Spo10905 (gene) | SpinachBase

Overview


Name	Spo10905
Type	gene
Organism	Spinacia oleracea (Spinach)
Description	FAD/NAD(P)-binding oxidoreductase family protein
Location	Super_scaffold_185 : 904914 .. 955409 (+)

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonfive_prime_UTRpolypeptideCDS

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

TCGGGGGTGGGGACCAGGCTTTTCATCTCAGACAAACATTACTCATCTCACCGCCGTTTTATCCCGTCGTGTGTTGTATTGTAGAGAATTTGGAAATCATACAAAGCCATACTCACCAATTCACTCTTTGTAAGCCATAATTGTCCACCCATGAGCTTAAGCTTTGCTCTTGAACCCGGCTTCCTCCATCAAGTCCGTGGATTTCCGGTTCCCTTCACCTTCAAACTAAAGAGCAGGAGTAGAAGATCAAGCTTCCCAATTTTTGCCCATTTCCCCAATCCCAAGGTATCACCTCTCTTAGCCAATTAGTTTTTTATTCCTGCAAAATGGCAATCATTCTTGTTTTTCAAAATTGGGCAGTGCAATCAAGAATTGTTGGTGGTGGTGGGTGGCGGAGCTGCCGGAATATATGGTGCTATTTGGGCTAAAACTGTTGCACCCAACCTCAATGTTGTTGTCATTGAAAAGGCACACCCATTGTCTAAGGTATCCCTTGTCCCCTTCTAATTTTTACTCTCTCTGCCTTTAATTGTGAGGATTTTTGGGAAATTACTGAATGTTAGTTTGTTTTAGCTTCTAAATTTAGTATATTCTCTGGGATTTGAATGGTTTCCCGACATTTCACAAGGGGCTATAATGTAGACTGGGATTGGGGCGGCCTACTTTCACCAACCAAGCTAGTTTAACAGCACCATCTATTTCCCTTTGCTTCTCATTGAAATCTAGATATTGTTGATTTTTAGTTTAGGTATTCGGCACAACTCACTGTCCCTTTTTATTTTGTACGTATTCTATTTTGGGTGTCCATCTTAATCTTTACGGTTTGAAATATTTCTTTGACGGAGTATATTATAGCATAAATGTCTTAATATTCATTAAAAAGTCGTACAAGTGATTATTTTAATCAATCAAATTAATTGGGACACTAAATATTTCACACTTTTCTATTGAGACATTAAACGTAATTTGCATTACAACAACAACAACAACGACAACAAAGTCTTAGTCCCAAAATGATTTGGGGTCGGCTAACATGAATCGTCGTAGGAGATCGTCATTGTCACTAATCAAACCAGAAAGGAGCAGGAAGTAAAAAGAAAAAAGCAAAGAAAAGAAGGTGGAATTAATGAAAGTAAGATAGAGAAAAATGTATATATATTATAGAAGAAATATTGTAAGAGATAATAAAAAAATAAGTAAAGTTTAAAATAAATGAATAAGTAAAATAAGTACATTTTAAAATAGCATGTAAAAATATAAAAAAATTCAAAAGAATTTTAAAAATAAAATAAAAAATAAAAATAAGAATAAAAAATAAATTAAAAAATAGAAAGAAACAGAAACATGAAAGCTGTATAAGTCAAATGAAGTCATCAATTTGCATTGTTCAATCGCGTGCATGATATCAAACGTAATGAATTAAAAGGAATGGAAGGAGTAAATGGGAAGTACACTTTTGTCCTTAAAACCTAGTTTTGGTCGTCTTGCAAAATACCTCCTTAAAAAGTAGTTTGGAGAGCTTTGTTCACAGAACGCTACCCTGAAACTAAAAGCTAGTGCTCAACTGCTCACTACTATGTTGCCAAATATATTGGTCTTTCGAATTAGTAGTATTTGTCTTAGTCAAAATACTATTCCTTAAAAGATTCTTCAAAAGCTAGTGTCGAATTCGTCTTACATTCATTCAGAATTTAACTCTATCCTAGTAAGCTTCCTTAGGGCTTGTTATCATTATTTCTTTTCTCACAACATTCCCTTTCTTGTATTATGCTGATATGAATTTGGACTATGTAATCTATGCATGAGGCAGGTAAAAGTTTCCGGAGGAGGTAGATGCAATGTGACTAATGGGCATTGTCCTGAAAATAAGGTAAGTGCAGCACAAGAGCTTGAAATGGCATTATAGCAGCAAAATGTGCTAAATCCCATTTAGAATTTCACACGATCACATAGTGATATGTTTTTTTCAAATTTGCTGCATCTCAGATTCTCAGCCTGTCAGACATGCTTTAATAGTTACATGTTACACACTTTCATGTGAAAAGATAGGTGTGTTTCTTAGTCTATTTACTAGTCTTCCGAGAGGTTCTTATATTATGGTATTTGTTTGAAGTGTATTCTTTTTCATTACCATCGGGATTAAGCTAAATCCAGCCTAACAAGGGAGTTTTAATAATTTATGTTATGTTATCGCTTAATTATGTTCCACCAACGTATACTAGCATATTATATCCTTCTTACTACTAATATTTGTCTAATCAGACAAGAAAAAGTCATATAAAACTAGCAGATTCGGTCCATCATGATTAGTTTAATGAAAATACAGATACAGTGAATTCATGCAAACAAATCAGTAGAATGTAATTTGATATGTACTTTTTGCATTGTAAAAATAATTTGAAGAATTTGTAAAAAAAATCTTGCGAACTGCAATAACTAAAAAGACCAAAATGAGTGAGAAAAAAAACTGATAAGACCCGAAGTCGCTAAACTAGAACGGACCTGAAAATATTAAACAAATCACCTTATCCCTGCATTTGAGAATCACTTATTAATTTTGCAGGTTATGGCTGAACATTACCCCAGGGGAAACAAAGAATTAAAGGGTTCCTTCTTTAGCATGCACAGTCCACTTGATACTATGTCCTGGTTTACTGATCGTGGGGTCAAACTCAAGGTCATATATAGTTCTGCTGATTTTTCTGTTCTCCTGTTTTGTCTCCTATCACCAAAGCAATGTGTTGTTACTTGTTATCAAGTGGTTTTTCTATGCATCTGTGTGGTGTTAATTTCGTTTATGTTCTGTTTTCCCACCAGACTGAAAGTGATGGTCGGGTATTTCCTGTCAGTAATAGCTCATCGTCAATCATTGATTGCCTTATGACCGAAGCAAGGAAAAAAGGAGGTAGGGCAATGCCTTGTTTGTCAACCTACCTTGTGCCCACTATATTGCTGTATGTTCTATTTTAGTTGCCTAAGATTCTCATAGCTACGATTTGAGAGAGATTGTTTCATCCCCGTCCCCGTTTTCTATTTACATATTTGTTGATACTTGGGAACTTAAAAACTGAGTTGGAATATTGTATCATTTGTATGCTACTACCTCCAATTCACTATTTTATCACTTAAGATGTGAGGCTTACTCTCCTGATCTGTTAACTAGAGAAGACTTAACTGTCAAATGACTCCCTGGTAACAACAAAATTTCTCTGACTTTGTAACGGAATTATTAAGATTCAGTAAATCACTTGCGACTCCCCGCTACTGAAACTTCCTTTGCTCTCGCTCCGCTAGTTGCTAGAATAAGAATTAACATGCTCTAGAGTTCTGAGATGGTATTTTGGAGTTTGGTTAGCAATTTAGCATTCGTCAGTTATTTGTTTGAATAAGAGGAAATGGAGAGAGGAAGGGAAGGAAAAGGGAGGGAATCAAGTTCCCTTGTTTGGATAAGGGGTTGGGGGAAGGAAGGGGAGGGAGAGGGAGAGGGAGGGATCCATTTTCCCCCCCTCTTTAATAAACGTCATCCCTCCAAAATTGGAGAGATTTCGATTTTCGAGGGAAAATGAGCTCCACCTTCCCTGCCCCCTTCCTCTTTTCCCTCCCCTTCCCTTGTCTTGCTATCCAAACAAAGTGAAAGTGTACTAGGAAGGTCTTTTCTTGACACCTTAAGGTGTGCTTCAGTAGTTAATTCTTCTTTTCCTTCTAACAAGGCCGAGTGTCCAAAAACAGGGAAAAAATATGCATGAATTACCTTATTTTATGATACATTGAAGATTCTTCATGTTTTTTACGTAGCCTGGATCATCCTGCTGAATAATAATGGTGTACTGCAAATTGTTTGAATGTTTCACTGTATGCAGTTTCCATTCAGACAGGAAAAACAGTGACTACTGCGTCTAGCAGTGCTGCTAGGAAGTTTTCTCTCAAGATTGATATGCGTACATCTTCCACTGACCTTGTTGAAGCTGATTATCTATTAATTGCTACTGGAAGCAGCAAGCAGGTTGTTTGAGCTTTGAGCTTTAAGCTTGTTTCATTACTTCATGAATCTATTATTAGAATGATTCAATATTACTACATATTTCACAGGGTTATAGTCTTGCAGGTCAGCTTGGCCATTCGATTATAGATCCAGTCCCTAGTCTCTTTACCTTCAAGGTCAGAGACAATAACTTGGCTGAACTGTCGGGGGTATGCCACCTGCTCTCTTTTTCTGATCCTCAGCCGTTTACAGCTACCTATTTTTTGAACTTCTCCTGTTTTAGTGATATTTTCTATGTTATAATGCTCAGGATCTTTGAATTTTAGTATATAATGAACCTTTTTCCTACATTACTCTTCTTCAGTTAGATGTTAGATTTAAACCCTATACAGATATGGAAGGTAATGAAATTGGGCTTTCCTTGCAAAATTACACAATTCCTTAAATTCATTACCGTTCATGCGATTGGTCATCACTTACCAAACAGGCATCAGTGTATTAGTATTACGTGAATTGGCTACTTATGATCACAATTGACAATTGACCTGCATACGACCTATCTTCTGGGTGTCATTATTTCATGACTCGTGTTTTCATGATGAAAAATAGGCAGATTGTATAGCTTGGTTGGAGTTAACACTGTTCTTTATCTGGCTTTTGATGACTTCAAATTATCATGTCCTTGTATTACCTTCAATTTATACTATCACAAAAATCCTATACTGGATCCAGTGCGTATCCTGTGTTACACATTACATGAGAATTAAAGTTGTGAACTTCTGTAATATACTGTTATGTTACTACTTTTCTATGTGTGAACAAGATAAAGTGACATAATTTATTCCCAATATATTCTTGTGTTTGTCTGTCTTGTGGAGGTTTAGGTTACTTTCTCCAAGGTGAAAGCTAAACTGAAACTGGAAAACAGTGGAAGAACTGTACCGCAGCTTACACAGGCATGACAAGTTTATTGTGATCTCCTTTAATATTCTAATTTTATGCATAAGCAATAAATTAACTCTTCTTGTCGACAGTAGATTGGACCAATGCTAGTTACGCACTGGGGACTTAGTGGCCCCGTAATTCTTCGGCTGTCTGCTTGGTCAGCTCGTGAACTATACAGCTCAAGCTACAAAGGTAACAGTATCTTTGAACATTATGTTTGCGCACTTTGACTACTTTGTCTTTATATAATATGTCCTTGTTTATCCAGGGATCCTTACTTTGGACTTTGCACCTGATCTTCATAAAGGAGAAGTGAACGCAATCCTCTTAAAACAAAAGAAGAAGTTTGCAGTAATCAACTTTCCCTTTTAGAGCTTGGTTAGGATAGCAATCTCCTGCTGTTGTGAACTTTGGTGCATGTTGAACCCAAATTGATTCATGTCTGTCTAAGGCTCTAAGCTGAATAAGTTACTTCTGTACCCTATCAAGGGTAAGGGGAATATGATATACTTACTCTGGAAATGGAATAAATAAGTTATAAGATACCTTTCAACACAACCATCCCGTTTCTTCTTTTGCTTGGACATCCAAACTTGTCGCCCTTTCTTGACATTGATAGAAGATTATTTTCCTGTGTAATTGTAAGAATCTTACCACTCTTTGTACTAACCTCTTCCAAACCTCTTTCATGATGCCATTTCCATATGTTGTGATTTTTTTTTTTGGCAATGATGTGGTGATTATTTTGGACATGCTAATTTTTTCCCTTGTCCACTCTGTGACGGCTCAAAATTTTGAGTGATATATCCATTCATTTTATTCACTTTCCATTTTCTATAATCTAAAGTTTCATTGTTTTGTTGCAATGCTGACTTATACAGAAGCAAAAGGTGGTCAACTCAAGCCCTCCAGAGTTCAATCTTGTCAAGAGGTTTTGGAAATATATGCTTAAACGCGAGGTAGTCAATGATTTCTTAATTTTTTTTTAATCAAAATGGCTCTTTAAACCTCTTCGCTTCCTTTCTATGAAGTAGAAGATGGTCGTCCCGTTATCTCTTTTGGGTCAATTGGAAACAACCTCTCTGCAATTGCAGAGGTAAGGAATCTAAGGATGCGTACGTCCGACATGCCCTTACCCCGCTTCTTGCGGGAGCCTCTTTGAGGCAATGGGGTAATGATAATGATAATGATGAATGATGACCATAGTTATAATGTTATTGTTCAACTTTTGGTTCTTAAACTGCTACAATGCTATGCAGGGTTTAGCTGAAGATATCTCATGGGCTTCCATTTCTAGTGAAGCATTGCTTTCTGTTGCCTCACTGCTAAAACAGTGCTCATTTGAAGTGGCAGGAAAGGTAAGAGCACCCCTCACCATCCTCTCAATATTTCTTTTTTCTTTATCTTTTGTGGGGTGTGAAGATTTGAGACATTGTTGCTGCTGAAGGGTCAATTTAAAGATGAATTTGTCACTGCTGGAGGTGTTCCCTTGTCTGAGGTATTCTCACCTCTCTTTTTTGTTCCAGCCTATGTTATTCGGACTGTTCATTTTACGTTAAGTACCCGTGTTGGATCTTGGACACTTGGACACTTCATTTTGGGACAAAATCATGATAAAGTTTCACAAATTTGCCGAGTCGGACACTTGGACAAGTTCCCGTAACATAGTTCCCAACTCTGTTTATCCTCTTTCTATTTCATAATATTGAATCTAACGTGCACAACTCTGGCATTCCCCTTTATGAAGATTTCGTTGAAGACTATGGAGAGCAAAATACTGCCAAACTTATTTTTTGCAGGAGAGGTAATCCCTGGTCATGCTTTTTAGTGTTTTTCTCAGGGCATTCCAGTTATGGGCTTTACGGGATGCACTTTAGAAGACATTGTATGTTTGTGAGAAGTAGGCTTATTTTTCCAAATAGCTTCTTGATGTAAATCTGGCCTATGTTGTTTGATCCTAGTACTTCTATTGTCGAGGCTATTAGCCACTACATCCAGAAAAAGAAGTAGATAATAATTTACTAACCCATTGGTTTGGTCCATAATCCGTATTTATTTTAAAGAAGTGGAACTACGTGTATTTGGGGTTTGAGGTCAATGCACAGAGGTGGGAGAAGAGACATTCTTATAAAGCTAAGATTTTCCTCTGTTTTGCAGATATTGAACATTGATGGAGTAACCGGCGGATTCAATTTTCAGGTACCATCCTATTTCTGATTAGTTTTCCCTTTCCTTTTCTGATGGAAGATGTACGGCATTGTCAGCTGTATTATTATACAACGATGCTCCAATAACCAACCAAATAGCGTCTTAACAAAAATTATAAAACCTGGAAATTAATAACATTTTTCCAAAGGTCACTTCATTTGGAATTTGATTTCTGTAGTTTATGGAAGTTGTTGTTTTATTTTTTAGGGCCGTTTAGTGACTTGCTTAGTCAATAAACATGTGTTGAATTTTATTTCTAGTGGTAGGCATCGTCGGCCACTACTCCCACTGACTATGTTAATACTTAATAGTTCTTATTTCTTGAAGTTCTACCATTCAAAGTATAACTCCTCTTTGCTAGGGTGTATCTCATGTGTCCAGCTAGGAATCTGCAGCTATATACCTATATGTTGTAAATATCACAAAGCAATACAATCTGATGATATTATGAGAAAGCTTGATTGTATTGAATTGTGATGTTTGCTAATATATAGGGATATAGCTACATAGTCCTAGTTGTACACATGAGGTATATCCTAACAAATAGGAGTTATACATTCTCTGATTAGATAACTAACTAAGAGCAGAATTATCTAGGTCTTACAACAAATATAAACACTAGTAACAATTTGATAAGGATGAAAGGGTCATCCTTATCCTTTACATGCCCCGCAAGACAAAAGAGAGACTAATCTTTTATAGAATCATCTCAAATCTTGTTCGATAAAAGGGCGTGTGAGAGCATCCACATCTTGATCACAAGTGGAAGATTTGTCAACTTATTGTGTGAATGAAAAACCAGCAAGAGAATCGATGGAGTCCGGAATATTTTGTTTAGAGAATGATTGAGAGAGAAATTTGGAATGTGGGAATAAAATTGAAGAACTAGAGCAATAGGAGAACAGGTAAATTCGTGATCTTCTAATAATTGTTTTGACAGGTAGCATGGTGGTAGTATCGGTAATGCATAGTAGCAGTGGGCTATGTTAGTGAGGGCCGGGTGGCCCTTACCTTGTCCGTAAGAAGGAGCTGTGGTGAATACTCTCTTTTTCTCATTGGAAGGGGGATGAAAGACTTTGTTGATGTCAGACACACAATTCGTTTGACAAAGGTAATGGCAGTTGTAGTTTAAGGGTGTCTGAGTTTCTAAGGGGGTAGAAGAATTCCAGATGAATTTTGTTCTTTTGAATTTATAAAAGGGAGTAGAGAGAAAAAGATGAGGAGGTAAGTAGTGCTTGTCCTTTATTTTTGTGGATTGCACAAACAAATGTTTCAGGGGGGGAGTTTTGCAATGATCTCCTCGCCATATTTGAGATTTGAATTTGTAATGTGAGAGTGTTAAATTATACTATTTGAAGTTTTGAACTGTTCTTGGAATATTGTACGGGTGCTGTATGAAGAAGGTATATAATTTGAGGAAGTAATTTGTAATTTCTATGGTTGGTTTGTAAGAAAATTTGAGAAAGGAAACGGAATTTGAAGGAGATATTGTGGCAGCCTCTGGGCTTTTAGCAGGGTTGAATGAAAATGAGGGTGAGATCATAAATTTTGGGGATAAATTGAAGAAGTGATGTAGGAAAAAATTTGGGATTTGTTGATTATTGGCTTATTGCCCCTTTGTTTTTGTTTTTTTCAAATCTAAGTTGCCCTTTATGTTTAAAGAGTCTATTTTTGTGCCACTTATGTTTTAAAATGTCTAAGTTTGTCTAATGTTGTATCCTCACCATAAACCGTTTGTTAAATGGAGACGCTAGATTTGGTTCACTTTATTTCTTTTATCAATGGGTCATCCATGGCTTGCTTCCCACCAAATGAACTCAGCTGGCCACCAACCACCATGTCACCACCACCTGCACCACTGCGCCAATTTTCTCCCCTTATCCCTTGTGCAACCAACAACAGCAACAACCAAAACCTCCTCCATCAATAGAAACCAACAGCCCCTCACTTGCCCCTTTTCTAGCCACCAACAACTATAGTTTAACTAGTTCCTCCCTTTATTGTGCGTAGGATCCAATGCTCAAGAAAATGCTACAAAGTTGAGGGTGCGGGTAGCAGTGAAAGGAGGAACTCCAAATACATAACTGATATGTGATTCCTCATGCATATCACAGCGAAAGACAAAATAGTTAAAAGACAAAAACAAAATTGAATGGTACTTTTTTCAAAGAAATGGTACTTTTTTAAAAAGAAATTGAACTTTTTAAAAAAAGAAATGGTACTTTTTTTAACAGAAATGGTACTTTTTTTTACAAAAATTGTACTATTTTTTTTTTACAGAAATGGTACTTTGCCCTGTTTCTTATTTTGTCGTTTTGTGGGGTGTTATGTATTTGCTATACATAACTGATATCCGCCTCGACAACCTCGCAATGAAAGCCGTCATACAGAAACGACGAGGCGAGAGAAATAATAGATGGTTAGGGTGGTGCAGGCAGTGTATAAAAAGGCGCGCCTAGGCTCTGAGGCGCAAGGCGGTTGGAGCCAGCGCCTTTTATTGTCTAGGCGAGGTGATTTCGATGAGGCGCACCTAAGGCGCACTTTGAGGCGCAAAAAAGGCGCACCTACTTTTTTTTCACTTTTTTTTTCACTTTTTATTAGGGCACCTCACTTCAATGAGGCGCACCGAGGCGCCTCTTAGGCGCTGGGAACTCCAAATCGCCTTGTTGCGCCTTGAGCCTTTTTATGCATTGGGTGTGGGGACGAAAACATTGGGGCCCAAAGGGGCCCTGTCACTAAGCAGGACATTTTATATATAATACTTTTAAGAAAGGACAATGAAAAATTAGTTGTTGTACTGGTTGACAACATGTGCTTTCTAATATTAATATCAGCGGTTCGATTCCTGTTGTGCCCATGTCTTTGCTGTAGTGGTTGAGAACATTGGCTTTCTAACATTAATTTCAGCGGTACGATTCCTGTTGTGCCCATATTTTTTTCCGTTTGCTTTTCTTTTCTCCTTAAGAAAGGTAAGTACTTGTGTTTCCTTTGTAATCCCTGGGGTGGTGTCGTGGCGGTGATTGATGAAGGAGTCATTGATGGGAAGTCAACAAAGAGAGTTGATCTTGGAGGAAAAAGAGAGGTTAATGGTTGAAGGTGGGGGGGGGAGAGCGATGGTTGCTGGCTAGTGGGGCTCTTTGGTGGTGGAAAAAGAGAATGGTGGTGTTGTTGTGGTGGTGAAGGAGCCATAAATGGCTTGTAGTAATATAAAGAAGGATGAGATTTAACCGTAGGGATAATGTGATAAAATTTTAAAGTATAAGGGTACCATGTGGATCACGTACGGTTGAGTAACTTTTGTCGGTTTTAGTCGTTTGTTGTATCGTGTCAGCAAGCTCTAGACGATAATAGTAAGTTGCAATAGGTTTGATAGAGAGGAGGGTATTTCATTGCCACTATTTAGGGAGATGATCCAAAAATATCAAGGTGTTGATGGGAAGTGTTGGGCTTAAAGTCCATAGGGGTGGCATATTTTTGTGGTGAAAGTTGTGATTACTGTTGCGCCGTTGATGAACATGAGAGAGGAACAAAAAGGGAGGGTTGGGTACAGAATGCATGGAGAAAAAAGTCCATGATGAGATTATGAGAAAGCTTGATTGTATTGCTGTGTGATGTTACACCGTGAGGGACGTCCTAACAAATAGGATATTACATTGGGTGATTAGAAAACTAAGTAAATCTCAAGTCATGCTCGGTGTAAATCCCGAGTCATGCTAGGTTTTTTAAAATAAAAATATATTAGACATTATACACTCCGTATTAAAGTTATTTAAAAAACAATAGTCAATAAATGAATTAAATGTTTTAATTGAAAAACGTGCTTTTTATAAATAAATTATTTTTCAATAAGACTATGCTTATTATCTCAATGCAAATATGCAATTGCTTAATTACTTAGGGGTCCTTTGGTCCACACAAGGTAAACGGAATGAACTCCACAAAGGGAAAGAGGAGGAATGGAATCAATTCCCTTTGATATAAAATTTTGTTTGGGTAGCATTTGTTCATTTTTCACATCTCTTTCTCTCTCACCCTTGCTCTACCATATAAAGTGTTGCCACCTTCCTAGTTGTTGCCGACTTGCCGCCACCACTTCTCTCGTCGTCTCTTCCTAAAAACCGGCCTCACTCTTTATCTCTAGCGCCGCCGCCCCCACTCTCTTCTTCTCTTATTTTCTCACAATTTTGTTGGATATGAGAAATCGGAGGCAATAGAATAGACGTTGGAAGTGTCAAAAGGAAATATACTGCAATTCTCACTAACTTAATCAACAAGAAATATTGTCTTCTATATAGGCTTGAACAAAAAGGAATGTTGCAAAACAATAGGAAACTACCTAAAACGTGGAGTACATGTTGATTTAGTATCCCGCTATCCCACAATCTCCTCCACTAACCTAGTGATATCTCTTAACCTATATGACTAATCTGACTAATTTGTAAATCACAATTATAATTAAATTACTAAAATTAAGAAACTAAATAATTAACACTTGAAACACTAATTTTAACACACCCCTTTGCTTCAAAGTTTGATAAAAGAAAATGAAGCACGTCTCTTCATCCATGATGCACTTCTCATCACCGAAACAATGTTGTTGAAGCACGTTATCACCAACCTCTAATGTTTGGAGCACTTCTCTCCCTTGGTGCACATTATCACCCGTCTTCTAGAACAAATTTTCTTCTACGGCCACTTGTGCCATAGATGTTTCCTCGACATTTTGAAACCTGCAATTTCTTGCCAAATGCCCCAATTTTGACACTTGAAACATTTTGGCTTTCCCTTATGCCAACAATTTTTTTCTTCATGACCAACCATCTGACAATGGTTGCATTGAGTGGGTTTTCCTTTTCCTTTATGGTACGAAGATTTGACCAATAAGGCTCCTTCCATTCCATTTTCTTCCTCCCTCGTTGATCTTCTTTGGTCTACAGCATTAAGAGCATTGACTAACTCCGGTAGGGTTATTTTGGATAGGTCTTTGGAATCTTCAAGGGAAGAAATTTTTTACTCCTATTTTTCGGGAACACTCACTAAAACCTTATCAACCACTCTCTCATTGGAAAAAGTTTCACTAAGTAATCTAGTTTGATTAACAGTGGTCATAAGTTTACTTACATATTCTTTGATGGTGTCACTCTTCTTCATCCTTTGCATCTCAAATTCTCGTTTAAGGTTCAAAACTTGCATCAACTTTGTTTGAGCATTTCCCTCAAACTCTTCCTTTAGCTTATCCCATGCCTCCTTTGGTGTCTCACAAGTCATGATACTTGTAAAGATTTCGTCCGACACAGCCGAATGAATACATGAAAGTGCCTTTGCTTTCTTTGCCGCTTCTTCATCGTGCTTTTTTATTTGGGATACGGTTGGATTTTCTAGAAGAGGGGTTGAGTCATCACTCTCAGTTGCTTCCCACAAACTCATGGCTTTTAAATATGATTTCATTTTAATAGCCCATGTATTATAATTCTCTCCTTTGAATGTGGGAATAGAAAGTGCAAAAGTATTTGATGTCATTGAGGGAAAGATATGAACACTCAAATAAAATAGGTCTCACAAAGATCACTGGCTCTGATACCAAATTTGTTGGATATGAGAAAGCAAAGGCAATAGAATAGACGTTGGAAGTGTCAAAAGGAAATATATTGCAATTCTCATTCACTTAATCAACAAGAAATATTGCCTTTTATATAGGCTTGAACAAAACATAATGTTGCAAAACAATAGGAAACTACCTAAAACGTGGAGTACATGTTGTTGATTTAGTATCCACTATCCCACAATCTCCTTCACTAACCTAGTGATATCTCTTAAATAAAACTAACCTATTTGACTAATATGACTAATTTGTAAATCACAATTATAATTAAATTACTGAAATTAAGAAACTAATAATTAACACTTTGAAGCACTAATTTTAACAATTTTATGGTTAGATTTGTTGTTTTCATGGTAGTCTTTCCCTTTGATGAATACCCCCAACCAAACGCCCCCTCAGTCTATCTTAATTACTGTGACTAGAAGGGTACTTTAGGGGGGGAAATCTGCTATAGTGGACTCTGCTTTAGTAATGTATAGACTAAGGGAAGAATTAGATAGTTTCAACAAAGAAAAACAGCAGTAATAACTTGATACAGATGAGTCATCCTTGTTCTTACATGTAAGCCTGTTTAATAGGCCAATATGTTGCTTTCATTTCATATTAGAAAGAGGAAGTACTTTCGAATTTCCTTTTTACTTTTGCCACTTTGTTAGATAACCAAACTAGGTTTTTGAATCAGAGAAAAATGAGAGGAAAGGATATGTGCAGCTTCTCTCTCATTACCAAGTAGATCCTTGTGGAGTCGGAAAGCTACATTTTGGTGGAACAATAGGAAAACTGAAACCTCGCAAAATCTTGTCCAAAACTCCAAACCTTGCGTGAAAAGAAAGAGAGTATCGTTGGCTATGAAAGAGAGAATCTACTGGCTATAAAAAGAGAGAATCACTGCAAGATTACTTGTCTAGGGTTTTTGCAACTGTGAATCAAAGTAAAAGTCATATAGCTAGCTTATTACAAATGCTACTGTCTCACTAGTCTGTCCAATACAAAGGTCAATTTCTAATTCATTTTTATAGCCCCTTAAGGGCTGTTTGCTTGATCACTTATAGATTGAATGACAACTTTTGCAGAATGCGTGGACGGGGGGTTATATTGCTGGCACAAGCATCGGCGACTTAGCAGCAGTCCGCACACCTTAACATGGAGTGATTACCATGAAATTGTCCAACCTATGCTTTTGGTACGAAGCTTGGACGTATGCTCTTTGATACTGGTTGTTTTATTCAGCTGGTGCTATGACTGCGTTTATACTTTTAGTGTTCTGCTTTGTCAATCTATTATCTATTGGGCACAAAGTTTAGGAATTAGAGAGGGAAAAGAGAGGGGGTGGATTCTTTTGTATCATGTAGTAAGTATCACAAAAGTTTCTTACTCGTGTAATATTTGCTTCCTATTAGAACAGATGATAATTACATGAATACCATTATTAAAATTCTTGTCTTGCCCGTTTTTTTCAGCCGCACTTGCCTTGCTTCGCCAAGGAAGGAAAGGTGTAAAAGGGATGAACTTCGCATCTCAAAATAGATAGTCCCATATGACCCCTTCTTCCATAGCCTGTAATTTTATTTTACTTTTGGTGCAAATGGAGTGGGGGAAATATAAATTACAAATGGGGTGGGGGAATTCGACCCTGAGACCTATCGAATATAAACTCTAAGTCTTAAGTATTAACCAATAGGCCAAGGACTCATCGATCCGTAGAGTCTAATAATACTTTGTATATACTTACGGTATTACCTTAAATGTATAAGTAACAGGTAAGGCATATCATACCAAGCAATGTCCTGGCCTAATGAAAAGGATTTCACCTTTAACCAAAAAGTTGGGGGTTCAATTCCTACTAGGGGCACTTTGAGGGAGGGTTAACTTTACCATCCTCCCACTCTGCAAAGTGTCTAACCTGTTAACCCGGACTAGTTGACTAGTGCGGAGTTTCGATCTGATAGGGGATTTTATCTTACCTTAAAAATAACAGCAAGGCATATCATAATCTACACAAATGCGGAATTCAAGATGAACAAAAATAAGTTTGTGGATCGTCAAATCCATGTTGACCCTAGGGTTGTCACAAAATGTGAACTGACTTGAGAAATCGACCGAAGGCAACTAAAAGTCGTACCGAATATATTCGAGAAATAGTGATATCAAAATCAACCTGAATCAATCTTATGTTGACCCGAAATCTGATTTTACCTGTAAATTCAAGACCCGAATCCGAACCGTTAGAAACCCGAGGAGACTCATAACTCGATTTGTATCCGATAACTTTTAACCGTACCGAACACACATTTGATCTGATAGCAATCCAGAAATGAATTTTACCTGATAAAAACTGCAATCAGTTGGACCTGATAAAACCTGATATCCGGTTTCACCCGACCTGTGTCAACCCAAATCCGAATTGAACAGAATTGGTATCGATCCAACCCGATTTAATCCGGTATCTGAAAGTAACCCGACTGGAGTTAACCCGAGATAACCATACCTAAATTAACCCGAATCCTATCCAGTTTACATGTTATTAATTTGACTTAAGTTGAACCGAATTGAACTGTTAGTTATGTAATTTCAATTCCATATATGAAAATTCAATTATATATTTTTTTTATATTAAACAATTTGGAGAGAGAGGAATAGAAATCAAAAAAACCTTATTTTTGGCATGAATTCTTAATAATAAAGTTTTATGTATTTTATCGTGGACTCGATAGTGACTCGATTAACAGAACATTAAACCACGAGTCTAACTGGATTTAAACTCGAACCACAAACGCAATTGGTATTGACTTGAATTTGAGGTACGTCTGATCCGAATTTGATCTTAACTCGATACTCACCGATCTATACTTGACCCGAATTCTAGACTTATCCAGTATGGAAATGAGTTGTATCTGAAGTAAAACGGTCAAAATTGTACCCGAAATTGACATAACCCGAACCAAACTCGTTTCAAATCAAATCAAGTCGATACCTAACGTTTTAAACCTGAACTTGTTCCAATATTCCCAAAACTTGCATAATTCGTTCTAGGGTTTTGGCTCCTAAGGTTTTTCCTATTTCCTATAAATACATGGCCTATGGTCATGAATTAAACACACAATTCAATACACTTTGCCTATCACCTAAAAGAGAAATCCCAAAATCATAAACCTTATTTTATATCCTAGTTGGTACGATCTAAGACACATCTGAACGTACTATGGACTTTCTACGGAGGGACAACGGTTGGCGTTCTAACTTTTTCTTGTTCGGTTCGGGAGCAGCGATGGAAGGCACGCATCACAAAGTGGGTTTGCTAAATTATGCTAAATGATTGTGTTCATTTAATTTGGATTCTGGCATTTATGGTTTTTCCGCATGACATTAGATTTTTCATAACCCAACAGTGGTATCACGAGCCTCTAATTAATTTCATAATCATTTACATTAATATGGATTAATCTTATAAATTTGCAAAGATAAAGGGGTGAATTAATTTGGTATAATTAATTGCAAATTCATGCGATTATTAATTAATATGTTCGCAGGATTTTCGGAAGTTTTGTCAATAATGATTGGAATCTTATGTTTTTATAGTGAATTTCGCATGTAAACGGCGTTTTAAATTTTGACAGAAATGGTACATTTTCGGCCGAACCCGGAATTCCCAAATTCGAAGCTTAACTATGACTTTGACGTTTTAGTTTTTCGGATGCGTAATTATAATTTTAATGATATTAAAAACTAATATTTGCGACTCTTGTTTAATAATCTTGAGTTAATAAACTACATACTGCATATGATTAACAATTTTAAGATTTAAATTGGTTAATTATGCTACCTAATTTGTAATTATAATTAATTTATTGAATTTCAAATAATTCGGAATTTGTTTTGATTTTCATAATTAATTAGTAATTTAATTGGGATCTAATGACTAAAAGACCACCTAAAATTTGTTAAAGTTGGAATCTTTAAAATTTTATGAACCCTAATTTTAATCCCTAAAGTTCATGTAATCGGAAAATTATTTAATTAATGAATTTTTTGTTTTATCGCCTAAATATTTATGAACTTAGTATGATTTATTAATTTGTCATAAATTTTTGAAAAATATAAAATATGTAATTTTATAATTCGTTTGCAATCTTACACGTACGAACAAAGCAGCAAGGGCCACGAATGTACGAAGCCCTTCATGGGCGTTGCTGCTGGCTTGGGTGCACATCGTACGAACGATGGATGCTCGTCTTGTGCGCGGAGCTATGTGGTGGGCGAGATGCATGGGTGCACACATCATGTGCTGTGTGTGCCTGCGGAGCGAAGGGCGACAAGCAACACACAAAGGAGTGGACGAGAAACACGCTGAGCAAGGGAGATCGCATGCGCGCAACGCCTAGCCCCTCTGCCAGCGCGCGAGCAAGCGAGCCAGCAAGCACTGCTTCGCTGCTGTCTGCTGCTTTGTTGTGCGCGACGAGTGATGCGCGGGCCAGCGAGCGCTGGGTAGCCAGTGAGCGATCTGTCGCTGTTCTGCTGCGCTCCAGCGTGGCTGTTGGTGCACGCGTGTGGCCTAGGAGGGGATGGAATTCGTGCTCATAGCCTTGCCTTGGCCCAATGAACATTTTAATTTTCGTTAAGCGACGAATTTGATTAAATTTAATTTTGTGCTTATAATTTTTTCGCGGAATTTTATTTTATTAGTTTAATTATTATATAATTTTATACTAATTGTTTAAGAAAATTAAAACCTTGAATAAATTATGATTAATTTATTTTAATCAACTAAAATTAATTTAAGGGATTTAAAATATTCATCATATGAACTTTAAATTTTAATTAAATACTTCCTCCGTCTTTTAATACTCGCAACGTTTGGACTTTTGCCACTATTCATATAATCTACTTTGACTATTCTTAGTGCTTTTTATATAAGATAAAACATAGTCATGTGAGATCTTGTTAGATTCGTCTCAATGTGTATTTTCAAAATATCAACTTTTTATAATTTTTGCATAAAGAGAATTTAAGATATAAATGATCAAAGTTGTGCATTGGCATGCGTGAAACGAACAAACGTTGCGAGTATTAAAAGACGGAGAAAGTATGTGTTTTCCGATTGGACTTGGAAAAACATTTTTATGTTTAAAATTTGTAAAGCATATAATTCTTGATTTGAGCGGGAGCTTTTATTCATATTGGTTAAACTCTTGATTAGGTCCTTATTACCTTAGGATTAATAAACTCGATTATAACTAAGGTCAAATAATTGGTAGATTCTTGAGCCTTAATTAGTTGTTGCAATTATTATGCGATGCATATTTTCTGCTAACTTGCTAAGTGGGTCATTCATTGATAAATGAATGGGTGAATGTTATATTGTAAATATAGTATTTTGCAGGTAACGGAAAGTGACTAGTATGACCCAAATAAGATAGAAAATATGGTTTGCGTATCATTAAATTTGAATGTAAAATATGGTCAAAGTACCACGATTTTTATTTAAATATGGTATGCGCACCATTAATTTGTTGTAAATCCTATTAGGTGAAAATGGCGCCTCCCATGGTGAAATTCAAGAACAAAGTTTCCAATCCATTTTCAAGACGGAGTTTGAAGATTGAAGCTTCAAGATGAAGTCGGGCCATACTAGATCACAAACTTTATCTTATGCATGTTTAAGATATTTATTGCTTTAAATATGTCTTAATATTATGCATGATTATGGTTTACCTATGTCGCATGATTAAGGATTCTAGTTCACTTAAAATCTAACAAACATAGTAAAAAGCTTAAGTTCCAAAAGTTTAAAATTGAGTTAAAAAGTGTCATTCCAAAACAACACTTACTTTCTCACCTCTATGTCAAGTTAGTGATAGTTTTCCGCCAAAGTGAGGTGTCACTTCTTGATTTTATTGGGTTAAGGTAAACATTAGTTGTGAGTACAAGTTTATTTTGGTTGAAGTCAACGATATATATATAAGGAGTCCTTTTATGTCGTGGCAAATGGGATATGTTTTCCTAATAAGTACTTAGACGTACCTATCAACCAAGAGTAGTTCCTAGACTATTAGCAACGGATTTTATTACCTAAAATGTTTTAGAATTAAGACAAGCCAAAGCATGCTTAGTTCTTTAGTGGTTTTAAGGATCTGGGATTCATTTTACTCACACCTAACGGAACACATAAACTTGAATAAAATGCTTAATAACTTTGATTTATGCACGATTGCTTGAATTTAATTTTATTAAGAGCATGTATGAATGGTTATTTACTTGTTTATTATTTTCAATTGTAGTTTCTGAACTATGGCATTCAATCAAAACATCACCATCGGTTCGAAACTTATGATCAAGTTGAACCTAACAAATTTTCTTGAATGGGAAAGGAAGCTTGTTGAGGTGGTACAACTCAATGGCATTGGGTATGCACTCTTCAACCCCATTCCAAGCTATTATGCAAGAGACATGACCCCTGAAAGACATGTCGCATGGGAAGCGGATCTCAAGAAGGTTATGAGTCTCATGCTGAGCAACATCCCTAGTGATTGGCATAGGAGGTTTGTAGCTTACGAACCTTATATGCTCATCAAGAATCTGAGGGACATCTGTCGTGGAAGCACGGAGGAAAGAGACCTAAATGTCCATGAATTGATCCAATCAATGAAAGGCTTGAAGGTTGATTCTCAAAACATATGTTTCGGGATGGAAGTCCAAGAAACACATGCTCGAATCCTTCGCTCTAAACAAAGGGTTGGTAATCCACTAAGAGATCATGTGAACTACATGCTTTCATTGTTTGAGCGCTTGAGTCTGCTAGGATCACCAATGAGCGAGAGGATGGTTGTCACCGTCTTACTTATTTCACTTCATAATTGGTTTAGTCGCTTCAAGCTACTTTACATATGAGTGAACCAAGAGAAGAAACAATTGGTGAGTTTTTTTTTTTGATAAGCAAGTATTGTATATATTATGCACAACATTTACAAATCAAGAGCTAAGTGGAACAAACTCCACTGAAAAACAAGAAGCAGACACTAGGCCTAACAAAAACTACCCTTCTAAGAGGGTGGTGAACCAACTGTGATCCCTTGAGCTTATAGCTCGAGGTAAAACTGAATGTATCCTATTGCTAGCACTATGCTTAACTAGGCTACAAATATTATCAATGCATCTAATCTTACTGTTCCATAGAGCATTGTTTCTTTCTTTCCAGATATGATACACTAAGCACCAGACAAAGGTGAAAAACACCCCTTTCTGAACTTAGTGATATTTCTCCTGTGAATCCATTTAATCAGCTGAGGCAAACTTCTGATGCTTGTATTGAGATGCAAGAAACCAGCAATCTGCTTCCAACACCTAGCACTGTAATGACAACCAAAAAACAGGTGACTGTGGTTTTCCACTTCAACACCACATAGAAGACACATATCATCCACTGAGACCCCAAACATCTTCAATCTATCCTTAGTGCTCAGTCTCTCTAAAACTGCTAGCCAAGAGATAAACCTGTGTTTAGGCCGAGCTAATCTACCCCATATAGCATTAGACCACTACATCTTATTACCACTAGAGAAACTTAGCTGACTAACAATTGGTGAGTTTATTCGGCTAGTTCACTTTGCTGAAATAGTACTCGACAGTGAAGCCAAGGATTTACTCAAGGCTAAAGGGAGACCATTCAAGAAAGGTGGAAAGTCCAAGGGCAATGCAAAGTCAAGTCCCAAGAGGAAGACAACGCAGGACAAGTCCACATCAAAATGTCTCTATTGTGATGGAATTGGCCATTACAAAAGGGATTGCCTCAAACTAAAGGAAGATCATAAGAGCGGAACAGTGGTTCCATCTTCGGGTATTTTCGTTACAGACCGTAAACTTGCTAATTCAACTTCTTGGGTATTAAATACAGGCTGTGGTTCACACTTAGGTTCTAATCCACATGGACTAAGAAGAAGTAGAAAGCTTAGCAAGAGAGAAGTCGACCTACGAGTGGGAAATGGAGCAAGGATTGTTGCATTAGCTGTAGGCACTTATCATTTGTCATTGCCCTCTAGGCTAGTTTTGGAACTGGAAGAGTGTTTCCATGCTCCAAGTATTACTAAAAACATTATTTTTGTTTCTTGCTTGGATGCTAAGGGATTTAATATTGAAATAAAAGACAATAGTTGCTCGTTTTATTTTAAAGAAATGTTTTATGGATCCCCAAAATTAGTCAATGGACTTTATGTGCTAGATCACAACAAAGAAGTTTATAACATAAATACCAAAAGGGCCAAAACAAATGATTCAGATCTTACCTAGTTGTGGCATTGTCAATTAGTCCATATTAACATGAAACGCATGAAAAAACTTTAGAAAGAGGGAATTCTAGAACCATTTGACTTAGAGGATTATGGTGAATGTGAATCATGCTTACTTGGAAAAATGACAAAGAAATCTTTCTCTAAAGTTGGAGAAAGAGAAAGTGAACTGTTGGGTTTAATCCATACAAATGTATGTGGACCAATGAGTTCAAATGCTAGAGGTGGTTTCAGCTACTTTATCACTTTCCCTGACGACTTCAGTAGATATGGATATATCTACCTAATGAAGCACAAGTCTGTATCCTTTGCCAAATTCAAGGAATTTCAGAGTGAAGTAGAGAATCAACTAAGCAAGAAGATTAAAGCACTGCGGTCTGACATAGGCGATGAATATCTGGGCTACGAATTTGATGACCATTTGAAAGATTATGGAATCTTGTCAGAATTGACTCCTCCCGGAACACCACAATGGAATGGTGTATCTGAACGGAGGAATAGAGCCTTGCTAGACATTGTTCGTTCAATGATGGGCCAGGCCGAACTTTCAATAGAATTTTGGGGACATACAATAAATACAGCTGCACTCACACTAAATAGAGCTCCGTCACAAGCTGTCGAAAAGACTCCATATGAACTATAGACTGGAAAGCCTCTAAAAGTGTCTTTTCTTAAGATTTGGGGTTGTGAAGCGTACGTAAAACGATTAATTTCAAATAAATTAACTTCAACCGAAATCTGACAAATGTATCCTTGTGGGCTACCCAAAGGAAATAAAGGGGTATTACTTCTACAATACATCTGAGAACAAGGTGTTTGTTGCTCGAGATGGTATCTTTTTGGAAAGACAACACATTTCCAAAATGACAAGTGGGAGAAAAGTAGACCTCGGAGAACTTCGAGTCGAACAACAAACTCTAGAGAATAATCAAGATGATATTCAGGTTGTAACTCATAGATCTTTCTGGTGAGGTTCAAGAACCAACTGGAGTTGTTGCCCCGCGTAGATCACAAAGATATAGGTCTCAGCCAGAAAGATACGTAGGTATCTTAATGTGTGAGAGTCATGAAATTCTATTGCTGGAAAGCGATGAGCCTGCGACTTACAAACAAGCTATGACGAGACCTAGCTCCAAGAAATAGCTAGAAGCCATGCAATCTGAATTAGACTCCATGTCTGAAAACCAAGTTTGGGATTTGGTCGATTTGCCGGATGGCTACCAAGCCATAGGAATCAAATGGGTTTTCAAGTTGATAAAAGACAAGGACGGGAAACTAGAAGTTTTCAAAGCTAGATTGGTTGCAAAAGGATACAGGCAAGTCCAGAGTGTGGACTACGATTAAACCTTTTCACCATTTGAAATGCTAAAGTCTATTCGGATAATGTTAGCAATTGCTACATATTATGATTACGAAATATGACAAATGGATGTCAAAACCGCTTTATTAAACGACGCTTTAACAAAGACTGCGTTTATTGAAGGAAATAATGCCCTTGGTCCAAGTATGCATTTAATGCTAAGTCTAATAAATGCGGTTCAATATTAATTATACAAGTTAATAATTCAATGAGATCAAGTGAACTGTATGCCTAGCTAGAGGCCGCTTCAGTTCAAGTGGAATTAATAATATTAATCCACAACTTACTCTTGCCTGAACCCGTAGGGTCACACAAATAGTACGTGAACGGATCAAGTATTTAAAGGAATTAAATACTCCATTTATGGATATTCGGAATCGACGGATCTCGGTTCCAGGGGGAGCTAAAATCGTCAAAAGGCAAATTATGGATACTCCGGAAACGATGATATTGCCGGAAACGAAAATATATGAATCGTATCGGAAAATTAAATATTATCCAAGTCGTAGATGTTGCCGGAAACGGAAACATGGTACGTATCGGAAAATATTATCGGAAATGGAAATATTGCCGGAATCGGAAACATTGCCGGAAACGGAAATATTGTCAGAATCGGAAATATTATCGGAATCGGAAAATAATTCCGGAATCGGAAATATTAAATATTTGTTCGAAACGGAAATTAATTCCGGAATCGGAAATATTAAATATGTTCGAATCGGAAATGAATTCCGGAATCAGAAAATTAATCGGAAGCGTGTCGTACGAAATAAGCATTGGACGAGCTTTCTAGACGAAGGCCCAGCACGAAGCCAAGCCCACGCCTAGCAAGCCCAGCGCGCAAGGCACGAGCAACGCAGCAAGCCAAAGGCACGCAAGGCCCAGCGCGCCCTTGGGCTGCGAGCAAGGCTGCGAGCAACGCTGGCTGTGAGCAACGCGGGCTGCGAGGCTGCGTGTGGGCTGCAAGCCTGCTGCGGGCTTCTTGCGCGCGCGGGCATGGCCTGCTCGCTTGTGGGCCGTGCTCGTGTGCGTGTTGGAGTTTGTGCATGCATCGAATCCTTAAGCGATTAGGATTTGATTAAAAGATTAATTTTCTAAGTTACTAGTTTTAAGTAAACTCTAATTCTAATAGATTTAGAATACTTGAATCCTAGTAGACTTCTAATTCCATATTCCTACTCTATAAATATGTGATGGCATTCACAAATTTATGAACAACATAATTTCAACTTTTTTTGCCTAAAATATTCGAACAGATTCATAGAACCTTAGGTGCAATTCTAGTTAATTAAATCTAAGGCGGATTCGAACGTATTGTGGACTATCTACGGAGGGACGACATTTGGAGTCCTAGACTTGTTCTTATTCGGTTCGGGCGCAGCTAGGGAGGGCACGCTACAAAGTGTATGTGTCCTAAATTATGCTAATTGTTATGTGGCAATTAATTTGGATTCCTGCCTTTATGGTTTTTTCCGCATGATTTATATTCAATTATATGTGTCATAACCTAACAGTGGTATCATGAGCCTCTAATTAATTCCATAATAATTAGTTAACATGATTAAATTTTATAAATTTGCAATGAATTAAAAGGGGTGATTAATTTCGAAATTTTTGATTTTTGTAATTAATTGCAAATTCGTGCGATTATTTAATTATGTGTTCGCAGAATTTTCGGTAGTTTAGTCAATAATGGTCGGAATCGTATAATTTTATAGTGAATTTCTCATGTAAACGGCGTTTTAAAATTTTGACTAAAATCAAAGATTTGATGCCGAACCCAGAATTCCCAAATTCGAAGCCTAACTATGACTTTTCGGAGGTTTTAGTTTTCGAACGCAAATTTTGTAACTTTTAAGATGTTAAATTATATATTTGCGATTCTTGTTTGTAAATCTTGAATTTTTGATTGACCTACTGTATATGTTTAACAAATTTATATGCCTAAGCTTGTTAATTATACAACCTAATTTGTAACTGTAATTAATTTGTTGAAATTCGAATAATTTAGAATTTGATTTGATTTTCATAATTAATTGACAATTTAATTAGGTATCCATGATTAAAACTACCATAAAAGTTGTTAAATTTGATCAATTTTAAATTTTTATGACCTAGATTTGAATCCATGATAATCGGAAATTAATTGAATAATAAATTTTCGATTTTTCGCCCTAAATTTATGAAATTAATATGATTTATTAACTTGTCTATAAATTTGAATTAAAAAGTTTTAATTTTTATATAATCCGCTCATGAATTTTGCACGCACAAAGCAATGGATGCTACGTGTTACCCTTAAGGGGTGTTGTATAGTGCAGGCATGCGACGACGAGCAAGGGAGCTCGTCGCCCATACGGTACGAATGCAGCGAGCAACGAGCGTGGCATGCGCGCAAGGAAATGGGCTGCCTGGGCGTGTGTGCTGCGAGCCATGGGCGATGGGGCAATGAGGCAAGGAACAAGCCGAGCAGGCAGGCGCACGTGGGCAGCGAAGGATGGTGCGCCACAGCAAGCGCTGCTGCGCCACAACGAGCGAGCTGCTGCTGCGCCTAGGCGTGGCTCGGCTTGCTGTGTCTAGGCGTGGATGCTGCTCGTGCCTTGCTATGCGATCAGTCGAGGGGCGTTGCTGCCTCGTGCACTCGACGGGGCATGGGCGCAAGCCCATGGCCTCGTCTTGATCCGATTGATGCGTTTTGAATTTAATTTTAAATTTTAAGTTCGAAAACGATTTTAATTAATTTTAAAATTCGTAATTTAATTTTTTCTCGGAATTTAATTTTAATTTTGAATAATCTAATTATTATAAAATTTTTTTATACTAATTATTTTACTAAAATTAAAACCTTGAATAAATTTAAATTTATTAATTTAATAAACTGAAAATAAATTAAAGGATTCAAATATTAATTTATGTGAGCTTTAAATTTTAATTAAATTTGTATGTTCCCGGTTAGACTAGGAAATACAATTTTATGTTTAAAATTAGTAAAGCATGTAAATTTATTGGTTTAAGTGGGAACCTTTTAGTCATAAACTCTTTATTAGGTCTACAATCCTTTAAGGTTAAAACAACTTGATTAGAATTAATAAGGATTGAATAATTGGTAGATTATTGGAAGCCTTGATTAATTGCTGCAAATATTTATGTGATGCATAATATGTTCAACTAACCAGCTATGTGGGCCATTCATTGATAAATGAATGGGTGAATGGTATATATTATATATGTACTATTTTGCAGGTTATTGAAAGTGACTAGTATGACCCAAATAGGATAGAAAATATGGTCTGCTTACCATTAATTTGAATATAAAATTGGTCTAATGCACCAAAGTTTTTAACTTAAATATGGTCTGCGTACCATCAACTAGTTGTAATTAGTTTAAATTATAGCTTATCCTATTTGAAGAAAATGGCGCCTCCCATGGTGAAATTCAAGACGGAGTTTCCAATCCATTTTCAAGACGGAGTTTGAAGTTGAAGCTTCAAGATGAAGTCGGGCCATACTAGATCATATTTACATCTTATGCATGTTTTAAGTTATTTATTTCTTTAAATATGTCTTAATTATGCATGAGATTATGGCTTGATTATGTTGCATGATTAAGGATTTTAGTTCACTTAAAATCTAACCAACATAGTAAGAGCCTTAAGTTCCAAACTTTAAAATTGAGTTAAAAGGTGCCATGCCAAAATAACACTTACTTGGACAAACCTTTACATCAATTGTAGTAATAGTTTTCCGCCTAAGAGAGGTGTTACTTATTGATCCTAAAGGGGTAAGGTACACAAATAATTGTGAGTACATGTTAGTTTTGGTGAAACTCAACGATATAAGTAAGGAGTCCTTTTATGTCGTGGCAAATGAGATAGGTTTACCTAATAAGTACTTAGACGTACCTATCAACCAAGAGTAGTTTCTAGACTATTAGCAAAGGCTTTGCTTACCTAAAATATTTTAGAATTGAGTCTAAATACATAATGTGCTTAATTCTTCAATGATTTAAGGATCTTGGAATCATTTTATTCACACCTGCCGGAACACATAACTTGAACAAAATGCTTAATAAATGATAAATTATGCATGTATGCTAGAATTTAAGTTTATTAAGAGAAACTGTGAATGGTTATTTATTTGTTTATTCTTTTTTCAATTGTAGTTTTATCTATGGCAAACAACAATTCATTCAACATCCGATCAATTCTCGAAAAGGAGAAGTTGAACGGGAAAAACTTCCTTGACTGGCAAAGGAACTTGCAAATAGTTCTTATGCAGGAAGAAAAGGAGTATGTCCTGGAAGAGGCGATGCCCGAAGCCGCAGGCGACGGGGTCACTCAGGCATCCCTCAATCGTTGGATTGATGCCAACAAGGATGTAAAGTGTCTAATGCTTGCAACCATGAGTGCAGATCTACAGAAAACGTTCATCAACTCAGATGCTTTCACGATCACCAGTGAGTTAAAGAACATGTTCCAAGATCTGGCTCGAGTCGAAAGATTCGAGACTCATAGGCAAATTCTTGAGACCAAGCTTAAGAAAGGAGAGCCCGTAAGTCCACATGTTCTCAAAATGACTGGACTCATTGAGAATATGAGTCGGCTGGATCAGCAATTTTCTCAGGAAATGGCTATAGACACCATCCTCCATTCTCTTCATAGCGGGTATGATCAGTTCAAACTGAACTACAATATGAATAGACTGGACAAAACGCTCACTGAGCTTCACGGTATGCTAAAGACCGCTGAAAAGACGCTCAAAAGTGATAAGCAAGATGTGCTTATGGTGTGTGGGGGCAAGTTCAAGAAATCTGGTAAGAAGAGGAATGCTAAGAAAGGTGGCAAGAAGGCCAGCCCGACTAAGCAACCTGGCGGCACCAAGTCTGAAAAGAAGAAGGTGAGCCAACCCACTTCTGAATCTGAATGCTTCTACTACAAGAAGAAGTGGCATTGGAAGAGAGATTGCTTGAAGCTTAAGGAAGATCAGAAGAACGGAACAGTCGTTCCATCTTCAGGTATTTTCGTTATAGACTGTATACTTGCTAATTCAACTTCTTTGGTATTAGATACAGGTTGTGGCTCACACTTATGTTCCAATTCGCAGGGACTAAGAAGAAGTAGAAGGTTAAGAAAGGGTGAAGTCGACCTACGCGTGGGAAATGGAGCACGGACTGCTGCATTAGCTGTAGGAACACTACTACAAAAATACCTTTATAAGTCGCCCTTTTAGAGTCGCCTCAAATTAATGTGCGACACCAAAACATTTAGAGTCCCATTTTATAAAAAAGGCGACACGTAAAGTTGCTAGCAGATATTTCAAAGAGACTAGCGTGTTGCCTGTGTTTTAAAATGGGACTCTAAAAGTTTTGGTGTCGCACATTTAAAGCAGGCGACTGTAGACACCTACTTTTGTCCCCATTCCCGAAAGGGAAGGTTCGATGATGAAAACATAAATCTCCACTTGACAACGCATCTCCTATAAAATAACGAATCTCAATCACCCTTTCTCGTTTCACCCGAAACCTGCTATTTATAGAAACCTGCTATTTATGGAAACCTGCTAAAAATAGTAACTGCTGTAAAGGGTAGCTTCTAAAAGTGGCAAGTCATAAAAGATAGAAACCTGTCAGAATTAGGTGTTGCACTCCAACATAAATCCTAAATGAGATAGAAAACTGCGAGAATCATATTCCAAATATGATTCGGAAATAAGAGTTACGTATTAATTAAAATCCTAACGAGCCTAGAGTTCGTAACGGGCCCAGACGCATTCCGTCATGAAATTGATACGCACTAAAAGACTCGATTAAGTCTCAAACTCTACGGATTTCAGGAATCCGAATCTGACTAAGAAAACAGCCCAGACCCTATTTTCAACGCCTGGCTCTGGGCGCCGAAATCTTCGGCGCCCAGGCCTGGGCGCTGGAATTACCTGGGTACGTGTTTTTTCCTAATTCTTTGTGGATTAGAACTCTGCAATTCTATCTTTCCACGAACTCTTCCCTATAAATAGGCCCCTAATTTCGACGTGAAAGAACACACAACAACACACAATTATATTCTGAGTATTGACTCCAACCCTTAGCCTAAGCCTCACGCTGCGAAATTGTTCACGCGTTCTGTCGCAATCGATCCATAAATCGAACAGAACGTATCCTGTTCCATAATTTGAGATTCGTTAAATAAAAAGGAGAAATAGCAAAGTCAAAGTGGTTAGTTTTCTGAGAACCGTGACGCACCTCTCAAGGGTGCGTCGTAATGTGTCCCTTTTCTATGATTTAATTGCTTTCCTCGCCCTTTTTATGAACTGTTAAACTAACTAAATCTGATTGTTCTACCACGCCTAACAAATATAATATTTTTGGGAAATTGGATTATCATGCTAGGTCCCTTAATGCTATTTAAATCAGATAATCGCGATCGATCTAGTATTATATGTTGCATATTGCTAAAATCAACTCAGATTAGTTTAATAGTTAACGCATGTCCCTTCAATTATTTATGCTGAGCTAGTAAGGATATCCTGCCTCTGGAGTTATCGACGAGCGAGTAATCCTCTCGGTAGTTACAGTCCCCCGAACCCTCAATCTCTACCTTGCGGGTGTATGTTGAGAGATCCCCACACCAGGGATCACTAGGGAACCTACGGCCGTCGTGGTCAAACATAATTGCACTCCCTTTATGTTACGATAACCGGGTTTTGTCAGTTTTTCTCATTGTCGTTAAAAACTGAATGGCGACTCCTATATTACTAGTCAATTGGGTGTAAACTCACAGGAAATCCAATTACACTTGATTGAATAAAAAGAATCGTCACACCCACGAGGGACGAGGTCACGCAGTAGGCTCGTGCTTTTTCGACCCCCTCACAGTGGCGACTCCACTGGGGATAGTGAAGGAAATACTCGTGCTTGTAGGTAATCAAAATAGCCGAAGGGTGAAACGATCCTACCCCGCGTTTATTTCCCCATCAAGTTGGGACGACCTGAAAATCAGCATATTAATGTGAACGGGCAGAACCGCATAATGAATCTTGGCTCCCTCCGGGAGTTTGGACTAAGGATACCCATCGCCAATTGGGGGGTGCATACGCTTCGAATGTTGTCCACTCGGCACTTTCGCTAGTAGTACACCCGTCCCAAACCCAATCGCTCGCCCACTAGGTCCCTCTCGCCTGCATGCCCCCTTGGCTTGCACTTGCGGGTTGGCCTCTTGGGCGAAATTCGTCTGTTGAAGACACTACCTCGACCGGGGCATGTGTTGGATCTACGATAGAAGCGGTACCAAACCAGGCGCAAATAACTACCCATAGAAGCCTATCATAAACTACATGACATGTTATTATCGCCTCATGATGAATGTTAGTTATGTGTAGCGAAATATGTGATTGTGTGTGACAAACTATCCTAGAAAACCAACGACCTTAAAAATTGACCAAACATTCATAGACTAATTTGCCAAAGAGTATATCGAAATACGTGTTCCGCAAACCCGAATGATCGCCCCAAAAATAAGCGACGCTCGGGATGGCCTGTAACGAATCCCACAAACGCTGCACGACGCGTAAAGGACGTTATTAGGCAAGCACGTAAATCGAAGTCACATAAACAAAAGAAGACGCAAACAGAAAACGAGAATCAGCCAGGGACGCATTATCAACGCCCCTGGATGGGCGCCAGATTTTCTCACGCCCGACGCTGGGCGCTGAAGTTGCTGCTTGGCCTTCTGGTCAGGCGCAGCAGCCTCGGTGCCCGCACAAAAGGAAAAAAACACGTAGCACCAAAAAAAAAACGTTCGTAAAAAAGAATTGCTACGAAGGCGTAAGAAAAAGCACTCGATTCTAGAGGCGACTNAAAAAAGAATTGCTACGAAGGCGTAAGAAAAAGCACTCGATTCTAGAGGCGACTCAAAAAAAACAAACAAATAATAAATAACTCTTTGTGTCGTTGATAGGCCTCCTACGACGACAATGTTTGGCACCGAAACCGAACACGCTAATAACTATGAATGTCACACGGGCAAGTGTTTCGAAAATTCAAAGAATGACCAAAAAAAAAAAAACCAAAAAGTGTACCAATAAAAGAAAGAGCAAAAAACCAATAGAGAGAGTCGAAGTCTAGACTAAGTAATGCTTGAAACTTTGGGAACCTAAACTTTAGCTTATCTTATGCCTAGGACTGGTCCTGCCACTTGGTGCCGATCAGGGAATCAACGGTTAGTGCGTCTCGAAGATACATCGCCAACATCAGGTTTAGTGACTCCAAGCTCCGTCCGTCATCCCTCATTTCAAGGATCTCCGCTTCCCCAACCTCGATTCGCACCTTCAAACATGTCCATCGAAGATTTGCGAGACCAGATGGTCCAAATGACCCAACTTATGGGCCAATTGAAAATGGAAAATGAAGCTTTAGCGGCTGCACAAGCCAAAAATGACCTCGATAACGAGAAGAGGATTGAAAAAATGATCCTACAGCAAACCATGGGGAGAAAATACTTCTCCCTCGATCCTGAACCTTTTCCTGGCAAACTACTAGAAAAGTTCAGTTCATCTGACTTACCAAAGTTCAAGGCCACGGACAATCCCCGTGATCATCTACTGAGCTTTGTGAATGGCATGAACTTGAAAGGCGTGGACAAGTCCATGTATTTACCTGCCTTTCCTTTGTCCTTGGAACATGTGCCGCTCAAATGGTACTATCACCAGGACCCTAAGCTCTTCCCCACTTGGGAAGACTTTGTCAATGTCTTCATCAAGCAATACTCGTCGAACATGGATTTCCAAGTCACCATGCGCGAGCTGGAAGTTCTCTTCCAAAAGAAAAAGGAGGGTTTCACAACCTACTTTGCTAGATGGAGGGACCAGGCGGCCCAGCTAATCAATAGGCCTCCTGAAACAGAATTGGTCCAAAAATTCATTGACAACCTGGACCCGGCTTACAGACAACACCTTAGGTACCTGGGACTCGACACTTTCAAAAGAGTTTATGATGTGGGAATAAAGATCGAGGACGACCTCGCCAAAACCATACAAAGCAAACCCACATATAAAAACAACACCTATAATCGGGGTAACACATCCCAAGCCCAAGAAGTCCATGCTGTAGAAGAGACTCCCGCCCGAAGAAGCCCTGGAAGATGGGTCCGAGACCGAAAGTTTGCCCCACTCGGGTCGACTTTGGTACAAGCCTTTGAAAGATTAACCAATCAAAGAAAGTTGATACCTATAGGCCCCACCCGTGACCCTCCTGTCAAAAGCAAATATTGGGTCGAAGGTACTTACTGCAAATTCCATCAAGGAAATGGGCATGACACTGAAAACTGCTGGAACCTAAAGAATACCATCCAGGACATGATAGAGGATGAAGTGATACCTCTCCCTAACGTTGGCAAACCCAACAACAACAAGAGCCCACTCGGCTCTTGTCACATCTCTCTCGACTAACCAGAAAATGAGAACTTCGACCCTACGGTGTACATTACACCTCAAGGTGCACCACTCGCTGTGGTCCCTATGGATCGAATCGAGAGAGAAGTGTGTGGTGTGTGGGATGATGATGCTGAAGATATCTACCTATCTCAAGTGTCGGGCCAGGACCTCTTTACTGAAACTTGGCCCGGGTATGCTCTCATCGACACCACCACTCAAGAACCCGAAGTCGACAACCTCACCAGATCAGGAAGAATATACCAGCCTGGCATTCGCCCACCTCCTATGGACGATATCCTAGTCAGGCAAGCTCCTGAGAATGGACGGCACACCACCGTCGCAGAAGTCATTGAAAATCCTCTTTTGAAACAATTGAAAAGAACCAAGGCCGAAATTACCATCTGGGATCTCATGTGTATCTCAAAAGAACATCGCGAAAAGCTTATTCGCTCCCTTGACCTCAACTCAGTGCCTACAGATATCACACCTGACTCATTGGTTAACCACGTCACGAGAGATGCTGGAGAAAAGGCCATAGTTTTCACTGACAAAGATTTACCCAGGGAGGGGGGTGCCCATAACAAAGCCCTCTATCTAGTAGTTGGATGCAAAGGGCAAAACATCCCCCCAGCGCTCGTAGATAACGGTTCGGCGGTTAACGTTTGCCCGTTGCGAACCGCCCATTGCTTGGTACTAGGAAGCGATGACTTCCAAACCTCCACACAAGGGGTACGAGCCTATGATAACTCTCGAAGGCATGTGTTGGGAAAAATCAACCTTACCATACAAACCGGGCTTGTGGCACGCACCACGGAGTTTCAAATAATCGACATCAAGCCCACTTTCAACCTCCTATTGGGGCGACCTTGGCTCCATGACTTAGGAGGTGTGGCTTCTACCCTGCACCAAATGGTTAAACTTAACAATAACGGGGTAATACTAGAAATCCGCGCCCCTCCTCTCGACATCAGTTGTACTATGGTTGGAACGGCCGAAACTGCAGACGACCTTTATGGGTTTTAAATGGAAGAAGCAATCCAGTTCATTGAAGACTATGATCCAGCATTCCTAGACCCGCATGAATCCCGGGTCATCCCTAGAATGCTGCTAGCTCAAGGTTATTTCCCAGGAACCCCATTGGGCATAAGGAAGAAGGAATGCACATTCCATCCTTTACCCAACAAATCTACTCCCTTTGGCTTAGGCTATGAACCAACGGAGGAAGATATTGCTGACCGCCTGTCTGGGCTACGCCTTAACAAAGCCAAACAAACCACCCTCCTTCCCCCGTATCAAAGAACCCTTAACGGGATGTTCGTTCGGGAAGGAGAAGAACACCCATGCTGCGATTTCCCTGAACCCTTCGTTCAGGATGGCTTGCTAAAACCAGGATTTGAAATTTTCCATGACTGCCACACCTTGGATGAGGCACCCCACCTCACCAAGACTAAAACAGCTGAAATATTGGACAACCAGGCTCTATGGACATTGTTTAACGAATTGAGGCCTATGGAGAACGAGACTGTGATGACTACCCTAGCTTTACAAGATGAAGGTTTCGATCCAACCCGGTTAATCTCTCCTGCATCAACACTAGAAGAGATCGAGAACGGATGGGTGAAGACATATCAGTGGGTCAATGCAAAAGGAATAGAATTCAAGATGAGTACCGGTGAAGGACCGAAGTTTTATGAGACTAAACCCCAGGCTTGAGCCACATAGAGCACCATTAGTAAAAGCGCCTAGAAGTTCTTTAGATTGGTAGAAAAAAAAAATAGAGACTTTAGATGGTCCTAAAGCCCCTTAGAATATAGGTCAGTTTTATTTCAGTGTGTTTTCCTTACTTTCCGAATAGATAAAGGCGTAATATTTCTCCTAAAAATTTTATTCTAACACTAAATAAGCACCAAATGTACTTGCAAAATACAAAAATACAGAGGCGGCCCACTCTAGGCCCAACAAATAGCCCACTCGGTTTTGAAATAGTGCCATGGGAGCCAATTCCCGAAACCCACAAAATAAATCGCACCATCCCATTCATATCCCCAAAACATAAAAGTCAACCAGTGTAACCATAAAAATCAACCCATACAACCCAAAGAAGTCAAAGGAAATCAAAATCCAAAACGAAAGCAAATGTTGCTTAAAAGGGGAATTAATAAAATATAACCCCCACCAATCCTTCAAAAACGACACGCACCTCAACCCACCTCAAAAGCCTACACAAAGATCTTCATAACTTCCGCACCCTAAATCCATTTTCAAAACTGTTTCGAGTCACGAATAGAAAAAATTAATCCGGACAAAAATGCATTTCACACTAACAGTAAAAAAAGCCTCCAAAATAGCCTCAAAATTGACTTTAAATACGAGCAAAAATCAAGGCACAAAAAAGAAATAAATGCAAGAACATGTGAAGCAAAGCGTCAAAAACGACCGCCAGAAAACATTTTCAGCGCCCAGGGCTGGGCGCCGAAATTTCTGACGCCCCAGCCTGGGCGTTGAAACTCTCTGCCTGCCAAAAATTTTCTTTTCAGAAGTGCTCGTCATTTTATCCGCACACAACGGAAAAATAACGAACACTTGGGGGGTACAGTAGGTATCCAAATAGGCTTACCAAAAATATAGCCATACAAATTAGTCGAATTTCATTTTTACGCGACTTATGGCAAAAAACGGCAGATGAAAATAATGATAATACTTCACTCATTTGACCGATTAAGTAATATGCTTCCACCTCAGGGCATAACTACCGAAATCCGGCATACTAGAACTTATTCTAAAGCTAGAACTACGCGCGACCTGATTCTGACAAGATACGTAGGCAATCCTTACCAAGGATTCGGTCCAATAAAAAAGAACACATATTCTTTGTGCAAAGTGTTAGACACATAAAAACATAAAAAAGAGGAGAAACAAAAATAAATGAAAATGAAAAATAAAAATACGCCTTTATTGAAAAAATAATAAGAAGGAAAACAAAGTGCTAAGAATAAAAAACAAACACAACTGAAATAAATAAAGGGCACCTACACCCTAGCAAGAACTACACTACTCTAGTTCTTCCGGATCATCAAATAAAGTCTGGTAGAGGGCAATGTTCGCAGGATCCACCCCATAGTCTTCTGCGCTGCCCCAATATCAATCTCCATAAGAACCGGCTCCTGGACACTAACTTCCAAAGATGCCAAGGCTTCAGAAACATTCTCAGTTATAGCCCGCTCAGCCTCAAGGGCACGGACAATGGTGGGAGAAGGATTATTATCATCAACTAGACTAGCCACTGTTTCTACAGGCGGCTGAGCCTTCCTAGCCCATACATTGTTCCGGCGACGATCTCCGCGAGAGCCTGCACTTCTTTTAACAACAGCAGGCCCCTTCATGTTAGGCATCTTTTTAGGCCTGAAACTGGAACGGGGAGGAACTTCCTTTCGCTTTCGATCAGGACGAGCTTTCACAGTCTTAATACTACAGGTACGAGGTTTGGCAGAATCAGGACCCTCATACTTAACACGAATACGAGGTATCAAAAGCTCAGCCGGCTCCCCATTACGAGTCTCGGTCCTCACATCCTTGTCATCGGAACTCATCCATAACTTATAGTTTTCAGAAAGACCCACAAAGCCACTTGTAGCTACGGCCCAACGCGGGAGACCATCATAATACTTAGCCCACGCTAGAACCCGTGCTTGTGAAAAGGCCGCTACCTTAGGTGGTACCGTATCAGAAAAGGGGATAGTCTGCCTTAAACCATATTGACGCATGACTCGGTAAGGGAAAATATAAATGGGACGAGATAGCCCCAACAAAGAAACATAAACCGATACATCAGAACCCCCTGTCATAGTAGTCAAACCCCACCATGGTACCACCCACTTAATAGAACAAATGCCATAAGTAAAAAAGGAGGTCCATTCGGCCTCGTCCTGGCCTTGGTGCAAGTATTTTCGGTGACCCAAGGCTATAGGGCGATAATGTTTAGGATCGGCAGGAGCTTCCAAAAGTCTAAGCCGTTCCACGAGCCAAATCTGCAAAAAACGGGGACGATCAAAAAATAATAAAAGAAAACGGTTCCTGGGGCGCAGTTTCAACGCCCAGGACCAGGCGCCGAAAATTCCAGCGCCCAGCCTTGGGCGCTGAAACTCATTGTGTACGCAAAAAAAAACGTGTATACGTGCGCAAGGAAAAAATCGATTACCTGCAGTAATAGGGGGCTTCCCTTAAAATGTTCAGATTTGGCATCCTTCTTCAGCTCATCCGCACTCAGCAAAGTCTCGGCAACAACCAACGGCATAATAGAATAACAACTTTCCATCTGGCTAATCAAGGGGATCAACCTTATGTCACCGAACACGCCATTGTTATTCGACAGCAAATAGTGATTCAACAAGCAAAACACAAGGGCTCGAATATTCAATTTCTGTTCGGTCATATTCTTACTAGGCCTAAAGTGGTGTTTTACAAGTTTTGCCAAGTTAACCTCATCACCTACAACAATTTCAGCAAACATGTTATCATCTAGTCCTACGAAAGCCCCTATGGTTGTTTTACCCTCTTCAATAGTGCCAGGGGTAGCAGGAGTAGCATTAGTAGGATAACCAAGGATCGCAGAAAATTCATCTGGCTGATGATCGGAGTCCCAAAAGCTTAGGGCAGCATGCAGAAAGTTATAATCAATGTTAATTTGTTGTAAGCCTAAAAGTGCCTCTAAGTGGTATTCTTTTAACAAAGCCTTTTCTATGGGAGTAAGGGCCCGTAGCCAACGCCTAACAGTCCGTTGGAGTGAGAAAGTAGGGATCGACATGGCAAAAGCAATGAGTAATTAAAACACAGCAAAAAAGAAAGAAGGAAATTGAGAGTGGTGGAAAATAGGGACGTATCTAGCCCCTATATATAGCTGAACGCACCCAGTGACATCCTGATCCCATTCGGAAACGTGTTAGGAAATCCGAAAGTCAAATATCACCAGGAAAAGACTTCCAGCGCCCATGGCTGGGCGCCGAAATGTTTAACGCCTAGCCTTAGGCGCCGGAAATTCAGCCCAAGGCCCAGATTTCACAAAACGCGGAACAGGAAAGGACTTAAAACCGTGTTGCTAAACATGAGGCCCTATTGCAAGTAGGATCAAGCCCAAAAGCACCTTTAGCTCCCAAATAAGCAAAAAGTAAACATTAAAACTTGGTCGAAACTTAGACTTGTCTCAGAAAATGCTTATGTACACTTTTCAAATCGAAATAAATATCATGGTCATTCTTCGAAACACCAAAAAATGTGTGTCGTTAAGTCGTTGGTTTCCTAAATAAAAAATGTTTGTCTGTCAAAGGATTAATCCGGGCCAAGCTAAAACCGGATGTCGCCTGAAAACTGAAGTCGCACTCCACGGCTTCGCTAAAATAGCACACTACTATAAAAGGTCTCTCGCGCATACGAGCATGACCCCAAAACATGATTACAAGATGCGAAAAACGACCGACGAGCCCCAGTGCTTGGGGGCTCTCGAAAAAATATACTCCAACGAGGAGCGCACAATCAAAATCACATTCCCGGACTACGCCATACACCATCTCATGTCCGGATATCTCAAAAAAAACAGGTACGACCTCAGAGAAAGGTCGTCATTGACACTTGTGCATGGTCCTCCGATCAAAGACCAAGTAGTGGCAAAAACCGAGCCGTAAAGACTAGCTCAAAACCACGAAAGCAGACGGTCGCAAGACAAAGGTCCGTCTAAACCCGTTGTCAACCCACGTTCAGGTTACAACTAAATCCGAGCATCCCTCGAAAGAATTCGCTCTTGCAAGAATGAATAAAAGAAATTCTCAAAAAGATATCACGATGAAAAAAGTAGGAAACTTGCCCATCTTAGTAGGCAGGATCGCGTCACGAACCACGCGAGTCCCAAATTGAAAAACGAATTCAGGGGCGTCCACCCTCAGCGGACAGGGCTCGCCCACCCACAGCGGGCGGGGTCTGCGTCACTAGCTGTGCAGGTCCTCAGTTTTCGAAAAATAGAATCTTCAAAAACAAAATGAAATAGGCTCGCCATCTTCAGCCGGCGGGGTCTACGGCACAAACCACGTAGGTCCTTATTTTCAAAAAATAAACACAAACAAATTTCAAAACAGATTCGTCCACTTCTATCGGACGGGGTGTCCACCCTTAGCGGACAGGCTCACCATCTTTAGCCGGCAGGGTCTGCGTCACTAACCGCGCAGGTCCTTAGTCGCTGCAGCGATAACTCTTTTTGGTTTTCCGTTTTTCCCAAAAACGATGTGAGTAGCTTTTGGTTTTCCGTTTTTCCCAAAAACGATGTGAGTAGCTTTTGGTTTTCCGTTTTTCCCAAAAACGATGTGAGTAGCTTTTGGTTTTCCGTTTTTCCAAAAAAAGAACGATGTGAGTAGCTTTTCTTTTTCCAAAAAAAAATTCAGAAATTGGTTTTCCGTTTTTTCCAAAAAAAAGAACGATGTGCTGGATTTTCCTTCGTTTTACGTCCCATAAAAATAAGGGGGTTTTCTCATTTAGCTAACCCTAAAAATGAGAATCTTTAAAAACATTTTTACCTCGTGATTGGGCTTGGCCAGGCCCAATTGCACTTTACAGCTTTGATTTCGAAAACATCTGTAGCTACTCCCAATGACAAAGTGAGGGAGTTTCTACGCACCTTTAGATCCTTCCAATGACAAAGTGAGGAAGTTTCTGTACTATCAGTTGACAAATCCCAATGACATGTGAGGGATATGTCGACACTTCAAAGTGATGACCCTTAAGTCAAATGTTATCACTCGGGGGCTCGTGAGACCCTCGCAAAAAACAGGTCACCATAGCTTGTGTGACGCACTCCGTCTAATACTTTGACCATCGTCTTACTCCAAGACTCAGTCAAAGTGGGGGCTAACTGTAGACGCCTACTTTTGTCCCCATTCCCGAAAGGGAAGGTTCGATGATGAAAACATAAATCTCCACTTGACAACGCATCTCCTATAAAATAACGAATCTCAATCACCCTTTCTCGTTTCACCCGAAACCTGCTATTTATAGAAACCTGCTATTTATGGAAACCTGCTAAAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATACACTCTTATCTGATTCCCTTTAATGCAACTTTTTAGTTTGCTTAAACTTCCCAAGTATCCCTAGAGAAGATTACATTTTGGGATTTGAGTTCTAAGCAGTTGACTAAGAACCTCACCCTCCCTCATTTCTTTTTATTTCGTAGTTGCATACTTCAGTTGACCTACTGTTTAAAATAAGGGAACACAAATGGGAATTTATTAAATTTATATGCATCCTGAAAAAACAAACCAAAATGTAATTATTTTTTTTATATGTTCTTTGAAGATCTTGGAGCTAGTATCTCTTATTTGCAGATATTTCGGGTTCCTTATCCTATCATTTAGGAGACAGGAATGTGATTTCAGATCAATTGTCAGATGCGGATCGGATGCCTTATTCCTCAAAATAGGTTTTTATTCAAAGATGGTTACACGAACATCTTCTATGCCTTAATAGATTGATAAATTTGTAAATGAATTGGTTTTGCTATCTGATTGTTTCGAATGTTCGTGCAGCTGCTGCTTTACAGGCCTTAACAGGAAGCTAGGTTGAATTTACCGCCGAGCTGGAATACTGGAGATCCTTGTAGCAACAGCTGGGAAGGAATTACCTATAGAAATTCTCGTTTGTTGGCATGTAAGTTGTACCTGTACTTTCCAGATTGAGTCTCCAGACAACATTGTTCAACTGTGGATAACTAATAATTTGGCGATTGTTATGTTTCAGAACATTGGCAAATATGGATTTGATTGGTCAGTTGTCTGGAGATCTTGCAACTTTGTCAGAACTCCGGATTCTGTAGGTTTTGATATTCCACTTACCTGATATGATGGTAAATCGTATGCTATGATGGCAGTGAAAGTTTTAATAGCCATCTTCTCAATTCCTATTTCTCACAATTTTTTCCTTCTTTCTCAGCAATTGAATTAGCAAAAGTTTGTGAAGCTTCTTCTCTCTATACAACTCGTTGGGGTTTGAAGATTTGACAATTACTGGATTAGAAGGTGGAAGAATTTCTTGCGAATTTGATCGGTATGTTTCTTTTCAAGGTTTTGAAAACTCTGATTTCAATTTGCAATTTGTGTCTGCAAGTTCTAGTTTGGAGATATATGTTTTAACCATCTTATCAAGGGTATCGAGCTTCATGCCCTTCTTTTAGAAGATACTTTTGAGTTTTCAGAATTGCATATCTTTGTCTTTGTGAGTCTGGTGCTGCTGGAAAGGTGATTTTCTTACTGCTTTGTGTTTGCCTGTTACTACCAAATTTCTGTCAAGCTTCTGAAATCATTAGGCCATCAGTAAACAAACATTACAATAAGAGTTGATAGGGCGGCAAACCTAGGTATCTAATGGTTTCATGAAGTTGGTTGCTCTCTTCTAAAGCTCGAGATATCTGTAGGAGGTAATTTATTGTTATTATGTTTAGTAAAAGAAATAAAAAATACTTGGTATATAATACAATATTGTTTGAGGTACAAACCTTCGACTGCAGCCTTTCCTTTTCAGAAGTTAGCTCCTAGAATAACTCGTCGCTGCATTAATTTGCATCTGTCTTGCATCTGTCCTGCAGAATCTGCAATGTCAAGTTAGCTCGTAGCATAACCTGCAGCTGCATTCATATAGTAATGTTCCTTGAGCATCTTCACAATATCTAACCAGCTAGCAACTGAGCTTGAGCGTATTAACCTTCCAGATGCTTTGCTTTCCTCCATTGCTAAAACATTTGCAGTGATTACATCATCTATGTGAACAAATCCTATAACCTGTTTTGGATACTCTCCTTGAGCACCTGTATAAAAAAGTCACAAAATTTACAGACTAGTTACGTTATTCTGGTGATATCATAGTAGCCAGTAACAGAAATAGTTTACCATGGATTCTTTTAATTAGACACTGATAAGGTGAGTGTAATAACTTAGAGTAATTCAGTACATAATATAGAAATAGTTAGCAGCTTAGCATACATTGTAGCGCTTGTAGTACTCAGGATCACTCCAATGTGACTCATTTAAAGGAGACACTTGTGGTGCATCATCTCAGTAGCGTATAGCACAGCAGGATGACGTGAGAACAACCCTCTATACAGAAATTGCCTTCTCACATGAATTAAGAACATTCAAGGTCCCTCTTATACATGGATCAATTAGCAGCGCCTGCAAATCATGAGAAAAGTTTGATAGGTGTTTCCACTTGACCAACACCCCCTGTACTTTTAATCTGCATCAATTCATGTCAGTAGACACTTTAATCTGCATCAGTTTTTAACATCTGTTATTGTTTACTGTCTTAACCTGATGCAGATTCAGTACATGTCAGTTAAATAGCAGATCTTCATAGCAGATTTTCGATGTCTACTGCTGCCTGCATGTTTTTGAATTTTGTTGAAGTACATATATTTTCTCCAAACCCGTACACTCAAGAGGAGATCAATGATGTTCGAGAAAAATGGAGTAGATATTTTATTAGAAGTTGTTTGTAGTCATTTTCTAGTTTTCAGAGATAGAAATTAGGTTATTTTTTGGAATACAATTATTTACAATTGTACGTTGAACCAACTTTCTTGTTTGAATTAATACAAAAATATTTTCGCAATTCTGCAAATCTCAGCTCTATTTATTATTATTTTGAATTTATTACGTACGTAGAAATAATTTAAATTAGCGAGAACAAAATTAAAAAAAACTAAAAACATAATACACACTTTTAGGTGTCGCCTCCTATAATTACATGTGACTCCTTATGGTTAATTAATATATATTTTTTTTTAAATAATACTTTCGGTGTCGCCTTTTGGTATAATAGGCGACTCAAAATGGGTAAAAACTTTTAAAAAATAATTCGGAAAATACTTTTTGTATCGCCTGTAACATTAAGAGGCGACTCTAAAGGTAATTGGCTTAATAAAAATAATTGTGCAAAACATCTTTCGTGTCGCCTCTTAGTATATTAGGCGACTCGATTATTAACAAATTTAATAAAAATGTTCGAAAAAATTAGAGGCGACTCGATTATTAACAAACTTCAGAAAGAAGGAATTCTAGAACCATTTGACTTTAGTGGATTTTGGTAAATGCGAATCATGCTTACTTAGGAAAATGACAAAGCAACCTTTCTCTAAAGTTGGACAAAGAGTAAATGATCCATTGGGATTAATCCATACAGATGTATGTGGATCAATGAGTTCAAATGCTAGAGGTGGTTTCAGCTACTTTATCACTTTTACTGATGACTTCAGTAGATATCGTTATGTCTACCTAATGAAGCATAAGTATGAGTCCTTTGACAAATTCAAGGAACTTTAGAGTGAAGTAGAGAATCAACTAGTCAAGAAGATTAAAGCACTGCGGTCTGATAGAGGCGGTGAATATCTGAGCTATGAATTTACTGACCATCTGAAAGATTGTGGAATCTTGTCAGAATTGACTCCTCCTGGGACACCTCAATGGAATGGTGTGTCAGAACGGAGGAACAGGACCTTGCTAGACATGGTTTGATCAATGATGGGTCAGGCCGAGCTTCCAATAGAATTTTGGGGACATGCACTAAACACAGCTGCACTCACACTAAATAAAGCTCCGTCTAAAGTTGTCGAAAAGACTCCATATGAGTTATGGTTTGGAAAGCCTCCAAAAGTGTATTTTCTTAAGATTTGGGGTTGTGAAGTATACGTCAAACGATTAATTTCAGACAAACATCAAGAAATTTGACAAATGTATCCTTGTGGGCTACCCAAAGGTAACAAAGGGGTATTACTTCTAAAATACATCTGAGAACAAGGTGTTTGTTTCTCGAGATGGTATCTTTTTGGAAATTAATCACATTTCCAAAATGACAAGTGGGAGAAAAGTAGACCTCGGAGAAATTCGAGTCGAACAACAAACTCTAGAGAATGCTCAAGATGACATTCAGGATGAAGCTCAGAGATCTTTAGAAGTATCTGGTGAGAATCAAGGACCATCTAGAAATGTAACCCCGCGGAGATCGCAGAGATATAGATCTCGACAGGAAAGGTACTTAGGTATTTTGACGAACGAGAGCTATGAAGTTCTATTACTTGAAAGTGATGAACTCACGACTTACAAACAAGCTATGACGAGCCCTAACTCCAAGCAATGGAAATAAGCCATGCAATCTAAATTAGACTCCATGTCTGAAAACCAAGTTTGTGATTTGGTCGATTTGTCAGATGGCTACCAAGCCATAGGAAGCAAATGGGTTTTCAAACTGAAAAAGGACAAGGATGGGAAACTAGAAGTTTTCAAAGCTAGATTGGTTGCAAAAGGTTACAGGCAAGTCCACGGTGTGGATTACGATGAAACCTTTTCACCAGTTGCAATGCTAAAGTCTAATCGGATAATGTTAGCAATCGCTGCATATTACGATTACGAATATGGCAGATGGATGTTAAAACCGCTTTCTTAAAGGACATTTTAACAGAAACTGTGTTTATGACACAGCCTGAGGGTTTTGAGGATCCAAAGAATGCTAAAAAGGTATGCAAGCTTAAGAAATCAATCTACGGATTGAAGCAAGCATCAAGGAGCTGGAATATACGTTTTGATGAAGCAGTCAGTGACTTTGGTTTCATCAAGAACGCAGACGAATCTTGTGTATACAAGAAGGTCAGTGGGAGCAAAATTGCTTTTCTAGTATTATATGTCGACGACATATTACTTATCGGAAATGACATTCCTATGTTAAACTCTGTCAAGATTTGGCTTGGGAAATGTTTTTTGAAGAAGGACCTAGGAGAAGCACAGTACATACTGGGCATCAAGATTTACAGAGATAGATCTAAGAAGATGATTGGACTCAGTCAACGCACTTATATCAATAAGGTGCTTGAAAGGTTCAAAATGGCTGACTCCAAGCGAGGCTACCTACCCATGTCTCATGGAATGAATCTAAGCAAGACTTAGTGCCCAAAAACACTAGATGAGCGAAGACGAATGAGTGGGATTCCATATGCATCATTGATTGGTCCAATAATATATGCTATGATATGTACACGCCCGGATGTTGCGTACGCACTCAGTTCTACGAGTAGATACCAGTCAGACCCAGCAGAGGCACATTCGACTGCTGCCAAGAACATTCCGAAGTACCTGAAAAAGGCATAAAGATGATTTCCTGGTCTATGGTGGAGATGATGAATTAATTGTTAAAGGCTATACGGACACAAGTTTCTAAAACGACAAAGATGATTTCAGATCACAGTCTGGGTTTGTCTTCTGCCTCAACGGAGGAGCAGTAAGCTGGAAAAGTGCCAGGCAAAGCACTATTGCGGATTCTACAACTGAAGCGGATTACATTGCTGCACATGAAGCAGCAAAGGAAGAAATTTGGATAAGGAAGTTCATGGGTGAGCTTGGTGTGGTCCCCTCCATTAAAGGACCAGTAGCTCTATATTATGACAATAATGGAGCTATTACACATGCGAAGGAGCTTAGACACCACCAAAGAGTCAAACATGTACTTCGTAGATTTCACCTTCTACGAGAATTCACTAGAGGAAAAAACATCATAAGTTGCCCTTTAAAAGTTGCTCTAATTTGACAAGTGCATCTTTTGACAAAAAAAATGTTAAAAAAAATCAAAAATTAAATCATTTCCCTCCTTTTCGTGGGAAGCGCATCTCTTAGACCTAAGATGCTCCCTCCTTCCTCGCTGCTCCCTTTGCTCCCTCCTTCCTCGCTGCTCCTCTAAACCCAAACAACTTCTCCCGGCGATGCCTCTGGTCAACTTCACCGATCTCCTCTCCTCTCTTCTCTTCAGCGCCGTCGCGCTGTGACCACCGCTCCCACACCGCCTGTTGCTGTTACGCCTGATGGAACTACTGATAATCCCGCTCCTCCTTTCCCTATTGACTCCAAAATTCAGCAGCTTACTCAGGTAATTGTTCATCTTTCTATTTTTGGGCTTTCAATTGATTGATTGATTTATTTATCATTTTTTTCCGTGGTGCAAATGATTTCTTTCAATTGCAATGGAATCAGTTATCTAAGTGGTCCAATAATTCGAAATGGATAGAGGGATAATTCAAAGAATTCTTGGTTAATTGACTGTATTAGTTCAGTGTCTTGTCAGATAAATTATTTGTGCAACTCTTCAGTTATGTTGGTAAAACACAATTCTTGTAGACAACATCCTCTAATTCCTTTCAGACTTGATCACAATCTAAGACCAGAATGTCTTAGAAGTTTAAAGCCTTTCGAAATCTGTTTTTCGTCACCTCTCGAAGTAACTTAATGACATTTTCTATTTCAAACATGTATTTTTGTTTGGATCTCTGAGCTGGTGAAAAGATTTTGTTTCGATTTTAGGGTTATGTTTTTGGTTTGATTCTTGTTATAATTTAATAATTTTTATTTATTTTTGTCGTGGCTGATCAGTAGCTTTAGTTGATTAGGTTATATGTTCTTTATTGATGCGTTTATAAACATATGACGAGCTGGTAAAAATGATGTCTGAGCTAAATTCGTTGAATGGTTGATTGGTCTAAAATGGTGAATGTTTTGCTCTGTTTATCTGACATGCTCTTGATATTACTCTGCTTGTCTGCAAGGAAGAGAATGTGAGTATCGACATAGTGAATATGCTCGGATGAACCCGACAGATTTTTTGTACTGGATGAATGGAAACTGCTTGAATCCAAAATGCTCATTAGCCATACTGTAAGTTCTTATTCTATGCCAATGTTAGTGTTTTACTCTTGTCTAATTTCTTAGTTGACCATACAATACTTATTATCCTTTGCATCACTTGTTGAATATGGTTGATAAATGCCTTTTTATCCATCTCTTGGCTTTGCCTGGCCTTTTCAAGTTACATAATACGAACCATAAGCCTGATAGTCTGATACTTAAGTGATTATCCTTCGAATTGTCCATAACTTGCCTATTGTTTAACTTGATGTTTGTGATGAACAATGATGCTGGTTAGCTGCCACGCTCAGTGGAAGATGATATCTCCTGATTCCTTTCTCTTTGTGATGTTTCTTACGTAGTAGTTGATAATCTGGTTTACTGTAGACTTACATGGTGTTATGTGTACGATGTTTTTGGTGTTTCAGTACAGTAGTATTAAAATTCTTTGTAGTTTTGGATCTTAATTCTAAATGATGAAGAAATAAATATCCTTTTTTTTTCTGAAATTCCCTTGGATTTGTTTGATTATGACTATGCTTGCATGCTTGCTCTTCTTACATCATTATTCACCTCCTTCTCAAAGAAGAGCTGCTTGGTTGGTTTCATGTTCCCAGACAATCGATGCAAGTCCTGCTAAGTGCCGAGTTGCAAAACATTTGAACTGATGTGAAAATTGAGGTACGTAGCTTATGCCTTTCTTCTTCGCAACTCTTGTTTTTAGGTATTCATTTAACATGAGTGGGTCAATAATGCTTCTGCTTCCCTTTAAAACTTTCAATAGAAGATTAGAACTTAGAGTAGTAGATTAGAATTAAGAACTTGCAGTAGCAGATTAGAACATTAGGACATTAGAACTTGCAGTAGTAGATTCTGGTGGATGAACATCAGAAGTGTGTCAATAATGCTTTTCTTCTTCGCAACTCTAGCTTTTAGGTATTCATTTAACATGAGTGGGTCAATAATGCTCCTGCTTCCCTTTAAAACTTGCAATAGAAGATTAGAACTTGGAACTTGGAGTAGAAGATTAGAACTTAGAACTTAGAGTAATAGATTAGAACTTAGAACTTGCAGTAGCAGATTAGAACATTAGAACATTAGGACATTAGAACTTGCAGTAGCAGATTCTGGTGGCTGAACATCAGAAGTGATGGCAGTAGCCTGTCTGGGTGGCTGCACCGGCTTTTGATTAGTGATTTGTGTATTTTTCTGTCACTTCTCCTCTCGTCGATTGCATGTTTCCGTGCACACAAACATTACACCAATGAATATTGCTAGAAAGTAAACGATTATCAATATATGTCCTAGAACTACACCAATGAACACTATACTAATGCAATTTTCTGATGTTTTGTAGTACTGCAGTGGAGTTCAACATACAGAGGATATCGTTTGAAGAAGGGCATGCTGTTGAGACTCTTGAAGAAGCCAAATCTGCTCTCCAGCAATTGATAAAGAATGGTCAGATTTACAATTTTCAGAAATGA

