Sed0000555 (gene) Chayote v1

Overview


Name	Sed0000555
Type	gene
Organism	Sechium edule (Chayote v1)
Description	Protein kinase domain-containing protein
Location	LG02: 31285550 .. 31326219 (+)
RNA-Seq Expression	Sed0000555
Synteny	Sed0000555

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptide

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

ATGGGATTTGAAGAGCGGTGTTTATTTCCAGACGACAAATACAATACCGTGGCATGGACGGAGGCAGAAAGGTTTAAAGCAGAGGGAGAGATCGTTGGTGTTAAACAACAACGTTACCCAGAAAAGGAAAAAAAAAGAAAAAAAAAAGAAAAAGAGAAAAACCAATCTCTCAACCCAACTCTGCCACTGTCACTGTCACTGCAAACCAATCAATCAATCTCCAGATTCGGGATGGGAAACTGCGGCACCAGAGAAGAATCTGCAGTTGTTTCCGATGCTCAAGGTATTTTCCTCACAAAATCCCAGATCTAGGGCTTTTTCTCCTCCTTAATTCTACTACATTTCGCTGTTCTACAGTTCCGCAGCTGCATTCTGTGTCGTCTTCCAACAATGCTACTGATAGAAGGCATATCCATAGCCGGTCCGTGTCGGATCTAAGCGAGCCTTCGACCCCTCGCAACCTCGAGGACTTTCGCAAGAATTCTGTGCTTTATACCCACATTATCGCCTTCACATTGTATGAACTGGAAACTATCACCAAGAGTTTCCGTTCCGATTACATTCTCGGAGAGGGCGGTTTCGGAACTGTTTATAAAGGCTACATTGATGAGAATGTCCGGGTTGGCCTCAAATCTCTGCCTGTGGCTGTTAAGGTTCTCAATAAGGAAGGCCTCCAGGGCCACCGAGAATGGCTTGTATGTCTCTTCTCTCAAATCCCTTTGTTTTTCTCTCTTTGGTATTTGATTCTCGTGGTTTGTTTGTTATTGTAGACGGAAGTCAACTTTCTTGGTCAGCTGAGACATCCAAACCTTGTGAAGTTGATTGGTTACTGCTGCGAGGACGATCACAGATTGCTTGTCTACGAGTTCATGTTTAGAGGAAGCCTTGAAAACCACCTCTTTCGAAGTACGCACCCATCTTGCCCTCCCTCTTATTTATTTCTTGGATCAATGATCTATAATGCATTGTCCCCTATGGGCTGCGCACTTCTCGACTTGAGGGTGCGCTCCCCTTGAGGTCCCATATTTGAGGCGGTTGTAGAAATTAATTTCCTAGACAACCCCAAATTTTGCCTCTGTTCCTATGTTATCTCTCGGTGCTTGGTCTAGGAATGGGCGTGGTTACTCCAGAATAGGAGAGCGAAGCTCTGGTTTCCAACTATGTTTGATTCTATGGGCCACTTAAACTTATGGGTAGATGAAGTAGGTTATATGGATGATTAAGATTTATTCACTAAAGCATTAAGCACGCTGCAGCTTAAATTGAACGTCTGGTCTCTGCCCCCACTTCAACCTACAAAACATACAATCTATTCTTTATATGATTGTTTGATATATGGTATCCACATTACTTATTTCAAGATAATAATGTATACACATTAGATATTACTTAACACACGTAATTGGAAAATGATGTGCATTACTTTTATTTAATTATTACTATTATTTTTATTTCCGTGACTTATTTTCTAGTTTCCTCGATTGCATGATTGTTTACATGGAGGATGCATGACAGATGCCACTCTCAACATAATCATTTATTTTAGTTTCTGGTCATCTGACATATTTATTGGCAAATCATTCACATGGCATTCGATTATACCTGACGGTGTAGAACATCACTCTCATTTTAGCTATTCAGTCGGTTCATTTTGACCTCGTATTTTGTATTATGTGCACTATTTTTGTTCTTACAGTATGACATAATCTTGATGTAGGATTAGGGGAAATAAAGTGTGTATGGGAAGCAAACTAAAAAAATTGAAAGGAATTGATAATCATTTTGTTTTTGGTTTTAATATATAGAATATCTATCCCAAGGGTGGCGCAGTGATCGAAAACTTGGGTTTTGAAGGTGTGCTCCCCTTAAGGTTCCAGGTTCGAGATTCACTTGGGAACTTAATTTGTAGACACCTCCTGTGTCTCCATTCCTTTGATGTCTCCCAGTGCTTAGGACAGACGCGATTACCCAGGGTAAAGTTGAGAGAAACTCCAATTTCTCAGTTTCCAAAAAAAAAAAAAAAATCTAGAATCTCAAATGGAGTGAATGAGTTCACTCCAAAGGATATGAGCCAAATCTTTGTTGAATTATGTCAAACTACCAATCAATCCAAAAGCCTAAGCTTATGGATTGGGGTAAATTTAATTATATCAATCAACACTCCCCCTCACTTGTGGGCTTTGAAATTTGAGAAATGCCCTACAAGTGGACTTTTAATTTTAATTGGGGATGAAATGACTTGGCAGGGATTCAAACTCATGACCTCCTGCTTTGATACCATGTTGAATTATGTCAAACTACCAATCAATCCAAAAGCCTAAGCTTATGGATTGAGGTAAATTTAATTATATCAATCAACAATCTTCATTATCTTCCTGATAAAGAATGCATCGCTACGCCCTAAGCAAAAAGAAAAAATACCTTGTTGCGGTCCTTGAAAGGGGTTTAAGGGTCTTGGAACTCCGGTATTTGGACTTGTGGATTAAGTTAAGAAGCTAGAGGTGTTGAGGAGGCTTAAGTACTATGATGGGGGGGCTTAATGAAGTGAAACATTTAAGGAGGAGCCTTCTTTGTTAAATGTTGAGTTTGCTGAGTTGGTCAAACTGGAAAGTGTGAGTTGGAGGCAGAAAGCCAAGGTCAGGTGGGCTAATGATGGGAATTGTAATACTTCTTATTTTCATAGAGTTGGAAGTAGAAGAGTAAACAAAAAAATTATTGGCTCATTTGGAAATGATGCTGGCGATTTGTTGAAGACCAAGAGATTGAGGAGGAGATATTTTCATTTTTCCCCTTCAACTGTATGGTCCAACAATTGTGTATGAATCATACCATGCAATAGAAAAGCTTCAAAGTGAAGTTTCTACACTCGGCCTTCACTTGTGACATACCCAAAAGTTATACTCTATGTTATACATATTCTAAATGTCAATAGGTTACTTTTAAGGTTTATTTGTAGATTGTACATAGTCTAGCTAATTCCTTTGTGAAAAAATGGATTTGAGGTGTAGTAAAAAGAGCCTTTGTGCTTTATTTTAGTCTAGAAAAAAGTTTCCCAATTCTATGTGTTCGGAATACAAACAAAGTGTAATCCCACATTGGTTAAATAAGGGGTAGATCATTGGGTAGATGAGGGAGGACAAACATCTTCATTAGTATAAGGCCTTTTGGGTGAAACAAATAACCAAACCATGAGGGCTTATGCCAAAGTGGACAATATTATACCAATGTGGAGATTCGCTCGAGGGTTTTGTCGTCCCTTAACAAGTGGTTTTAGAGCAGTACCCCTGCTCAATGTTTTAAAAGGCTAAAGGTGGCCTTGAGGCTTTTCTTCTTGAAGAGGTGAGGCGTAAGCCTCAATTTTAATTAATAACATTATAAAAATTCTAAATTTTTGTAATCATGTATGGTAAAATGTAATACTTAGAAATACATAAAACGTCACACACTCAGGTGCAACACTAATAAGATTGATTTTTTTTTTTTGGAATAAGAAACAATTTCACTTGAATGGAACATAAGTGAATTCTCCAAACCAATTAGTGAATACAACACAAAACTCCAAAAGGAGATGCGAGAGAAAAATAAGCCAACAAATTATCAAATTAAATTGACAGTTCTGAAATGATTTAAGCCCTTGTATTATAAAGAATAGAAAAATAATTAATATTATTCTTCTAGTAATTCTATGAAGCATAGAGACTTTAAGCCTTAGTGCATTATCATAGAGGTGTAAGCCTCTCTTGTATGAGGCGTAAGCCTCTTATGATACTTCAAAGGCTTAAGACTCGAGGCTAAAAGTTAGTTCTTTTCCTTGAGGTGAGTGTCAAGGCGTAAGTCTCAATAGCCTTTTAAAACATTGCGGGCCTTAGCCTTACTGGAAGTATCATCGGGTGTAAACAAAGAATTTGTGAGCCTTTATATGGTATGTATGGCATGAAATTGTCATAATGAAAATATGTAGTTGAGTTGCCTAATGTGTACTTCGGTGGAGTGCTTTTAAATGTGCTTGTAATTGAACATCTGTGTACTACAAGTGAGGAGTGCTTTTGAAATGGTTGTCTAGTGTGGGGTAGCTGTTGCGTGCTCTAGTGTGGAGTGCTTCTGAAATGGTTGCCTTGGTGAGGGGTAGCTGTTGTTTCTCAAACGTAAATTGGGTGGATACGTGATTGAACTTTCCTGTTGGCTTAAGTGTAATTCGAAAGGACTCGTAGTTTGAGTTATGGTGTGCTCAAGTCTAATCCAACAAATGACTATCCAGTAAGGGAGACTCACATGTGGTACTTTGTTCGAGGGGAAGATTTCTGGGAATACAAACTCCCACATTGGTTAAATAAGGAGTAAATTATGGGTTTATACGGGAGAATAAACATATTCATTGATATGAAACCTTTTGGGTGAAACCAAAAACAAAGCCACGCCACGAGGGCTTGTATTGTAAGTGGACAATATCATACAAATGTGGAGATTCCTCGAGAGTTTTTCGTCCCTTAACACTACATAGTTTAGGTTGCATGCTTAGAATAGAATCATTTAAGCTTGACTTGATCAATCTTGTTTGAATCTAGACAAGTTTTCTTGTCTTCATCCATTCGAATCTAGACGAGGTCCATCTTCATTTGTAACTACGTGTGTCCTCTTGCCTACAACTTAGGTCTATACTCGACGACAACCTATTATTGATCCATCCATTCCAGTTGCATGCCCATTACTAGAGGCTTCTTCCTCATTGGATTTAGGGATGAGTGATGATCTTCCTATTTCTCTTTGTTAAGGTAAACATAAGTGCACTCATTCCTCTTTTGTTTCGTATAACCATTTGTCATCTTTGACTTGATCTTTCATTGCATCCTTGGAGTCTGTGCCTATTCCTAAAACTATGCATGAAGCTTCGTTTAACTCTGTTGGTGTGCAACAACGATAGAGGAGATGACTGCTTTAAAGGACAACTATACTTTAGATTTAGTTTCTCTTCCTACATGAAAGAAGTCTATTAGTTGTAAATAGGTGTTTGTAGTTAAAATTAATCTTGATCGTTTTGTAGTTTGGTCGAAAGCTCGTCTTATTGCTAAGGGCTATACACAAGCGTATGAAGTTGATTATGATGATACTTTTTCTAATGTTGCTAAAATGGCTTTGGTAAGGTTATTTGTTTCGTTGGCATCTATTTGTCATTGACCATTGCATCAACTTGATATAAAAGTGTTTTTCTTCATGGTGACCTGCAAGAGGTGATGTATTTAGAGCAACCACCAAGGTTTGTTGCTCAGGGAGGAAAGGTAAGGTATGTTGCCTTCTTAAATTTTTGTATAAATTAAAACAGAGTCCACAAGCTTGGTTTGAAAAATTTAGTCATATGGTAAGAATCTTTGAAATGAGAGAGAGCAAGTCAAATCATTATGTTTTCTTTAAGAAGTCAAAGAATGATATCTTCTTGTTAGTTGTACATGTTTATGATATTGTGATTATCGGTGTTGATGTATTGGGTACTCAAGACCTTTCTTGATAGCCAGTTTCATACAAAAGATTCGAGTATGTTGAAATACTATTTAGGAACTGAGGTAAAAATATGTTAGAAGAGAATTTTATTATCATTGAGAAAATATATACTTGATTTATTGACTGAAACAAGGAAGTTAGGGGCTAAGCCATGTAATACTCTGATGATGCCCAATTTACACTTTATGAAAGCAGGGGAATTGTTGAAAGACCTTGAAAGGTGTAGAAGATCAGTAGGAAAAATTAATTATCTTATTGTGACAAGACCAGAGATAGCATATTTAGTGAGTATTGTGAGCTCATATATGTCTTGTCCTAAAGTTGATCGTTAGGCTACATTGGAACAAGTTTTGTGTTATTTGAAGGCTTCTCCTGGCCGTCGTTTATTATATAAAGATTATGGTCATACTAGATTGATGCCTTTTCAGATGATGATTGGATACAATTTAAGGAAGATAGAAGATCAACTTTAGGGTCTGTGTATTTTTGGGTGGTAATTTAGTTTCTTAGAAGAGTAAGAAACATAACGTAGTATCACGTTCAAAGTGCTGAATCAGAATATAGGGCAACAACGCAGTTTTTATGTGAATTAGTTTGGATATGCGGCATATGCCAATGCCTCATTGAATTGGGATTTGATATCACAGTGCCGACCAAATTATGGTTTGATAACCAAGTAACTATTCATATTGGATCTAATTGGGTTTTTCAGTAGCAGACTAAATACATTGAGGTCGCTTGTCATTTGATACGAGAAATGAAACAAAAGGTGTGGTCTCCACGGAATATGGGAAGAGTGGAGAACAACTACAAGATATCTTCACAAATGCATTGAATGAAGCACATATAAGATTACTTCTCTAACAAGTTGGACATAATTAACATAAATGCTCTAATTTGAGAGGGAGTGTTAGAAAGGACACAAAAGGTGTGGTATCCACGAGATATGTGAAGAGTAGAGACAAAGGCATTGAATGAAGCATGGATGGATTACCTCTCTGACAATTGGACATGATTAGCATATATGCTCCAACTTTGAGGGGAAGTGTTAGAGGTTTAATATTAGTGCAATTGTGTATTTCGTTATTATTTCGATTATATTTTCCTTTATTGTCTTTTTACCTTTTTATGGTTAGGTCAACTTTGTATACTTTTGTATATATTCCTCTAATGAATAGAATGTGACATTCTTAATCTCTCAAATCTTAGCATTAACGCTTAAAAATTTTGTTTTGTGAACATTTTAGTAGGCATTTGTAGGTTAATGAACTTTTGTTCCTTATTGGATGGAATTGGCTTCTGTAATTATGTGAGTTAATTTCAAATGGTAATTGAATTTTCATTTTATTTTAATTCTTTTTCATAGTTGTAAAAACTATTTGCATTTGATCTCTTAATATAATATAATATAATATAATAAATAAATAACGTGTCCTCAACGCGTCCGTGCTCTACATTGTCAAAAAATGGTGTATCTCGTGTACGTGTACTGGTGTACATGCTTCTTAGGTATTTGTAGTCCTACATTTCTTCACTTTCACAGTTCACTATACGAATGAGAGAATTTGTTTCTTGTTAAAAATTTTTTTTTTACTCAAATCTCTCCGCTTAATGGTTGATGGGTGACTTTACATGATCCAACATAAAAAAAACATTATATTTTTAACGCAATTAGGGAGACTTCATTTCTAGTAAATGTATGGGTCTCTATATTATTTTAAAAATTTATCTAGGTCTTCTGTGTAATGAAGTTTCTTTTATTTATTTATTTTTTCGTTATATATACTTTAAGAGTTTATGATGCTCATTTCATTTTTTCCTTGGTTGATCTTTTTCATGTTTCGTATCTCTCACACACAAATTTTAAAATAAATCAGCTAACTCCTTTTTCTCCCCGCCTAAGGGCACTAGATTTACTTCAAATTTTAACTGCACCGTTCTTGTGGTAAGAAAAAGAATAGCTTCATTTGCATATTAACTGGTAACGTTTATTGTATAATTTCTGCTACTGTCGATGTTTTGGGATTAGATAGTTCACCTTCTTGTGTCATTCTCCTTGGTGATGATAAGTTTATGTTTCTGATAGAATCTACCACAATTTTATATTAAACTACGATAAATCTCTCGAGAGAATCTCTCAAAGAGCCAGAGTACATAGACGACAATTCAATTGCATGATTGACAATGACCTAACAACTCCTATTCATAACCCTAAACCCTAATTTGACCTAATTAATAAAAGACTAATAATAGGCCCAAGCCCAATACATTTAAAATAGCAATTAACTAATAATTAATAAATACTAATATTCCTAAAATGTCAAGGCCAGATCGTATCAATACTTTCCCCCCCAAGAGCCACCTTGTCCTCAAGGTGTTCCATCTCCGATGCCATCTTTTACAGCCTCGTCTTATGGCAAAAAGTCTGTCACATCAGCATCCTGGCACTCGTGCACATCCCGAACGACCCACACATCCAAGTTCTGGAGCTCCTTCTTTTGACAACGATGTCCTGGGACAAATTGTTCATCGCAGTGGAAGCATAACCCTTTGTCCTTCCTAGCACGAATTTCGGCTTCAGTGAGTTTTTTACAAGATGTCGGGTGAACGGTTGTAGTCCTGTGGGACAAAATCTCTGTGCTTCTAGTTCCCGAGACAATTGTTCTTGCTTTAGCCTTGACTGTTGCAGAAGTACTTCCCTCGTTTTGGGCAGCCTGAAAAGCAAAATCATCCTCAATCACTTGGGCCATAAACATTTTCTCTTCAATGCCCACTGGTTGTAGTTTACGCATCGTGCTCCATATCTCCTCTTTCAGTCCACTTTCCCACTTCCCCTCCAATGCATTCATACTGATATCGCGCATTCCCTTAGCAAAGCGCTCAAAGCTCCGGCGGTATTCCTTCACCGTTCCTATTTGCTTCAAACTCATGAAGTTGGCATACTTATTGGCCTGGGCCACCGGTTGGAAACGCTCCAACAACCCATCTTTGAATTCGTTCCACGAACGAAAAGGAGCACGGTCCTCCTCATACTGAAGCCACTCCAATGCCTCCCCTTCTAAACATAACCCTGCTACCTCAACGCCTTCATATTCAGTCAACTTGTTTACTAGGAAATAATGCTCGACCCGACTCAACCATCGTATCGGATCCTCATCAACAAGACACTTGAAAATCGACATCTCCAATTTTCTAAATCTCCTGTTACATCCCGGTCCCTCCCTTCCAACTGCTCTCTGACTTCCCCGTTAAAATCTTTCTTCTCCTCCCCACCCAAAATCTCGTCCCCTATTCCGGACATTGTCACCCCACCAACGATCATTCCAACCGTTATGCGCCAACGGCCTATCATAGCCCATGCGCAACCTCCTCTCCTCCAGGACCCCGTTTCCTCTCCCAATGACTCTCGGATCTCCCCTTTGATCGAACTCCGGTCCCGGTAAATCGTCAACCCAATTTCAGCCCCGATCATTCCAACCGTCATGCGCTAATGGACTGTCATAGCCGATGCGCACCCTTCTCTCTTCTAGTAGCCCGTCGCCCCTCCGGTCAAACTTAGCATTTCCCTGACGATCGAGCTCTGGTCCCGGTCGATTTTCCCCGCTCACATTCCCACGTAACTCCTCTCTCCAGTCCACCCTGACTAGCCCAGACCGTCCCGGTCCAGCCAGCCCACCTGCACATGGCCTACCCACGCCCCACTCGAACACGCCAGCACCTGACCCACCCCGCACCCCCGCGTCCTAGCTCCACGCCCGTGCACGAACCCTCTGCAGCCTCCACGCCCGAGCCCTCAGACAACATCGCCACCGACACCAACCGTGCCCACCTCGGCGCCTGCTGCCGCGCCTCTGGGTTCTGACGTCGAGCCCGCCTTTACGCCAGCCGCTGCCCTATTCGTTTCGACTGTCGAGTCCACGTCTGGTACCTCGATTACAATCCTCTTCCCTTTATCCGCTTTGTTCAAATCCATCAACAATTGCAAATTTCGGTTTAACATCTCGAATTGTAAACCAAACTTCGCATCCTGCTGCTCAAATTTCAAATCCATCTTTTTCCCTAAACGTTCCTCAATCGATTCCATCTTTGCTTCCACATCTTTTAACCTTCTTGCCAAATCAGCCGACCCTTCGCATTCTTGCATCCTTGTTTCCATCTTAGTACTCACCATTCCTGGATCGGTAAATGGCTCTGATACCAAAATGATAGAATCTACCATAATTTTATATTAAACTACGATAAATCTCTCGAGAGAATCTCTCAAAGAGCCAGAGTACATAGACGACAATTCAATTGCATGATTGACAATGACCTAACAACTCCTATTTATAACCCTAAACCCTAATTTGACCTAATTAATAAAAGACTAATAATAGGCCCAAGCCCAATACATTTAAAATAGCAATTAACTAATATTCCTAAAATGCCAAGGCCGGATCGTATCGGTTTCTTATTAAGAAAATATATATTTATGGTATTAGTGGTTATTTAAAAGTTTATAGTACTTGGACTTGCTCCACTTTGATTTATTATCGTACTAAATTTTTTACATAATCTTTCCTGTGGGGACTCAGAGACATCTGTTCCATTGCCATGGGCAAGAAGAATGATGATAGCTCTTGGAGCAGCCAAGGGACTTGCTTTCCTACACAATGCTGAAAGGCCCGTTATCTATCGGGATTTTAAAACCTCTAATATACTGTTGGACTCTGTATGTGAAGTTTATTGTGAACCAACATTGTTATCATTCCTTTCTCAAGCTTGTTCATGAGAATATATTTTTTCTCATTTTGGTACCACATGGCCGATTATTCTGCAGGACTATGCAGCCAAGCTTTCTGATTTTGGGCTTGCAAAAGCTGGACCTCAAGGTGACGAGACACATGTTTCAACTCGAGTTATGGGTACTTATGGTTATGCTGCTCCCGAATATGTCATGACTGGTACGAACTTCTGTTTGTGATTGGAACTAGCACAAACTTCTCTTTTGCTTGATATATACACATTCCATTTTTGCAAATGTATCTGTTAGATTTTTGTATTTTATGGCCTCTCTAAGGATTTCATCTTTATTACTTTTTCTAGCCCCGTCTTTTATCTCAAGGTGAAGCCATTTTCAATATAGGATCCTCTATGAAAGGAAGAGGCTATCCTTAGCAGCAACAAAGCGCATAAGAGCTCTTAAGGCTCTATGGACATTGTTCGCTTACTCCTTGAAACTAAAAATTGATTGATGATTCAAGCAGTTAGTAGATAACATCATGGCTCCAAAGATATGAATGCTTCTATATATACACATACATACACACTTTTTGACAAAATAAAACTTCTCGACTTAAATAGTGGAAAAAGACAGCTCAAAAAATATAACTCAACAAACGAGTGAAAAGAAAAACAATGAAAAATGTTTTAAAACCTAGAGGAAAATATTCCTAAATGAAGATTTTATCAACTCGGTACGGGGGTGTTTGGGCCACCAAGAATAAGGGAGAGAAAGAGAATGGGGATGATTCCCCGTGTTTGGGCCACCAGGAATCATTTCCTCCATAATCACGTTTTTCAAAAATCACTTTTTTTTATTCTCCCCCTAACTACTTTTTATTCTCTCTCCAACAACTTTTCATACATCACATCACTATTTTTCACCCACATTATATTCATTATTTTATTTTTCTCATTATCATTACTTTTATCTCAAACAAAAATAATCATTCTCCCCATAATTATTACCTTCACCCTAAACACAAATAACCATTACTTCCATAATCATTCTCCTTCCTATTCTCCTCCTCATTCCCATTCCCCCCTTAATCATTACCATTCCCCTTGCCCCAAACACACCCTATGTTTGTTTTTCAAAATCTCACATTAGCCTTTTTTGGGGTAAGAAACCAAACTTTCATTGAACAAATGAGAGAATACAAAGACATAAAAAAAACTCGTAGAAGCAAGAGTCCCAAAAATTAACCACAAAAAAGGACTCCAATCCAAAAGTACTCCAATCTAAAAATAAACAAGACCATGGTCATAATTACAAAAGCCTATCGACTGACGTCCAATCTCTCTCTCTAAAGGGAGGATGCTAAAGAATCCCTTCCATCGGAGAATGAATGCCCATCTTTAATGCACACCCCGCCATGGTTGTCAAAAACGTCCATTTTACGTTTTTAAACGAACGATTCAGAATGAATCAGGATGAAAATGATTCAAAACGTGTTTTTGAATCATAAATCATCTGAATCGTCTGCTTCAAAGGTAAAAAATGAATGATAAGGAACGTTTCGTTTCTAAGAAAAAAAAGCCATTTTTTACTTTATTTATGTCGCTGGAAATATAAAATGAAAGGATGAACCAGAGAAATAACAAGACGGAGAAGAAAGTCGAAGAAGAGCTCAAAAGAAAGGCCTTCTCTTTTTTTTCTCCAATGCGTCTCCTCTTGCCGTCGGGTTTACACTAAGCGGGGCTGTTTTTCTTCATGCTCGGAGTTGGTTTCACAGTCGAAAGTTTGATATTTTGCTGGACGAAGCTTAAAAAATTCGTTCGTTGTGCACTCTGCTTTGATTGTCAATCTCTTCACGTTTTCTTCTTCTGCTAACTATTCAAGGTGATATGTGGCGTCGGCCAAGGTATCTTCTCACACTCACGGCAGACTTTTCCTTAAGGTTTCTTTCTCTTCTCCTTAGGGGTTATGATGAAGGCGGTTAACTTTTACCTAGGTATTGATGGCGTCCACTAGAATTTGAGGATGAGAAAGGCGGGGAAACCCTCGTTTGTGGTTCGTTTCGACCCACAAACCAGTTTGGTTTAGCACTATTCGGTCTAACTCGGATCGAATCGACGATTCACTAGACCAAGTTGATTTGTCTTATCCGTACTGGGTATCTAGCTGGTCAGTTTTGGATATCTTCCTTGAATTAATCAAAAGTGGAACTACTACTCACATTGAAGAGTACAACACACAAGGGTCTATCTTCGACTCTGGCAACTCTTGTCCTTACTGCCCCTCATATTGGCATCATTCACCGATCTCTGGCCGTCTTCCGAATTTAGAGGGACATTATCTTGGACATGCTTGTTACAACTGATCTTCTCTTATTTTTCTTCCCTATATCTCAAATGGTTGTAAAGGCTTTATCTTTTTGTATGCCCTCTGAACTGGCCGTTGGTTTAGTTTGTGTATCATTGGGCTTATTGTAAAACATTTATTTATCTATAAAACTGTTCTGTTTCCTATCAAAAAACATAAACTCAAAAGTAAATTGACAAGAACGGCGGCCTGAACGTGTGTTAGAAAGATTAGGGTTTTGTTTTCATTTATATAAAAATAATGAAAAAATGCAAACTGAAAAGTTAATGACCATTCATCTTTCATTTTTTAATCTAATTTAATGGGATCTTAAATGATATTATGCCTATTCACCTTCCTTTGTTTATGGAAAAACAACCGTAGTAATCAATGTATTCCATAATCTGTTTTTTTTTCAATGGAAAATTTAATAAGTTGTCTATTCATTTTTTACATTTAGTATCTTTTCATTTTTTAATGGAAATTTGTATTTTGTTTGATGATAATCAATTTAATGTAGTGTCACTTATTCAAAATTACTATACACAAATTATTATTATTTTTATATAGAAAGTTGTATTCAAAATTCATGTATATATATACATACATACATATATTTTTATAGTATACTCAATATGACTAAACCAGACTCACACTTTATTAAGGAGAGACAACACCTTTATATAAGAGTTGCAACGGGCCTAGCGGGCCTAACGGGCCTAGATCTATTAGACAGACATTTATACATGAATATACATTTAAACTCTAATACTCTCCGTCAAGCTGGAGCAAATATATCTATCATGCCCAGCTTGGTACAGAGATAGCTTATCCGAACTCCATTTATTGCTTTGGTGAAGATATCTCCCAATTGTTCTCCAGTCTTCACATAATTGTCGAAATCAAACCTTGTTGTACCTTCTCTCGGATAAAGTGACAATCCACTTCAATATGCTTAGTCCTTTCATGAAATACCGGATTAGAAGCAATATGGATCGCCGCTTGATTGTCACACCATAGTCTAGCAGGTGTCGTAGTTTTAATCCCAACCTCATTAAGTAGTTGAACGAGCCACACTATCTCACACGTTCCTTGGGACATAGCTCTGTACTCTGACTCGGCACTAGAATGCGACATCACATTTTGCTTTTTACTTTTCCATGATACCAAATTACCTCCCATAAATACACAATAACCTGAGGTTGACCTCCTGTCCTCTTTAGAACCTACCCAGTCAGCATCTAAAAACATTCAATATCTGAATGTCCATGATTTTTGTACAAAATGCCCCTTCCGGGAGCAAACTTAAGATAACTCAGAATCTGCTCCACGGCTCTTCAATGCTCAACTGTTGGGGACGACATAAACTGACTTACGATACTTACAGAATACGAAATATCTGGTCTTGTGATTGTCAAGTTGTTCAACTTTCCAACCAGTTTCCTGTACCTCTCTGGATCAGTAAAAGCTTCACCTTCCTTGACAAGCTGTTGGTTTGGTATCATTGGTGTACTACACGGTTTCACGCCTAACTTTCCTACTTCCGTTAACAGATCAAGAACAAACTTCCGTTGCGACAACAAGATGCCTTTCTTGCTTCTTAGGACTTCAATACCCAAGAAATATTTCAGGTTTCCGAGGTCTTTAGTACTATAATGGCTATGAAGGAAGACCTTCAATGAGGCTATTCCTGGACCATCACTTACAGTAATCACAATATTGTCGACATACACCACAAGTAACACAATCCCATGGTCAGACCGGAAGAAAACATAATGATCTGAAGAGCATTTTTGCATTCCAAACTTTGCAAGGACTTGACTGAACCTACCAAACCACGCTCGTGGACTCTGCTTCAAGCCATACAGGGATTTACGAAGACAACAAACTTTGGCAGTCTCCCCCTGAGCAACAAACCCAAGTGGTTGCTCCATATAGACCTCCTCAAGAAGATCACCATGCAAAAAAGTATTCTTAACATCCAAATGAAACAACGGCCAATCATTCATTGCCGCGAGAGAAATAAATAGGCGAATGGACGACATCTTAGCAACAGGAGAGAAAGTTTCACTATAATCAATTCCATACATCTGAGCATACCCCTTAGCAACCAAGCGTGCCTTGAGGCGAGCAACTGACCCGTCAGAATTCACCTTGACAGCAAACACCCACTTACAACCAATTGTCTTTTTACCTGCTGGACGAGCTACCAGTTCCCAAGTACCATTCGCATCCAACGCAGCCACCTCCTCTACCATCGCCTGGTGCCAACCTGAATGAGACAAGGCTTCACTAGTCGTTTTAGGCACCGACATAGAGTCAAGGGAAGTAAGGAACGAAAAGGAATCAGAGGACAATTGCTGATATGACACACAAGAGGAGATAGGGTACGTACAAGATCGTTTACCTTGGCGAAGATCAATGGGCAAGTCGAGATCATCACTAGCTCGCAAGTCAGATGACGAAGAAGCTACCGGTACGGGGCAAGCTTCTGCGGGTCGCGGACGGTGAGTGTATACCTGAGTAAGAGAAGGGTCTGGAGGGGGCGGGTCTGAACCACCAGATGAGGACACGATTTCATACACTAACAAATCATCCTCCATAGGTGGAGGACTAGACATAGAATCGAAAGGAGTGTCCTAAAAAAAGGTAACATCAGAGGAGACGACATATCGATTCGTACTTGGGCAATAACAACGATAACCCTTCTGGACCCGGGAGTATCCAAGGAATATACATTTCAAAGATTTAGGATCCAACTTGGTCCTTTGTGGACGAACATCGCGAACAAAGGACGTACACCCGAAGATCTTAGGCGGAAGATGGAACATCTCCGTGGATGGACACAAGACCTGGGAAGGAATTTTATCTCCCAAAACCGATGACGACATCCGGTTAATGAGAAAACAAGCTGTAGACACAACATCAACCCAAAAATGTTTTGGAACATTCATTTGAAATGGCAGGGCACGAGCCGTTTCCAACAAATGCCTGTTCTTACGCTCGGCCACACCATTCTGAGATGGTGTGTCCGCACAAGACGATTGATGGACGATACCCTTCTCACAAAGATAGGAACGAAGGGTACCCGAAAAATATTCGCCCCCATTATCAGTGCGTAAAATTTTGATGGAAGCATTAATTGATTACGAATTACAGCGTTGAAGGCACAAAAGTGAGAAAACAACTCAGAACGATTTTTCATTAAATAGACCCAAGTAAACTGGGAAAAGTCATCAACAAAAGTAACAAAATAGCGAAATCCTATTTTAGACATAGCAAGACTCGGACCCCAAACATCAGAATGGACTAATTCAAATGGAGCATTAGCTCGTTTATTAATCCTAGGACTAGAACTCAATCGATGAAACTTTGCAAATTGACACGACTCACAATTGAGAGATGACACTTTACTGAATTATGGAAATAACTTCTTCAAGATAGACAAACAGGGATGACCCATCCGATAATGGACTTCGAGAGGAGACGCAGAACTTGCACATGCCACGGCTTGGACCGGTGGCTGATCCAAGATGTAAAGTCCCCCAGCTGCACGCCCCCTACCAATAATCTTCTTCATCAAATGATCCTAAAACAAGCAATGATCAGGGAAGAAAGAAACAAAGCAATGTAAGTCTCGAGATAATTGACTAACTGAAATTAGATTATATGAGAACGTAGGCAGACACAATACAGAAGATAACGACAAGGTAGGGGTAAGAGTGATTGACCCGTCTCCCTTTACGAAAGAAAGGGATCCATCAGCCAAAGTAACGGTCGGGAAATGAACTGACGATAATGATGTAGAGAACAAGTTTTCATTACCTGTCATATGAGCAGTCGCCCCAGAGTCAATGAACCACTTTGTAGACGACGAAAGAAGACAATGGTTGTTACCTGTTTCAGTTAGGGTTGCAGTAGGCGGGAATTCTGAGGATGATGGCTGCAATGAATGATTGGTCGTTGTTTCAAGGAAGGAGTAGGTGACGAGGACATATGATGTCTGCTCGTCCTATTTTCATGCTGATCAGAATGGTGAAGCATTGTTGGCTTATTACACGAAGCACAAGCGCAACAGTGCTGAACGGCAGAGAGAATGTAGTTCAGCACTGTTGCGCTTGTGCTTCGTGTAATAAGCCAACAATCCTTCACCATTCTGATCAGCATGAAAATAGGACGAGCAGACATCAATGTCCCTGTCACCTGCTCCTTCCCTGAATACAGGAATTCCACATACATCATTAGTTCCTTCACCGTAGTGCAATGACTGACCAGATCCACAATCTCATCATTCATAGAGTTAGTGATCTGATTATACAGGCGTGCATCGACCCGATCCCAACTCTTCTTTTCACCTTCATCTTTAGGCGGATCACTATCCATGTGCCTTTCTAGCTCATTACTCAGCAAGTGGTTTCGAATTGTTCGATGCCAGTCGAGGTAATTCGTACCATTCAATGTCCGTCTCGTGATTTCCATTGAATAAGAAACCACACTAGTATGCTTGTTATTGCTCATACTACCGTGATCAAACTCAAACGGACAACAGACAGCTTGTTTATTGCAAGAGAAAACAGACTTGAACCCCGAAACTGAGAACGGCGATACCACAGTAACGGAAAACAGTAAAATCGAGGCACCTCGGTGATCAAAACACAAAAAAAACCTCACACCTGTGTAGGACACGTCGGCTGCAGCTGGCGGCTGATGGAAATTTCCGGCGACGGCAGGCGGTGGCTTCCCTTTCCTCCTCTTTCCCTAACCCTAAATCTGCCCTTATTGCTATGATACCACATAATCAATATGAATAAACCAGTCTCACACTTTATTAAGGAGAGGCAACGCCTTTATATAAGAGTTACAACGGGCCTAGCGGGCTTAACGGGCCTAGATCTATTTGACAGACATTTATACATGAAAATACATTTAAACTCTAATATATAGCATTATAATTTTTTTTCAAATTGAAATTTATATTTGAAATTTTAATTATTATATATAATGTTGAAACTTACGATTCACGATGCGTTACGATACACGATTTATTAAAATTAGATTTCGATATACGTTCTGTTTTATGATTTGACAGCCTTGCTTCCCAATTTGTAGATTCTCCCCATGTTTCGAGGATCACCATGGTGGGAAAAAAATCTAAGGAAAAGTGTCTTTGAACATAATCCAAAGTGTTAACCTTCTCAAGTAAAATTTGCCACACAAAAAATTGTCCTTTAATCTTCTAGAGAGAGACAAAGATAGATGATAAGTCTGGAACTTCTTATTATTTCAGTAAAATAGAGTTCGAGTTCCCCTTACAATCATTCACTTGTATATTCTTCTCTTTTCCAATATTACAACCAACCAACTATTTATAAGGGAAAAGTAGCAACTAACTAACTAATCCCCTGACTAACCTGAACACCCATTTTACTCTGCCTCCTATACACATGTCGTTTAGGGGGCCTATCGCTACTCGGCCCCTAAGAAACCATTTTGTCCTCAAGATGAAAATTTGGGTATTGATCTTTGAGTTGAAGAGCATCCTCCAATGTTGCATCATTGGTGTCCAAGCTACCCCAACGGATTAAGATTTCCACTTTGGAATTGTCAGTGGGATTTTGATGAATGCTAAGGACCTCTAACGGCTGATACTGGAAAGATAGCTTAGCTGCCACATTTTTAGGAAACTTTGTCGCCACTAAGGTTGATCTTATAGATTTGCGTAGCTGGGAAATGTGAAAAATAGGATGGATCTTTACATCGTAAGATAAAGCAAGCTTATAGGCTACCTCCCCAATATGTTCGATAATTTCACAAGGACCAACGAATCGTGGGGCCAACTTGGCATTTAAGCATTTTAGTAGTGTTCCTTATCAGTATGGTCGCACTTCAAATAAGCCCACTCACCGACTGCAAATGAAATGTTACGTCGCTTCCTATTGGCCACCTTATTCATAAATTCTTTAATAAGCTTGAGTTGGTTATCACATTTGTGGAGCTGAGTATCAATTGCAGCTACAACGGATCCCTCTTGAGTCCTTGACGATAAGGAACCACAGATGGAGGTGGTCTCCTATAGACTATTTCAAAAGGCAATGTCTTGAGACTCGTGAGATAAGATGTCTTGTAGCTATATTTAGGCCGGTGAAGCCATTTTACCCATTGGTTTGGGCAAGTCATCATGAAGCAACATAAGTTTGTTTCCATCCCTCGATTGACCACTTTCGTTTGCCCATCCGTTTCAGAATGTTAAGCCGTACTAAACTTAAGCTTATTCTCTTGTGTTCGAAATAATTCCTTCCAAAATAGGTCGCTAATAATCGGATCTCGATCAGATACGATGGACTGTAGTATACCATGAAGTTTAACAATCTCTTTAGCAAAAATATCAGCCACAATGGCTGTTGTATAAGGGTGTTTCAACGGCACAAAATGACTGTATTTAGATAATCTATCTACTATGACAAAGATAGTATCATACCCTTGTGATTTTGGGAGTCTAGAGACTAAATCCATTGAGATGCCACTCCAAATTTGGCTTGGTATTAGAAGTGGTTGTAAAACCCCCGCTGGAGCCAAAGTTAGAGCTTTCGCTTGTTGGCATATAGTACAAGCACGGACAAACTCATGAACTAAAGATTTCCTTCTTTTCTAATAAAACTCCTTTGCTATTTGCTGCAAGGTTCACAGAGCTCCTCCGTGACCCCCCATAGGAGAAGAGTGAAATACCTCAAGAAACAAGTCAATCATAGTTGAGTTTGTTGGTAGAACAATTTTGTTCTTAAAACGAAGTAAGTTGTCCTGATATGTATAGCCATCGACAGATTTGTGGGGGTCGGTAAAGGAGTCAATAATGGGCTTAAGCTCCAAGTCTGCCTGCTGTTCGTTGATTATGTGTTTTGTTGAATTATGTTAAACCACCAATCAATCCAAAAGCCTAAGCTGATGGATTGGGGTAAATTTAATTATATCAACCAACACTCCCCCTCACTTGTGGGCTTTGAAATTTGAGAAATGCCCTAAAAGTGGAATTTAATTTTAATTGGGGAGGAAACGACTTGGCAAGGATTCGAATTCATGATCTCCTGCTCTGATACCATGTCGAATTATGTTAAACCACCAATCAATCCAAAAGCCTAAGCTGATGGATTGGGGTAAATTTAATTATATCAACTAACATGTTTAACATCCATGTTGGTAACACAAAAGATGACATTGCATTCCAATGTTGCAGGTAGTCTAGACAAAGCATCGACAACAACATTAGTTTTTCCCAGTTTATATTGAATTTCAAAATCATAACCGAGTAACTGGATTAGCCATTTTTGGTAGTCACCAATAACCAATTGTTGATCCAAGATATATTTAAGGCTACGTTGAGCGGTCTGGACAATAAAATGCCTGCCAATCAAGTAAGGGTGCCATTTTTGTATAGCCAAGACATTGGCTAAAAAGTTCCCTTTCATAAATCAGTCTACTTGTATGAATGACCGATAAATAATGCATGGCTAACGAAAGTGATTGGTCTCCCAAATTGCATTAAGACGGCCCAGCCCCTATCCCAACTCTAGAGGCATCAGCTTCAATAAGGAAAGGTTTAGTAAAATCCAGTAATTGGAGTACTGGAACTGATGTCATAGTAGACTTAAGTTCGTAAAAATGTCGTGGTAGCTACCGTCGTCCAAGAAAAGTTGTCCTTTTTTAGTTGCTGGGTCAATGGATATGCAATCTGTCCATAATGTTGGACAAATTTTCTATAATATCCAGTAAGACCAAGAAATCCTCTAAGTTCTTTGAGATTTCGATGAATAGGTCAATCTTTCATGATTGAAATTTTTGAAGGATCTGTAGCTACTTCCTTTGCTGAAATAAAATGGCCAAGATACTCTACCTCTTGTTGTCCAAAGTAATATGTCTTCAAATTAGCTACAAGAGAATGTTCCTCAAGTAATGCTAATATAGTATGCAAGTGCTCGATGCGATCATCCAAGGTTCTACTATAAACTAGGATGTCATAAAAAAACACAAGGACAAATTTCCGCATATAAGCTTGTAACACGGTATTCATTAAAGCTTGAAATGTAGCTAGTGCATTCCTTAATCCAAATGGCCCGACAATAAATTTATAATGACCATCGTGAGTTTTGAAAGCGGTTTTGCCAAATTGCTAATATCATTCTCTTTGAGTCTTATTTGATGGTATCGCGATCATAAATCAATCTTGGAAAAGATTGTTGATCGGTATAGCTCATCAAAAAGTTCATCCACCACAGGTATAGGGAATTGGTTAGGAATGATGACTTTGTTTAATGCTCTATAGTCTACACAAAAAGGCCAGCTACCATCCGTTTTACAAACAAGAAGAATAGTGCTAGAATAATTACTTGGTTGAATAATCCGAGTGAGTAACATTTCCTCCATAAGTCTTTCAATTTCATTCTTGGTATTCATTAAAACCTGCAATTTAGCTGGTGCATTCCGTAATCCACATGGCATGACAATAAATTCATAATAACCATCATGAGTTTTGTAAGCGGTTTTGCCAATATCATTCTTTTGGAGTCTTATTTGATGTATCCCAATCGTAAATTAATCTTGGAAAAGATTGTCGATTCGTATAGCTGATCAAGAAGTTCATCCACTACAAGCATAGGGAACTGGTTAGGAATGGTGACTTTGTTAAATGCTCTATAGTCTACACAAAAACGCCAGCTACCATCCTTTTTATGAACAAGAAGAACAAGGCTAGAATAAACACTGTTACTTGGTTGAATAATCCCAACGAGTAACATTTCCTCCACAAGTATTTCAATTTCATTCTTCTGACTTTGTGGGTATCTATACGGCCGTACATGAACTGGCAGGGATCCTAGAGATCCATTATATTATCCAGTTGTCTCTTCGGAGGGAGTTCCAAAGTGTCTTTGATAGTTGATGGGAAACTATCAAGAAGTTGTATTACCTTGGGCTATAACTCTTGGAAGCTTGTATTGGCTGTATTGTTATCATAAAGAAGAATCATATTGAGCTCTAGAAGAAAACCTTGTTTCTCAAGTTTAAGTGCTTAATCATGGATTTAAGGGATACTTGTGAACGCACTAAAGAAGGATCACCATTGAATGAGATAGTAGACTTTCCAAGACTGAATTTCATTTCCAGCTTCTGGTGGTTGATTATAATATCTTCTGGTGGTTAAATGTAGGGGTGTTCGTCGGCCGGTCGGGGTCGTTTTTTGGAGAAAACCGACATCGATAAAAGACATATCGGTTTTCTAATAATAAAAACCGAAATTTTTTTTGAATCGAGAATTCCGATAGACGGTCGGTCGGTCGGTTAAGACTTTTTTTTTAAAAAAAAATCTAAATATTTTTCATTGGGAAACCATGGATGCTACTCTTATAATTTAATTTTTTTAGAAAATTCTCCGACCGACCGACTGTCGGTTAATTATTTAATTTAACCGACTCCGACCGGCCGACCTTGATTTGGTCGGTTTTGGTCGGTCGGTTCGGTTTTTGGATAAAATGTGAACACCCCTAGTTGAATGAGTTCTAAAGTGTCTTTGATAGTTGCTGGGAAACTATCAAGAAGTTGTATTGTCTTGGGCTATAACTCTTGGAAGCTTGTATTGGCTGCATTGTTCTCATAAGGAAGAATCGTATTGAGCTCCACAAGAACACGTTGTTTCTCAAGTTCAAGTGTCTTAATCATGGATTTAAGGGATACTTGTAGACGCACTAGAGAAGGAGCACCATTGAATGAGATAGTAGACTTTCCAAGACTGAATTTCATTTCCAGCTTCTCGTGGTTGATTACATTATATTCCAATATGGTTAACCATTGAACCCCAAGAATTATGTCTGCACTACCCAAAGTCATTGGTAAAAAGCCCCTCAATGTGGACCAGTGTTTTAAAAAGCGCAAGGCGCATGGCCCTCTGGAGCCTGAGGCGCAAGGCGCACCAAAAGGCGAGGGCTTTTTTACTTAAGACGCACTATATAAAAAAAAACACAAAAAATTTATATATATATGTGTGTATACACAATAAAAACACTTTTCATAGTCATAAATGAAGTTTTTACCAAGAATAATGTATTAAACATACATAATATTCAAATATCAACCTTCACGCACTTCAAATGACCTAGTCCAGGATCTAAAACACAAAAAACGCAAAGGAAATTAAAAAATCCTACGAGGCGCGTGCCTTTTGGCGCCCAGGGCTTCACGTAAGGCGCCCGCACGCCTTGCTTGGCCTCGCCTAGGACAAGCGAGGCGCAAAAGGTGGGACTTGAGCCCAGGCGCGCTTGGGCGCGCCTTTTAAAACACTGATGTGGACCACCTAATTTTTGCAAATTTGTAACTGGCATCTTTAACTTCTTGACTAATGAAGTAGAAACAAAATTTTGGGTGGCCCCTGAATCAACAAGAAATATTACAAATTGATTTTCCAAATTACCTTTTACCCAATGTTTTAAAAGGTTAAAGACTGCCTCGAGGCTTTTCCTCTTGAAGAGGCGAAACGTAAGTCTCAATTCTTAATTAAAAATATTATAAAAATTCGAAATTTGTATAGACACGTATGGTAAAACACAATACTTACATAAAAATACATAAAACATAACACCAACATTAATCAGATTGAGTTTTTCTATAATAAGAAACAATTTCATTAGGAATGAGACATAAGTGAATTCTCCAAGCACCTATAGTGAGTACAACAAAGAACTCCAAAAGGACGTGCTAGAGGAAAATAAGCCAGCAAATTATTAAAATTAAAAATGATGATTTGAAACAATTGTGTCTTTCTAACAAAAGAATCCATAAGAGAAAATCTATATTGTCATGGTTCAAACCCTTATATTATAAGAAAGTAAAATATTAGTATTATTCTTCTAGTTATTGTACGAGGCATAGGGATGTTAAGCATCAATGCGTAATCATCGAGGCATAAGCCTCTTATGATCCAACAAAGGCATAAGACTCGAGGTTAAAAGTTAGAGTCTCGCTCGCCTCAAGGCGTAAGCCTCAATAGTCTTTTAAAACATGGTTTTCACCTTTAGAGTTTTAGGAGAATTGAATCCCACCATTGAATGAAGTGCTAACTCAACGTTTACTAGTTCAATTTCCTCTGTATCATTTATGTGATCCTCTGTGGCAAGGTTTTTGCATTCGATCGAATCTTCATAATAAGGTTCTTGATCGAGATCGACAACTACTTCTATGCCTTGCAATTCTTTCTTTCTGCAAAGGCCTATTGAAGAATTATTTGTTGCAATGAAAACATAGGCCTTTTTCTCTTTTGGAATGTAATTCTGTATGTGCCAGGCGTTAAATGGAGGATCTTGAGATCTGCCATTGAATTCTTGTTTCGTACCAAAACTAGTTCTTGGTGGATTCAAAGATATCGTTCTTGAATTTGTAGTTGCCCCAAATGTGCTTATCTTTCCCGAAAAATTTGAGTTAATATCAAGGAAAATAGTTTGGGAGAATTTCTCAGTGTGTTTATTAAGCACAAATGCAACCTCTTATATACACAAACCTTCTCTAAACTTACTCCTAATATCAAGCAACAAATATGCTAAATTAAAGAATATACATAAGAATTACAACAAACTCTAACAAAACTTACAACAAATTATTAACAAACTCTAACAGTTAAGTTTCACGCCACTCGATTTCTTGCTTTCCAATTAGTTTAATTTATCTTCGATTTCTTCGGCCCTTTCCATTAAAGGAATTAATCTTTTCGGCAAACCAACACAAATTTCAACTTTAATCTCTTCCTTCAGCCCTTGAACAAACTTTCCTTCCAAGGTTTCATCATCGAGTGAAAGATTCAAAGAATAATCATCAAATTGTTCTCTGTATTCTTTGACTATTGTTTCTGGAATTAATGAAAGAAATTGTTCGTGAGAAGAACTTGATTTTTTTGGTGTGAACCTTTGTGAAAGTGCATGCCAAAATTCACCCCAACTTTCAATCGACCTTCTCGCTTCTGCCCAATTGTACTATTTAAGCGCAACACCCTCCAAGCAAAGAATTGCTCCTTCCAACTTTTCTGATTCAGTTAGTCGATTGACATAAAAATATTGTTCAACTTGTTGAATCCATTCTTACGAATTTTTGCCACTGAAAACAAGGACTTATAGTTTGGGTAATCTCAAATTGAAAACAGGGCCAATGATTTGCTAAATTGTGAGTCTTCCTTTTCATCGATCATGATTACTTCTGTCTTGTCATCGATCGTCCTTTTCTTCGAATCTTGGATCAATTGTTCTCTTCTAGATTTCTGATCTTCCTGTAAACGTAAGAAAAACCTTTCCATTTTGGGGTCCATGGCTTCCGTGAGTCCGTGACTTCTCGATTGATGATTTTTTCTTGCTCGGTGATAATAGATTCACGAGCCTTGTTTATTTCTCTCTGAATAATACTCGGGACATCAGCCAACTTGTTCTCGATGGTTTCCATTCGAGTTGTCATTGGCAAAAAAAATTGTACCTAGCATTGTGCTCTGATACTAAAATGATAAGTCCGCAGCTGCTTATTATTTCAATAAAACAGAGTACGAGTCCCCTTACAATCATTCTGATAGAATCTACCCCACTATTTTATTAATCTATGATAAAAACCTCTCGAGAGAATCTCTCAAAGAGCCACAATACAATGATGATAATTCAATGAATGAAAAGAGTAACCTATCCCTTCCTATTTATAGTAAACCTAGGATTTAACCTAAGTTGGTAATAAACTCTATTAAGGCCCATAAGCCCAATACAACCTAAATTCGCATATAAAAATATATTAAAATAGTAATAACTTCATTCTTCACTTCTTGCTCCGCCTCGAATAGACTTTTAATGATTTCGGGATCGTATCAATACTTCCCCCCCACAGAGCCACCTTGTCCTCAAGGTGAAAGTCTGGAAATTGCAATTCTAAATCAGCCGCGGATTCCCAAGTAGCATCATCCGGCGAGGAGCCTTCCCACTGAACCAAAATCTGGCGCGAGCCGGCCGCCTGCAAATCCTCACGCATGCCCAAAATAGCCTTAGGGCTAACCACAATGCACAAATCATCTCCCACCAAGGATGGTGTAGACATGACGAGTATCGAAGAATCTACCTCTTTACGCAGAACCGACACGTGAAAAACTGGGTGAATCTTAACTGTCGGCGGCAGTTCCAGACGGTATGCAACAAGTCCCACTCGTGACAGCACACGTTAGGGACCGATAAACCTCAGCGCTAACTTAGGGTGTTTAAATTTAGCCAAAGAAGACTGGCAGTATGGTCTAAGCTTAATGTACACCAGGTCATCAACACTGAACTCTATATCACGGCGTTTGGCGTTTGCGTGATCCGTCATAGACTGCTGTGCACGCGACAAACTAGGCTTTAAGGTTTCCAAGACCCGGTCGCGATCCATCATCATCGAGTCCACAGTCGCCACCGGGCTAGCTCCATGATCATATCCCAAAATGGAAGGAGGGGGTTTGCCATAAACAATCTCGAAAGGTGTCATATTCGTGGATGAATGGAACGAAGTGTTAAAACTGAACTCGGCCCAGGACAACCATTGGTACCACGCCTTAGGTTGATGCATCACAAAACAGCGCAAATACGATTCTAAGCAGCGGTTCACAACCTCGGTTTGCCCATCAGTCTGGGGATGGTAAGTAGTGCTACAAGAAATTTTAGTTCCCGTCGCTTTAAACATCTCTTCCCAAAGTAAACTAGTAAAAACCTTATCACGATCGGACACAATACTTTTTGGAATTCCATGCAGACGGACGACCTTTTTTATAAACACCTTTGACACTGATAATGAAGAAAACGGGTGCTGAAGAGGGATAAAGTGAACATATTTTGAGAGACGATCAACCACCACCAGTATAGTATCATAACCCTCTGATCGCGGTAACCCTTCCACAAAGTCCATCGAAATGTCTTCCCAAACCCGTGCAGGAATCGGTAAAGGTTGTAGCAAACCAGCAGGAGATAAAGACAGGTGTTTAGCTTGAACACAGACAGAACATTCGGCTACAAAAGAACGCACACGGGCCTTCATCCCTTGCCAATACACTTAGCAATACGCTGATAAGTTTTTAGGACTCCGAAATGTCCACCAATAGCTCCACTATGGAATTCAAGCAATAATAAAGGAATCGTTGGAGATGTCGGAGGTAACACCGGTCTACCCTGATATAGCAATACATCACCAACTACTGAGTATCCAGGAGGGCCCATATCACCAGCTGTCAAGGTTTTATAAATCGCCATTAACTTTTCATCCTCCTTAACCTGCAGTGTAAACACTGCTGTGTTAATTCCAGCCACCACACTCAACATGCCCAGCTCGCATGTCGAAGGCATTCGGGAGAGAGCATCCGTGGCGCGGTTTTTAGGCCCTTTCTTGTATTCGATACTGAAATCATATCCCATCAGTTTGACAGTCCAACGCTGGTAGTCGTCATCCACTACACGCTGTTCGAGTAAAAACTTAAGACTCTTCTGATCAGTGCGTACAACAAAATGGTGCCCCAAAAGATAGGCTCGCCAGCGCTGAACAGCGAACACGATTGCCATTGTTATCAATATGATTCAAAACAGTATGTTCTATTATTGAGAGGCAACCTCTTTATATAAGAGTTACAATGGGCCTAGCGGGCCTAACGGGCCTAGATCTATTACAGATTACACGATTACATTATACACAATCACACATTCGGACTCTAATACTCCCCCTCAAGCTGGAGCAAATATATCTATCATGCCCAGCTTGTTACAAAGATAGTCTATCCGAGCTCCATTCAATGCTTTGGTGAAGATATCACCCAACTGTTCTCCAGTCTTCACATAACTCGTCGAAACCAACCCTTGTTGTATCTTCTCTCGGATAAAGTGGCAGTCTATTTCAATATGTTTAGTTCTCTCGTGGAATATCGGATTAGAGGCAATATGAATTCTTTGCTTGATTGTCACACCATAGTTTAGCGAGTGTTGCGATTTTGATTCCAACTTCATTCAAAGAGATTGAACCAAAGCCATACTATCTCACACGTTCCTTGGGACATAGCTCTGTATTCCGACTCAGCACTAGAACGCGACACCACATTTTGCTTCTTACTCTTCCATGAAACCAAATTACCTCCCATAAACACACAGTATCCCGAGGTTGATCTCCTGTCTTCTTTAGAACTTGCCCAGTCAGCATCTGAAAAACATTCAATATCGGAATGTCCATGGTTTCGGTACAAGACGCCCCTCCTAGGAGATGACATAAACTGACTCACGATACTCACAGAATACGAAATATCTGGCCTCGTGACTGTCAAGTAGTTCAGCTTCCCAACTAACTTCCTGTACCTTTCTGGATCAGAAAAAGCTTCACCGTCCTTGACAAATTGTTGGTTTGGCACCATCGGGGTACTACACGGTTTCACACCTAACTTTCCTACTTCAGTCAGTAGGTCGATAACATACTTTCGCTGGGACAAAAAGATCCTTTTCTTACTTCTCATGACCTCAATACCCAAGAAATATTTCAAATTTCCAAGATCTTTAGTGTTGAAATGGCTATGAAGGAAAACCTTTAGTGAGGCCATCCCTGAACTATCACTCCCTGTAATCACAATATAAATCGACATATACCACAAGTAACACAATCCCATGGTCGGACCGACGGAAGAAGACAGAATGATCTGAAGAGCATTTCTGCATTCCAAACTGCACAAGAACTTGGCTGAACCTACCAAACCACGCTCGCGGGCTTTGTTTCAAGCCATACAGAGATTTACGAAGACGACACACTTTGGCATTCTCCCCCTGAGCAACAAACCCATGTGGTTGCTCCATATAGACCTCCTCAAGAAGATCACCATGCAAAAATGCATTCTTACTATCCAACTGAAATAATGGCCAATCATTCATTGCTGCGAGTGAAATAAACAGGCGAACGGACGTCATCTTGGCAACAGGAGAGAAGGTCTCACTGTAATCAATCCCATATGTCTGAGCATACCCCTTAGCAACCAAGCGTGCTTTGAGGCAAGCCACGGACCGTCGAATTCATTTTGACAAAGCAAACACCCACTTTCAACCAATCGCCTGCTTTCCTTCCTTACGGACGAGCTACCAGTTCCCAAGTACCATTCGCATCCAGCGACCACCTCCTCTACCATCGCTGGTGCCAACTCGAATGGGACAAGGCTTCACGAGTACTTTTAGGGACAGAGAGGCGAGAATCAAGGGAAGTCGAAAGGAAAGCGAAGTAGGGGATAATTGATGGTATGACACATATGTAGAGATAGGATACGTGCAAGAGGCAGTTTACCTTTGCGAAGAGCAATGGGCAAGTCTAGATCATTACTAGCTTGCAAGTCGGATGACGAAGAATCTGCAGGCATGGGACAGTCGCCGAGGGTCGCGATCGTAGGGTGTATACGAGTAAGAGACGGACTAGGAGGAGGGGGTGGAACCATCGGGACGAGGACACGACCTCATAAACCAACAAATCATCCTCCACGGTGGGGACTAGACACGAGGATCAAAGCGGAGTATCCTAAAAAAGGTAACATCGAAGAGACGACATAACGACCCGTACTCGGGCAAAAACAACGATAACCATTCCGGACGCGAGAATACCCGAGGAAGATACATTTCAAAGACTTAGGATCCAACTTGGTCCTTTGAGGACGAACATCGCGAACAAAGGCCGTGACACCGAAAACCCGGGGAAGGTGGAACATCTCCGTGGAGGATACTAAAACTGGAATGGAATTTGATTACCCAAAATCGGCGGCGACATTCGATTAATGAGAAAGCAGGTGTGAGACACAGCGTCAACCCAAAAATGTTTTGGAACATTCATCCGAAATGACAGGCACGAAATGTTTCGGCAAATGCTGTTTACGCTCGGCCACACCGTTGCGGAATGGTGTGTCGCGCACACGACGATTGATGAATAATACCCTTCTCACTAAGATAGGAACGAATGGTGCCCGAAAAATATTCGCCCCATTATCGGTCGTAAAATTTGGATGGAAGCTTTAAATTGATTACGAATCTCGGCATTAAAGGTACAAAAGTGAGAAAACAATTCAAAGACGATTTTTCATTAAATAGACCCAAGTAAATCGGAAAAGTCATCAACAAGCGTGACAAAATAGCGAAATCCCGTTTTAGACATAACAGGACTCGGACCCCAAACATCGAGTGGACCAATTCAAAAGGAGCAATTGCTCGTTTATTAACCCTAGGACTAGAACTCAATCGGTGAAACTTTGCAAACCGACATGACTCTTAATCGAGGGAAGACATCAGATTGAATTCGGGAAATAACTTCTTCAAAATAGACAAACAGGATGACCCATCCGACAATGGACTTCAAAAGAGACGCAGAACCCGCACATGCCACGGCTGGGATGGCTGGCACGATCCAGATATAGAGACCCCCACGGTGCATGCCCCTACCAATAATCTTCTTCGTCAAATGATCCTGAAACAAGCAATAGTCAGGAAAGAAGGAAACAAAGCAATGTAAGTCACGAGCCAATTGACTAACCGAAATCAGGTTATATGAAAACGTAGGCAGACACAACACGGAAGATAGCGACAAGGTAGGGGTAAGAGTAATAGACCCAGCTCCCTTTACGGGAGACAAGGATCCATCAGCTAAGGTAACCGTAGGAAAAGGAACAGATGACAATGATGTAGAGAACAACTGTTCGTTGCGTTACGTCATATGAGCAGATTGCCGAGTCAATGACCCACTTTGTGGACGCATTTAAAGAAGACAATGGTTGTTACTGTTTCACCCGGGGTTGTGCAGCGGAAGTGCCGAGGATGATGGCGTGATGGAGCCGTGGGAACTCGGAGCGCAAAGACACACTCGTCAACGTGTACTTTCTCTCTTTGGACACAAGGTGGGCCTTCAAGCCTCCGATTGTCATATTGCAACTTTCTGCAATCTCTCTTTAAATGACCGGGTTTCTGGCAGTAATGGCAGGTCATTCGAGTATCCGGACGTCGGTTGTCACTAGGAATATCCTGACGTCGGTCATTCCCAGACTTCGATGCAGAAAACCTAACGTTCCTCCCACCACGAACCACACTCCTCCCAAGCAAGGCGCTATTCGATTGTTCAATTAAATGAACTTCTGTTCGTTGCAGGCGGCGAAACACATCATCCAAAGATGGTAGTTTAGTTCCTGACAAGATTTGAGACCTCACATTCTCATACTCCGAACCAAGCCCACGCAAGAAACTGATAACCCCCATCTTTTCCCTCTGGGTCTGCTGAACTGCGATATCTGCACTAAACGGCATGAGAGAATTTAACTCGGCACTATTACGCTTGTGCCTCGTGTAATAGGTCAACAATGGTTCACCATTCTGGTCAGCGTGTAAATAGGACGAGCAAACATCATACGTCCTTGTTACCTGCTCCTTCCCCGAGTACAGGAATTCCACAAACGTCATGAGTTCTTTCACCGTAGTGCAATGACTAATCAGATCGACAATCTCATCATTCATTGAGTTAGTAATCTAATTATACAAGCGAGCATCAACGCGATCCCACTTCCTTTTTTCAACTTCGTCTTTAGGCGGATCACTATCCATGTGTCATTCTAGCTCATTACTCAGCAGGTGGTTTCGAATCGTTCGATGCCAGTCGAGATAATTTGTCCCATTCAGTTTGCGTTTTGTGATCTCCATCATATGAGAAATCACACTTGTATGCTTGGTATCACTCATATTTCCCTGATTAGTGTCAACGGACAGCAGATAACTCAATTATTTCACAAATCAAACGAAATAGAATCTGGAAATTGGAAAAAACAGCACCAACAGTAACGGAAAATAGCACACCCGAGGCACCCCGGTGCGTAAAATGCGAAACGAACCTCACACACGTGTAGAACACGCCGGCGCGCACAAAACCCGAGAAGACCCGACCTGGTCGGAGCTGCCACGCGCTTCCACGCGCGAAGGAAGCTGGCGATTGGCGGAAGCTGTCGGCGGCGCGTGCGGCTCCGTCGTTGCTTGGACGGAGTCGCGACTCAAACGACTGGATAGATCGGCGACCGGGCTTTTAGATGGTACCGGCAGTGACTTCGGCGGCTGGAATTTTCTCCTCCTTTTTTCCCAAACCCTATTTCTGTCCTGATGGCTCTGATACCATGTTATCAATATGATTCAAAACAGTATGTTCTATTATTGAGAGGCAACCTCTTTATATAAGAGTTACAATGGGCCTAGCGGGCCTAGATCTATTACACAGTATTACACAGTACATTATACACAATCACACATTCAGACTCTAATAGCCATCAATTCGTGCTCTTACACAGGTTTCACGCAATGAGTAATTGGCAAAGCCTTACTAAAGTATGCTACCGGTTGGCCCTGTTGCATCAGAACTGCTCCCACTCCTATTCCCGAAGCATCGGTTTCTACCACAAATATCTGGTCAAAATTCGGAATCGCAGAACCGGAACACTACTCATAGCATGTTTCATTCTCTAAAAATTGTCTTCTGCAGCCGGTCCCCATTCAAACTTCCCTTTCTTCAATAACTGAGTCAATGGGAAAGCCATAGAGCCATAGTTCGCCACAAACCGACGATAGTATCCCGTCAACCCAAGGAATCCCCGTAGGTCCCTAATGTTTCGAGGACTTGGCCAGTCCATCATTGCTTCAATTCTTGCTGGGTCGGCTGAAACACCATCCGCGGATATGAAGTGCCTTAAATACTCAATGCGTTGCAACCCAAATTGGCATTTCTTGGCATTGGCAACAAAAGCATGTGTCTGTAGCACCTCAAAGACTCGAGCTAGGTGCTCTCTGTGTTCCTGAATAGTCATGATGTAGATCAAAATATCATCAAAAAATACCAGCACAAACTTACGCAGATACGATCGCAAAATCTCATTCATCACGGACTGGAAAGTTGCCGAAGCATTTCGTAGCCCAAAAGGCATGACTACAAACTCATAATGTCCCTCATGAGTCCGGAATGTTGTCTTGTGTACGTCGGTCGGTTTGACACGAATCTGGTGATAACCAGCCTTCAAATCAATTTTCGATAATATGGACGTGCCATGAAGTTCATCTAACAGTTCATCCACTAACGGTATCGAGTATTTATCAGGCACTGTGGCTTGGTTTAAGGCCCGGTAGTCGACACAAAAACGCCAACTTCCATCCTTCTTTTTAACTAGCAACACGGGACTTGAAAACGAGCTCGTGCTAGGGCGAATTACCCCTGCTAACAACATTTCTCTCACCAATTTTTCTATCTCATTTTTGTGGTACTGTGGGTACCGGTACGGTCGAACGTTCACTGAGCTAGTTCCCGCAATCTATTCAATCGCATGATCACAATTTCTTTCCGGAGGTAAATCTGCCAAGGATTGAAAAACAGGTGAAAAAGATTCAATTAAAGAGTAGTTCTCGTGGTACCTGGGATAAATCGGGAAACATTTTAGTCGGTCCACATTCAGGTGATGTCGCCTCAATCATGTTTAACTCGACCAGTAAGCCTTGGTCCTCGGGTCGTAAAGACTTCATCTTGATTTCAGTGAGACTTGTGCCTTGACCAAACGGGGGTCCCTTTGCAACTCTGCCTGCCATGATCCCAACACAAATCGCATTTTCAGGGAGCTGAAGTTAAATTCAATCTTTCCCAAGGTCTCTAGCCACGCTACCATCAAAATCACATCTGCTCTACCTAGAGGTAAGGGCAAGAAATCATTGACCACTTTCAGTTCAGCCAGATGCAGTACGACATTCTTACAGATCCTTGCTGTTCTCACAGACTCGTCGGTACCCAACATGATCCCATAATCATTTGAAGGCTCTACCGGTACATTTAGCTTTTCTACTATTACGTCGGAAATAATATTATGGGTTGCCCCACAATCTATAAGAACTACTACCTCCAAACCCTGGATCAATCTGGTGACTTTCAAAGTCTTTGGTGAACTCAATCCTGCCAACGAATTTAAGGACAATGTCGCTAAATCCCTTGTATCTCCCGTATCATCAATAGTTTCATCCTCGAGTGCCTCGTCATTTTCGTATGATTCCTCGTGGTTAATTGTATCTCGTACTACTAATATCTCCAATGACTGAAGTTCTTTCTTTTTGCACCGATGCCTCAGAACAAATTTCTCATTGCAATGAAAACACAATCCTTTATCTTTTCGGACACGGATTTCACAATCCGTCAAACGCTTATAAGGCATAGTGGATGTTGTACTGTTTGTAGCTGGTCTAGATGTAGAGAAAGTCGTAGTTCTCAAAGTTGAACCACCTGCCCCCTTTGCGCTAACTAACCCAGATCCTGTACTTGATTTACTTACTGGTACAGTGCTAACTCCCCTTCCTTGGGCTCGGAAAGCCAGATCATCCTCAATTACCTGTGCCATAAATTTTTTATCTTGAATTCCAACATGTCGCAATTTTCTCATTTCACTTCGGATTTCTTCTTTTAACTCACTCTCCCATTTCCCCTCTAGCGCACTGGCACTAATATCGCGCATTCCCTTGGCGTATTTCTCAAACAATCGCCGATACTCTTTAATAGTGCCGACCTGTTGCAAGCTCATCAGCTTAGCGTATCTGTTGTCGTTCATGCTCGGTTGGAAACGGTGTAACAGTAGTTCTCGAAATTCTTCCCAAGAACCGATCGGAGATCGATCTTCTTCATACTGCAGCCATTCTAGGGCCTCACCCTCCATACACAAAGTTGCGGCGTCGACTCGTTCCTGTCCATTTAGCCGGTTAACCCAAAAATACCGTTCCACTCGACACAACCACCCTTCCAGATCCTCATCGGTAAGCCCCTTGAAAACAGGCATCTCAAGCTTTCGTAACCTCCTGTCAAACACTGTACCCTCTCTATCTCCTGCTCTCGGTCCTCCACGTTCATAACGATCCTCCCACTCTCTCCAGTCCTCTCAGTCCCCCTCTCGATTGTAGCCATCCCACCCTCTGTCGTTCCAACCGTCGTGCGCTATCGGCCTCTCATAACCAATGCGCACCCTCCTATCTTCCGGTGACTCGTGGACTCGGCCGCCGACCGTTCGCTCGCATCCCGGTCCCCCTTGGCCGCCGCCGTGCCACCCGCTGCCTGGCCCACCGTGCCACACGCCCGACCCGCAGCCACCACGCCCCCGCTCGCCCTTCGACCGCGCGACGCCTCGCGCTCGAGCCCCCACCCGTCGGCCCGCCGCCCGCGCGCGCCAATGCCCGACCCATTTGACCCCCAACTCGCGACGCCCGGCACTCGCGCCCCTGCCCGAGCCCTAGCCCACTCCCTCCGTACCACCAGCGCTCGAACCCCAGCCCGGGCTTCCCCCCGCGCCCCAGCTACCTGCGCCGCCCGTGCTCGCGCCCCAGACCACTCGACCCACCGCGCCGTTGCCGCCCAAGCCCCAGCCCGCGCGCCCGCCCACGCCCGTAACCTGCCCGTCGCCCTCCGTCCGCACCGAGCCATCGCTGCCCTTTGCCAAGCCCGACTCCGCCGTCGGCCCAACCCCGACAGCCCCTGCGTCACCCCCCGCACCAGCCCCTACTGCCGAGCCCACCCCTGACCCTCCCGATTCGGTTGACACTCCCTTACCTTTGTCCGAACCGTTTGTTTCAGGATTTGGTTGTTCTGGTGTTCGCTCTAGCAACTTTTGTATATTTAGGTTAATCTGACCTATCTCTTGGTCCAGTCGACTATTCATCGCTGCCAGTTGAGCCTCGAATTCCCGTTGCTTCTTCAACATCTCGGCTCCACTCTCTTCGCACTCTTGAACTCTCGTTTCCATCTTGGTAGTAACCATTCTCGAATCGGTAAATGGCTCTGATACCAAAATGATAGAATCTACCACACTATTTTATTAATCTATGATAAAAACCTCTCGAGAGAATCTTTCAAAGAGCCACAATACAATGATAATAATTCAATGAATGAAAAGAGTAACTTATCCCTTCCTATTTATAGTAAACCTAGGATTTAACCTAAGTTGGTAATAAACTCTATTAAGGCCCATAAGCCCAATACAACCTAAATTCGCATAATAAAAATATATTAAAATAGTAATAACTTCATTCTTCACTTCTTGCTCCGCCTCGAATAGACTTTTAATGATTTCGGGATCGTATCACATTCATTTGTGTATTCTTATTTATTCCAATACTACAACCAACCAACTATTTATAAGAGAAAAGTATCTAAAAAACTAACTAATCCCCAACTACTTTGAACTCCCATTTTACTCCGCCTCCTATACACATGTTGTATAGGGGCCCTATCAATAGAAGTCTTAGGGTGTGTTTGGAGCACCGGTTTGGTTTGATAGACGACAGGTTATGATAAACGGTGGATTATTATAAATGGTGTTTGAGGGGCAAGTTATTATAACAGGAATTATGATAAACGGTGTTTGAGGGGCTGATTATGTAACAAAAAGTAATATATATATATCTATATATATATAAGGTAGATAAACGGGCACGTAGGTTTAGGTAACCACTATTTATAATAAATGGTGGGACAAACATTGGTTGGGTTATTATAACCAACCCGACCGTTTACATAAATGGGGGCCCAAACACATTCTTAAGGTAATTAACAAATGCATGAGAACGAGATAGAGTGGAAGTAGGACCGACAGGAAACATCTATAACAGGACCAAGGGTACAAACCTTTAACATCCCATCCTCTTTGAAGAAATGCATCAACCCTGGAGGATAGACACAAGGCCCATCACATCACTAGTGTCTCCATTAGGTAGAGGATGATGAAAAATAAAAGAGAAGGAAAGGAAACATGACGAGACAACACGAAGACCATTGAATGCAAACTCTTCTCCGTCAGGAATTAGAGGTGAGGAAATAATATGTAAAGAGGTTTATTGTGTACCCTACTGTCCTCCTAGAAATAAACTTCCTAACTGTACCTCACAGGGCATCTGACATATTGAGAAAAGGAGGAGAAATAAAAAGAAAAGATTTTCATAGGTTTTTACTAAGGCCCCTCGACTCCCCCTCCAAATTTATTAATAGGGCGAGGACCATGCCTACAACCTACTCACTATCACTCTATACCATATAGAGTCTTCCTGTATGAAGTAATGCCACTACCATTTGGCCACTAGAGCTTCATCCTTAAGCTCCTAATCCTAGACCTCTTAGCTCAATAGGTTTCACCACCAACTCCCACCTAACCAAATGTGATCCTCTCCATCCTCACTCCATTATCTCCTATACCACCCTTTTGAAACCTACTCTAAAGGGTCACATTCTATACAATAAAGAGTTTGCCTCAAAGGAATGCCACTACCACTGGGCCAATAGAGGCTCATTGCACATTCTCAAGTTCCCTAACCCCAAACCTCCTAGCTTAACAAGCTTGGCCACCAACTTTCACTTGACCTAATGATATCCTTCTCCCCCTCAGTCCTCACGGCCCCTCCTATAGAAAGTTTTCCATAAACCTTTCAAGCAATTTACTCACAGTGACACTGACCCTAAACTTAAAAAGGAAGAAGCTTGAAATCCCACTAAAAATTGTCCAGATAAAAGTAGTCTCCCCCCTTGAGAAGAAGACCTTTTTCCAACTGGTTAACCTCTTCTAAACTTTATCGAATCCAAAACATAAGACTATTTAGATTTCCACTCAAGGGAGGACCTAAGCAATAGAAAACTGGTTGACCTCACCTCACACCCCATTGACTCAGCCCATGAGGCCAGTTTTGCACAAGTTAAGCTATAAATGGAACTATTTTCGGCCATTTGTCTTAAGACCAAAAGTAGCTTCAAAGAAAGATCGAAATCTTATAAGATTAACAAAAGAGCTCTCTTTCCCGAGATAGAAGAAAATAGTGTTGTGAGCAAACTTATGGCAAGAGAGACGAACCAAGTCCTCCACCTTGAAACCTTTCAAGTAGCCTACTTAAACATCCACCGCTAGAAAAAAAGAAGAAAAGTCGAATCATAAGTAATAGCATAATTATCCTTTTAAGGTTGGAACTCAAAAGAATTGTCACCCCTCTCCCCAAGCACATAATTAGTAGCATAATTATCCTTTTGAGGTTGAGACTCAAAGAATTGTCACCCCTCTCCCCAAGCTTGCCCTCTTTGAACCGTTTACCCTATTTTAGACTTACAAGAGTTTAAAAGGGTATGCTGGGAAGAAATTTTGATAACTTGAAGAGGGTTTCTTGACCAGTTAAATATGATATTAGAGGCTCTTCTAGTTGCTTTTCAAAGAGTTTTGGTCATAAATTCATACCATACTTGCTAAGCTCTCTTGATAGTACTAGCTCTTCTAGCTATGGTCTTGTTAGCCCAAACAAAGGATGACCTGCAAGAGGCTCTTTCATGGCGTTCGGAGAGGAAAGAACTCTACATTTGTTTCTTTTTTATAAAATAGTCTCTTTTATGGTCAAATTGGAATGAAGAGTTACTTTGGAGAATATACATATTGTATCATCGTAGGGAGGTTCGTATTTAAAATATTCCTTTGAATTTATGGAGGTTTGTGACTTGTAAGGCCATTGGTGATGCGGTGGCTTCATTGAATACTATGACAAATGCTCCACCTCTATGGAAGCAGTTTCTTTAGTTAAAAAAAAGAATTGTTGCGATTATATGTCAGCAGAGATTGAGTACTGCCAAGCCAATAATTTTCCTGCCTTAGTTCACATGGTCACTTTTGAGTTTTAACATATGGGGTGGAAGAATTTGAACTTCTCGCCTTTTGGTCTAATATGCTTTATGCAATTGAGCTATGAAAGCTATGCTTAGGTTGACTGCCGAAGATTTGAACTTCATTAAATGAAGAAGGTAGAATTGGTTCAGTCCTCTTACTTTGGTTTTCTACTGGGTGGATATTGTTCTGGGAACTGTTTTGTGACGGAATCAAAAGCAAACTTGCTAGGTGGAGAAGTTTACTATTTCCAAAGCTGTTGCCAACCTGAGCAGTTCAACGACAGTTGTGTGTGCCCATGGACCAGTAATAGGTTTGAATCCTTGCTCCCAATTGTTGTTGAATTAAAAAAAAAAAAAGAAAAGAAAAGCTGTTGATGACATTCTTCTGGACCTCTGGTTAAGTAATATAGGATGCTCTTTAGACAATTTGATTGGAATTGCGTTCGGTCTAGAGTTAATTGACTGAGGGGTCATCGTAATCATTTAAAGTTGTCAAGGTTAGAATATAGCTTTTCGTGTCTTTGGCAGGCTTTGATGTTAGATAATGACATTGGGAACTCCTGTATTGTATCTATGTTAGATGAGTGAAAAATGAAAAGTTATTTGGACGGTGAATAACCACGGATTGGAGTGTTATTGAGACATGTGAAGAAAATAAAATGGACTTTTGGATACGAGTTTTTTTACCATAAAAATATGGTAAAGTTTATTAAATATCTTGTATGACTAATTAAGATTAATGCATCCAAAAGGGCGTAGCTTGACTTTGAGTGACATCAAATAACCATGAGGTTATAGATTTGAATTCCACTTCTCTAAATATTGTTGAATAAAAAATAAAGAAGATTAATTCACATGCACTCAACGAACAAATATTAAAAGAACAACAACAATAATGATAATAATAGTGATGATAATAGTAATAATAATAATATTTGGCATACTCACTTCAATTGCGTTTGTTTAAAATCTCAAAAAAAAAAAGAGAAAAAATAGGGATTAGAAAGGATCAACAACTTTACATTTTTTTACTATCTTTTTGCCTTTTGTCTCCAAGGGGTGGCATAGTGGTTGAAGACTTGGGCTTTGTGGGTATGTTCCCCTCAAGGTCTTGGGATCGAGACTCACCTGTGACATTACTCCTTCAATGTCTTCGATACCTGGCCTAGGAATGGGCTTGGTTACCCTCGTTTCAAACTATCTTTTTGCCTTTAAAATTTTTGTGGGAGCCAACCAAATCAATAGCTCAATGGATATAAGCGTATACTCATAACCAAAATGTCAAGGGAGTATAAAGAGGTTTGGGGTCTCAAAGGTATACTTCAAACACGAGTAAGCTTAATTGCAAGATCCCTTGTGGTCTCTCAAGTCCGAGCTGGCACAGGCGCAGTTCCCAATTATAAAAACAAAATAAAATACATAACTCAATCTGACCATGATCCTTTGTAGTAAAACTTTGCAAACTTGTGAAGGGTGGATCTAGCAAAATCCTGTACATACTATATTTTAATCATTGCACATATTGTCTTCCAATTAGGTTATGATTTTGAAATGACACGGGTATGTCTTCAGTCCACTTCAACAACTTTCTCCACTTAAAAATGATAATTCTCAAGTTGGAGAGTGGATATTGAAGTCAACCAGCGGCCACATTTCTGTTTTCCTATTATATTCAGATATAAAGTTTTTTTTTTCTGATATCAGTACCAGGTAGATATTATTTTCACCAAGCTTTTTTTTTTAAACCTGTATAGGGCACTTAACAGCAAGGAGCGATGTATACAGCTTCGGTGTTGTTCTTCTAGAGCTTTTGACGGGAAGAAAGTCTGTTGACAAGACAAAACCAAGCAAGGAGCAGAATTTGGTAGATTGGGCCCGACCTAAACTAAATGACAAGAGGAAGTTGCTACAAATAATTGACCCCAGATTAGAAAATGAATACTCGATAAGGGCAGCTCAGAAAGCCTGCAGCCTAGCCTACTATTGCCTGAGCCAGAATCCTAAAGCAAGACCATTAATGAGTGACGTGGTTGAAACTCTGGAACCATTACAGAGTGGTAACGGTGCAACTGAATACTCATCAGCAGGAACCAGTTCATTTGGTAGGGGGGGCATCCCTGATTACAGAATGCGGCAAAGGCTTGGCAACAATGTCGGTCCGGGGTCTAGCTGCCAATCCCCTAACCCCAACTGTTCCCCGGGCGCCCCTGCAGCATGTAGGGTTAGATAAAGATCCATCTTGTTTTGTATTTGGCTTGCTTTTTCTTTGCCTTTACTGAAATCAGAATGTTCGCTGTAACAACCCTGGAGTTGTAATATTTGGGTTGTGCCAGTTGGCCATGTGTTATGTAGAATATTTGGAACTGTAATTATTATGTGCTCTAACTTGCATGCATGCTAA

