTCGAGTCGGTTTTGAGAGTTTTCTTGAACACCCCTATCAACAATTGTCAAGAAGTAACGAAAACCAGCATGCGTAGGATTTTGATATGGCCCCCAGACATCACAGTGAATAAGATCAAACATTTGGGCAGCAAAGTGATTATTAGAATGAAATTGTAGTCGTCGTTGTTTAGCAAGTGTACAAATATTACAAGGATGACTATGGACAGACTTATTAGAAGCAAAGTGTAAAACATCCTTTAAGGCAAGTAAATTTTTAAAAGATGGATGACCAAGGCGAATGTGCCATGTATCAGCAGTCATAGAATGGCAAACAAACAGGGAACTATTGGAAACAACAGAACAAACAGTGGTTGGATCAATTGGCGTGGCTTGTAGCAGATATAGACCATGCCAAGTGCTAGCCCTCCCAATCGTCATCAAGGATGACTTGTCCTGAATGAGACAAGAAGTGCCAAGAAATTTAACAGTGAGATCCTGATCAGTAGTTAAAGCACTGATTGAAATGAGATTAAACCGGAAGGTGGGGATAAACATCACATTATGGAGAAGAATGTGAGAGTTCAGTCGAATATCACCAACAAAAAGGACTTCAATGCGAGTCTGATTCGGCAAGGTGACAAACTTTCCAGTGACAGGACGTAATATAGAGAAAAAAGACTTCACATAACAGATATGTATCGAGGCTCCAGAATCAAGTACCCAAGAATTCACGGATGGAGTAAGAGTTGAGCAGATACCTGCAACATGAGAGGTTGTGGCAGGAGTAGATTCAGTGGAAATCTTCGTCTTAGTCAGTTGCGACTGAAGAAGGTGCAGTAAACCTTGACATTGCTCCGGAGTCAAGGAAGATATTGCATCAGGCGGATTGGAAGAAGCAGAATCAATTGCTTGCCTTCTGATTGCGATAGCCTGGAGTATATCCGTGAATTTTGTAGCACCTATCAACCGTGTGCCCTAGGACATTGCAATGAGTGCAGAGAGGGCGTTCTTTCTTCTTGAAAGAATTGGGTTGAGACCGAGTACTGGAAGAAGTAGAAGAACTCTTAACCAATAAAGTCGTATCAGTAGTCGCAACAGGAGTTGGAAGTATAGCAGTGGATCGCTGTTCAACTTCCTGAGCAACGAGCGAAAAGGCTTTCTGAATCGTTGGTTCAGGTTCCATTAGGAGCAGTTGGGAACGAATTTGGGCGAAAGACTCATTTAAACCCATTAAAAACGCCATCACATACTCAGTCTGGAAGTAATTGATTAAATCCTTGACACCTCCACAAGTACAGAGACCACAGGAGCACACCGGTCGGTAGGAGGCAAGCTCGTTCCACAAGGTTTTCAATTTTGCAAAGTAGACTGTAACAGAGCTTTGATCTTGGACAAGATTGGAGATCTCACGCCGTAATTGGAAAACACGCGGTCGGTTTTTGCGTTGATACCTCTGTTGGAGATCAAGCCAAATATCCCGTGCGGAATCGAGGAAATTGATGCTGGTGGAGATTTCTTTGGATAAAGCATTCAGGATCCATGCTTTAACGATGGTGTTGTAGACGATCCAAGATTTCGCCAAAGCTCTAGTCGGTTGAGTGAGAGTTCCATCAATGAAGCCCAGTTTGTTCTTGACAGTAAGTCCGAGTATCATGGCCTGACTCCATGAAGTGTAATTTGTCTCTGTGAGAGGATTAGAGACGAGAATTAAACTGGTGCTGTCAGAATGATGGAGAAAATAGGGATTCTGATACAGATCAACAATCGATTGGCTCGTCGGTTGATTTGGGGAAGAAGACGGGACAGAAGAATTGTTGTCTGTCATTGTGAGAAGAAGAACACGAAGAAGCCAAAGGATTGGAAAAGCGCGCGCGAGGAATTTTAGAGAAAAAGGCGTGGGGAATGATGATCAACTGATACCATATTACAGCACAAGGTAAATAAACCTTTCTTGATTTATTGATAGAAGAAAGGCTGAATATATAGCCAAACTTACAAGTGGTTACAGATGGAAAAATACCAGAATAACAATGATACAACAAATATAACTAGAATGTAACTAAATAAATGTTAATATTTTTTATGTTATTTGAACATGATGAATCTATTCGTCATCTCTTCTCACCACAATTTGTATGCTCGCGTAGTTTTATATCTATATGTTTCTTGCAGATCGATGAGGATGTTCTTCAGAAAGTGGTTATGATGGGGTTTAACAAGAATCAAGTGGTGGAATCTCTTCACAACAAAAGACAAAATCAGGTGTTTTTCTAACCTTTTTTTTTTCCTTTTTTCTTTTTGGCGAATGTGGCTAATGATTTTAATATAGATAAATGAATCCATGTCAATCCAAATATAACTCTTTGTATATAAGACATCAATTACCATTTCAAGGTTGGATCTTCCACTCTCACAATTGTTGAACTAAAAAAGTAATAATAAATAAATTCCAAATAATTTTAGATTTTTGAGACGGATGAATGGGTTGTATTATTTTCAAAAATTTGTATAAACATGTATTGACTTTAGAAAGTGGGTATAGAGATATAACCTTTCTTTTAAAAATATGAATATAGTATTTAAGAATGACATAAATCATTGATTAAATTGAATAATGGTAACTAGTATATCATTATTTTATTTAGACAATCAGTTAATTAACATGTTGTTTTATTAATTCATTCATTTGTATAGCCATTGGATAAAAATTAACTGGTTAATCAAGTATGATTAACTATAATCATTTATTACTTGTTCTAATTTTTGTTTATATTTGTAAAATTCTTTAGTTGACATTCTTTTAATATATTGTCTAAATTATCATGGATTATTACTTATTTCCACATTTTTTTAGGCAACTGTCACCTACCATTTGTTGTTGGGCGATCGGTTTACTATTTCTGATGGCTATCTTGGTGCTCCGTTTCAGGAATCAATGGTAAGTTTTTTTTTTTTTTTTTGAACAAAAATCAATGGTAAGTTTATTAGTTTTGAGTTAATAATTCGTTTTATTAATTTGTTAGTTACATATAGATTTTAGATTCTAATGATTAATTTTTTACATTTCATCGGAAATAATTTTAGAGAGGGTTTTAAACACACTGCTTGACTTCCATCAATCCTTTCACAATTTCTTGGATAAAATACATTTTTTGGTCTACGAGATTTTAATTTAGGTTTTATTTGATTCTCGAGTTTTCAAAACTAACACTTTTGGTCATTGATATTGAATTTAGTTTCTACTTTGTACTCGAGATTCAAAATGACATGTTGGATTGTTGAGATTTGAATTTGATTTGCAATAGTCTCTGTATGAGTAGATTTTTTTTGGAATAAAAGTCTCTATAAATAGAATTAGCTAAGAGTTGATATAATTGAATCATGGTGTGAAAGATAAAAAATATTGAATAAATTTTTTTGATATATATTCCTTTCAATGAGTTGGATATTTTTTTTTTCTAGTTACCGGCCAATTAAAAACCAATTTCAAATTTCATACACTAATTAGAAATCAAAATTAAATAAATTTAAATCTCATGAATCAAACAAGATGCTTTTAAAATCTCAAGAACCCTTTTTTTCTGAACTATCAAGCTAAGAGGAAATAATGATGAAATCCCACATTGATGAATGAAACCATCAATTACAACTTAATTCTAACAAAATAACAAACTAAGAATAATGAACTAACTAAGAATAGCAAACTAAAAATACAATTAACTATTTAGACAACTTAAGAATAACAAACTAAAGATACAATAAACTTCTTAGTTAACTGAATAATCTAATACACCCCCTCAAGATGGACCATGGATATTAAAAGTGTCATCTTGACTAAGAAATTTTGAAGAGCGGATGTTGGTAAAGACTTGGCGAACATGTCAGCTAGCTGGAGATGAGATCGAATAAGAAGAAGCCGTAGGAATCCTTGTTGAATCATATCCCGCACAAAATGACAATCGACTTCAATATGCTTGGTACGTTCATTAAAAGTCGGGTTATTTGCAATAGAAATTGTAGCAAGGTTATCACAGTAGACAAATGCTGGAGCTAAAAGAGAAATCTGAAGATCCCACAATAAGTGTGAAAGCCATGTAAGTTCACTTGGAACAGTTGCAAGAGCCCGATAATCGACTTCAACAGAAGAATGTGAGACAATTGCTTGCTTCTTAGACTTCCAAAAGACAAAAGAATCACCTAAAAAAATACAAAAGCCAGGAATCGAGCACCTTGTATCAAGACAAGAGCTCCAATCTGAATCAATGAAAACCTTGAGACCGAAACTCTTAGAAGAATGAAGAAGAATGTCTTGCCCCACTATTCCTTTTAAGTAACGCAATAGGTGATGGGCTGCAGCTAAATGATCAACAAAAGGCTTAAAAAGAAACTGACTAAGCCGGTACGCAAAAAAATAAATATCTGATCGAGATATTTGCAAATATAACAAATGACCAATGAGACGACAATAAGACATGGCATCCTCAGTATTTAAAGCAGAACCAAAACAATCAGTTGAAAGCCGCAAATTAGGTGCCATAGGATGAGATACTGGCTTTGCAATCAAGAAGCCAGAGTTCTCAAGTATATGAAGAGTATATTTGCATTGGGAAAGATAAATGCCATTTGGAGACCTTGAAAGTTCAAGACCAAGAAAGTACTTGGCATTACCAAGATCCTTTAACATAAAATGAGCATGAAAAAGATCTTTCACATGACCAATTTCAACTAGAGAAAGACCAGTAATAAGAATATCGTCTACATAAACCAATAAGGCCACAGAGGAAGAACCTCGTCCTTTAATAAAGAGAGAGTAATCTACCTTAGACTGAGAAAAATCATTGGCAAGAAGGACACTAAAAAACTTAGAAAACCATTGACGAGAAGCTTGCTTAAGACCATATATCGACTTATTAGGTTTGCAAACCAGCAGAGTTGAAGAAGAAGTCTTGCAATCATTATAATAACCAAGTGGCAGAGACATATACACTTCCTCAAACAAATCACCATTAAGAAAAGTGATATCAACATCCATTTGAACAAGGGACCATCCATAAGAAGCACTTAAAGTCAACAAAATCTTAACAGTAACAATCTTAGCCACAAGAGAAAAGGACTCAAGAAAGTCAATACCTTCTTGTTGATTATAACCCTTAGCGACAAGTCTGACCTTGTAGCGATCAACAAAGCCATCAACTTTATATTTAACCCGGTACACCGACTTACAACCGACGACATGATGTTCAGATGGCAAAGGAACAAGACTCTAGGTGTTAATGCGTTCCATAGCCATAATTTCATCATCCATAGCTTTTCTCCATGGGGAAAATTTCACTGCTTGATGATAGTAGGCTGGTTTAAATTCTGTGGAGACAATTAAAAGAAAATGTCTATGAGAAGCATATAACTTTTCATAGGATAAGTACTTATCAAAGGGATAAGCAGTATGAGAATCAGTCAAAGGAGATTCATGTTGTAAAAGATGACAGTGGTAATCCTTAAGGAAGGCAGAAGGATGATGTTGTCTCGTAGATCAACGAGGCAAAGGAACAATTGGTGTTGAAGAAGAGCTCGAAACTGCTTGGGGCGGAGGAGTTGCAACACCAGAAAGTGATTGTGAAGAAGTATCAACAGTCGAGCTGTCAAGAACATCATTTTCAACAACTGGAGAATTAGATAAAGGACTACCAATGACAGGCTCAACAACACTATTACCTGGGTGCAAATGAATATTATCTGATTCAACAACTGGAAAATTTTGAACTTGAGAGCCATGATTAAACTCATTGGAAGCAATATCTGAAACTAGTTAAAGGCATAACCAAATCAGAAAACCCATCCATTAGTTGATCATTAGTAGTAATGTAGTGAAAAGGAAAAGAATCTTCATGGAAAGTAACATCTCGAGAGATGAAAATTTGCTTCTTGGAGATGTTATACAAGCGATATCCCTTCATGCCTGGTGTATAACCGAGAAAAACACAAGAGCTTGCACGAGGATCAAACTTTGTACGGTTAGCAACAAGTGTAGAATCATAACATAAGCAAGCAACCAAAAACTCGCAAAGATGAATAATCAACAGAATCATCAAAAAGTATGTTGAAAGGAGATTTGTTGAGTAATAATGGCATAGGGGTTCGATTAATGAGATATGTAGCTATAAGAATACATTCTCCCCAAAAACTTAATGGAACTCGAGACTGAAAATATAGAGAGCGAGCAACATTAAAAAAAATGTTGATGTTTACGTTCAACTACAAAATTTTGTTGTGACCTCTCAACACAAGAGAATTGATGAACAATTTTAGTAGATGCAAAAAATATTAGTGAACTTGAACTCCAGGGCATTATCAGACCGAAAGCATTTTATAACTTTGGAAAATTGAGTTTCAATCAACTTAAAAAACCGAGGAACAATAACGAGCACATCAGATTTCTAATGCATCAGATAAACCCAAGTAAAGCGTGAGGCATCAACCACAAAAGTCAAAAAAATATTTGTATCCATTATATGTTGGAGTTTTTACAGGACCTCAAACATTAGCATGTACCAAATCAAAAGTATTCTTTGCTACATGATTATTAGATGAAAAATGTAAGAGTATGGTACTTTACAGCTCAGCAATGACTTGGCATCACACGTGTATCAGCTCATCCCCATCAGCTTTATTTTAAATGAGTCATATATACTTTTCTATTGTAAGAATTATGTTATGAAATTATTCCTTGAATGTTATTGTGCGTGAGCCATTCTCAGGGGGACGTGTCTGAACAGTATAACAGAAAAGGGCGAGCCAGAGGTGAGGGTGTGTGAGAATCATTTTGTAGAGAGTTGAGAGTGTGAGAGGTTTTGGGAGCTGAGTATTTTCTCTGTATTCTTCTCAAGTTTGTACTGTGTGGTGATTTGAAGAAGATGAATATGATGAATAGCTGCTGTGTGAGTGTTTCCCCGTGGATGTAGACCGCAAGGTTGAACCACGTAAATTCTCTGTGTTTTCTTCTTTCTTTTCCCTTTAATTTGCTTTAGTTGGATCATTTTGTTCTGGGTTGCCTTGTTATCTTCTCAACAAGTGGTATCAGAGCTGGCATTACAATTTCAGAAGAAGGATTTTAGGTATTCGTTCTGAGTTGTAATCGATTTAGAGCCGTCATCTACTTCAATCAGATAAGAGCGGTAGATTTGGGAATCGACTCTTAGCTTGGCCATGGAAGCACGATTCGAAGTAGAGAGGTTCGATGGAAAGGGCGATTTTGCTCTTTGGAGGGAGAAGATTAAGGCGCTGTTAATCCAATAGAAAGCGGCAAAAGCTCTTGAAGATCCTGCGAGTCTTCCAGCGACTGAAATGAATGATATAGCATACAACACAATCATCCTATACCTTGGAGACAACATTCTGAGGCAAGTTATTGGTGAGAAGATAGCATTAAAGGTATGGGCTAAACTTGAGAAGATGTTTATGGGTAAGTCTCTTCCGAATAAAATCCTTATTAAGGAAAGGTTCTTTGGATTTCGTATGAGTCCATCTAAGAGTCTAGAAGAAAATTTAGATGAGTTCTCTAAAATTTCCATGGATTTGACGAATATAGGAGAGAAGATTGATAATGAAAATCATGTTGTTGTCTTATTAAACTCACGTCCTGATTCATTTAGAGATGTTAAGTCAGCCATTAAGTATGGCAGGGATAGTTTGACGCTTGACATTGTTTTGGATGCCTTAAGGTGTAAGGATATAGAATTGAGGCAAGAGAAGAAGGAAAATGAGGCTCTTCATGCTCGAGGAAGGTCGGATGATAAGAGACAACAGAGGTCAAATCGTGGAAAATCAAGATCCAAATCGAGAGGGAGAAGAGACACGAGAAAATGTTATTACTACAACAAAGAGGGGCATATCAGGAGTTTTTGTTATAAGCTGAAGGAAGATAATAATAAGAGGAAAACCGATGACAAAAATGATGGAGAAGATAAGGCTAATTTGACTGATCGCTATGAATCTGCTGATGTGCTTATTGTTGCAGATAGCATGGATACTGAGAGCTGGATTCTTGATTCGGGATGCACCTTCCATATGACACCACACAAGCACTACTTCTCAGATTTCGAACCTGTGACAGGGAGGAAGATGATCATGAGAAATGACCAACAATGTGAGGTTCAAGGAATTGGAACTGTCCATCTCAAGTTGCATGATGGCATGGTGAAAACTCTCACTCAAGTTAGGTATGTGCCCCACCTTAAACGGAATTTGATTTCTCTTGGCATGTTAGATAAGCAGGGATGTACATATAAGTCCACAAATGGAATTCTCACTATTTCCAGAGGTTCTATTGTTTTGATGCAAGGAAAATTAATAAATGGACTATACATACTGCAAGGTGAAACTTTAAGTGATGAAGCGTATGTAGCTAATAGCCAAGAAAAGGACCTAGCAAGCAGTTGGCATCAAAGGCTAGGACATGTTTCTGAAAGGGGCCTGGTTGAGCTAAATAAACAAGGTCTTTTAGGTAAAATCAAGTTAAATCCTCTAGAACAATGTGAACACTGCATTTTAGGAAAGGTAACAAGGGTGAAGTTCGCAAATGCAGTCCATACAACTAAGGATAGATTAGATTATGTTCATATGGACTTGTGGGGGCCTGCACCAGTGGAGTCGAATGGGGGAGCTAAATATTTCCTTTCGATTGTTGATGACTTTTCTAGAAAAGTTTGGATCTATATGCTTAAACATAAGAGTGACACTTTCTCTAGATTTAAAGAATGACTCAACCAAATTCAAAATCAAACAGAAAGGAAGGTTAAAACTATTCGAACTGATAACGGACTTGAATTTCTAAGCCATGAGTTCGGTAACTTGTGTAAGAGTCAGGGAATAACTAGGCATAGAACCGATCGTTTCACTCCTCAGCAGAATGGTCTAGCTGAAAGGATGAATAGGACCATCATGGAGAGAGTGAGGTGTATGTTGTCTTCATCACAATTGCCTAAATAGTTCTGGAGTGAAGCAGCCACGACAACATGTTATCTCATCAATAGATGCCCATCTTTAGCCCTTGGTATGAAAACACCACAAGAGAAGTGGACTGGACATCCACCTAATCTGGAGCACCTTAAACCATTTGGATGTGCTGCATATGCACATGTAAATCAAGGAAAACTTAACTCAAGGGCAGTAAAGTGTGTTTTCCTTGGTTATCCCGAGGAAATAAAAGGGTACAAGCTGTGGACCCTTGAATCTGGGCATCCTAAATGTCTCATAAGCAGAGATGTGGTGTTTAATGAAACAAAAATGCCATATGCTGATCGTGAGAAAGAATCTGTACAGGGAGGTTCTACAGATGGTCAGAGTGGCAGTACAAGATTGAGGTGGAGTTAAACAGAGGTGGTAACTTAGAGGAAAACATTCAGACTTCGGTTGAGCACTCAGAAGCTCAACATCCCACTGCAGCACCTACTACATCAAACATTCAAAGTCATAGTCTTGCAAGAGACAGAGAGAGGAGGACAATCAGACCTCCAGCAAGATATCTTGATGAAGATTTGGTTTCATTCGCCTTGACAGCAGCACCAAATCTATTTGATGTAGAACCACAGACATTTGAGGAAGCTTTAGAGTCAAAAGATTGCGATAAATGGTTAACTGCTATGATTGAAGAGGTAAACTCGTTGAGCAAGAACCATACATGGATACTTGTGGATAAACCAAGGGATAAAGCAATCATTGACTGTAGATGGCTATTTAAAGTGAAGCCAGGAATTGAAGGTGCTGAGGATCCTAAGTATAAAGCAAGGCTAGTAGCAAAAGGATATAACTCAAAGAGAGGGTATCGATTTTAATGAGGTATTCTCTCCTGTTGTTCGTCATACCTCAATTAGAATTTTACTCTCTTTGGTTGCTACTTATGATATGCAGTTAGAACAAATGGATGTGAAGACAGCTTTCCTCCATGGAGACTTAGAAGAGACATTGTATATGCATCAACCTCCAGGCTTCATAAAAGGGGGCAGTGAACAGATGGTGTGTCTCCTCAAAAAGTCATTATACGGACTTAAACAGTCACCACGTCAATGGTACAAGAAGTTTGATACATTTGTAACAAGCGTGGGATTCTCAAGAAGTCTTCATGATAGTTGTGTCTATTACAAGGAGGTAAGTGAAGGGAATAAAAGTCCCCACGCAGCGGAAGCGCATCGATTGGACCTTACGCCGTATATTAATTAACATTAAAATACCGTTACGATAACTCAAACAAAACTTTAAACAACCTTTAAAGCCGCTGTAAAATTGGTTTAAACATGCTAAAATAAATCTAAATTTATTTTTAATACTTTTCTAAAGAAAAGAGGAAGAACCGTTTCAAACCTTCGTTGAAGACTTGACCGTTCTTCGCCAACGACGCTCCACGAACGAAAACGCAGCAGCCGCCTTTGTTTTTCTTCGCTGGAAATTTCTTCTTTGATTAACACAATCACCACATAGGTTACACCGGTATGTCTCTAAGTCTAGGAGGCAAAAGACTTGTGGGAGTCTTTCTCGAAGAGGGAGGCTAGAGAGAATTCTAGGTCTTGTCTTTGAGAGTCTAAGAGCAAGAGCAAGAGTGTCAAGTCTTGACCAATTAGGTCTAGTGTTCTATTTATAGAAGAGAGGCCATGAATAAAATATTCAATTAAATCAATCTTTTCCAAAATTGATTCAATCTTATTCCTTAATTAATCAATCATGATCAATCAATTCCCTAATTGATTAATCTTTTCCACAAATGACTAATTACTTCCATAAGTGATTAGATCATTCCCATAAATGATTAATCACTTCCTTAAGTGATTAATTATTTACATAATTGATTAATTCATGGTTAATGAATTCTTTAATTAATTAACCACCAATTAAATATCACATATTTAATTTCCGGCCTTGAATTAATTAATTTTTCCCAAACACATTTTAGGACTTAAATTAATTAATTCATTATTTGAACTCTTTCAATCTTCCATAAATCTATATTTGAACTTTTTCAAATATTTAATTTCTCTCATAATAATATATCAATATATATTATATTTGTTTCCCTTAGTAAATTGAACATTTTCAATTTACATTTATTACTTAGTTGCCTCAAATTACTTTATGAGCTACCAGTGGGACCTAATGGACCTGCAGATCAGAAGCTCCAACGATGTGAGATTAATTGGTCAAACTCATTAACCACATTAATCAATATTCGTTAACTGTGTGTTCATTCCACTATAGACTCACAGTTGCACTCTTCTCACTGCAGACATATTTTCTGTGTCCACGGATATAGACCAATATCGACTAGTTAGTCCTTCACGAGTGTCTGTAACACCAGCTGGGTCAAATTACCGTTTTACCCCTGGGTTACTTCTATTTCCTTAAGTACCAATTCTCCTCTAATGAACAACCTGTTTGTGGTCCAACCATCAAACAGAAAACCCTCTCGTGCCATTGAGAGGGTAGGGCCCTTTGTTCAAGACTCGGAGTAACCACTTAAGGGAACACTCATCTGCTTCCCTAAAGTCGGGAAGGAGTGAATTCCATCTTGTACAATTATGTTCCCAGCTCCCCATTCGGTCTTGTCCCCAAAGTGGTAGGCTTATTGAGTCGGCGTATTGGCCACTCTCACCCATACAAATCAAAGGACAATCTCTCATGAGCAGGAGTCCATAATCAACTCAGGATTAAGACTAAGTTGTGTAGGTCGTCCTAGTGAAATAGAAAACCAACTAGTTAACGGTGTTATAACCGGTGGTTACTATTTTCGCTGTCCGGTCTTATGCAAACTCATTGCATAGGATACCCCCACTCGCATGTCTCCTACACGAACGCGTTGGATCGCAGCGTTTGTATCAAATACAAAGTGAGCCGTATCCATAGTGTCACCAGGATAAGGCACCCAGTCTTATCCCTATACTATAGACCCTTTAGGCTGTTTCTTGAACAATGATCCCATATGTCGCTACATATAGTTCAAGACTCATATTACAGCCTTGGATGTCTAGTTTATTGGATTAGGGTTATTATTAGGCAAAGACAAATATAAAATAACTAATAACAATTAATGGAAAAATATATCAATATTATTTAATTAATATCCGGTCAACAGTTACATTCACTATCTACGAGTTTTAGGGCATAAAACCCAACAAACTCCCACTTGAACTAAAACACTAGTTAGTGGGATGTAAATGCAATAATCTAAAGCTGGAAATGTCATGTATATAATACAATGAACTAAGGCATCCTTATACCCATTATACATTTCTCCCACTTGCCCTAGATTAGATGGCATACATATCTCGTAGACCTAGACCCTCTAGATGACCCTCAAACACTTTAGCCGTGAGAGCCTTCGTAAATGGATCAGCGATGTTGTGCTCTGAGGCGATCTTAGTGACGATCACATCTCCTCTTTGCACAATCTCCCGTATCAAGTGATACTTCCTCTCGATGTGTTTACCCCGTTTGTGGCTTCGAGGTTCTTTTGAGTTGGCTACAGCCCCACTGTTGTCACAGTATAGTGTTATGGGCACGTTCATATTCGGAACCACTTCCAAATCAATCAAGAACTTTCTGAGCCATACTGCCTCCTTAGCTGCTTCGCAAGCTGCTACATACTCAGCCTCCATGGTTGAGTCTGCTATGCATCCTTGTTTGATGCTTCTCCACACTACTGCTCCTCCATTGAGGGTGAATACTGACCCCGATGTGGATTTCCTTGAATCCTTATCAGCTTGAAAGTCAGAGTCAGTGTATCCAGTAAGAATCAAATCCTTAGCTCCATACACAAGCATGTAGTCCCTCGTTCTCCGAAGATACTTGAGGATATTCTTAACCGCTCCCCAGTGGTCCAACCCTGGATTAGACTGATACCTACTGACTACTCCCACTGCATAACATATGTCAAGCCTAGTGCAGAGCATAGCATACATTAAGCTGCCCACAGCTGAGGCGTAGGGAATGTGTCTCATGTTCTCAACTTCTTGAGGTGTCTTAGGAGATTGTTCCTTAGACAGGTGTACCCCATGTCTGAAGGGTAGTAGTCTCTTCTTGGAGTTTTGCATCGAATATCGAGACAACATCTTGTCAATATACGTTGCTTGAGACAGAGCTAGCGTTTTGTTCTTACGATCCCTAATGATTTGGATTCCCAGAACGTATTGAGCCTCTCCCAGATCTTTCATTTGGAATTGGGCTGCTAGCCATTTCTTAATGTCAGTGAGGTATCCTACATCATTCCCAATGAGTAGGATATCGTCTACATAAAGTATTAGAAAAGCTACTTTCCTTTTGTTGACTTTCTTGTATACGCAAGGCTCATCAACGTTTTGGTCAAAGCCAAAAGATTTGATTGCAGTATCAAATCTAATGTTCCATGATCTGGACGCTTGCTTCAATCCATAAATGGATCGATTGAGCATACAAACCTTTTGTTCCTGACCTTGGGCTATGAACCCTTCGGGTTGAGACATGAAGATATTCTCTTCAAGATTACCATTCAGAAAGGCAGTCTTGACGTCCATTTGCCATATTTCATAGTCATAATATGTGGCTATGGATAAGAGAATTCTTATGGACTTTAACATGGCTACAGGAGAAAAGGTTTCCTCATAGTCAACCCCTTCCTTTTGGGTATAACCCTTTGCCACTAGTCTAGCTTTGAAGGTCTGTACCTTTCCAGTTGCATCTCTTTTTCTCTTATAGATCCATTTGCACCCTATGGGTTTTACCCCAGTTGGTAGATCTGTAAGTTCCCATACAGAATTGGAGTACATAGACTTCATTTCCAGGTTCATGGCTTTGACCCAGTCATCCTTATCTTCGTCATTCATTGCCTGTCGATAGGACAATGGATCCTCAATGCCATCATTAGGTATGACAACCTGAGTTTCAGTTAAACCCAAGTAGCGGTCAGGTTGAAATACAACCCTCCCACTGCGTCGAGGCATTCCCAACGTTTGAGATGGACGGGATGGATCTGAAGAACTAGTTCCTTCATCAACCCTTGTTGAAGGTCCAACTTCATCAACAACTCTTGATGATTCTTCAGTAGCTTCTCCTAATATTATTTTGCTGCGTGGTTTATGATCTCTCATGTGGTCTTCCTCTAAGAAAGTGGCGTTTGTCGATACAATCACCTTATTTTCTTGTGGGTCGTAGAAATAACCACCTCTCGTTTCTTTAGGGTAACCAACAAATTGGCACAGTTTTGAACGAGGTTCCAGTTTCTTAGGATTTGTCACAAGCACGTGTGCTGGACAACCCCAGATGCGAAAGTGATGCAAACTAGGTTTACGCCCCTTCCATAATTCGAAAGGTGTTTCAGAAACACTTTTCGAGGGAACATTGTTCAAGATGTATACTGCAGTCTCTACTGCATACCCCCAAAACGAGCTAGGCAATTGAGCATAGCTCATCATTGATCGAACCATGTCTAACAAGGTTCTATTTCTCCTTTCTGACACACCATTCTGCTGAGGTGTACCAGGGGCTGAGAGTTGAGATTGGATTCCATGTTCTATCATATAATCCTGGAATCTTTGATCCATATACTCCCCTCCTCGATCAGATCGAAGTACTTTAATAGATTTACCTAATAGGTTTTCAACTTCAGCCTTAAACTCCTTAAACTTTTCAAGGGCTTCAGACTTATGTCCCATTAGGTACAAGTAACCATATCTAGAATAATCATCTATAAATGAGATGAAATATTCGTACCCTCCTCGAGCTTTTACATTCATTGGACCACATAGATCCGAATGTATTAACTCTAAGGGTTCTTTGGCTCTGTAACCTTTTCCAGTAAAAGGTCTCTTGGTCATTTTTCCCTCGAGACAAGATTCACAAGGTGGTAGTGAATCATTTTCTAACTTGCTTAGAAGTCCATTCTTTACCAAACGACCGATCCTATCGATGTTTATATGACCAAGTCTGAGATGCCAAAGATGAGTATTGTTACTTGATGGAGAAATCTTTTGCCTTTTACTTTGAGTTTCAGCAGTTTTAATAATTCGTGATTTAAAAGTGCTTTGTTTTCGGTTGGTCTTAAAACATACAAGTTATTTTCCAATTTGGCTGAACAAATAAGTACACCATTTTTATAAATGAACGCTTCATTCATATCAAAAGTAACTGTATACGATTGTTCAATCAAACATGAAATAGAAATTAAGTTCCTCTTAATCTTGGGAACGATTAACAAACTTTCTAAAAGTAAGAATCTATTTCTAAAAAATAACTTCGCAGCTCCCACTGCTTTAGCTGAAATGACTTCTCCAGTTCCGACCCTGAGTGTCATTTCCCCATCGTTTAACTGCCGAAAGGAACTATTTTCCGGAAAAGAAGAGCAAACATGATTAGTTGCTCCTGAATCAAGTATCCAGGTTAACTCATCATGTTCTACCAGGCATGTTTCTAAAACAAGTAAATCAAATTTACCTTCCTTTTCCTTCTTTTTCTCAGCAAGGTACTTTGGGCAGTTTCTCTTCCAATGTCCATCTACATTGCAGTGGAAACACTTGCCCTTGTCTGCCATAGCTTTGGCTTTTCCCTTGCTTTTAGCAGCAGTACTGGGAGCTTTCCCCTTGTTTCCTTTCTTCTTCTTAGTTTTCTTTGAAGAAGTGGCTACAGATTTAGTTCCAGAGGATGAACCCTTCTCGAACTTTCTTTTAGAGTGAACAACGTTTGCCTCTCCTTCTATCTGTCCCTTGTTCTTAAGAAGAGACTGATAGAGCTGTAGCTCATTCAGGAGGCTAGTCAGGTTGAATGTTATTTTATTCATCATTGCATTGCTTCGAAACTGCAGAAAACTCTTCGGAAGAGATTCTAAGATGAATGCAACCTGACTACGCTCATCTATGACCGCCCCGTTTGCTTCTGCCACGTTGAATTGGACCATCATATCCAGGACATGCTCCCGAACAGACGTGCCCTCTTTCATGCGACAGCTATAAACGTATTTGAGAGCGTCATGGTGGAGTTGGTAGGACGGTTGTCCAAACACCTCCTGGAGAGAGTTCATAATCTCCCTCGCTGTTACCATGCCCTCATGCCTTTTAGCCAAAACTTCAGATAAGCTGGCTAGGATATAGACGCGAGTCTTATCATTGGCCTTTGTCCAGCGGTCATAAGCATCCTTAACTGCTTGGGATGCATTACGAGCAGGGGCTGGAGGACAATCCTCCGTTAAGACGAACCGCAGATCATCGACAACAAGAATCGTATTCAGGTTCGACTTCCACGTAGCATAATTTTCGCCGGTTAATTTCTCATTATTAAGCAGAGAGACAATTGAGGAAGACATTGCTGAAATTTAAACAAACAATGACCGTACTAGTTATCTTTGCCTTAACCCATCATAGAAGCAAACAATTGCACACAATCCAATCAATTTAGCAAAACAGACAATCACAGAACCCTAAAACTATCAATTTAGTTTTGCAACGACGTTTCAGAGGTTTAGAATATCAGCCACCGAAGGGTGATCAGGCACTCCTCCTTTGAAATGAGACACTTCTCAGCTAATTCTAATTCCAGAATAACTCATATTCCTATAGACATTAGCCACCGTTGTTCGGTCAAGGATTTGTTAACACTTTTAACTCATCCTCGTAAGTGTAACCCTCCCACTTTCAGATCTCAGAGGCACGCACCAACAGGCTACTGAAGGGAAAGACAACTGTTGGTGATTAGCCTAAGAGCTCCTATCCTATTCAGGAGTTCACGGTGTTCCGAATCCTATGACCAGGCCCTCCGAAGGGATGGTTGCGCCAGGACAACCTGCAGGCGGATCATAGGACTCTCACGGTGTGAACTTTGGGCGGAGACCGAGGGATACGTTGACACGTGTCCCGCTCCCACTTACTCTAGACATTTTTCCCATTCTCCTTGATATTGATCCATGCAAACACTTTCCGAAGGGAGGCTGCTCCTAAGGCGACTCGAAGCCGAGCATGAATCTCACGTTGTGAATATAGGGACGTAGGAGCAAAACTTGATTTAAATCTCGTTTTGTAATTTTCCTCCCACTGAAAATGTCCTAAGGTTAATATAGGGTTGTTTAACTTAGATAGTATTCGGCTAAGTCAATCTATCTAAGTCTGATCCTATTATAACAATTATGGAAAGGATTCAACTGCAATCTTTTGGGTGAATTAAACTTCTTTTAATAAACCCAACATTGCAAGTCAACATTACTATGGTTAATTCAACTCAATGTTCGGGTCAGTTCCCAGGTAGGAGGTGTTCCGTAAACCGTCAACTTAAATACCCCCAGCCTTAGACAGAACTTTACCGAGAGAGTTCCCTTATAACCTCAGTAATGTAAGGTCTTTACTCTAAAGATCTAGGTGCATTAAACACTTTTAATAAACCTAGTGACATTGCATGCTAACATTTAACTATGATTAATTCAACTCCGGTATTCCAGGTCAGTTCCCAGGTAGGAGGTGTTCCGTAAACCGTCAACTTAAATACCCCCAGCCTTAGACAGAACATTACCGGTGGAGTTCCCTTATAATCATAGCAATGTTTTTCCTACTTAGTCAATTAAAACTATTTTTAATCCTAAGTAAGAATAATTCTAATCCTATTAGAAATGAGATCTTAGGTCTAATTAATTTTAAACAAATTAAAATTAATCCAATTTATCCTATGATCTTATGTTTGCATGCAAATCTTGATTATAGATTGACGGTTTCTAATCATTAATATTAAAGAACTATTTCAAATTTTAATGATTAATCCTATAATCAAGAATCTAGGGTTTAATTCATTTAACAATCTCATTCAAATTAAAAAATTAAACCACACTTATTGCATGAATAATATAACTATTATATTATTAACTATGAATGTTTCATGCTTCATGCAATATTGATTTTCAATTATAAGCCAATCAAGAAAATCAATCAAGCATGTTTCATTCATTACATTAAACATAACTATTTATATTTAATTTAAGTAATGACATGCATCATGCTTTCCAAATTTTTCATATAATCAATATACACTTATATTTAAAAATATGAAAACAATTCCATGCATTTAAACATACATTATAACTATTTATAATATATAAAAAATGCATGAGCATGTTTATAACCTAAGGTGGGATTAAATATTCTATATGACATCCATAAAGCATATAAATAGCAATTGAACCGGTTAATTTTGGCCCCTAGGATAAAATAAAGCATTAAATTACATTAATTTAGCTAAATTCTATCCTAAAAAATCCATGTACAGCTCCGGAATTGGTCCAGACAGCACGAACCGCCCCGAACCACCTCGAACCGGCCTCCAAAATCACGAACCATGCCAAAAATTGGCTGAACCGGACCAAATAGGTCCCAGCCCAGCCGAACCGGTCCGAACCGGACCGGCCACGCCTTGAACCGCGCCTGTTGAAACCCTAATGCGCGCCTCCATCGTGACAGCGTCGACACGCTGTGTTGATAGCGTCCCGACGCTGTGCGTTTTCCATATCTGGCGTCTGCGGTATCGAGACAGCGTCGAGACGCTGTTGAGGTAGCGTCCCGACGCTGTTGCGTCTGGAGGCAGAATCTGGGCGGCAGCAGCATCGATTCTCCGATTTTGGCCTCGATTTCAGCGACGATTGCTTCGATTTTCATCTCATAAAAACCTATTCTAGACCCGGACTTACATAGGACTCGATTTTACATAAAATACCCGAAACACCGGGCCTTACATGATCAAAATCACATAAAAAATAAAATCAATGGCCATAAAATTAACCTAAACAGTTCAACGCAAACCGAACATACATTATGCATAAATCCCACCTATTAGAGCCTATAGCAACTTTTAATATTAATTAATAGGGACAGCGATGGCTCTGATGCCGATTGAAGGGAATAAAAGTCCCCACGCAGCGGAAGCGCATCGATTGGACCTTACGCCGTATATTAATTAACATTAAAATACCGTTACGATAACTCAAACAAAACTTTAAACAACCTTTAAAGCCGCTGTAAAATTGGTTTAAACATGCTAAAATAAATCTAAATTTATTTTTAATACTTTTCTAAAGAAAAGAGGAAGAACCGTTTCAAACCTTCGTTGAAGACTTGACCGTTCTTCGCCAACGACGCTCCACGAACGAAAACGCAGCAGCCGCCTTTGTTTTTCTTCGCTGGAAATTTCTTCTTTGATTGACACAATCACCACAGAGGTTACACCGGTATGTCTCTAAGTCTAGGAGGCAAAAGACTTGTGGGAGTCTTTCTCGAAGAGGGAGGCTAGAGAGAATTCTAGGTCTTGTCTTTGAGAGTCTAAGAGCAAGAGCAAGAGTGTCAAGTCTTGACCAATTAGGTCTAGTGTTCTATTTATAGAAGAGAGGCCATGAATAAAATATTCAATTAAATCAATCTTTTCCAAAATTGATTCAATCTTATTCCTTAATTAATCAATCATGACCAATCAATTCCCTAATTGATTAATCTTTTCCACAAATGACTAATTACTTCCATAAGTGATTAGATCATTCCCATAAATGATTAATCACTTCCTTAAGTGATTAATTATTTACATAATTGATTAATTCATGGTTAATGAATTCTTTAATTAATTAACAACCAATTAAATATCACATATTTAATTTCCGGCCTTGAATTAATTAATTTTGCCCAAACACATTTTAGGACTTAAATTAATTAATTCATTATTTGAACTCTTTCAATCTTCCATAAATCTATATTTGAACTTCTTCAAATATTTAATTTCTCTCATAATAATATATCAATATATATTATATTTGTTTCCCTTAGTAAATTGAACATTTTCAATTTACATTTATTACTTAGTTGCCTCAAATTACTTTATGAGCTACCAGTGGGACCTAATGGACCTGCAGATCAGAAGCTCCAACGATGTGAGATTAATTGGTCAAACTCATTAACCACATTAATCAATATTCGTTAACTGTGTGTTCATTCCACTATAGACTCACAGTTGCACTCTTCTCACTGCAGACATATTTTCTGTGTCCACGGATATAGACCAATATCGACTAGTTAGTCCTTCACGAGTGTCTGTAACACCAGCTGGGTCAAATTACCGTTTTACCCCTGGGTTACTTCTATTTCCTTAAGTACCAATTCTCCTCTAATGAACAACCTGTTTGTGGTCCAACCATCAAACAGAAAACCCTCTCGTGCCATTGAGAGGGTAGGGCCCTTTGTTCAAGACTCGGAGTAACCACTTAAGGGAACACTCATCTGCTTCCCTAAAGTCGGGAAGGAGTGAATTCCATCTTGTACAATTATGTTCCCAGCTCCCCATTCGGTCTTGTCCCCAAAGTGGTAGGCTTATTGAGTCGGCGTATTGGCCACTCTCACCCATACAAATCAAAGGACAATCTCTCATGAGCAGGAGTCCATAATCAACTCAGGATTAAGACTAAGTTGTCTAGGTCGTCCTAGTGAAATAGAAAACCAACTAGTTAACGGTGTTATAACCGGTGGTTACTATTTCGCTGTCCGGTCTTATGCAAACTCATTGCATAGGATACCCCCACTCGCATGTCTCCTACACGAACGCGTTGGATCGCAGCGTTTGTATCAAATACAAAGTGAGTCGTATCCATAGTGTCACCAGGATAAGGCACCCAGTCTTATCCCTATACTATAGACCCTTTAGGCTGTTTCTTGAACAATGATCCCATATGTCGCTACATATAGTTCAAGACTCATATTACAGCCTTGGATGTCTAGTTTATTGGATTAGGGTTATTATTAGGCAAAGACAAATATAAAATAACTAATAACAATTAATGGAAAAATATATCAATATTATTTCATTAATATCCGGTCAACAGTTACATTCACTATCTACGAGTTTTAGGGCATAAAACCCAACAGTAAGTAGCTCAAACTTTCTTTACTTGCTATTATATGTTGATGATATGTTAATAGCATGCCAAGATAGTTCAGAAATTTGCAAGTTGAAAGAACAATTGAGCTCCATGTTTGAAATGAAAGACTTAGGATCAGCTAAAAGAATTATTGGCATGGAAATTTGTAGGAATAGAAAGGAAAAGAGTCTGTTTGTTTCGCAAAAACAGTATATTAGAAAGGTACTTGAAAGATTTGACATGATGAATGCTAAATCAGTTAGTTTACCATTAGCACAACACTTCAACATATCTAAACAGCAGTGTCCTCAATCTGATGATGATATAGAAAGCATGAAAAATATACCATACTCCACTGCTGTTGGTTGTCTAATGTATATAATGGTCTGTACACGCCCGGATTTAGCACATTCTTTGAGTGTCTTAAGCAGATTCATGTCAACACCTGGAAAGACTCACTAGAGCGTTGTCAAATGGGTCTTGAGATATTTAAAGGGTACAATGGATCATGGTTTGATCTATGGGAACAAACCTAAAGCTGAAACTGAATTAATAGGGTATGTGGATGCTGATTATGCAGCAGATCTAGATAGAAGAAGATCAACATCAGGTTATGCCTTTACACTAGATGGAAATGTAATCAGCTGGAAGTCCACCTTGCAGTCTGTGGTAGCCTTATCTACCACAGAAGCCGAGTACATTGGCCTGTCAGAAGGATTAAAGGAAGCCATATGGTTGAGAGGAATTGTGTCTGAATTATTGGGAAGATCAGTAAAATGCGAGCTGAAATGTGATAGTCAAAGTGTAGTGCAACTATCCAAGAATCATGTCCATCACGAGCGGACCAAGCACATCGATATTAGACTCCATTTTCTGAGGGACACACTGAACCAAGAAGACTATGAACATACTAAAGTTCACACGGATTTGAATGGTGCTAATATGCTGACAAAATCCGTAAGCAAGAGCAAGCTGGACTTTTGAAAGCAGCTCTTGCAGATTGAAAATGGCTAATACATAATCATTGGAAAGGGAAATCTCATGCAACAGCAACTCTGAATCATTGTGCCTTGATCCTTCAAGTACCAAGGTGGAGATTTGTAAGAGTATGGTACTTTACAGCTCAGCAATGACTTGGCATCACACGTGTATCAGCTCATCTCCATCAGCTTTAGTTTAAATGAGTCATATATACTTTTCTGTTGTAAGAATTCTGTTATGAAATTATTCCTTGAATGTGATTGTGCGTGAGCCATTCTCAGGGGGACGTGTCTGAACAGTATAACAGAAAAGGGAGAGAGGTGAGGGTGTGTGAGAATCATTCTGTAGAAAGTTGAGAGTGTGAGAGGTTTTGGGAGCTGAGTATTTTCTCTGTATTCTTCTCAAGTTTGTACTGTGTGGTGATTTGAAGAAGATGAATATGATGAATAGCTTCTGTGTGAGTGTTTCCCCGTGGATGTAGACCGCAAGGTTGAACCACGTAAATTCTCTGTGTTTTCTTATTTCTCTTCCCTTTAATTTGCTTTAGTTGGATCATTTTGTTCTGGGTTGCCTTGTTATCTTCTCAACAGAAAAGATAGCCTTTTTTACTTAGCTAATGGGCAAACAGGACACGAAGAATTATTTAAAGTAGACTCATGAAGATGTAAAGGATCCTTTAACAAAAGTAAGCGTTTAGGTGATGGATGACCTAAACGATGAAGCCAAGTAGAAGTAGAAATTGAACATGCAGACGCAGACAGAGAAACCACAGAGGTTGAAATCTTAGAAACTAAAAGGCCATGTCGACACTCAGCCTTGCCAATCACAATCAACAGGTGCTTCTCCTATATGATACAATGTGCATTAGAAAATACAACAGAGAAAGTCCTTTGCTGTAGCAGACAACTCACAGAAACCAGATTATAAGCAAATTCTGGAATAAACAGAACATCGTGTATAATCAGGTCAGTAGAAATGCGGACATTCCCAACATAATCAACATGGACTTTATAAGACGTTGGTAGAACAACTGATATGGGATCAATATGACGTCAATTATGAAAAACAGCTCGATTATGACATATATAACGTGATGCACTAGATTCAACAATCTAGCAATCATTAAGAGATGCAATAGAAGATGAGGCCAAAGGGCATATACCTATAACATGAGTAACAGTATTTGCTATAGTGACATGATTAGTTTTGGCAGCTTGTAAGTGAGAGCTAAGTAACTCCATCAATTGATTGCACTGTGTGGTATTTAGACTTGAGAAAAAACTAGGAGAAGCAGTCGAATTCGCAACCACAGGCTTGTAAGCTGATGAATTTGCAGAAGCATCCAGCGTATTTCAAGATTTGAATTTATAACCAGGTGGATATCCATGTAATTTGTAGCTTCGATCAATTACATGACCTTTAATATCGTAATGAGTGCAGATGGGTCGTGGATTGGAGTTATCCTTCTTTCGAGTGTGATCAGGAGGAGAAGACTTCTTGGAATTATCTCGAACGACTAGGGCAACCGGATCAGAAGGAGTTTCAAGAAGGTCGGCAAAACGTTGATGTTCTTCTTGAATCAACAAAGAAAAAACAGAGGTAAGGAATCGACTTCATGAGGAGAATTTGAATCCTCGTTGTAGCATAAGATTCATTCAATCTCATTAAAAACGTCATGACATATTCAGAATCAAGATGCTTGATAAAAGATTTCTAACCTCCACATGTGCAACTAGCGGTTGGACGATAATCACTGAGATCCTGCCAAATAGTCTTCATCTTGGTATACTATGTCTCAATGGACATAGATCCTTGTCCTAGAGTCACTAACTCTTTTCTCAGTTGGTAAGTGCCAGGGCCATTCAACTGCTTGTATTGAACACATAGCTCATCCCAGACATCTTTGACAAATCTAGTGCATATGATGCTAGTTGCGATCTCTTTAGAAATTGAAATGAGAACCCACGACGCAATAATGTCATTATTGCATTCCCAAGCTTCAAGCATCGCTCCTTCTTGCTTAGGTTTGGCAATCTTCCCTGTGATAAAGCCTAATTTGTTCTTCCTAGAAATCACCATCTTCATCACGCGACTCCATGAAGTGTAATTGATCGCGCCAAGTAACGACTGGGAAACAAGAACAGAAGAAGAACCAAAGGAGTGATTTAAGACGTAAGGGTTCAATTGAGCTTCAATTGAGGTTGTTGAAGAAGAATCTACACTTCTAGAACCTTTGTCCGTCATGGGAGAAGAAGGAATTGGAAGAAAATAAAAAATTCAGAAGACAAGAGCAGGAACGAAAATTTTATCTCTCTGATACCATATCAAGCTAAGAGGAAATAATGATGAAATCTCACATTAATGAATGAAACCATCAAAGGTATTTATACAACTCAATTCTAACAAAATAACAAACTAAAGATACAATAAACTTCTTAACTAACAGAATAATTTAATATGAACTTCTTACTTTTGAGTTTGAACTTTCAATCTCAAGGCCATGTTTATTGTTTAGGAAGCCAACCATATGCGTCCAACTGTTGCCACACTGCCTGCTGTTGAACGTATGGATAATCAAGTTGTGGGCATCATGCCTCAGATTCCTGTTAATGGGAAGTGGGCTCTTGGATTACAGGTTTGTTTAATGAGAAGTTGCAAATCTACCATATTTTATATTTTAATACTTCTAAAAAATACTTATAAAATAAGTGATTCATTAAAAACTCGATCTTATACGTAACTTAAAATTGCTTCCTTTAATCACCAAAACTTGTGTTTATTTGGTAGGCTAAAGCAAATCCACGAGACATAATGATGAAAGTGCTTAAAGTGCTGCAAGAACTGAATGTGTGTTGGAAGAAGATTGGTGATTACAACATGAAATGTAAGCTAACACCTTATACTCCAACTCATCACCAAGCCATGCCCAGTAATCTTTCATTCAACAATAATCATTCAATCGTAATGGCGGTCAATAATGTCACTATATTACAAAATGTGGTCAAGTTTGAAGTTCAGGTATGCCTTATTTTCATCCTCATTTTCTATTCTATTTGACTTCTTTTTATTTGAGAAAATGTCGTTTTATAGCTTACTTTTATCTTTGTTCTAATTTGGTTCTTGTCGTTACTTTATTCTTGATTATTTAACCACGACTTTGAATAATTGTATTAACATCATGAATTCATGATGTGTTATGAGAATGAGTATTAGGTGGAGAAAATATTGACAACTAAATAATGATATAAAACCTAATTTAATTATCTTTTTAAAGTTTCTGTATTGAAATATATATTTTGAAAGTTCATGGACTAAATTGAAATAAATACGAAAGTGGAACACTCAAAACCTTTATTATGGATAGATATTTGAAGGTAATATCAAAACATGGTGCTAACTTGATGTTTTTTTTTTCCTTTCTTATTTCACAGTTATATAAAATGCAAGAGGAAAAGTATCTGCTTGATCTGCAAAGGATCCAAGGCCCACAGTTTCTGTTTTTAAACCTTTGTGCCACCTTCATTTCCCAACTCCAAGTCGCTTAAAGTACCAAAATGTTTATTTCTTGGAAAATACAATTTACTTTTTATTGAACAATATGAAATGCCGAAATATATGACTCAAGGTTGATACACTACAACAAGTTTCTATATATCTTTCTAATGGGCTAAGCTTTTGAGTTAGTATAGTCGATGTATTTGAGACATCGTCAACAACATTATAGCATATTACTTTGTGATGTGTATTTATGTTTTTCTTTTCCAGAGTTTAACTATGTATGTGGATGATGATTCGAACGTCTTAAACTTTTAG