mRNA sequence

ATGGGATTTGAAGAGCGGTGTTTATTTCCAGACGACAAATACAATACCGTGGCATGGACGGAGGCAGAAAGGTTTAAAGCAGAGGGAGAGATCGTTGGTGTTAAACAACAACGTTACCCAGAAAAGGAAAAAAAAAGAAAAAAAAAAGAAAAAGAGAAAAACCAATCTCTCAACCCAACTCTGCCACTGTCACTGTCACTGCAAACCAATCAATCAATCTCCAGATTCGGGATGGGAAACTGCGGCACCAGAGAAGAATCTGCAGTTGTTTCCGATGCTCAAGTTCCGCAGCTGCATTCTGTGTCGTCTTCCAACAATGCTACTGATAGAAGGCATATCCATAGCCGGTCCGTGTCGGATCTAAGCGAGCCTTCGACCCCTCGCAACCTCGAGGACTTTCGCAAGAATTCTGTGCTTTATACCCACATTATCGCCTTCACATTGTATGAACTGGAAACTATCACCAAGAGTTTCCGTTCCGATTACATTCTCGGAGAGGGCGGTTTCGGAACTGTTTATAAAGGCTACATTGATGAGAATGTCCGGGTTGGCCTCAAATCTCTGCCTGTGGCTGTTAAGGTTCTCAATAAGGAAGGCCTCCAGGGCCACCGAGAATGGCTTACGGAAGTCAACTTTCTTGGTCAGCTGAGACATCCAAACCTTGTGAAGTTGATTGGTTACTGCTGCGAGGACGATCACAGATTGCTTGTCTACGAGTTCATGTTTAGAGGAAGCCTTGAAAACCACCTCTTTCGAAAGACATCTGTTCCATTGCCATGGGCAAGAAGAATGATGATAGCTCTTGGAGCAGCCAAGGGACTTGCTTTCCTACACAATGCTGAAAGGCCCGTTATCTATCGGGATTTTAAAACCTCTAATATACTGTTGGACTCTGTATGGCACTTAACAGCAAGGAGCGATGTATACAGCTTCGGTGTTGTTCTTCTAGAGCTTTTGACGGGAAGAAAGTCTGTTGACAAGACAAAACCAAGCAAGGAGCAGAATTTGGTAGATTGGGCCCGACCTAAACTAAATGACAAGAGGAAGTTGCTACAAATAATTGACCCCAGATTAGAAAATGAATACTCGATAAGGGCAGCTCAGAAAGCCTGCAGCCTAGCCTACTATTGCCTGAGCCAGAATCCTAAAGCAAGACCATTAATGAGTGACGTGGTTGAAACTCTGGAACCATTACAGAGTGGTAACGGTGCAACTGAATACTCATCAGCAGGAACCAGTTCATTTGGTAGGGGGGGCATCCCTGATTACAGAATGCGGCAAAGGCTTGGCAACAATGTCGGTCCGGGGTCTAGCTGCCAATCCCCTAACCCCAACTGTTCCCCGGGCGCCCCTGCAGCATTTGGCCATGTGTTATGTAGAATATTTGGAACTGTAATTATTATGTGCTCTAACTTGCATGCATGCTAA

Coding sequence (CDS)

ATGGGATTTGAAGAGCGGTGTTTATTTCCAGACGACAAATACAATACCGTGGCATGGACGGAGGCAGAAAGGTTTAAAGCAGAGGGAGAGATCGTTGGTGTTAAACAACAACGTTACCCAGAAAAGGAAAAAAAAAGAAAAAAAAAAGAAAAAGAGAAAAACCAATCTCTCAACCCAACTCTGCCACTGTCACTGTCACTGCAAACCAATCAATCAATCTCCAGATTCGGGATGGGAAACTGCGGCACCAGAGAAGAATCTGCAGTTGTTTCCGATGCTCAAGTTCCGCAGCTGCATTCTGTGTCGTCTTCCAACAATGCTACTGATAGAAGGCATATCCATAGCCGGTCCGTGTCGGATCTAAGCGAGCCTTCGACCCCTCGCAACCTCGAGGACTTTCGCAAGAATTCTGTGCTTTATACCCACATTATCGCCTTCACATTGTATGAACTGGAAACTATCACCAAGAGTTTCCGTTCCGATTACATTCTCGGAGAGGGCGGTTTCGGAACTGTTTATAAAGGCTACATTGATGAGAATGTCCGGGTTGGCCTCAAATCTCTGCCTGTGGCTGTTAAGGTTCTCAATAAGGAAGGCCTCCAGGGCCACCGAGAATGGCTTACGGAAGTCAACTTTCTTGGTCAGCTGAGACATCCAAACCTTGTGAAGTTGATTGGTTACTGCTGCGAGGACGATCACAGATTGCTTGTCTACGAGTTCATGTTTAGAGGAAGCCTTGAAAACCACCTCTTTCGAAAGACATCTGTTCCATTGCCATGGGCAAGAAGAATGATGATAGCTCTTGGAGCAGCCAAGGGACTTGCTTTCCTACACAATGCTGAAAGGCCCGTTATCTATCGGGATTTTAAAACCTCTAATATACTGTTGGACTCTGTATGGCACTTAACAGCAAGGAGCGATGTATACAGCTTCGGTGTTGTTCTTCTAGAGCTTTTGACGGGAAGAAAGTCTGTTGACAAGACAAAACCAAGCAAGGAGCAGAATTTGGTAGATTGGGCCCGACCTAAACTAAATGACAAGAGGAAGTTGCTACAAATAATTGACCCCAGATTAGAAAATGAATACTCGATAAGGGCAGCTCAGAAAGCCTGCAGCCTAGCCTACTATTGCCTGAGCCAGAATCCTAAAGCAAGACCATTAATGAGTGACGTGGTTGAAACTCTGGAACCATTACAGAGTGGTAACGGTGCAACTGAATACTCATCAGCAGGAACCAGTTCATTTGGTAGGGGGGGCATCCCTGATTACAGAATGCGGCAAAGGCTTGGCAACAATGTCGGTCCGGGGTCTAGCTGCCAATCCCCTAACCCCAACTGTTCCCCGGGCGCCCCTGCAGCATTTGGCCATGTGTTATGTAGAATATTTGGAACTGTAATTATTATGTGCTCTAACTTGCATGCATGCTAA

Protein sequence

MGFEERCLFPDDKYNTVAWTEAERFKAEGEIVGVKQQRYPEKEKKRKKKEKEKNQSLNPTLPLSLSLQTNQSISRFGMGNCGTREESAVVSDAQVPQLHSVSSSNNATDRRHIHSRSVSDLSEPSTPRNLEDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVWHLTARSDVYSFGVVLLELLTGRKSVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSDVVETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGAPAAFGHVLCRIFGTVIIMCSNLHAC

Homology

[Close]

BLAST of Sed0000555 vs. NCBI nr
Match: XP_022157294.1 (probable serine/threonine-protein kinase PBL8 [Momordica charantia])

HSP 1 Score: 687.2 bits (1772), Expect = 1.0e-193
Identity = 352/431 (81.67%), Postives = 368/431 (85.38%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSS-------SNNATDRRHIHSRSVSDLSEPSTPRNL 137
           MGNCGTREESAVVS+AQV QLH++SS       SNNA D+RHIH+RS+SDLS+PSTPRNL
Sbjct: 1   MGNCGTREESAVVSNAQVQQLHTLSSSLAVKNGSNNAADKRHIHNRSISDLSDPSTPRNL 60

Query: 138 EDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV 197
           EDFRKNSVLYTH+IAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV
Sbjct: 61  EDFRKNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV 120

Query: 198 AVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL 257
           AVKVLN+EGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL
Sbjct: 121 AVKVLNREGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL 180

Query: 258 FRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW---------- 317
           FRKT+VPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +          
Sbjct: 181 FRKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYTAKLSDFGLA 240

Query: 318 ------------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKP 377
                                         HLTARSDVYSFGVVLLELLTGRKSVDKTKP
Sbjct: 241 KAGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLELLTGRKSVDKTKP 300

Query: 378 SKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSD 437
           SKEQNLVDWARPKLNDKRKLLQIIDPRLEN+YSIRAAQKACSLAYYCLSQNPKARPLMSD
Sbjct: 301 SKEQNLVDWARPKLNDKRKLLQIIDPRLENQYSIRAAQKACSLAYYCLSQNPKARPLMSD 360

Query: 438 VVETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGA 462
           VVETLEPLQSGNG +EYSS G+S F RGGIPDYRMRQR  NNVGPGSSC+SPNPNCSP  
Sbjct: 361 VVETLEPLQSGNGTSEYSSTGSSPFVRGGIPDYRMRQRFTNNVGPGSSCRSPNPNCSPSG 420

[Close]

BLAST of Sed0000555 vs. NCBI nr
Match: XP_008442306.1 (PREDICTED: serine/threonine-protein kinase At5g01020 [Cucumis melo] >TYK24894.1 serine/threonine-protein kinase [Cucumis melo var. makuwa])

HSP 1 Score: 677.6 bits (1747), Expect = 8.0e-191
Identity = 349/430 (81.16%), Postives = 366/430 (85.12%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSS------SNNATDRRHIHSRSVSDLSEPSTPRNLE 137
           MGNCGTREESAVVS+AQV QLH+ SS      +NNATD+RHIH+RS+SDLS+PSTPRNLE
Sbjct: 1   MGNCGTREESAVVSNAQVQQLHTSSSLAVKNANNNATDKRHIHNRSISDLSDPSTPRNLE 60

Query: 138 DFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 197
           DFRKNSVLYTH+IAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA
Sbjct: 61  DFRKNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 120

Query: 198 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 257
           VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF
Sbjct: 121 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 180

Query: 258 RKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW----------- 317
           RKT+VPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +           
Sbjct: 181 RKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYTAKLSDFGLAK 240

Query: 318 -----------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKPS 377
                                        HLTARSDVYSFGVVLLELLTGRKSVDKTKPS
Sbjct: 241 AGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLELLTGRKSVDKTKPS 300

Query: 378 KEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSDV 437
           KEQNLVDWARPKLNDKRKLLQIIDPRLE++YSIRAAQKACSLAYYCLSQNPKARPLMSDV
Sbjct: 301 KEQNLVDWARPKLNDKRKLLQIIDPRLESQYSIRAAQKACSLAYYCLSQNPKARPLMSDV 360

Query: 438 VETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGAP 462
           VETLEPLQSGN A EYSS GT+ F RGG+PDYRMRQRL NNVG G+SC+SPN NCSP  P
Sbjct: 361 VETLEPLQSGNDAIEYSSMGTTPFVRGGVPDYRMRQRLINNVGSGASCRSPNSNCSPNGP 420

[Close]

BLAST of Sed0000555 vs. NCBI nr
Match: XP_004137666.1 (probable serine/threonine-protein kinase PBL8 [Cucumis sativus] >KGN58944.2 hypothetical protein Csa_002659 [Cucumis sativus])

HSP 1 Score: 677.2 bits (1746), Expect = 1.0e-190
Identity = 348/430 (80.93%), Postives = 365/430 (84.88%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSS------SNNATDRRHIHSRSVSDLSEPSTPRNLE 137
           MGNCGTREESAVVS+AQV QLH+ SS      +NNATD+RHIH+RS+SDLS+PSTPRNLE
Sbjct: 1   MGNCGTREESAVVSNAQVQQLHTSSSLAVKNANNNATDKRHIHNRSISDLSDPSTPRNLE 60

Query: 138 DFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 197
           DFRKNSVLYTH+IAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA
Sbjct: 61  DFRKNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 120

Query: 198 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 257
           VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF
Sbjct: 121 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 180

Query: 258 RKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW----------- 317
           RKT+VPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +           
Sbjct: 181 RKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYTAKLSDFGLAK 240

Query: 318 -----------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKPS 377
                                        HLTARSDVYSFGVVLLELLTGRKSVDKTKPS
Sbjct: 241 AGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLELLTGRKSVDKTKPS 300

Query: 378 KEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSDV 437
           KEQNLVDWARPKLNDKRKLLQIIDPRLE++YSIRAAQKACSLAYYCLSQNPKARPLMSDV
Sbjct: 301 KEQNLVDWARPKLNDKRKLLQIIDPRLESQYSIRAAQKACSLAYYCLSQNPKARPLMSDV 360

Query: 438 VETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGAP 462
           VETLEPLQSGN A EYSS G + F RGG+PDYRMRQR  NNVG G+SC+SPNPNCSP  P
Sbjct: 361 VETLEPLQSGNDAIEYSSMGNTPFVRGGVPDYRMRQRFINNVGSGASCRSPNPNCSPNGP 420

[Close]

BLAST of Sed0000555 vs. NCBI nr
Match: XP_038903722.1 (probable serine/threonine-protein kinase PBL8 [Benincasa hispida])

HSP 1 Score: 674.1 bits (1738), Expect = 8.9e-190
Identity = 347/430 (80.70%), Postives = 365/430 (84.88%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSS------SNNATDRRHIHSRSVSDLSEPSTPRNLE 137
           MGNCGTREESAVVS+AQV QLH+ SS      +NNATD+RHIH+RS+SDLS+PSTPR+LE
Sbjct: 1   MGNCGTREESAVVSNAQVQQLHTSSSLAVKNANNNATDKRHIHNRSISDLSDPSTPRSLE 60

Query: 138 DFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 197
           DFRKNSVLYTH+IAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA
Sbjct: 61  DFRKNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 120

Query: 198 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 257
           VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF
Sbjct: 121 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 180

Query: 258 RKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW----------- 317
           RKT+VPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +           
Sbjct: 181 RKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYTAKLSDFGLAK 240

Query: 318 -----------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKPS 377
                                        HLTARSDVYSFGVVLLELLTGRKSVDKTKPS
Sbjct: 241 AGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLELLTGRKSVDKTKPS 300

Query: 378 KEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSDV 437
           KEQNLVDWARPKLNDKRKLLQIIDPRLE++YSIRAAQKACSLAYYCLSQNPKARPLMSDV
Sbjct: 301 KEQNLVDWARPKLNDKRKLLQIIDPRLESQYSIRAAQKACSLAYYCLSQNPKARPLMSDV 360

Query: 438 VETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGAP 462
           VETLEPLQSGN ATEYSS GTS F RGG PDYRMR+R  +NVG G+SC+SPNPNCSP  P
Sbjct: 361 VETLEPLQSGNDATEYSSMGTSPFVRGGAPDYRMRRRFIDNVGSGASCRSPNPNCSPSGP 420

[Close]

BLAST of Sed0000555 vs. NCBI nr
Match: XP_022934518.1 (probable serine/threonine-protein kinase PBL8 [Cucurbita moschata])

HSP 1 Score: 672.9 bits (1735), Expect = 2.0e-189
Identity = 347/431 (80.51%), Postives = 362/431 (83.99%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSS-------SNNATDRRHIHSRSVSDLSEPSTPRNL 137
           MGNCGTREE AVVS+AQV QLH+ SS       SNNA ++RHIH+RS+SDLS+PSTPRNL
Sbjct: 1   MGNCGTREEPAVVSNAQVQQLHTSSSSLVVKSASNNAPNKRHIHNRSISDLSDPSTPRNL 60

Query: 138 EDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV 197
           EDFR NSVLYTH+IAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV
Sbjct: 61  EDFRNNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV 120

Query: 198 AVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL 257
           AVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL
Sbjct: 121 AVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL 180

Query: 258 FRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW---------- 317
           FRKT+VPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +          
Sbjct: 181 FRKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYAAKLSDFGLA 240

Query: 318 ------------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKP 377
                                         HLTARSDVYSFGVVLLELLTGRKSVDKTKP
Sbjct: 241 KAGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLELLTGRKSVDKTKP 300

Query: 378 SKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSD 437
           SKEQNLVDWARPKLNDKRKLLQIIDPRLEN+YSIRAAQKACSLAYYCLSQNPKARPLMSD
Sbjct: 301 SKEQNLVDWARPKLNDKRKLLQIIDPRLENQYSIRAAQKACSLAYYCLSQNPKARPLMSD 360

Query: 438 VVETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGA 462
           VVETLEPLQSGNGATEYS  GTS F RGG+ DYRMRQR  +NVGPG SC+S NPNCSP  
Sbjct: 361 VVETLEPLQSGNGATEYSLTGTSPFVRGGVRDYRMRQRFADNVGPGVSCRSANPNCSPSG 420

[Close]

BLAST of Sed0000555 vs. ExPASy Swiss-Prot
Match: Q8GXZ3 (Probable serine/threonine-protein kinase PBL8 OS=Arabidopsis thaliana OX=3702 GN=PBL8 PE=1 SV=1)

HSP 1 Score: 567.8 bits (1462), Expect = 1.2e-160
Identity = 301/427 (70.49%), Postives = 326/427 (76.35%), Query Frame = 0


Query: 78  MGNCGTREESAVVS-DAQVPQLHSVSSSNNATDRRHIHSRSVSDLSEPSTPRNLEDFRKN 137
           MGNCGTR+E+AV +  AQ  QL               HSRSVSDLS+PSTPR  +D R  
Sbjct: 1   MGNCGTRDEAAVFTPQAQAQQLQKK------------HSRSVSDLSDPSTPRFRDDSR-T 60

Query: 138 SVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVAVKVLN 197
            + Y  +I FTL+ELETITKSFR DYILGEGGFGTVYKGYID+N+RVGLKSLPVAVKVLN
Sbjct: 61  PISYAQVIPFTLFELETITKSFRPDYILGEGGFGTVYKGYIDDNLRVGLKSLPVAVKVLN 120

Query: 198 KEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLFRKTSV 257
           KEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFM RGSLENHLFRKT+ 
Sbjct: 121 KEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMLRGSLENHLFRKTTA 180

Query: 258 PLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW---------------- 317
           PL W+RRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +                
Sbjct: 181 PLSWSRRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYTAKLSDFGLAKAGPQG 240

Query: 318 ------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKPSKEQNL 377
                                   HLTARSDVYSFGVVLLE+LTGRKSVDKT+PSKEQNL
Sbjct: 241 DETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLEMLTGRKSVDKTRPSKEQNL 300

Query: 378 VDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSDVVETLE 437
           VDWARPKLNDKRKLLQIIDPRLEN+YS+RAAQKACSLAYYCLSQNPKARPLMSDVVETLE
Sbjct: 301 VDWARPKLNDKRKLLQIIDPRLENQYSVRAAQKACSLAYYCLSQNPKARPLMSDVVETLE 360

Query: 438 PLQSGNGATEYSSAGT--SSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGAPAAF 462
           PLQ    A    +  T  ++F  GG+PDYRM +R   NVGPG+ C+SPNPN SPG PAA 
Sbjct: 361 PLQCTGDALIPCATTTAGAAFAMGGVPDYRMHRRFAKNVGPGAICRSPNPNYSPGGPAA- 409

[Close]

BLAST of Sed0000555 vs. ExPASy Swiss-Prot
Match: Q9ZUF4 (Serine/threonine-protein kinase RIPK OS=Arabidopsis thaliana OX=3702 GN=RIPK PE=1 SV=1)

HSP 1 Score: 351.3 bits (900), Expect = 1.7e-95
Identity = 204/379 (53.83%), Postives = 239/379 (63.06%), Query Frame = 0


Query: 117 SVSDLSEPSTPRNLEDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGY 176
           S+ D+S PS+    ED    S+  + +  FTL EL+ IT+SF S   LGEGGFG V+KG+
Sbjct: 47  SILDMSNPSSNTLSEDL-SISLAGSDLHVFTLAELKVITQSFSSTNFLGEGGFGPVHKGF 106

Query: 177 IDENVRVGLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLL 236
           ID+ +R GLK+ PVAVK+L+ EGLQGHREWLTEV FLGQL+H NLVKLIGYCCE++HR L
Sbjct: 107 IDDKLRPGLKAQPVAVKLLDLEGLQGHREWLTEVMFLGQLKHKNLVKLIGYCCEEEHRTL 166

Query: 237 VYEFMFRGSLENHLFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILL 296
           VYEFM RGSLEN LFR+ S  LPW+ RM IA GAA GL FLH AE PVIYRDFK SNILL
Sbjct: 167 VYEFMPRGSLENQLFRRYSASLPWSTRMKIAHGAATGLQFLHEAENPVIYRDFKASNILL 226