mRNA sequence

ATGGATAAGCGGATTAAACATGAAGATAGAAACGTTGACGTGTTTCTAAAAAATTACAAGCTTGACAAAATTCTTGGAATTGGCTCAACTGGAAAAGTTAAACTTGCAAAACATAAATTGACTGGACGTGAAGTAGCAATAAAGATCCTCAACCGTAAGAAGATTGCAAAGATGGGTTTGGAACAAAAAGTTAGAAGGGAAATTAAAATAATGAAGTTGTTTATGCATCCTCACATAGTACAACTATATGAGGTTATAGAGACACCAACTGATACATATGTAGTGATGGAATATCTCAAGTCAGGAGATGCATTTGATTATATTACACAGAAGGGAAGGTTGAAGGAAGATGAAGCTCGTAGGCTTTTCCAACAGATAATATCTGGAGTGGAACACTGCCACAGAAATATGATAGTTCACAGAGATCTTAAGCCCGAGAATGTGCTTTTGGATTCCAATTTCAATGCAAAGATAGCTGATTTTGGTTTTAGCAATGTCATGTATGATGGCCATTTCCTCAAAACAAGTTGTGGGAGTCCTGATTATGCTGCTCCAGAGATTATTTGTGGTAAATTGTATGCTGGGCCTGAAGTAGACATATGGAGTTGTGGGGTTATATTGTACGCTCTTTTATGTGGTTTTCTTCCTTTTGGTAATGGAAACTTACCCATCCTTCAACAAAAGATAAAGAATGGAGTGTATAGGATTCCAAGTTTCTTATCAGCTGCGGCAGGAAACTTGATCTCAAGGATACTTGTAGTTGATCCACTTAGACGAATAACCATACCTCAAATTCGCCAGCATCCATGGTTTCAAGCTCATCTTCCTCGCTATTTGGCTGTCAAACCAATTTCTATTATCCAACAATCTCAAAAGATCGATGAGGATGTTCTTCAGAAAGTGGTTATGATGGGGTTTAACAAGAATCAAGTGGTGGAATCTCTTCACAACAAAAGACAAAATCAGGCAACTGTCACCTACCATTTGTTGTTGGGCGATCGGTTTACTATTTCTGATGGCTATCTTGGTGCTCCGTTTCAGGAATCAATGGAAGCCAACCATATGCGTCCAACTGTTGCCACACTGCCTGCTGTTGAACGTATGGATAATCAAGTTGTGGGCATCATGCCTCAGATTCCTGTTAATGGGAAGTGGGCTCTTGGATTACAGGCTAAAGCAAATCCACGAGACATAATGATGAAAGTGCTTAAAGTGCTGCAAGAACTGAATGTGTGTTGGAAGAAGATTGGTGATTACAACATGAAATGTAAGCTAACACCTTATACTCCAACTCATCACCAAGCCATGCCCAGTAATCTTTCATTCAACAATAATCATTCAATCGTAATGGCGGTCAATAATGTCACTATATTACAAAATGTGGTCAAGTTTGAAGTTCAGAGTTTAACTATGTATGTGGATGATGATTCGAACGTCTTAAACTTTTAG

Coding sequence (CDS)

ATGGATAAGCGGATTAAACATGAAGATAGAAACGTTGACGTGTTTCTAAAAAATTACAAGCTTGACAAAATTCTTGGAATTGGCTCAACTGGAAAAGTTAAACTTGCAAAACATAAATTGACTGGACGTGAAGTAGCAATAAAGATCCTCAACCGTAAGAAGATTGCAAAGATGGGTTTGGAACAAAAAGTTAGAAGGGAAATTAAAATAATGAAGTTGTTTATGCATCCTCACATAGTACAACTATATGAGGTTATAGAGACACCAACTGATACATATGTAGTGATGGAATATCTCAAGTCAGGAGATGCATTTGATTATATTACACAGAAGGGAAGGTTGAAGGAAGATGAAGCTCGTAGGCTTTTCCAACAGATAATATCTGGAGTGGAACACTGCCACAGAAATATGATAGTTCACAGAGATCTTAAGCCCGAGAATGTGCTTTTGGATTCCAATTTCAATGCAAAGATAGCTGATTTTGGTTTTAGCAATGTCATGTATGATGGCCATTTCCTCAAAACAAGTTGTGGGAGTCCTGATTATGCTGCTCCAGAGATTATTTGTGGTAAATTGTATGCTGGGCCTGAAGTAGACATATGGAGTTGTGGGGTTATATTGTACGCTCTTTTATGTGGTTTTCTTCCTTTTGGTAATGGAAACTTACCCATCCTTCAACAAAAGATAAAGAATGGAGTGTATAGGATTCCAAGTTTCTTATCAGCTGCGGCAGGAAACTTGATCTCAAGGATACTTGTAGTTGATCCACTTAGACGAATAACCATACCTCAAATTCGCCAGCATCCATGGTTTCAAGCTCATCTTCCTCGCTATTTGGCTGTCAAACCAATTTCTATTATCCAACAATCTCAAAAGATCGATGAGGATGTTCTTCAGAAAGTGGTTATGATGGGGTTTAACAAGAATCAAGTGGTGGAATCTCTTCACAACAAAAGACAAAATCAGGCAACTGTCACCTACCATTTGTTGTTGGGCGATCGGTTTACTATTTCTGATGGCTATCTTGGTGCTCCGTTTCAGGAATCAATGGAAGCCAACCATATGCGTCCAACTGTTGCCACACTGCCTGCTGTTGAACGTATGGATAATCAAGTTGTGGGCATCATGCCTCAGATTCCTGTTAATGGGAAGTGGGCTCTTGGATTACAGGCTAAAGCAAATCCACGAGACATAATGATGAAAGTGCTTAAAGTGCTGCAAGAACTGAATGTGTGTTGGAAGAAGATTGGTGATTACAACATGAAATGTAAGCTAACACCTTATACTCCAACTCATCACCAAGCCATGCCCAGTAATCTTTCATTCAACAATAATCATTCAATCGTAATGGCGGTCAATAATGTCACTATATTACAAAATGTGGTCAAGTTTGAAGTTCAGAGTTTAACTATGTATGTGGATGATGATTCGAACGTCTTAAACTTTTAG

Protein sequence

MDKRIKHEDRNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIKIMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISGVEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIICGKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLISRILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKNQVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVATLPAVERMDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLTPYTPTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQSLTMYVDDDSNVLNF

Homology

[Close]

BLAST of Spg015522 vs. NCBI nr
Match: XP_038892877.1 (SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X1 [Benincasa hispida])

HSP 1 Score: 751.5 bits (1939), Expect = 4.4e-213
Identity = 370/467 (79.23%), Postives = 411/467 (88.01%), Query Frame = 0


Query: 1   MDKRIKHEDRNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGL 60
           M+K  K+ED++++VFLKNYKL KILG+GST KVK A+HKLTG +VAIKILN +KIAKMGL
Sbjct: 1   MEKVGKYEDKSIEVFLKNYKLGKILGVGSTAKVKAARHKLTGHQVAIKILNHRKIAKMGL 60

Query: 61  EQKVRREIKIMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEAR 120
           EQKVRREIKIMKLF HPHIVQLYEVIETPTDTYVVMEY+KSG+ FDYI +KGRLKEDEAR
Sbjct: 61  EQKVRREIKIMKLFKHPHIVQLYEVIETPTDTYVVMEYVKSGELFDYIVEKGRLKEDEAR 120

Query: 121 RLFQQIISGVEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSP 180
           R+FQQII GVEHCHRNMIVHRDLKPENVLLDSNFN K+ADFGFSNVMYDGHF KTSCGSP
Sbjct: 121 RIFQQIICGVEHCHRNMIVHRDLKPENVLLDSNFNVKVADFGFSNVMYDGHFFKTSCGSP 180

Query: 181 DYAAPEIICGKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFL 240
           +YAAPE+I GKLYAGPEVDIWSCGVILYA+LCG LPF N N+ IL+QKIKNGVY++PS+L
Sbjct: 181 NYAAPEVISGKLYAGPEVDIWSCGVILYAILCGSLPFDNENILILRQKIKNGVYKLPSYL 240

Query: 241 SAAAGNLISRILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQK 300
           SA A NLIS +L+VDPLRRIT+PQIRQHPWFQAHLPRYLAVKP S + Q +KIDEDVLQK
Sbjct: 241 SAEARNLISSLLIVDPLRRITMPQIRQHPWFQAHLPRYLAVKPTSTLGQLEKIDEDVLQK 300

Query: 301 VVMMGFNKNQVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVA 360
           VVMMGF+K+++VESLHNKRQN+ TVTY+LLLGDRF IS GYLGA  QES E   M P V 
Sbjct: 301 VVMMGFSKDKLVESLHNKRQNEGTVTYYLLLGDRFPISSGYLGAEIQESTEPKQMNPIVG 360

Query: 361 TLPAVERMDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYN 420
            LP+ ERM NQVV + PQIP NGKWALGLQAKA+PRDIMMKVLKVLQELNVCWKKIG+YN
Sbjct: 361 ALPSFERMHNQVVAVAPQIPNNGKWALGLQAKAHPRDIMMKVLKVLQELNVCWKKIGEYN 420

Query: 421 MKCKLTPYTPTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
           MKCKLT  T THHQ MP       NHSI++ VN+VTI QNVVKFEVQ
Sbjct: 421 MKCKLTSDTITHHQDMP-------NHSIMLKVNHVTIFQNVVKFEVQ 460

[Close]

BLAST of Spg015522 vs. NCBI nr
Match: XP_023007674.1 (SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X1 [Cucurbita maxima])

HSP 1 Score: 729.9 bits (1883), Expect = 1.4e-206
Identity = 357/462 (77.27%), Postives = 407/462 (88.10%), Query Frame = 0


Query: 10  RNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIK 69
           R  DVFL NYKL + +G GSTGKV++A+H LTG +VAIKILNR KIA+MGLE KVRRE++
Sbjct: 5   RRRDVFLGNYKLGRTIGEGSTGKVRVAEHMLTGHKVAIKILNRNKIAEMGLEDKVRRELQ 64

Query: 70  IMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISG 129
           IMKLFMHPHIVQLYEVIETPT T VVME++K G+ F YI + GRLKEDEARRLFQQ+ISG
Sbjct: 65  IMKLFMHPHIVQLYEVIETPTATCVVMEFVKFGELFYYIAENGRLKEDEARRLFQQVISG 124

Query: 130 VEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIIC 189
           VEHCHRNMIVHRDLK ENVLLD+N N KIADFGFSNVMYDGHFLKTSCGSP+YAAPE+I 
Sbjct: 125 VEHCHRNMIVHRDLKAENVLLDTNLNVKIADFGFSNVMYDGHFLKTSCGSPNYAAPEVIS 184

Query: 190 GKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLIS 249
           GKLYAGPEVDIWSCGVILYALLCGFLPF + N+ +L QKIKNGVYRIP+F+S AA NLIS
Sbjct: 185 GKLYAGPEVDIWSCGVILYALLCGFLPFESENIALLYQKIKNGVYRIPNFISPAARNLIS 244

Query: 250 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKN 309
           RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKP +IIQQ +KIDEDVLQ+VV+MGF++N
Sbjct: 245 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPTAIIQQYEKIDEDVLQRVVLMGFDRN 304

Query: 310 QVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVATLPAVERMD 369
            +++S+ N+  N+ TV+Y+ LLGDRF ISDGYLGA  QESME NH RP  ATLP+ ERM+
Sbjct: 305 TLIQSIQNRTPNEGTVSYYFLLGDRFPISDGYLGAEAQESMEPNHKRPVAATLPSFERMN 364

Query: 370 NQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLTPYT 429
           ++VVGI PQIP +GKWALGLQAKANPRDIM+KVLKVLQELNVCWKKIGDY+MKCKLT  T
Sbjct: 365 DEVVGITPQIPADGKWALGLQAKANPRDIMIKVLKVLQELNVCWKKIGDYSMKCKLTTDT 424

Query: 430 PTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQSLTM 472
           PTHHQ +P+N +F N HSI++ +NNVTILQNVVKFE+Q   M
Sbjct: 425 PTHHQPLPANFAF-NKHSILLELNNVTILQNVVKFELQLYKM 465

[Close]

BLAST of Spg015522 vs. NCBI nr
Match: XP_023007684.1 (SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X2 [Cucurbita maxima])

HSP 1 Score: 729.6 bits (1882), Expect = 1.8e-206
Identity = 356/458 (77.73%), Postives = 406/458 (88.65%), Query Frame = 0


Query: 10  RNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIK 69
           R  DVFL NYKL + +G GSTGKV++A+H LTG +VAIKILNR KIA+MGLE KVRRE++
Sbjct: 5   RRRDVFLGNYKLGRTIGEGSTGKVRVAEHMLTGHKVAIKILNRNKIAEMGLEDKVRRELQ 64

Query: 70  IMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISG 129
           IMKLFMHPHIVQLYEVIETPT T VVME++K G+ F YI + GRLKEDEARRLFQQ+ISG
Sbjct: 65  IMKLFMHPHIVQLYEVIETPTATCVVMEFVKFGELFYYIAENGRLKEDEARRLFQQVISG 124

Query: 130 VEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIIC 189
           VEHCHRNMIVHRDLK ENVLLD+N N KIADFGFSNVMYDGHFLKTSCGSP+YAAPE+I 
Sbjct: 125 VEHCHRNMIVHRDLKAENVLLDTNLNVKIADFGFSNVMYDGHFLKTSCGSPNYAAPEVIS 184

Query: 190 GKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLIS 249
           GKLYAGPEVDIWSCGVILYALLCGFLPF + N+ +L QKIKNGVYRIP+F+S AA NLIS
Sbjct: 185 GKLYAGPEVDIWSCGVILYALLCGFLPFESENIALLYQKIKNGVYRIPNFISPAARNLIS 244

Query: 250 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKN 309
           RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKP +IIQQ +KIDEDVLQ+VV+MGF++N
Sbjct: 245 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPTAIIQQYEKIDEDVLQRVVLMGFDRN 304

Query: 310 QVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVATLPAVERMD 369
            +++S+ N+  N+ TV+Y+ LLGDRF ISDGYLGA  QESME NH RP  ATLP+ ERM+
Sbjct: 305 TLIQSIQNRTPNEGTVSYYFLLGDRFPISDGYLGAEAQESMEPNHKRPVAATLPSFERMN 364

Query: 370 NQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLTPYT 429
           ++VVGI PQIP +GKWALGLQAKANPRDIM+KVLKVLQELNVCWKKIGDY+MKCKLT  T
Sbjct: 365 DEVVGITPQIPADGKWALGLQAKANPRDIMIKVLKVLQELNVCWKKIGDYSMKCKLTTDT 424

Query: 430 PTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
           PTHHQ +P+N +F N HSI++ +NNVTILQNVVKFE+Q
Sbjct: 425 PTHHQPLPANFAF-NKHSILLELNNVTILQNVVKFELQ 461

[Close]

BLAST of Spg015522 vs. NCBI nr
Match: XP_023529960.1 (SNF1-related protein kinase catalytic subunit alpha KIN10-like [Cucurbita pepo subsp. pepo])

HSP 1 Score: 724.9 bits (1870), Expect = 4.5e-205
Identity = 356/462 (77.06%), Postives = 406/462 (87.88%), Query Frame = 0


Query: 10  RNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIK 69
           R  DVFL NYKL + +G GSTGKV++A+H LTG +VAIKILNR KIA+MGLE KVRRE++
Sbjct: 6   RRRDVFLGNYKLGRTIGDGSTGKVRVAEHMLTGHKVAIKILNRNKIAEMGLEDKVRRELQ 65

Query: 70  IMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISG 129
           IMKLFMHPHIVQLYEVIETPT T VVMEY+K G+ F YI +  RLKEDEARRLFQQ+ISG
Sbjct: 66  IMKLFMHPHIVQLYEVIETPTATCVVMEYVKFGELFYYIAENDRLKEDEARRLFQQVISG 125

Query: 130 VEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIIC 189
           VE+CHRNMIVHRDLK ENVLLD+N N KIADFGFSNVMYDGHFLKTSCGSP+YAAPE+I 
Sbjct: 126 VEYCHRNMIVHRDLKAENVLLDTNLNVKIADFGFSNVMYDGHFLKTSCGSPNYAAPEVIS 185

Query: 190 GKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLIS 249
           GKLYAGPEVDIWSCGVILYALLCG+LPF + N+ +L QKIKNGVYRIP+F+S AA NLIS
Sbjct: 186 GKLYAGPEVDIWSCGVILYALLCGYLPFESENIALLYQKIKNGVYRIPNFISPAARNLIS 245

Query: 250 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKN 309
           RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKP +IIQQ +KIDEDVLQ+VV+MGF++N
Sbjct: 246 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPTAIIQQFEKIDEDVLQRVVLMGFDRN 305

Query: 310 QVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVATLPAVERMD 369
            +V+S+ N+  N+ TV+Y+LLLGDRF ISDGYL A  QESME NH RP  ATLP+ ERM+
Sbjct: 306 TLVQSIQNRTPNEGTVSYYLLLGDRFPISDGYLSAEAQESMEPNHTRPVAATLPSFERMN 365

Query: 370 NQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLTPYT 429
           ++VVGI PQIP +GKWALGLQAKANPRDIM+KVLKVLQELNVCWKKIGDY+MKCKLT  T
Sbjct: 366 DEVVGITPQIPADGKWALGLQAKANPRDIMIKVLKVLQELNVCWKKIGDYSMKCKLTTDT 425

Query: 430 PTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQSLTM 472
           PTHHQ +P+N +F N HSI++ +NNVTILQNVVKFE+Q   M
Sbjct: 426 PTHHQPLPANFAF-NEHSILLELNNVTILQNVVKFELQLYKM 466

[Close]

BLAST of Spg015522 vs. NCBI nr
Match: XP_008452375.1 (PREDICTED: SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X3 [Cucumis melo])

HSP 1 Score: 720.3 bits (1858), Expect = 1.1e-203
Identity = 361/471 (76.65%), Postives = 404/471 (85.77%), Query Frame = 0


Query: 1   MDKRIKHEDRNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGL 60
           M+K+ K+E+R+++VFLKNYK+ KILG+GSTGKVK AKHKLTG +VAIKILN +KIAKM L
Sbjct: 1   MEKKGKYEERSIEVFLKNYKVGKILGVGSTGKVKAAKHKLTGHQVAIKILNHRKIAKMSL 60

Query: 61  EQKVRREIKIMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEAR 120
           E KVRREIKIMKL  HPHIVQLYEVIETPTDTYVVMEY+K G+ FDYI +KGRLKEDE R
Sbjct: 61  EHKVRREIKIMKLLKHPHIVQLYEVIETPTDTYVVMEYVKCGELFDYIVEKGRLKEDEGR 120

Query: 121 RLFQQIISGVEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSP 180
           R+FQQII GVEHCHRNMIVHRDLKPENVLLDSNFN KIADFGFSNVMYDGHF KTSCGSP
Sbjct: 121 RIFQQIICGVEHCHRNMIVHRDLKPENVLLDSNFNVKIADFGFSNVMYDGHFFKTSCGSP 180

Query: 181 DYAAPEIICGKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFL 240
           +YAAPE+I GKLYAGPEVDIWSCGVILYA+LCG LPF N N+PIL  KIKNGVY++PS+L
Sbjct: 181 NYAAPEVISGKLYAGPEVDIWSCGVILYAILCGSLPFDNENIPILVHKIKNGVYKLPSYL 240

Query: 241 SAAAGNLISRILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQK 300
           SA A NLIS +LVVDPLRRI+IPQIRQHPWFQ HLPRYLAVKP+S I Q +KIDEDVLQ+
Sbjct: 241 SAEASNLISSLLVVDPLRRISIPQIRQHPWFQPHLPRYLAVKPLSTIPQLEKIDEDVLQQ 300

Query: 301 VVMMGFNKNQVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQES--MEANHMR-P 360
           VVMMGF+KN+++ESLHNK QN+ TVTY+LLLG+RF IS+GYLGA  QES   E  HM  P
Sbjct: 301 VVMMGFSKNKLIESLHNKTQNEGTVTYYLLLGNRFPISNGYLGAEIQESTVKEPKHMNDP 360

Query: 361 TVATLPAVER-MDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKI 420
            V  LP++E  M NQ V + PQIP NGKWALGLQAKA+PRDIMMKVLKVLQELNV WKKI
Sbjct: 361 IVGPLPSLEHIMQNQAVAVTPQIPNNGKWALGLQAKAHPRDIMMKVLKVLQELNVYWKKI 420

Query: 421 GDYNMKCKLTPYTPTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
           GDYNMKC LT  T THHQ       +  NHSI + VN++TILQNVVKFEVQ
Sbjct: 421 GDYNMKCMLTSDTSTHHQ------QYMPNHSIRLEVNHLTILQNVVKFEVQ 465

[Close]

BLAST of Spg015522 vs. ExPASy Swiss-Prot
Match: Q38997 (SNF1-related protein kinase catalytic subunit alpha KIN10 OS=Arabidopsis thaliana OX=3702 GN=KIN10 PE=1 SV=3)

HSP 1 Score: 590.5 bits (1521), Expect = 1.7e-167
Identity = 293/466 (62.88%), Postives = 361/466 (77.47%), Query Frame = 0


Query: 12  VDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIKIM 71
           V+  L NYKL + LGIGS G+VK+A+H LTG +VAIKILNR+KI  M +E+KVRREIKI+
Sbjct: 12  VESILPNYKLGRTLGIGSFGRVKIAEHALTGHKVAIKILNRRKIKNMEMEEKVRREIKIL 71

Query: 72  KLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISGVE 131
           +LFMHPHI++LYEVIETPTD Y+VMEY+ SG+ FDYI +KGRL+EDEAR  FQQIISGVE
Sbjct: 72  RLFMHPHIIRLYEVIETPTDIYLVMEYVNSGELFDYIVEKGRLQEDEARNFFQQIISGVE 131

Query: 132 HCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIICGK 191
           +CHRNM+VHRDLKPEN+LLDS  N KIADFG SN+M DGHFLKTSCGSP+YAAPE+I GK
Sbjct: 132 YCHRNMVVHRDLKPENLLLDSKCNVKIADFGLSNIMRDGHFLKTSCGSPNYAAPEVISGK 191

Query: 192 LYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLISRI 251
           LYAGPEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LS  A +LI R+
Sbjct: 192 LYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSPGARDLIPRM 251

Query: 252 LVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKNQV 311
           LVVDP++R+TIP+IRQHPWFQAHLPRYLAV P   +QQ++KIDE++LQ+V+ MGF++N +
Sbjct: 252 LVVDPMKRVTIPEIRQHPWFQAHLPRYLAVPPPDTVQQAKKIDEEILQEVINMGFDRNHL 311

Query: 312 VESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEAN-HMRPTVATLPAVER--- 371
           +ESL N+ QN  TVTY+L+L +RF  S GYLGA FQE+ME    M P  +    V     
Sbjct: 312 IESLRNRTQNDGTVTYYLILDNRFRASSGYLGAEFQETMEGTPRMHPAESVASPVSHRLP 371

Query: 372 --MDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKL 431
             M+ Q VG+  Q PV  KWALGLQ++A+PR+IM +VLK LQ+LNVCWKKIG YNMKC+ 
Sbjct: 372 GLMEYQGVGLRSQYPVERKWALGLQSRAHPREIMTEVLKALQDLNVCWKKIGHYNMKCRW 431

Query: 432 TPYTPTHHQAMPSNLSFNNNH----SIVMAVNNVTILQNVVKFEVQ 468
            P +      M SN   +NN+    S ++         NVVKFE+Q
Sbjct: 432 VPNSSA--DGMLSNSMHDNNYFGDESSIIENEAAVKSPNVVKFEIQ 475

[Close]