Query: 297 DSVW----------------------------------------HLTARSDVYSFGVVLL 356
           DS +                                        HLTARSDVYSFGVVLL
Sbjct: 227 DSDYTAKLSDFGLAKDGPEGDDTHVSTRVMGTQGYAAPEYIMTGHLTARSDVYSFGVVLL 286

Query: 357 ELLTGRKSVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYY 416
           ELLTGR+SVDK + S+EQNLVDWARP LND RKL +I+DPRLE +YS   A+KA +LAY 
Sbjct: 287 ELLTGRRSVDKKRSSREQNLVDWARPMLNDPRKLSRIMDPRLEGQYSETGARKAATLAYQ 346

Query: 417 CLSQNPKARPLMSDVVETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQ-RLGNNVGP 449
           CLS  PK RP MS VV  L  L+  N        GT ++     PD +    R+GN    
Sbjct: 347 CLSHRPKNRPCMSAVVSILNDLKDYNDI----PMGTFTYTVPNTPDNKEDDGRVGNKPRK 406

[Close]

BLAST of Sed0000555 vs. ExPASy Swiss-Prot
Match: Q8H1E3 (Probable serine/threonine-protein kinase PBL17 OS=Arabidopsis thaliana OX=3702 GN=PBL17 PE=1 SV=1)

HSP 1 Score: 350.1 bits (897), Expect = 3.9e-95
Identity = 180/334 (53.89%), Postives = 217/334 (64.97%), Query Frame = 0


Query: 124 PSTPRNLEDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRV 183
           P  P+N++D + N   Y ++  FT  E++  TK FR DYILGEGGFG VYKG IDE+VRV
Sbjct: 57  PLAPKNIKDLQSNPG-YENVDIFTYEEMKIATKQFRPDYILGEGGFGVVYKGVIDESVRV 116

Query: 184 GLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFR 243
           G KS  VA+K LN EG QG REWL EVN+LGQL HPNLVKLIGYCCEDDHRLLVYE+M  
Sbjct: 117 GFKSTKVAIKELNPEGFQGDREWLAEVNYLGQLSHPNLVKLIGYCCEDDHRLLVYEYMAM 176

Query: 244 GSLENHLFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW--- 303
           GSLE HLFR+    L W +RM IAL AAKGLAFLH AER +IYRD KT+NILLD  +   
Sbjct: 177 GSLEKHLFRRVGCTLTWTKRMKIALDAAKGLAFLHGAERSIIYRDLKTANILLDEGYNAK 236

Query: 304 -------------------------------------HLTARSDVYSFGVVLLELLTGRK 363
                                                HLT+RSDVY FGV+LLE+L G++
Sbjct: 237 LSDFGLAKDGPRGDQTHVSTRVMGTYGYAAPEYVMTGHLTSRSDVYGFGVLLLEMLLGKR 296

Query: 364 SVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPK 418
           ++DK++  +E NLV+WARP LN  +KLL+IIDPR++ +Y  +A  K   LAY CLSQNPK
Sbjct: 297 AMDKSRACREHNLVEWARPLLNHNKKLLRIIDPRMDGQYGTKALMKVAGLAYQCLSQNPK 356

[Close]

BLAST of Sed0000555 vs. ExPASy Swiss-Prot
Match: Q9FM85 (Probable serine/threonine-protein kinase PBL16 OS=Arabidopsis thaliana OX=3702 GN=PBL16 PE=1 SV=1)

HSP 1 Score: 347.1 bits (889), Expect = 3.3e-94
Identity = 188/371 (50.67%), Postives = 246/371 (66.31%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSSSNNATDRRH----IHSRSVSDLSE-PSTPRNLED 137
           MGNC  R E         P  H VS++  +   +     +  + + ++ + PS P+ +ED
Sbjct: 1   MGNCWCRFE---------PLNHRVSANAKSESPKEQSPTVEDKHIKEVQKLPSNPKEVED 60

Query: 138 FRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENV--RVGLKSLPV 197
            R++S     +IAFT  EL+ IT +FR D +LG GGFG+VYKG+I E++  +   + LPV
Sbjct: 61  LRRDSAA-NPLIAFTYEELKNITSNFRQDRVLGGGGFGSVYKGFIKEDLGDQEVPEPLPV 120

Query: 198 AVKVLNKE-GLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENH 257
           AVKV + +   QGHREWL EV FLGQL HPNLVKLIGYCCED+HR+L+YE+M RGS+EN+
Sbjct: 121 AVKVHDGDNSFQGHREWLAEVIFLGQLSHPNLVKLIGYCCEDNHRVLIYEYMARGSVENN 180

Query: 258 LFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW--------- 317
           LF +  +PL WA RM IA GAAKGLAFLH A++PVIYRDFKTSNILLD  +         
Sbjct: 181 LFSRVLLPLSWAIRMKIAFGAAKGLAFLHEAKKPVIYRDFKTSNILLDMDYNAKLSDFGL 240

Query: 318 -------------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTK 377
                                          HLT  SDVYSFGVVLLELLTGRKS+DK++
Sbjct: 241 AKDGPVGDKSHVSTRIMGTYGYAAPEYIMTGHLTPGSDVYSFGVVLLELLTGRKSLDKSR 300

Query: 378 PSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMS 401
           P++EQNL+DWA P L +K+K+L I+DP++  EY ++A QKA  LAY+CL++NPKARPLM 
Sbjct: 301 PTREQNLIDWALPLLKEKKKVLNIVDPKMNCEYPVKAVQKAAMLAYHCLNRNPKARPLMR 360

[Close]

BLAST of Sed0000555 vs. ExPASy Swiss-Prot
Match: O64842 (Probable serine/threonine-protein kinase PBL12 OS=Arabidopsis thaliana OX=3702 GN=PBL12 PE=2 SV=1)

HSP 1 Score: 333.6 bits (854), Expect = 3.7e-90
Identity = 173/323 (53.56%), Postives = 220/323 (68.11%), Query Frame = 0


Query: 117 SVSDLSEPSTPRNLEDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGY 176
           S+SD+S+PS+P ++ D   +S     +  FTL EL  IT +F    +LGEGGFG VYKG+
Sbjct: 47  SLSDISDPSSPMSVMDDLSHSFTSQKLRLFTLSELRVITHNFSRSNMLGEGGFGPVYKGF 106

Query: 177 IDENVRVGLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLL 236
           ID+ V+ G+++ PVAVK L+  G QGHREWL E+ FLGQL + +LVKLIG+CCE++ R+L
Sbjct: 107 IDDKVKPGIEAQPVAVKALDLHGHQGHREWLAEILFLGQLSNKHLVKLIGFCCEEEQRVL 166

Query: 237 VYEFMFRGSLENHLFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILL 296
           VYE+M RGSLEN LFR+ S+ + W  RM IALGAAKGLAFLH AE+PVIYRDFKTSNILL
Sbjct: 167 VYEYMPRGSLENQLFRRNSLAMAWGIRMKIALGAAKGLAFLHEAEKPVIYRDFKTSNILL 226

Query: 297 DSVW----------------------------------------HLTARSDVYSFGVVLL 356
           DS +                                        HLT  +DVYSFGVVLL
Sbjct: 227 DSDYNAKLSDFGLAKDGPEGEHTHVTTRVMGTQGYAAPEYIMTGHLTTMNDVYSFGVVLL 286

Query: 357 ELLTGRKSVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYY 400
           EL+TG++S+D T+  +EQ+LV+WARP L D+RKL +IIDPRL N++   AAQ A SLAY 
Sbjct: 287 ELITGKRSMDNTRTRREQSLVEWARPMLRDQRKLERIIDPRLANQHKTEAAQVAASLAYK 346

[Close]

BLAST of Sed0000555 vs. ExPASy TrEMBL
Match: A0A6J1DW35 (probable serine/threonine-protein kinase PBL8 OS=Momordica charantia OX=3673 GN=LOC111024027 PE=3 SV=1)

HSP 1 Score: 687.2 bits (1772), Expect = 4.9e-194
Identity = 352/431 (81.67%), Postives = 368/431 (85.38%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSS-------SNNATDRRHIHSRSVSDLSEPSTPRNL 137
           MGNCGTREESAVVS+AQV QLH++SS       SNNA D+RHIH+RS+SDLS+PSTPRNL
Sbjct: 1   MGNCGTREESAVVSNAQVQQLHTLSSSLAVKNGSNNAADKRHIHNRSISDLSDPSTPRNL 60

Query: 138 EDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV 197
           EDFRKNSVLYTH+IAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV
Sbjct: 61  EDFRKNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV 120

Query: 198 AVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL 257
           AVKVLN+EGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL
Sbjct: 121 AVKVLNREGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL 180

Query: 258 FRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW---------- 317
           FRKT+VPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +          
Sbjct: 181 FRKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYTAKLSDFGLA 240

Query: 318 ------------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKP 377
                                         HLTARSDVYSFGVVLLELLTGRKSVDKTKP
Sbjct: 241 KAGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLELLTGRKSVDKTKP 300

Query: 378 SKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSD 437
           SKEQNLVDWARPKLNDKRKLLQIIDPRLEN+YSIRAAQKACSLAYYCLSQNPKARPLMSD
Sbjct: 301 SKEQNLVDWARPKLNDKRKLLQIIDPRLENQYSIRAAQKACSLAYYCLSQNPKARPLMSD 360

Query: 438 VVETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGA 462
           VVETLEPLQSGNG +EYSS G+S F RGGIPDYRMRQR  NNVGPGSSC+SPNPNCSP  
Sbjct: 361 VVETLEPLQSGNGTSEYSSTGSSPFVRGGIPDYRMRQRFTNNVGPGSSCRSPNPNCSPSG 420

[Close]

BLAST of Sed0000555 vs. ExPASy TrEMBL
Match: A0A0A0LCK4 (Protein kinase domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G727920 PE=4 SV=1)

HSP 1 Score: 678.7 bits (1750), Expect = 1.7e-191
Identity = 354/456 (77.63%), Postives = 375/456 (82.24%), Query Frame = 0


Query: 59  PTLPLSLSLQ-------TNQSISRFGMGNCGTREESAVVSDAQVPQLHSVSS------SN 118
           P+LP S  L        ++  +S   MGNCGTREESAVVS+AQV QLH+ SS      +N
Sbjct: 86  PSLPPSALLHHSPNHNFSHTKLSGVEMGNCGTREESAVVSNAQVQQLHTSSSLAVKNANN 145

Query: 119 NATDRRHIHSRSVSDLSEPSTPRNLEDFRKNSVLYTHIIAFTLYELETITKSFRSDYILG 178
           NATD+RHIH+RS+SDLS+PSTPRNLEDFRKNSVLYTH+IAFTLYELETITKSFRSDYILG
Sbjct: 146 NATDKRHIHNRSISDLSDPSTPRNLEDFRKNSVLYTHVIAFTLYELETITKSFRSDYILG 205

Query: 179 EGGFGTVYKGYIDENVRVGLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLI 238
           EGGFGTVYKGYIDENVRVGLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLI
Sbjct: 206 EGGFGTVYKGYIDENVRVGLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLI 265

Query: 239 GYCCEDDHRLLVYEFMFRGSLENHLFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVI 298
           GYCCEDDHRLLVYEFMFRGSLENHLFRKT+VPLPWARRMMIALGAAKGLAFLHNAERPVI
Sbjct: 266 GYCCEDDHRLLVYEFMFRGSLENHLFRKTTVPLPWARRMMIALGAAKGLAFLHNAERPVI 325

Query: 299 YRDFKTSNILLDSVW----------------------------------------HLTAR 358
           YRDFKTSNILLDS +                                        HLTAR
Sbjct: 326 YRDFKTSNILLDSDYTAKLSDFGLAKAGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTAR 385

Query: 359 SDVYSFGVVLLELLTGRKSVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIR 418
           SDVYSFGVVLLELLTGRKSVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLE++YSIR
Sbjct: 386 SDVYSFGVVLLELLTGRKSVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLESQYSIR 445

Query: 419 AAQKACSLAYYCLSQNPKARPLMSDVVETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRM 462
           AAQKACSLAYYCLSQNPKARPLMSDVVETLEPLQSGN A EYSS G + F RGG+PDYRM
Sbjct: 446 AAQKACSLAYYCLSQNPKARPLMSDVVETLEPLQSGNDAIEYSSMGNTPFVRGGVPDYRM 505

[Close]

BLAST of Sed0000555 vs. ExPASy TrEMBL
Match: A0A5D3DMS5 (Serine/threonine-protein kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G00040 PE=3 SV=1)

HSP 1 Score: 677.6 bits (1747), Expect = 3.9e-191
Identity = 349/430 (81.16%), Postives = 366/430 (85.12%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSS------SNNATDRRHIHSRSVSDLSEPSTPRNLE 137
           MGNCGTREESAVVS+AQV QLH+ SS      +NNATD+RHIH+RS+SDLS+PSTPRNLE
Sbjct: 1   MGNCGTREESAVVSNAQVQQLHTSSSLAVKNANNNATDKRHIHNRSISDLSDPSTPRNLE 60

Query: 138 DFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 197
           DFRKNSVLYTH+IAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA
Sbjct: 61  DFRKNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 120

Query: 198 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 257
           VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF
Sbjct: 121 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 180

Query: 258 RKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW----------- 317
           RKT+VPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +           
Sbjct: 181 RKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYTAKLSDFGLAK 240

Query: 318 -----------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKPS 377
                                        HLTARSDVYSFGVVLLELLTGRKSVDKTKPS
Sbjct: 241 AGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLELLTGRKSVDKTKPS 300

Query: 378 KEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSDV 437
           KEQNLVDWARPKLNDKRKLLQIIDPRLE++YSIRAAQKACSLAYYCLSQNPKARPLMSDV
Sbjct: 301 KEQNLVDWARPKLNDKRKLLQIIDPRLESQYSIRAAQKACSLAYYCLSQNPKARPLMSDV 360

Query: 438 VETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGAP 462
           VETLEPLQSGN A EYSS GT+ F RGG+PDYRMRQRL NNVG G+SC+SPN NCSP  P
Sbjct: 361 VETLEPLQSGNDAIEYSSMGTTPFVRGGVPDYRMRQRLINNVGSGASCRSPNSNCSPNGP 420

[Close]

BLAST of Sed0000555 vs. ExPASy TrEMBL
Match: A0A1S3B615 (serine/threonine-protein kinase At5g01020 OS=Cucumis melo OX=3656 GN=LOC103486217 PE=3 SV=1)

HSP 1 Score: 677.6 bits (1747), Expect = 3.9e-191
Identity = 349/430 (81.16%), Postives = 366/430 (85.12%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSS------SNNATDRRHIHSRSVSDLSEPSTPRNLE 137
           MGNCGTREESAVVS+AQV QLH+ SS      +NNATD+RHIH+RS+SDLS+PSTPRNLE
Sbjct: 1   MGNCGTREESAVVSNAQVQQLHTSSSLAVKNANNNATDKRHIHNRSISDLSDPSTPRNLE 60

Query: 138 DFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 197
           DFRKNSVLYTH+IAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA
Sbjct: 61  DFRKNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVA 120

Query: 198 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 257
           VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF
Sbjct: 121 VKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLF 180

Query: 258 RKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW----------- 317
           RKT+VPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +           
Sbjct: 181 RKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYTAKLSDFGLAK 240

Query: 318 -----------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKPS 377
                                        HLTARSDVYSFGVVLLELLTGRKSVDKTKPS
Sbjct: 241 AGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLELLTGRKSVDKTKPS 300

Query: 378 KEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSDV 437
           KEQNLVDWARPKLNDKRKLLQIIDPRLE++YSIRAAQKACSLAYYCLSQNPKARPLMSDV
Sbjct: 301 KEQNLVDWARPKLNDKRKLLQIIDPRLESQYSIRAAQKACSLAYYCLSQNPKARPLMSDV 360

Query: 438 VETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGAP 462
           VETLEPLQSGN A EYSS GT+ F RGG+PDYRMRQRL NNVG G+SC+SPN NCSP  P
Sbjct: 361 VETLEPLQSGNDAIEYSSMGTTPFVRGGVPDYRMRQRLINNVGSGASCRSPNSNCSPNGP 420

[Close]

BLAST of Sed0000555 vs. ExPASy TrEMBL
Match: A0A6J1F7W3 (probable serine/threonine-protein kinase PBL8 OS=Cucurbita moschata OX=3662 GN=LOC111441671 PE=3 SV=1)

HSP 1 Score: 672.9 bits (1735), Expect = 9.6e-190
Identity = 347/431 (80.51%), Postives = 362/431 (83.99%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSS-------SNNATDRRHIHSRSVSDLSEPSTPRNL 137
           MGNCGTREE AVVS+AQV QLH+ SS       SNNA ++RHIH+RS+SDLS+PSTPRNL
Sbjct: 1   MGNCGTREEPAVVSNAQVQQLHTSSSSLVVKSASNNAPNKRHIHNRSISDLSDPSTPRNL 60

Query: 138 EDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV 197
           EDFR NSVLYTH+IAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV
Sbjct: 61  EDFRNNSVLYTHVIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPV 120

Query: 198 AVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL 257
           AVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL
Sbjct: 121 AVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHL 180

Query: 258 FRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW---------- 317
           FRKT+VPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +          
Sbjct: 181 FRKTTVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYAAKLSDFGLA 240

Query: 318 ------------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKP 377
                                         HLTARSDVYSFGVVLLELLTGRKSVDKTKP
Sbjct: 241 KAGPQGDETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLELLTGRKSVDKTKP 300

Query: 378 SKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSD 437
           SKEQNLVDWARPKLNDKRKLLQIIDPRLEN+YSIRAAQKACSLAYYCLSQNPKARPLMSD
Sbjct: 301 SKEQNLVDWARPKLNDKRKLLQIIDPRLENQYSIRAAQKACSLAYYCLSQNPKARPLMSD 360

Query: 438 VVETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGA 462
           VVETLEPLQSGNGATEYS  GTS F RGG+ DYRMRQR  +NVGPG SC+S NPNCSP  
Sbjct: 361 VVETLEPLQSGNGATEYSLTGTSPFVRGGVRDYRMRQRFADNVGPGVSCRSANPNCSPSG 420

[Close]

BLAST of Sed0000555 vs. TAIR 10
Match: AT5G01020.1 (Protein kinase superfamily protein )

HSP 1 Score: 567.8 bits (1462), Expect = 8.4e-162
Identity = 301/427 (70.49%), Postives = 326/427 (76.35%), Query Frame = 0


Query: 78  MGNCGTREESAVVS-DAQVPQLHSVSSSNNATDRRHIHSRSVSDLSEPSTPRNLEDFRKN 137
           MGNCGTR+E+AV +  AQ  QL               HSRSVSDLS+PSTPR  +D R  
Sbjct: 1   MGNCGTRDEAAVFTPQAQAQQLQKK------------HSRSVSDLSDPSTPRFRDDSR-T 60

Query: 138 SVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRVGLKSLPVAVKVLN 197
            + Y  +I FTL+ELETITKSFR DYILGEGGFGTVYKGYID+N+RVGLKSLPVAVKVLN
Sbjct: 61  PISYAQVIPFTLFELETITKSFRPDYILGEGGFGTVYKGYIDDNLRVGLKSLPVAVKVLN 120

Query: 198 KEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENHLFRKTSV 257
           KEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFM RGSLENHLFRKT+ 
Sbjct: 121 KEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMLRGSLENHLFRKTTA 180

Query: 258 PLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW---------------- 317
           PL W+RRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDS +                
Sbjct: 181 PLSWSRRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSDYTAKLSDFGLAKAGPQG 240

Query: 318 ------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTKPSKEQNL 377
                                   HLTARSDVYSFGVVLLE+LTGRKSVDKT+PSKEQNL
Sbjct: 241 DETHVSTRVMGTYGYAAPEYVMTGHLTARSDVYSFGVVLLEMLTGRKSVDKTRPSKEQNL 300

Query: 378 VDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMSDVVETLE 437
           VDWARPKLNDKRKLLQIIDPRLEN+YS+RAAQKACSLAYYCLSQNPKARPLMSDVVETLE
Sbjct: 301 VDWARPKLNDKRKLLQIIDPRLENQYSVRAAQKACSLAYYCLSQNPKARPLMSDVVETLE 360

Query: 438 PLQSGNGATEYSSAGT--SSFGRGGIPDYRMRQRLGNNVGPGSSCQSPNPNCSPGAPAAF 462
           PLQ    A    +  T  ++F  GG+PDYRM +R   NVGPG+ C+SPNPN SPG PAA 
Sbjct: 361 PLQCTGDALIPCATTTAGAAFAMGGVPDYRMHRRFAKNVGPGAICRSPNPNYSPGGPAA- 409

[Close]

BLAST of Sed0000555 vs. TAIR 10
Match: AT2G05940.1 (Protein kinase superfamily protein )

HSP 1 Score: 351.3 bits (900), Expect = 1.2e-96
Identity = 204/379 (53.83%), Postives = 239/379 (63.06%), Query Frame = 0


Query: 117 SVSDLSEPSTPRNLEDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGY 176
           S+ D+S PS+    ED    S+  + +  FTL EL+ IT+SF S   LGEGGFG V+KG+
Sbjct: 47  SILDMSNPSSNTLSEDL-SISLAGSDLHVFTLAELKVITQSFSSTNFLGEGGFGPVHKGF 106

Query: 177 IDENVRVGLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLL 236
           ID+ +R GLK+ PVAVK+L+ EGLQGHREWLTEV FLGQL+H NLVKLIGYCCE++HR L
Sbjct: 107 IDDKLRPGLKAQPVAVKLLDLEGLQGHREWLTEVMFLGQLKHKNLVKLIGYCCEEEHRTL 166

Query: 237 VYEFMFRGSLENHLFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILL 296
           VYEFM RGSLEN LFR+ S  LPW+ RM IA GAA GL FLH AE PVIYRDFK SNILL
Sbjct: 167 VYEFMPRGSLENQLFRRYSASLPWSTRMKIAHGAATGLQFLHEAENPVIYRDFKASNILL 226

Query: 297 DSVW----------------------------------------HLTARSDVYSFGVVLL 356
           DS +                                        HLTARSDVYSFGVVLL
Sbjct: 227 DSDYTAKLSDFGLAKDGPEGDDTHVSTRVMGTQGYAAPEYIMTGHLTARSDVYSFGVVLL 286

Query: 357 ELLTGRKSVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYY 416
           ELLTGR+SVDK + S+EQNLVDWARP LND RKL +I+DPRLE +YS   A+KA +LAY 
Sbjct: 287 ELLTGRRSVDKKRSSREQNLVDWARPMLNDPRKLSRIMDPRLEGQYSETGARKAATLAYQ 346

Query: 417 CLSQNPKARPLMSDVVETLEPLQSGNGATEYSSAGTSSFGRGGIPDYRMRQ-RLGNNVGP 449
           CLS  PK RP MS VV  L  L+  N        GT ++     PD +    R+GN    
Sbjct: 347 CLSHRPKNRPCMSAVVSILNDLKDYNDI----PMGTFTYTVPNTPDNKEDDGRVGNKPRK 406

[Close]

BLAST of Sed0000555 vs. TAIR 10
Match: AT2G07180.1 (Protein kinase superfamily protein )

HSP 1 Score: 350.1 bits (897), Expect = 2.7e-96
Identity = 180/334 (53.89%), Postives = 217/334 (64.97%), Query Frame = 0


Query: 124 PSTPRNLEDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRV 183
           P  P+N++D + N   Y ++  FT  E++  TK FR DYILGEGGFG VYKG IDE+VRV
Sbjct: 57  PLAPKNIKDLQSNPG-YENVDIFTYEEMKIATKQFRPDYILGEGGFGVVYKGVIDESVRV 116

Query: 184 GLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFR 243
           G KS  VA+K LN EG QG REWL EVN+LGQL HPNLVKLIGYCCEDDHRLLVYE+M  
Sbjct: 117 GFKSTKVAIKELNPEGFQGDREWLAEVNYLGQLSHPNLVKLIGYCCEDDHRLLVYEYMAM 176

Query: 244 GSLENHLFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW--- 303
           GSLE HLFR+    L W +RM IAL AAKGLAFLH AER +IYRD KT+NILLD  +   
Sbjct: 177 GSLEKHLFRRVGCTLTWTKRMKIALDAAKGLAFLHGAERSIIYRDLKTANILLDEGYNAK 236

Query: 304 -------------------------------------HLTARSDVYSFGVVLLELLTGRK 363
                                                HLT+RSDVY FGV+LLE+L G++
Sbjct: 237 LSDFGLAKDGPRGDQTHVSTRVMGTYGYAAPEYVMTGHLTSRSDVYGFGVLLLEMLLGKR 296

Query: 364 SVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPK 418
           ++DK++  +E NLV+WARP LN  +KLL+IIDPR++ +Y  +A  K   LAY CLSQNPK
Sbjct: 297 AMDKSRACREHNLVEWARPLLNHNKKLLRIIDPRMDGQYGTKALMKVAGLAYQCLSQNPK 356

[Close]

BLAST of Sed0000555 vs. TAIR 10
Match: AT2G07180.2 (Protein kinase superfamily protein )

HSP 1 Score: 350.1 bits (897), Expect = 2.7e-96
Identity = 180/334 (53.89%), Postives = 217/334 (64.97%), Query Frame = 0


Query: 124 PSTPRNLEDFRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENVRV 183
           P  P+N++D + N   Y ++  FT  E++  TK FR DYILGEGGFG VYKG IDE+VRV
Sbjct: 57  PLAPKNIKDLQSNPG-YENVDIFTYEEMKIATKQFRPDYILGEGGFGVVYKGVIDESVRV 116

Query: 184 GLKSLPVAVKVLNKEGLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFR 243
           G KS  VA+K LN EG QG REWL EVN+LGQL HPNLVKLIGYCCEDDHRLLVYE+M  
Sbjct: 117 GFKSTKVAIKELNPEGFQGDREWLAEVNYLGQLSHPNLVKLIGYCCEDDHRLLVYEYMAM 176

Query: 244 GSLENHLFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW--- 303
           GSLE HLFR+    L W +RM IAL AAKGLAFLH AER +IYRD KT+NILLD  +   
Sbjct: 177 GSLEKHLFRRVGCTLTWTKRMKIALDAAKGLAFLHGAERSIIYRDLKTANILLDEGYNAK 236

Query: 304 -------------------------------------HLTARSDVYSFGVVLLELLTGRK 363
                                                HLT+RSDVY FGV+LLE+L G++
Sbjct: 237 LSDFGLAKDGPRGDQTHVSTRVMGTYGYAAPEYVMTGHLTSRSDVYGFGVLLLEMLLGKR 296

Query: 364 SVDKTKPSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPK 418
           ++DK++  +E NLV+WARP LN  +KLL+IIDPR++ +Y  +A  K   LAY CLSQNPK
Sbjct: 297 AMDKSRACREHNLVEWARPLLNHNKKLLRIIDPRMDGQYGTKALMKVAGLAYQCLSQNPK 356

[Close]

BLAST of Sed0000555 vs. TAIR 10
Match: AT5G56460.1 (Protein kinase superfamily protein )

HSP 1 Score: 347.1 bits (889), Expect = 2.3e-95
Identity = 188/371 (50.67%), Postives = 246/371 (66.31%), Query Frame = 0


Query: 78  MGNCGTREESAVVSDAQVPQLHSVSSSNNATDRRH----IHSRSVSDLSE-PSTPRNLED 137
           MGNC  R E         P  H VS++  +   +     +  + + ++ + PS P+ +ED
Sbjct: 1   MGNCWCRFE---------PLNHRVSANAKSESPKEQSPTVEDKHIKEVQKLPSNPKEVED 60

Query: 138 FRKNSVLYTHIIAFTLYELETITKSFRSDYILGEGGFGTVYKGYIDENV--RVGLKSLPV 197
            R++S     +IAFT  EL+ IT +FR D +LG GGFG+VYKG+I E++  +   + LPV
Sbjct: 61  LRRDSAA-NPLIAFTYEELKNITSNFRQDRVLGGGGFGSVYKGFIKEDLGDQEVPEPLPV 120

Query: 198 AVKVLNKE-GLQGHREWLTEVNFLGQLRHPNLVKLIGYCCEDDHRLLVYEFMFRGSLENH 257
           AVKV + +   QGHREWL EV FLGQL HPNLVKLIGYCCED+HR+L+YE+M RGS+EN+
Sbjct: 121 AVKVHDGDNSFQGHREWLAEVIFLGQLSHPNLVKLIGYCCEDNHRVLIYEYMARGSVENN 180

Query: 258 LFRKTSVPLPWARRMMIALGAAKGLAFLHNAERPVIYRDFKTSNILLDSVW--------- 317
           LF +  +PL WA RM IA GAAKGLAFLH A++PVIYRDFKTSNILLD  +         
Sbjct: 181 LFSRVLLPLSWAIRMKIAFGAAKGLAFLHEAKKPVIYRDFKTSNILLDMDYNAKLSDFGL 240

Query: 318 -------------------------------HLTARSDVYSFGVVLLELLTGRKSVDKTK 377
                                          HLT  SDVYSFGVVLLELLTGRKS+DK++
Sbjct: 241 AKDGPVGDKSHVSTRIMGTYGYAAPEYIMTGHLTPGSDVYSFGVVLLELLTGRKSLDKSR 300

Query: 378 PSKEQNLVDWARPKLNDKRKLLQIIDPRLENEYSIRAAQKACSLAYYCLSQNPKARPLMS 401
           P++EQNL+DWA P L +K+K+L I+DP++  EY ++A QKA  LAY+CL++NPKARPLM 
Sbjct: 301 PTREQNLIDWALPLLKEKKKVLNIVDPKMNCEYPVKAVQKAAMLAYHCLNRNPKARPLMR 360

The following BLAST results are available for this feature:

BLAST of Sed0000555 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_022157294.1	1.0e-193	81.67	probable serine/threonine-protein kinase PBL8 [Momordica charantia]	[more]
XP_008442306.1	8.0e-191	81.16	PREDICTED: serine/threonine-protein kinase At5g01020 [Cucumis melo] >TYK24894.1 ...	[more]
XP_004137666.1	1.0e-190	80.93	probable serine/threonine-protein kinase PBL8 [Cucumis sativus] >KGN58944.2 hypo...	[more]
XP_038903722.1	8.9e-190	80.70	probable serine/threonine-protein kinase PBL8 [Benincasa hispida]	[more]
XP_022934518.1	2.0e-189	80.51	probable serine/threonine-protein kinase PBL8 [Cucurbita moschata]	[more]

BLAST of Sed0000555 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
Q8GXZ3	1.2e-160	70.49	Probable serine/threonine-protein kinase PBL8 OS=Arabidopsis thaliana OX=3702 GN...	[more]
Q9ZUF4	1.7e-95	53.83	Serine/threonine-protein kinase RIPK OS=Arabidopsis thaliana OX=3702 GN=RIPK PE=...	[more]
Q8H1E3	3.9e-95	53.89	Probable serine/threonine-protein kinase PBL17 OS=Arabidopsis thaliana OX=3702 G...	[more]
Q9FM85	3.3e-94	50.67	Probable serine/threonine-protein kinase PBL16 OS=Arabidopsis thaliana OX=3702 G...	[more]
O64842	3.7e-90	53.56	Probable serine/threonine-protein kinase PBL12 OS=Arabidopsis thaliana OX=3702 G...	[more]

BLAST of Sed0000555 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A6J1DW35	4.9e-194	81.67	probable serine/threonine-protein kinase PBL8 OS=Momordica charantia OX=3673 GN=...	[more]
A0A0A0LCK4	1.7e-191	77.63	Protein kinase domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G727...	[more]
A0A5D3DMS5	3.9e-191	81.16	Serine/threonine-protein kinase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_...	[more]
A0A1S3B615	3.9e-191	81.16	serine/threonine-protein kinase At5g01020 OS=Cucumis melo OX=3656 GN=LOC10348621...	[more]
A0A6J1F7W3	9.6e-190	80.51	probable serine/threonine-protein kinase PBL8 OS=Cucurbita moschata OX=3662 GN=L...	[more]

BLAST of Sed0000555 vs. TAIR 10


Match Name	E-value	Identity	Description
AT5G01020.1	8.4e-162	70.49	Protein kinase superfamily protein	[more]
AT2G05940.1	1.2e-96	53.83	Protein kinase superfamily protein	[more]
AT2G07180.1	2.7e-96	53.89	Protein kinase superfamily protein	[more]
AT2G07180.2	2.7e-96	53.89	Protein kinase superfamily protein	[more]
AT5G56460.1	2.3e-95	50.67	Protein kinase superfamily protein	[more]

InterPro

Analysis Name: InterPro Annotations of Chayote (edule) v1
Date Performed: 2021-10-25


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
None	No IPR available	GENE3D	1.10.510.10	Transferase(Phosphotransferase) domain 1	coord: 241..301 e-value: 1.6E-13 score: 52.8
None	No IPR available	GENE3D	3.30.200.20	Phosphorylase Kinase; domain 1	coord: 122..240 e-value: 2.0E-31 score: 110.1
None	No IPR available	GENE3D	1.10.510.10	Transferase(Phosphotransferase) domain 1	coord: 302..412 e-value: 4.4E-23 score: 83.6
None	No IPR available	PIRSR	PIRSR037281-2	PIRSR037281-2	coord: 100..297 e-value: 1.9E-5 score: 21.4
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 93..108
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 30..55
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 30..62
None	No IPR available	MOBIDB_LITE	mobidb-lite	disorder_prediction	coord: 92..127
None	No IPR available	PANTHER	PTHR45621	OS01G0588500 PROTEIN-RELATED	coord: 100..299
None	No IPR available	PANTHER	PTHR45621:SF22	SERINE/THREONINE-PROTEIN KINASE PBL8-RELATED	coord: 100..299
None	No IPR available	PANTHER	PTHR45621	OS01G0588500 PROTEIN-RELATED	coord: 301..442
None	No IPR available	PANTHER	PTHR45621:SF22	SERINE/THREONINE-PROTEIN KINASE PBL8-RELATED	coord: 301..442
IPR001245	Serine-threonine/tyrosine-protein kinase, catalytic domain	PFAM	PF07714	PK_Tyr_Ser-Thr	coord: 302..395 e-value: 1.4E-5 score: 24.5 coord: 163..297 e-value: 3.4E-25 score: 88.8
IPR017441	Protein kinase, ATP binding site	PROSITE	PS00107	PROTEIN_KINASE_ATP	coord: 164..193
IPR008271	Serine/threonine-protein kinase, active site	PROSITE	PS00108	PROTEIN_KINASE_ST	coord: 284..296
IPR000719	Protein kinase domain	PROSITE	PS50011	PROTEIN_KINASE_DOM	coord: 158..475 score: 22.520422
IPR011009	Protein kinase-like domain superfamily	SUPERFAMILY	56112	Protein kinase-like (PK-like)	coord: 133..396

Relationships

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


Feature Name	Unique Name	Type
Sed0000555.1	Sed0000555.1	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:0004674	protein serine/threonine kinase activity
molecular_function	GO:0004672	protein kinase activity