BLAST of Spg015522 vs. ExPASy Swiss-Prot
Match: P92958 (SNF1-related protein kinase catalytic subunit alpha KIN11 OS=Arabidopsis thaliana OX=3702 GN=KIN11 PE=1 SV=1)

HSP 1 Score: 570.9 bits (1470), Expect = 1.4e-161
Identity = 285/466 (61.16%), Postives = 358/466 (76.82%), Query Frame = 0


Query: 9   DRNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREI 68
           +  V+  L NYKL K LGIGS GKVK+A+H +TG +VAIKILNR+KI  M +E+KVRREI
Sbjct: 10  NNGVESILPNYKLGKTLGIGSFGKVKIAEHVVTGHKVAIKILNRRKIKNMEMEEKVRREI 69

Query: 69  KIMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIIS 128
           KI++LFMHPHI++ YEVIET +D YVVMEY+KSG+ FDYI +KGRL+EDEAR  FQQIIS
Sbjct: 70  KILRLFMHPHIIRQYEVIETTSDIYVVMEYVKSGELFDYIVEKGRLQEDEARNFFQQIIS 129

Query: 129 GVEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEII 188
           GVE+CHRNM+VHRDLKPEN+LLDS  N KIADFG SNVM DGHFLKTSCGSP+YAAPE+I
Sbjct: 130 GVEYCHRNMVVHRDLKPENLLLDSRCNIKIADFGLSNVMRDGHFLKTSCGSPNYAAPEVI 189

Query: 189 CGKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLI 248
            GKLYAGPEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LS+ A +LI
Sbjct: 190 SGKLYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSSEARDLI 249

Query: 249 SRILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNK 308
            R+L+VDP++RITIP+IRQH WFQ HLPRYLAV P   ++Q++KI+E+++Q+VV MGF++
Sbjct: 250 PRMLIVDPVKRITIPEIRQHRWFQTHLPRYLAVSPPDTVEQAKKINEEIVQEVVNMGFDR 309

Query: 309 NQVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESME--ANHMRPTVATLPAV- 368
           NQV+ESL N+ QN ATVTY+LLL +RF +  GYL + FQE+ +  +N MR   A    V 
Sbjct: 310 NQVLESLRNRTQNDATVTYYLLLDNRFRVPSGYLESEFQETTDSGSNPMRTPEAGASPVG 369

Query: 369 ----ERMDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNM 428
                 +D+  +G   Q+PV+ KWALGLQ+ A+PR+IM +VLK LQELNVCWKKIG YNM
Sbjct: 370 HWIPAHVDHYGLGARSQVPVDRKWALGLQSHAHPREIMNEVLKALQELNVCWKKIGHYNM 429

Query: 429 KCKLTPYTPTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
           KC+  P        M +N     + S ++  +       V+KFE+Q
Sbjct: 430 KCRWVPGLADGQNTMVNNQLHFRDESSIIEDDCAMTSPTVIKFELQ 475

[Close]

BLAST of Spg015522 vs. ExPASy Swiss-Prot
Match: Q852Q2 (Serine/threonine protein kinase OSK1 OS=Oryza sativa subsp. japonica OX=39947 GN=OSK1 PE=1 SV=1)

HSP 1 Score: 558.1 bits (1437), Expect = 9.5e-158
Identity = 278/459 (60.57%), Postives = 351/459 (76.47%), Query Frame = 0


Query: 16  LKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIKIMKLFM 75
           L  Y++ K LGIGS GKVK+A+H LTG +VAIKILNR+KI  M +E+KV+REIKI++LFM
Sbjct: 11  LGGYRIGKTLGIGSFGKVKIAEHILTGHKVAIKILNRRKIKSMEMEEKVKREIKILRLFM 70

Query: 76  HPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISGVEHCHR 135
           HPHI++LYEVI+TP D YVVMEY+KSG+ FDYI +KGRL+E+EARR FQQIISGVE+CHR
Sbjct: 71  HPHIIRLYEVIDTPADIYVVMEYVKSGELFDYIVEKGRLQEEEARRFFQQIISGVEYCHR 130

Query: 136 NMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIICGKLYAG 195
           NM+VHRDLKPEN+LLDS  N KIADFG SNVM DGHFLKTSCGSP+YAAPE+I GKLYAG
Sbjct: 131 NMVVHRDLKPENLLLDSKCNVKIADFGLSNVMRDGHFLKTSCGSPNYAAPEVISGKLYAG 190

Query: 196 PEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLISRILVVD 255
           PEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LS  A +LI R+LVVD
Sbjct: 191 PEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSPLARDLIPRMLVVD 250

Query: 256 PLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKNQVVESL 315
           P++RITI +IR+H WF   LPRYLAV P    QQ +K+D++ L  V+ MGF+KNQ++ESL
Sbjct: 251 PMKRITIREIREHQWFTVGLPRYLAVPPPDTAQQVKKLDDETLNDVINMGFDKNQLIESL 310

Query: 316 HNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVATLP--AVE-----RM 375
           H + QN+ATV Y+LLL +R   + GYLGA F ESME++  + T A  P  A +      M
Sbjct: 311 HKRLQNEATVAYYLLLDNRLRTTSGYLGAEFHESMESSLAQVTPAETPNSATDHRQHGHM 370

Query: 376 DNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLTPY 435
           ++   G+      + KWALGLQ++A+PR+I+ +VLK LQELNVCWKKIG YNMKC+ +P 
Sbjct: 371 ESPGFGLRHHFAADRKWALGLQSRAHPREIITEVLKALQELNVCWKKIGHYNMKCRWSPS 430

Query: 436 TPTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
            P+H   M +N  F    S ++  ++     + VKFE+Q
Sbjct: 431 FPSHESMMHNNHGF-GAESAIIETDDSEKSTHTVKFEIQ 468

[Close]

BLAST of Spg015522 vs. ExPASy Swiss-Prot
Match: B8BBT7 (Serine/threonine protein kinase OSK4 OS=Oryza sativa subsp. indica OX=39946 GN=OSK4 PE=3 SV=1)

HSP 1 Score: 558.1 bits (1437), Expect = 9.5e-158
Identity = 284/462 (61.47%), Postives = 351/462 (75.97%), Query Frame = 0


Query: 16  LKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIKIMKLFM 75
           LKNY L + LGIGS GKVK+A+HKLTG  VAIKILNR+++  M +E+K +REIKI++LF+
Sbjct: 14  LKNYNLGRTLGIGSFGKVKIAEHKLTGHRVAIKILNRRQMRNMEMEEKAKREIKILRLFI 73

Query: 76  HPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISGVEHCHR 135
           HPHI++LYEVI TPTD YVVMEY K G+ FDYI +KGRL+EDEARR+FQQIISGVE+CHR
Sbjct: 74  HPHIIRLYEVIYTPTDIYVVMEYCKFGELFDYIVEKGRLQEDEARRIFQQIISGVEYCHR 133

Query: 136 NMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIICGKLYAG 195
           NM+VHRDLKPEN+LLDS +N K+ADFG SNVM+DGHFLKTSCGSP+YAAPE+I GKLYAG
Sbjct: 134 NMVVHRDLKPENLLLDSKYNVKLADFGLSNVMHDGHFLKTSCGSPNYAAPEVISGKLYAG 193

Query: 196 PEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLISRILVVD 255
           PEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LSA A +LI R+LVVD
Sbjct: 194 PEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSALARDLIPRMLVVD 253

Query: 256 PLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKNQVVESL 315
           P++RITI +IR+H WFQ  LPRYLAV P    QQ++ IDED LQ VV +G+ K+ V ESL
Sbjct: 254 PMKRITIREIREHQWFQIRLPRYLAVPPPDTAQQAKMIDEDTLQDVVNLGYEKDHVCESL 313

Query: 316 HNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMR---------PTVATLPAVE 375
            N+ QN+ATV Y+LLL +RF  + GYLGA +QES+E N  R          T   LP   
Sbjct: 314 RNRLQNEATVAYYLLLDNRFRATSGYLGADYQESLERNLNRFASSESASSNTRHYLPG-- 373

Query: 376 RMDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLT 435
             D    G+ P  PV  KWALGLQ++A PR+IM++VLK L++LNVCWKK G YNMKC+ +
Sbjct: 374 SSDPHASGLRPHYPVERKWALGLQSRAQPREIMIEVLKALEDLNVCWKKNGQYNMKCRWS 433

Query: 436 PYTPTHHQAMPSNLSFNNNHSIVMAVNNVT-ILQNVVKFEVQ 468
              P     +  N SF ++ SI+M   +V   L  V+KFE+Q
Sbjct: 434 VGYPQATDMLDVNHSFVDD-SIIMDNGDVNGRLPAVIKFEIQ 472

[Close]

BLAST of Spg015522 vs. ExPASy Swiss-Prot
Match: Q852Q1 (Serine/threonine protein kinase OSK4 OS=Oryza sativa subsp. japonica OX=39947 GN=OSK4 PE=1 SV=1)

HSP 1 Score: 558.1 bits (1437), Expect = 9.5e-158
Identity = 284/462 (61.47%), Postives = 351/462 (75.97%), Query Frame = 0


Query: 16  LKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIKIMKLFM 75
           LKNY L + LGIGS GKVK+A+HKLTG  VAIKILNR+++  M +E+K +REIKI++LF+
Sbjct: 14  LKNYNLGRTLGIGSFGKVKIAEHKLTGHRVAIKILNRRQMRNMEMEEKAKREIKILRLFI 73

Query: 76  HPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISGVEHCHR 135
           HPHI++LYEVI TPTD YVVMEY K G+ FDYI +KGRL+EDEARR+FQQIISGVE+CHR
Sbjct: 74  HPHIIRLYEVIYTPTDIYVVMEYCKFGELFDYIVEKGRLQEDEARRIFQQIISGVEYCHR 133

Query: 136 NMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIICGKLYAG 195
           NM+VHRDLKPEN+LLDS +N K+ADFG SNVM+DGHFLKTSCGSP+YAAPE+I GKLYAG
Sbjct: 134 NMVVHRDLKPENLLLDSKYNVKLADFGLSNVMHDGHFLKTSCGSPNYAAPEVISGKLYAG 193

Query: 196 PEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLISRILVVD 255
           PEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LSA A +LI R+LVVD
Sbjct: 194 PEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSALARDLIPRMLVVD 253

Query: 256 PLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKNQVVESL 315
           P++RITI +IR+H WFQ  LPRYLAV P    QQ++ IDED LQ VV +G+ K+ V ESL
Sbjct: 254 PMKRITIREIREHQWFQIRLPRYLAVPPPDTAQQAKMIDEDTLQDVVNLGYEKDHVCESL 313

Query: 316 HNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMR---------PTVATLPAVE 375
            N+ QN+ATV Y+LLL +RF  + GYLGA +QES+E N  R          T   LP   
Sbjct: 314 RNRLQNEATVAYYLLLDNRFRATSGYLGADYQESLERNLNRFASSESASSNTRHYLPG-- 373

Query: 376 RMDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLT 435
             D    G+ P  PV  KWALGLQ++A PR+IM++VLK L++LNVCWKK G YNMKC+ +
Sbjct: 374 SSDPHASGLRPHYPVERKWALGLQSRAQPREIMIEVLKALEDLNVCWKKNGQYNMKCRWS 433

Query: 436 PYTPTHHQAMPSNLSFNNNHSIVMAVNNVT-ILQNVVKFEVQ 468
              P     +  N SF ++ SI+M   +V   L  V+KFE+Q
Sbjct: 434 VGYPQATDMLDVNHSFVDD-SIIMDNGDVNGRLPAVIKFEIQ 472

[Close]

BLAST of Spg015522 vs. ExPASy TrEMBL
Match: A0A6J1L5M8 (Non-specific serine/threonine protein kinase OS=Cucurbita maxima OX=3661 GN=LOC111500223 PE=3 SV=1)

HSP 1 Score: 729.9 bits (1883), Expect = 6.7e-207
Identity = 357/462 (77.27%), Postives = 407/462 (88.10%), Query Frame = 0


Query: 10  RNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIK 69
           R  DVFL NYKL + +G GSTGKV++A+H LTG +VAIKILNR KIA+MGLE KVRRE++
Sbjct: 5   RRRDVFLGNYKLGRTIGEGSTGKVRVAEHMLTGHKVAIKILNRNKIAEMGLEDKVRRELQ 64

Query: 70  IMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISG 129
           IMKLFMHPHIVQLYEVIETPT T VVME++K G+ F YI + GRLKEDEARRLFQQ+ISG
Sbjct: 65  IMKLFMHPHIVQLYEVIETPTATCVVMEFVKFGELFYYIAENGRLKEDEARRLFQQVISG 124

Query: 130 VEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIIC 189
           VEHCHRNMIVHRDLK ENVLLD+N N KIADFGFSNVMYDGHFLKTSCGSP+YAAPE+I 
Sbjct: 125 VEHCHRNMIVHRDLKAENVLLDTNLNVKIADFGFSNVMYDGHFLKTSCGSPNYAAPEVIS 184

Query: 190 GKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLIS 249
           GKLYAGPEVDIWSCGVILYALLCGFLPF + N+ +L QKIKNGVYRIP+F+S AA NLIS
Sbjct: 185 GKLYAGPEVDIWSCGVILYALLCGFLPFESENIALLYQKIKNGVYRIPNFISPAARNLIS 244

Query: 250 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKN 309
           RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKP +IIQQ +KIDEDVLQ+VV+MGF++N
Sbjct: 245 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPTAIIQQYEKIDEDVLQRVVLMGFDRN 304

Query: 310 QVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVATLPAVERMD 369
            +++S+ N+  N+ TV+Y+ LLGDRF ISDGYLGA  QESME NH RP  ATLP+ ERM+
Sbjct: 305 TLIQSIQNRTPNEGTVSYYFLLGDRFPISDGYLGAEAQESMEPNHKRPVAATLPSFERMN 364

Query: 370 NQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLTPYT 429
           ++VVGI PQIP +GKWALGLQAKANPRDIM+KVLKVLQELNVCWKKIGDY+MKCKLT  T
Sbjct: 365 DEVVGITPQIPADGKWALGLQAKANPRDIMIKVLKVLQELNVCWKKIGDYSMKCKLTTDT 424

Query: 430 PTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQSLTM 472
           PTHHQ +P+N +F N HSI++ +NNVTILQNVVKFE+Q   M
Sbjct: 425 PTHHQPLPANFAF-NKHSILLELNNVTILQNVVKFELQLYKM 465

[Close]

BLAST of Spg015522 vs. ExPASy TrEMBL
Match: A0A6J1L5N8 (SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111500223 PE=3 SV=1)

HSP 1 Score: 729.6 bits (1882), Expect = 8.8e-207
Identity = 356/458 (77.73%), Postives = 406/458 (88.65%), Query Frame = 0


Query: 10  RNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIK 69
           R  DVFL NYKL + +G GSTGKV++A+H LTG +VAIKILNR KIA+MGLE KVRRE++
Sbjct: 5   RRRDVFLGNYKLGRTIGEGSTGKVRVAEHMLTGHKVAIKILNRNKIAEMGLEDKVRRELQ 64

Query: 70  IMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISG 129
           IMKLFMHPHIVQLYEVIETPT T VVME++K G+ F YI + GRLKEDEARRLFQQ+ISG
Sbjct: 65  IMKLFMHPHIVQLYEVIETPTATCVVMEFVKFGELFYYIAENGRLKEDEARRLFQQVISG 124

Query: 130 VEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIIC 189
           VEHCHRNMIVHRDLK ENVLLD+N N KIADFGFSNVMYDGHFLKTSCGSP+YAAPE+I 
Sbjct: 125 VEHCHRNMIVHRDLKAENVLLDTNLNVKIADFGFSNVMYDGHFLKTSCGSPNYAAPEVIS 184

Query: 190 GKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLIS 249
           GKLYAGPEVDIWSCGVILYALLCGFLPF + N+ +L QKIKNGVYRIP+F+S AA NLIS
Sbjct: 185 GKLYAGPEVDIWSCGVILYALLCGFLPFESENIALLYQKIKNGVYRIPNFISPAARNLIS 244

Query: 250 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKN 309
           RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKP +IIQQ +KIDEDVLQ+VV+MGF++N
Sbjct: 245 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPTAIIQQYEKIDEDVLQRVVLMGFDRN 304

Query: 310 QVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVATLPAVERMD 369
            +++S+ N+  N+ TV+Y+ LLGDRF ISDGYLGA  QESME NH RP  ATLP+ ERM+
Sbjct: 305 TLIQSIQNRTPNEGTVSYYFLLGDRFPISDGYLGAEAQESMEPNHKRPVAATLPSFERMN 364

Query: 370 NQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLTPYT 429
           ++VVGI PQIP +GKWALGLQAKANPRDIM+KVLKVLQELNVCWKKIGDY+MKCKLT  T
Sbjct: 365 DEVVGITPQIPADGKWALGLQAKANPRDIMIKVLKVLQELNVCWKKIGDYSMKCKLTTDT 424

Query: 430 PTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
           PTHHQ +P+N +F N HSI++ +NNVTILQNVVKFE+Q
Sbjct: 425 PTHHQPLPANFAF-NKHSILLELNNVTILQNVVKFELQ 461

[Close]

BLAST of Spg015522 vs. ExPASy TrEMBL
Match: A0A1S3BUG9 (Non-specific serine/threonine protein kinase OS=Cucumis melo OX=3656 GN=LOC103493434 PE=4 SV=1)

HSP 1 Score: 720.3 bits (1858), Expect = 5.3e-204
Identity = 361/471 (76.65%), Postives = 404/471 (85.77%), Query Frame = 0


Query: 1   MDKRIKHEDRNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGL 60
           M+K+ K+E+R+++VFLKNYK+ KILG+GSTGKVK AKHKLTG +VAIKILN +KIAKM L
Sbjct: 1   MEKKGKYEERSIEVFLKNYKVGKILGVGSTGKVKAAKHKLTGHQVAIKILNHRKIAKMSL 60

Query: 61  EQKVRREIKIMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEAR 120
           E KVRREIKIMKL  HPHIVQLYEVIETPTDTYVVMEY+K G+ FDYI +KGRLKEDE R
Sbjct: 61  EHKVRREIKIMKLLKHPHIVQLYEVIETPTDTYVVMEYVKCGELFDYIVEKGRLKEDEGR 120

Query: 121 RLFQQIISGVEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSP 180
           R+FQQII GVEHCHRNMIVHRDLKPENVLLDSNFN KIADFGFSNVMYDGHF KTSCGSP
Sbjct: 121 RIFQQIICGVEHCHRNMIVHRDLKPENVLLDSNFNVKIADFGFSNVMYDGHFFKTSCGSP 180

Query: 181 DYAAPEIICGKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFL 240
           +YAAPE+I GKLYAGPEVDIWSCGVILYA+LCG LPF N N+PIL  KIKNGVY++PS+L
Sbjct: 181 NYAAPEVISGKLYAGPEVDIWSCGVILYAILCGSLPFDNENIPILVHKIKNGVYKLPSYL 240

Query: 241 SAAAGNLISRILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQK 300
           SA A NLIS +LVVDPLRRI+IPQIRQHPWFQ HLPRYLAVKP+S I Q +KIDEDVLQ+
Sbjct: 241 SAEASNLISSLLVVDPLRRISIPQIRQHPWFQPHLPRYLAVKPLSTIPQLEKIDEDVLQQ 300

Query: 301 VVMMGFNKNQVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQES--MEANHMR-P 360
           VVMMGF+KN+++ESLHNK QN+ TVTY+LLLG+RF IS+GYLGA  QES   E  HM  P
Sbjct: 301 VVMMGFSKNKLIESLHNKTQNEGTVTYYLLLGNRFPISNGYLGAEIQESTVKEPKHMNDP 360

Query: 361 TVATLPAVER-MDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKI 420
            V  LP++E  M NQ V + PQIP NGKWALGLQAKA+PRDIMMKVLKVLQELNV WKKI
Sbjct: 361 IVGPLPSLEHIMQNQAVAVTPQIPNNGKWALGLQAKAHPRDIMMKVLKVLQELNVYWKKI 420

Query: 421 GDYNMKCKLTPYTPTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
           GDYNMKC LT  T THHQ       +  NHSI + VN++TILQNVVKFEVQ
Sbjct: 421 GDYNMKCMLTSDTSTHHQ------QYMPNHSIRLEVNHLTILQNVVKFEVQ 465

[Close]

BLAST of Spg015522 vs. ExPASy TrEMBL
Match: A0A6J1F510 (Non-specific serine/threonine protein kinase OS=Cucurbita moschata OX=3662 GN=LOC111440895 PE=3 SV=1)

HSP 1 Score: 718.4 bits (1853), Expect = 2.0e-203
Identity = 352/462 (76.19%), Postives = 405/462 (87.66%), Query Frame = 0


Query: 10  RNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIK 69
           R  DVF+ NYKL + +G GSTGKV++A+H LTG +VAIKILNR KIA+MGLE KVRRE++
Sbjct: 5   RRRDVFVGNYKLGRTIGDGSTGKVRVAEHMLTGHKVAIKILNRNKIAEMGLEDKVRRELQ 64

Query: 70  IMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISG 129
           IMKLFMHPHIVQLYEVIETPT T VVMEY+K G+ F YI +  RLKEDEARRLFQQ+ISG
Sbjct: 65  IMKLFMHPHIVQLYEVIETPTATCVVMEYVKFGELFYYIAENDRLKEDEARRLFQQVISG 124

Query: 130 VEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIIC 189
           VE+CHRNMIVHRDLK ENVLLD+N N KIADFGFSNVM DGHFLKTSCGSP+YAAPE+I 
Sbjct: 125 VEYCHRNMIVHRDLKAENVLLDTNLNVKIADFGFSNVMCDGHFLKTSCGSPNYAAPEVIS 184

Query: 190 GKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLIS 249
           GKLYAGPEVDIWSCGVILYALLCG+LPF + N+ +L QKIKNGVYRIP+F+S AA NLIS
Sbjct: 185 GKLYAGPEVDIWSCGVILYALLCGYLPFESENIALLYQKIKNGVYRIPNFISPAARNLIS 244

Query: 250 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKN 309
           RILVVDPL+RITIPQIRQHPWFQAHLPRYLAVKP +IIQQ +KIDEDVLQ+VV+MGF++N
Sbjct: 245 RILVVDPLKRITIPQIRQHPWFQAHLPRYLAVKPTAIIQQFEKIDEDVLQRVVLMGFDRN 304

Query: 310 QVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVATLPAVERMD 369
            +++S+ N+  N+ TV+Y+LLLGDRF ISDGYLGA  QESME NH RP  ATLP+ ER +
Sbjct: 305 TLIQSIQNRTPNEGTVSYYLLLGDRFPISDGYLGAEAQESMEPNHTRPLAATLPSFERRN 364

Query: 370 NQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLTPYT 429
           ++VVGI PQIP +GKWALGLQAKANPRDIM+KVLKVLQELNVCWKKIGDY+MKCKLT  T
Sbjct: 365 DEVVGITPQIPADGKWALGLQAKANPRDIMIKVLKVLQELNVCWKKIGDYSMKCKLTTDT 424

Query: 430 PTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQSLTM 472
           PTHHQ +P+N +F N HSI++ +NNVTILQNVVKFE+Q   M
Sbjct: 425 PTHHQPLPANFAF-NKHSILLELNNVTILQNVVKFELQLYKM 465

[Close]

BLAST of Spg015522 vs. ExPASy TrEMBL
Match: A0A6J1EZ69 (SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111440895 PE=3 SV=1)

HSP 1 Score: 718.0 bits (1852), Expect = 2.6e-203
Identity = 351/458 (76.64%), Postives = 404/458 (88.21%), Query Frame = 0


Query: 10  RNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIK 69
           R  DVF+ NYKL + +G GSTGKV++A+H LTG +VAIKILNR KIA+MGLE KVRRE++
Sbjct: 5   RRRDVFVGNYKLGRTIGDGSTGKVRVAEHMLTGHKVAIKILNRNKIAEMGLEDKVRRELQ 64

Query: 70  IMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISG 129
           IMKLFMHPHIVQLYEVIETPT T VVMEY+K G+ F YI +  RLKEDEARRLFQQ+ISG
Sbjct: 65  IMKLFMHPHIVQLYEVIETPTATCVVMEYVKFGELFYYIAENDRLKEDEARRLFQQVISG 124

Query: 130 VEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIIC 189
           VE+CHRNMIVHRDLK ENVLLD+N N KIADFGFSNVM DGHFLKTSCGSP+YAAPE+I 
Sbjct: 125 VEYCHRNMIVHRDLKAENVLLDTNLNVKIADFGFSNVMCDGHFLKTSCGSPNYAAPEVIS 184

Query: 190 GKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLIS 249
           GKLYAGPEVDIWSCGVILYALLCG+LPF + N+ +L QKIKNGVYRIP+F+S AA NLIS
Sbjct: 185 GKLYAGPEVDIWSCGVILYALLCGYLPFESENIALLYQKIKNGVYRIPNFISPAARNLIS 244

Query: 250 RILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKN 309
           RILVVDPL+RITIPQIRQHPWFQAHLPRYLAVKP +IIQQ +KIDEDVLQ+VV+MGF++N
Sbjct: 245 RILVVDPLKRITIPQIRQHPWFQAHLPRYLAVKPTAIIQQFEKIDEDVLQRVVLMGFDRN 304

Query: 310 QVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEANHMRPTVATLPAVERMD 369
            +++S+ N+  N+ TV+Y+LLLGDRF ISDGYLGA  QESME NH RP  ATLP+ ER +
Sbjct: 305 TLIQSIQNRTPNEGTVSYYLLLGDRFPISDGYLGAEAQESMEPNHTRPLAATLPSFERRN 364

Query: 370 NQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKLTPYT 429
           ++VVGI PQIP +GKWALGLQAKANPRDIM+KVLKVLQELNVCWKKIGDY+MKCKLT  T
Sbjct: 365 DEVVGITPQIPADGKWALGLQAKANPRDIMIKVLKVLQELNVCWKKIGDYSMKCKLTTDT 424

Query: 430 PTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
           PTHHQ +P+N +F N HSI++ +NNVTILQNVVKFE+Q
Sbjct: 425 PTHHQPLPANFAF-NKHSILLELNNVTILQNVVKFELQ 461

[Close]

BLAST of Spg015522 vs. TAIR 10
Match: AT3G01090.1 (SNF1 kinase homolog 10 )

HSP 1 Score: 590.5 bits (1521), Expect = 1.2e-168
Identity = 293/466 (62.88%), Postives = 361/466 (77.47%), Query Frame = 0


Query: 12  VDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIKIM 71
           V+  L NYKL + LGIGS G+VK+A+H LTG +VAIKILNR+KI  M +E+KVRREIKI+
Sbjct: 12  VESILPNYKLGRTLGIGSFGRVKIAEHALTGHKVAIKILNRRKIKNMEMEEKVRREIKIL 71

Query: 72  KLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISGVE 131
           +LFMHPHI++LYEVIETPTD Y+VMEY+ SG+ FDYI +KGRL+EDEAR  FQQIISGVE
Sbjct: 72  RLFMHPHIIRLYEVIETPTDIYLVMEYVNSGELFDYIVEKGRLQEDEARNFFQQIISGVE 131

Query: 132 HCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIICGK 191
           +CHRNM+VHRDLKPEN+LLDS  N KIADFG SN+M DGHFLKTSCGSP+YAAPE+I GK
Sbjct: 132 YCHRNMVVHRDLKPENLLLDSKCNVKIADFGLSNIMRDGHFLKTSCGSPNYAAPEVISGK 191

Query: 192 LYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLISRI 251
           LYAGPEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LS  A +LI R+
Sbjct: 192 LYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSPGARDLIPRM 251

Query: 252 LVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKNQV 311
           LVVDP++R+TIP+IRQHPWFQAHLPRYLAV P   +QQ++KIDE++LQ+V+ MGF++N +
Sbjct: 252 LVVDPMKRVTIPEIRQHPWFQAHLPRYLAVPPPDTVQQAKKIDEEILQEVINMGFDRNHL 311

Query: 312 VESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEAN-HMRPTVATLPAVER--- 371
           +ESL N+ QN  TVTY+L+L +RF  S GYLGA FQE+ME    M P  +    V     
Sbjct: 312 IESLRNRTQNDGTVTYYLILDNRFRASSGYLGAEFQETMEGTPRMHPAESVASPVSHRLP 371

Query: 372 --MDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKL 431
             M+ Q VG+  Q PV  KWALGLQ++A+PR+IM +VLK LQ+LNVCWKKIG YNMKC+ 
Sbjct: 372 GLMEYQGVGLRSQYPVERKWALGLQSRAHPREIMTEVLKALQDLNVCWKKIGHYNMKCRW 431

Query: 432 TPYTPTHHQAMPSNLSFNNNH----SIVMAVNNVTILQNVVKFEVQ 468
            P +      M SN   +NN+    S ++         NVVKFE+Q
Sbjct: 432 VPNSSA--DGMLSNSMHDNNYFGDESSIIENEAAVKSPNVVKFEIQ 475

[Close]

BLAST of Spg015522 vs. TAIR 10
Match: AT3G01090.2 (SNF1 kinase homolog 10 )

HSP 1 Score: 590.5 bits (1521), Expect = 1.2e-168
Identity = 293/466 (62.88%), Postives = 361/466 (77.47%), Query Frame = 0


Query: 12  VDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIKIM 71
           V+  L NYKL + LGIGS G+VK+A+H LTG +VAIKILNR+KI  M +E+KVRREIKI+
Sbjct: 35  VESILPNYKLGRTLGIGSFGRVKIAEHALTGHKVAIKILNRRKIKNMEMEEKVRREIKIL 94

Query: 72  KLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISGVE 131
           +LFMHPHI++LYEVIETPTD Y+VMEY+ SG+ FDYI +KGRL+EDEAR  FQQIISGVE
Sbjct: 95  RLFMHPHIIRLYEVIETPTDIYLVMEYVNSGELFDYIVEKGRLQEDEARNFFQQIISGVE 154

Query: 132 HCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIICGK 191
           +CHRNM+VHRDLKPEN+LLDS  N KIADFG SN+M DGHFLKTSCGSP+YAAPE+I GK
Sbjct: 155 YCHRNMVVHRDLKPENLLLDSKCNVKIADFGLSNIMRDGHFLKTSCGSPNYAAPEVISGK 214

Query: 192 LYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLISRI 251
           LYAGPEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LS  A +LI R+
Sbjct: 215 LYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSPGARDLIPRM 274

Query: 252 LVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKNQV 311
           LVVDP++R+TIP+IRQHPWFQAHLPRYLAV P   +QQ++KIDE++LQ+V+ MGF++N +
Sbjct: 275 LVVDPMKRVTIPEIRQHPWFQAHLPRYLAVPPPDTVQQAKKIDEEILQEVINMGFDRNHL 334

Query: 312 VESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEAN-HMRPTVATLPAVER--- 371
           +ESL N+ QN  TVTY+L+L +RF  S GYLGA FQE+ME    M P  +    V     
Sbjct: 335 IESLRNRTQNDGTVTYYLILDNRFRASSGYLGAEFQETMEGTPRMHPAESVASPVSHRLP 394

Query: 372 --MDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKL 431
             M+ Q VG+  Q PV  KWALGLQ++A+PR+IM +VLK LQ+LNVCWKKIG YNMKC+ 
Sbjct: 395 GLMEYQGVGLRSQYPVERKWALGLQSRAHPREIMTEVLKALQDLNVCWKKIGHYNMKCRW 454

Query: 432 TPYTPTHHQAMPSNLSFNNNH----SIVMAVNNVTILQNVVKFEVQ 468
            P +      M SN   +NN+    S ++         NVVKFE+Q
Sbjct: 455 VPNSSA--DGMLSNSMHDNNYFGDESSIIENEAAVKSPNVVKFEIQ 498

[Close]

BLAST of Spg015522 vs. TAIR 10
Match: AT3G01090.3 (SNF1 kinase homolog 10 )

HSP 1 Score: 590.5 bits (1521), Expect = 1.2e-168
Identity = 293/466 (62.88%), Postives = 361/466 (77.47%), Query Frame = 0


Query: 12  VDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREIKIM 71
           V+  L NYKL + LGIGS G+VK+A+H LTG +VAIKILNR+KI  M +E+KVRREIKI+
Sbjct: 12  VESILPNYKLGRTLGIGSFGRVKIAEHALTGHKVAIKILNRRKIKNMEMEEKVRREIKIL 71

Query: 72  KLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIISGVE 131
           +LFMHPHI++LYEVIETPTD Y+VMEY+ SG+ FDYI +KGRL+EDEAR  FQQIISGVE
Sbjct: 72  RLFMHPHIIRLYEVIETPTDIYLVMEYVNSGELFDYIVEKGRLQEDEARNFFQQIISGVE 131

Query: 132 HCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEIICGK 191
           +CHRNM+VHRDLKPEN+LLDS  N KIADFG SN+M DGHFLKTSCGSP+YAAPE+I GK
Sbjct: 132 YCHRNMVVHRDLKPENLLLDSKCNVKIADFGLSNIMRDGHFLKTSCGSPNYAAPEVISGK 191

Query: 192 LYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLISRI 251
           LYAGPEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LS  A +LI R+
Sbjct: 192 LYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSPGARDLIPRM 251

Query: 252 LVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNKNQV 311
           LVVDP++R+TIP+IRQHPWFQAHLPRYLAV P   +QQ++KIDE++LQ+V+ MGF++N +
Sbjct: 252 LVVDPMKRVTIPEIRQHPWFQAHLPRYLAVPPPDTVQQAKKIDEEILQEVINMGFDRNHL 311

Query: 312 VESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESMEAN-HMRPTVATLPAVER--- 371
           +ESL N+ QN  TVTY+L+L +RF  S GYLGA FQE+ME    M P  +    V     
Sbjct: 312 IESLRNRTQNDGTVTYYLILDNRFRASSGYLGAEFQETMEGTPRMHPAESVASPVSHRLP 371

Query: 372 --MDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNMKCKL 431
             M+ Q VG+  Q PV  KWALGLQ++A+PR+IM +VLK LQ+LNVCWKKIG YNMKC+ 
Sbjct: 372 GLMEYQGVGLRSQYPVERKWALGLQSRAHPREIMTEVLKALQDLNVCWKKIGHYNMKCRW 431

Query: 432 TPYTPTHHQAMPSNLSFNNNH----SIVMAVNNVTILQNVVKFEVQ 468
            P +      M SN   +NN+    S ++         NVVKFE+Q
Sbjct: 432 VPNSSA--DGMLSNSMHDNNYFGDESSIIENEAAVKSPNVVKFEIQ 475

[Close]

BLAST of Spg015522 vs. TAIR 10
Match: AT3G29160.1 (SNF1 kinase homolog 11 )

HSP 1 Score: 570.9 bits (1470), Expect = 1.0e-162
Identity = 285/466 (61.16%), Postives = 358/466 (76.82%), Query Frame = 0


Query: 9   DRNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREI 68
           +  V+  L NYKL K LGIGS GKVK+A+H +TG +VAIKILNR+KI  M +E+KVRREI
Sbjct: 10  NNGVESILPNYKLGKTLGIGSFGKVKIAEHVVTGHKVAIKILNRRKIKNMEMEEKVRREI 69

Query: 69  KIMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIIS 128
           KI++LFMHPHI++ YEVIET +D YVVMEY+KSG+ FDYI +KGRL+EDEAR  FQQIIS
Sbjct: 70  KILRLFMHPHIIRQYEVIETTSDIYVVMEYVKSGELFDYIVEKGRLQEDEARNFFQQIIS 129

Query: 129 GVEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEII 188
           GVE+CHRNM+VHRDLKPEN+LLDS  N KIADFG SNVM DGHFLKTSCGSP+YAAPE+I
Sbjct: 130 GVEYCHRNMVVHRDLKPENLLLDSRCNIKIADFGLSNVMRDGHFLKTSCGSPNYAAPEVI 189

Query: 189 CGKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLI 248
            GKLYAGPEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LS+ A +LI
Sbjct: 190 SGKLYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSSEARDLI 249

Query: 249 SRILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNK 308
            R+L+VDP++RITIP+IRQH WFQ HLPRYLAV P   ++Q++KI+E+++Q+VV MGF++
Sbjct: 250 PRMLIVDPVKRITIPEIRQHRWFQTHLPRYLAVSPPDTVEQAKKINEEIVQEVVNMGFDR 309

Query: 309 NQVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESME--ANHMRPTVATLPAV- 368
           NQV+ESL N+ QN ATVTY+LLL +RF +  GYL + FQE+ +  +N MR   A    V 
Sbjct: 310 NQVLESLRNRTQNDATVTYYLLLDNRFRVPSGYLESEFQETTDSGSNPMRTPEAGASPVG 369

Query: 369 ----ERMDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNM 428
                 +D+  +G   Q+PV+ KWALGLQ+ A+PR+IM +VLK LQELNVCWKKIG YNM
Sbjct: 370 HWIPAHVDHYGLGARSQVPVDRKWALGLQSHAHPREIMNEVLKALQELNVCWKKIGHYNM 429

Query: 429 KCKLTPYTPTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
           KC+  P        M +N     + S ++  +       V+KFE+Q
Sbjct: 430 KCRWVPGLADGQNTMVNNQLHFRDESSIIEDDCAMTSPTVIKFELQ 475

[Close]

BLAST of Spg015522 vs. TAIR 10
Match: AT3G29160.2 (SNF1 kinase homolog 11 )

HSP 1 Score: 570.9 bits (1470), Expect = 1.0e-162
Identity = 285/466 (61.16%), Postives = 358/466 (76.82%), Query Frame = 0


Query: 9   DRNVDVFLKNYKLDKILGIGSTGKVKLAKHKLTGREVAIKILNRKKIAKMGLEQKVRREI 68
           +  V+  L NYKL K LGIGS GKVK+A+H +TG +VAIKILNR+KI  M +E+KVRREI
Sbjct: 10  NNGVESILPNYKLGKTLGIGSFGKVKIAEHVVTGHKVAIKILNRRKIKNMEMEEKVRREI 69

Query: 69  KIMKLFMHPHIVQLYEVIETPTDTYVVMEYLKSGDAFDYITQKGRLKEDEARRLFQQIIS 128
           KI++LFMHPHI++ YEVIET +D YVVMEY+KSG+ FDYI +KGRL+EDEAR  FQQIIS
Sbjct: 70  KILRLFMHPHIIRQYEVIETTSDIYVVMEYVKSGELFDYIVEKGRLQEDEARNFFQQIIS 129

Query: 129 GVEHCHRNMIVHRDLKPENVLLDSNFNAKIADFGFSNVMYDGHFLKTSCGSPDYAAPEII 188
           GVE+CHRNM+VHRDLKPEN+LLDS  N KIADFG SNVM DGHFLKTSCGSP+YAAPE+I
Sbjct: 130 GVEYCHRNMVVHRDLKPENLLLDSRCNIKIADFGLSNVMRDGHFLKTSCGSPNYAAPEVI 189

Query: 189 CGKLYAGPEVDIWSCGVILYALLCGFLPFGNGNLPILQQKIKNGVYRIPSFLSAAAGNLI 248
            GKLYAGPEVD+WSCGVILYALLCG LPF + N+P L +KIK G+Y +PS LS+ A +LI
Sbjct: 190 SGKLYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSSEARDLI 249

Query: 249 SRILVVDPLRRITIPQIRQHPWFQAHLPRYLAVKPISIIQQSQKIDEDVLQKVVMMGFNK 308
            R+L+VDP++RITIP+IRQH WFQ HLPRYLAV P   ++Q++KI+E+++Q+VV MGF++
Sbjct: 250 PRMLIVDPVKRITIPEIRQHRWFQTHLPRYLAVSPPDTVEQAKKINEEIVQEVVNMGFDR 309

Query: 309 NQVVESLHNKRQNQATVTYHLLLGDRFTISDGYLGAPFQESME--ANHMRPTVATLPAV- 368
           NQV+ESL N+ QN ATVTY+LLL +RF +  GYL + FQE+ +  +N MR   A    V 
Sbjct: 310 NQVLESLRNRTQNDATVTYYLLLDNRFRVPSGYLESEFQETTDSGSNPMRTPEAGASPVG 369

Query: 369 ----ERMDNQVVGIMPQIPVNGKWALGLQAKANPRDIMMKVLKVLQELNVCWKKIGDYNM 428
                 +D+  +G   Q+PV+ KWALGLQ+ A+PR+IM +VLK LQELNVCWKKIG YNM
Sbjct: 370 HWIPAHVDHYGLGARSQVPVDRKWALGLQSHAHPREIMNEVLKALQELNVCWKKIGHYNM 429

Query: 429 KCKLTPYTPTHHQAMPSNLSFNNNHSIVMAVNNVTILQNVVKFEVQ 468
           KC+  P        M +N     + S ++  +       V+KFE+Q
Sbjct: 430 KCRWVPGLADGQNTMVNNQLHFRDESSIIEDDCAMTSPTVIKFELQ 475

The following BLAST results are available for this feature:

BLAST of Spg015522 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_038892877.1	4.4e-213	79.23	SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X1 [Benin...	[more]
XP_023007674.1	1.4e-206	77.27	SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X1 [Cucur...	[more]
XP_023007684.1	1.8e-206	77.73	SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X2 [Cucur...	[more]
XP_023529960.1	4.5e-205	77.06	SNF1-related protein kinase catalytic subunit alpha KIN10-like [Cucurbita pepo s...	[more]
XP_008452375.1	1.1e-203	76.65	PREDICTED: SNF1-related protein kinase catalytic subunit alpha KIN10-like isofor...	[more]

BLAST of Spg015522 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
Q38997	1.7e-167	62.88	SNF1-related protein kinase catalytic subunit alpha KIN10 OS=Arabidopsis thalian...	[more]
P92958	1.4e-161	61.16	SNF1-related protein kinase catalytic subunit alpha KIN11 OS=Arabidopsis thalian...	[more]
Q852Q2	9.5e-158	60.57	Serine/threonine protein kinase OSK1 OS=Oryza sativa subsp. japonica OX=39947 GN...	[more]
B8BBT7	9.5e-158	61.47	Serine/threonine protein kinase OSK4 OS=Oryza sativa subsp. indica OX=39946 GN=O...	[more]
Q852Q1	9.5e-158	61.47	Serine/threonine protein kinase OSK4 OS=Oryza sativa subsp. japonica OX=39947 GN...	[more]

BLAST of Spg015522 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A6J1L5M8	6.7e-207	77.27	Non-specific serine/threonine protein kinase OS=Cucurbita maxima OX=3661 GN=LOC1...	[more]
A0A6J1L5N8	8.8e-207	77.73	SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X2 OS=Cuc...	[more]
A0A1S3BUG9	5.3e-204	76.65	Non-specific serine/threonine protein kinase OS=Cucumis melo OX=3656 GN=LOC10349...	[more]
A0A6J1F510	2.0e-203	76.19	Non-specific serine/threonine protein kinase OS=Cucurbita moschata OX=3662 GN=LO...	[more]
A0A6J1EZ69	2.6e-203	76.64	SNF1-related protein kinase catalytic subunit alpha KIN10-like isoform X2 OS=Cuc...	[more]

BLAST of Spg015522 vs. TAIR 10


Match Name	E-value	Identity	Description
AT3G01090.1	1.2e-168	62.88	SNF1 kinase homolog 10	[more]
AT3G01090.2	1.2e-168	62.88	SNF1 kinase homolog 10	[more]
AT3G01090.3	1.2e-168	62.88	SNF1 kinase homolog 10	[more]
AT3G29160.1	1.0e-162	61.16	SNF1 kinase homolog 11	[more]
AT3G29160.2	1.0e-162	61.16	SNF1 kinase homolog 11	[more]

InterPro

Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR000719	Protein kinase domain	SMART	SM00220	serkin_6	coord: 19..271 e-value: 2.8E-105 score: 365.8
IPR000719	Protein kinase domain	PFAM	PF00069	Pkinase	coord: 19..271 e-value: 4.7E-74 score: 249.1
IPR000719	Protein kinase domain	PROSITE	PS50011	PROTEIN_KINASE_DOM	coord: 19..271 score: 51.438587
None	No IPR available	GENE3D	1.10.510.10	Transferase(Phosphotransferase) domain 1	coord: 9..341 e-value: 2.2E-108 score: 364.4
None	No IPR available	GENE3D	3.30.310.80	Kinase associated domain 1, KA1	coord: 378..482 e-value: 4.8E-14 score: 54.5
None	No IPR available	PIRSR	PIRSR000620-1	PIRSR000620-1	coord: 21..263 e-value: 1.3E-17 score: 61.6
None	No IPR available	PIRSR	PIRSR037921-1	PIRSR037921-1	coord: 24..165 e-value: 8.0E-14 score: 49.5
None	No IPR available	PANTHER	PTHR24343:SF475	NON-SPECIFIC SERINE/THREONINE PROTEIN KINASE	coord: 8..468
None	No IPR available	PANTHER	PTHR24343	SERINE/THREONINE KINASE	coord: 8..468
None	No IPR available	CDD	cd14335	UBA_SnRK1_plant	coord: 293..331 e-value: 4.39626E-15 score: 67.2322
None	No IPR available	CDD	cd14079	STKc_AMPK_alpha	coord: 16..271 e-value: 3.67384E-177 score: 495.25
IPR017441	Protein kinase, ATP binding site	PROSITE	PS00107	PROTEIN_KINASE_ATP	coord: 25..48
IPR008271	Serine/threonine-protein kinase, active site	PROSITE	PS00108	PROTEIN_KINASE_ST	coord: 138..150
IPR015940	Ubiquitin-associated domain	PROSITE	PS50030	UBA	coord: 292..332 score: 12.426409
IPR028375	KA1 domain/Ssp2, C-terminal	SUPERFAMILY	103243	KA1-like	coord: 328..467
IPR011009	Protein kinase-like domain superfamily	SUPERFAMILY	56112	Protein kinase-like (PK-like)	coord: 15..272

Relationships

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


Feature Name	Unique Name	Type
Spg015522.1	Spg015522.1	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

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