mRNA sequence

TCGGGGGTGGGGACCAGGCTTTTCATCTCAGACAAACATTACTCATCTCACCGCCGTTTTATCCCGTCGTGTGTTGTATTGTAGAGAATTTGGAAATCATACAAAGCCATACTCACCAATTCACTCTTTGTAAGCCATAATTGTCCACCCATGAGCTTAAGCTTTGCTCTTGAACCCGGCTTCCTCCATCAAGTCCGTGGATTTCCGGTTCCCTTCACCTTCAAACTAAAGAGCAGGAGTAGAAGATCAAGCTTCCCAATTTTTGCCCATTTCCCCAATCCCAAGTGCAATCAAGAATTGTTGGTGGTGGTGGGTGGCGGAGCTGCCGGAATATATGGTGCTATTTGGGCTAAAACTGTTGCACCCAACCTCAATGTTGTTGTCATTGAAAAGGCACACCCATTGTCTAAGGTAAAAGTTTCCGGAGGAGGTAGATGCAATGTGACTAATGGGCATTGTCCTGAAAATAAGGTTATGGCTGAACATTACCCCAGGGGAAACAAAGAATTAAAGGGTTCCTTCTTTAGCATGCACAGTCCACTTGATACTATGTCCTGGTTTACTGATCGTGGGGTCAAACTCAAGACTGAAAGTGATGGTCGGGTATTTCCTGTCAGTAATAGCTCATCGTCAATCATTGATTGCCTTATGACCGAAGCAAGGAAAAAAGGAGTTTCCATTCAGACAGGAAAAACAGTGACTACTGCGTCTAGCAGTGCTGCTAGGAAGTTTTCTCTCAAGATTGATATGCGTACATCTTCCACTGACCTTGTTGAAGCTGATTATCTATTAATTGCTACTGGAAGCAGCAAGCAGGGTTATAGTCTTGCAGGTCAGCTTGGCCATTCGATTATAGATCCAGTCCCTAGTCTCTTTACCTTCAAGGTCAGAGACAATAACTTGGCTGAACTGTCGGGGGTTACTTTCTCCAAGGTGAAAGCTAAACTGAAACTGGAAAACAGTGGAAGAACTGTACCGCAGCTTACACAGATTGGACCAATGCTAGTTACGCACTGGGGACTTAGTGGCCCCGTAATTCTTCGGCTGTCTGCTTGGTCAGCTCGTGAACTATACAGCTCAAGCTACAAAGGGATCCTTACTTTGGACTTTGCACCTGATCTTCATAAAGGAGAAGTGAACGCAATCCTCTTAAAACAAAAGAAGAAGTTTGCAAAGCAAAAGGTGGTCAACTCAAGCCCTCCAGAGTTCAATCTTGTCAAGAGGTTTTGGAAATATATGCTTAAACGCGAGGGTTTAGCTGAAGATATCTCATGGGCTTCCATTTCTAGTGAAGCATTGCTTTCTGTTGCCTCACTGCTAAAACAGTGCTCATTTGAAGTGGCAGGAAAGGGCATTCCAGTTATGGGCTTTACGGGATGCACTTTAGAAGACATTATATTGAACATTGATGGAGTAACCGGCGGATTCAATTTTCAGAAAGGTAAGTACTTGTGTTTCCTTTGTAATCCCTGGGGTGGTGTCGTGGCGGTGATTGATGAAGGAGTCATTGATGGGAAGTCAACAAAGAGAGTTGATCTTGGAGGAAAAAGAGAGATCTTGGAGCTAGTATCTCTTATTTGCAGATATTTCGGGTTCCTTATCCTATCATTTAGGAGACAGGAATGTGATTTCAGATCAATTGTCAGATGCGGATCGGATGCCTTATTCCTCAAAATAGTGGAGTTCAACATACAGAGGATATCGTTTGAAGAAGGGCATGCTGTTGAGACTCTTGAAGAAGCCAAATCTGCTCTCCAGCAATTGATAAAGAATGGTCAGATTTACAATTTTCAGAAATGA

Coding sequence (CDS)

ATGAGCTTAAGCTTTGCTCTTGAACCCGGCTTCCTCCATCAAGTCCGTGGATTTCCGGTTCCCTTCACCTTCAAACTAAAGAGCAGGAGTAGAAGATCAAGCTTCCCAATTTTTGCCCATTTCCCCAATCCCAAGTGCAATCAAGAATTGTTGGTGGTGGTGGGTGGCGGAGCTGCCGGAATATATGGTGCTATTTGGGCTAAAACTGTTGCACCCAACCTCAATGTTGTTGTCATTGAAAAGGCACACCCATTGTCTAAGGTAAAAGTTTCCGGAGGAGGTAGATGCAATGTGACTAATGGGCATTGTCCTGAAAATAAGGTTATGGCTGAACATTACCCCAGGGGAAACAAAGAATTAAAGGGTTCCTTCTTTAGCATGCACAGTCCACTTGATACTATGTCCTGGTTTACTGATCGTGGGGTCAAACTCAAGACTGAAAGTGATGGTCGGGTATTTCCTGTCAGTAATAGCTCATCGTCAATCATTGATTGCCTTATGACCGAAGCAAGGAAAAAAGGAGTTTCCATTCAGACAGGAAAAACAGTGACTACTGCGTCTAGCAGTGCTGCTAGGAAGTTTTCTCTCAAGATTGATATGCGTACATCTTCCACTGACCTTGTTGAAGCTGATTATCTATTAATTGCTACTGGAAGCAGCAAGCAGGGTTATAGTCTTGCAGGTCAGCTTGGCCATTCGATTATAGATCCAGTCCCTAGTCTCTTTACCTTCAAGGTCAGAGACAATAACTTGGCTGAACTGTCGGGGGTTACTTTCTCCAAGGTGAAAGCTAAACTGAAACTGGAAAACAGTGGAAGAACTGTACCGCAGCTTACACAGATTGGACCAATGCTAGTTACGCACTGGGGACTTAGTGGCCCCGTAATTCTTCGGCTGTCTGCTTGGTCAGCTCGTGAACTATACAGCTCAAGCTACAAAGGGATCCTTACTTTGGACTTTGCACCTGATCTTCATAAAGGAGAAGTGAACGCAATCCTCTTAAAACAAAAGAAGAAGTTTGCAAAGCAAAAGGTGGTCAACTCAAGCCCTCCAGAGTTCAATCTTGTCAAGAGGTTTTGGAAATATATGCTTAAACGCGAGGGTTTAGCTGAAGATATCTCATGGGCTTCCATTTCTAGTGAAGCATTGCTTTCTGTTGCCTCACTGCTAAAACAGTGCTCATTTGAAGTGGCAGGAAAGGGCATTCCAGTTATGGGCTTTACGGGATGCACTTTAGAAGACATTATATTGAACATTGATGGAGTAACCGGCGGATTCAATTTTCAGAAAGGTAAGTACTTGTGTTTCCTTTGTAATCCCTGGGGTGGTGTCGTGGCGGTGATTGATGAAGGAGTCATTGATGGGAAGTCAACAAAGAGAGTTGATCTTGGAGGAAAAAGAGAGATCTTGGAGCTAGTATCTCTTATTTGCAGATATTTCGGGTTCCTTATCCTATCATTTAGGAGACAGGAATGTGATTTCAGATCAATTGTCAGATGCGGATCGGATGCCTTATTCCTCAAAATAGTGGAGTTCAACATACAGAGGATATCGTTTGAAGAAGGGCATGCTGTTGAGACTCTTGAAGAAGCCAAATCTGCTCTCCAGCAATTGATAAAGAATGGTCAGATTTACAATTTTCAGAAATGA

Protein sequence

MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAGIYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKELKGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKGVSIQTGKTVTTASSSAARKFSLKIDMRTSSTDLVEADYLLIATGSSKQGYSLAGQLGHSIIDPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPVILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNLVKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGKGIPVMGFTGCTLEDIILNIDGVTGGFNFQKGKYLCFLCNPWGGVVAVIDEGVIDGKSTKRVDLGGKREILELVSLICRYFGFLILSFRRQECDFRSIVRCGSDALFLKIVEFNIQRISFEEGHAVETLEEAKSALQQLIKNGQIYNFQK

Relationships

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


Feature Name	Unique Name	Type
Spo10905.1	Spo10905.1	mRNA

Homology

[Close]

BLAST of Spo10905.1 vs. NCBI nr
Match: gi|902201273|gb|KNA13951.1| (hypothetical protein SOVF_111930 [Spinacia oleracea])

HSP 1 Score: 805.1 bits (2078), Expect = 7.800e-230
Identity = 422/473 (89.22%), Postives = 427/473 (90.27%), Query Frame = 1


		  
Query: 1   MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAG 60
           MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAG
Sbjct: 1   MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAG 60

Query: 61  IYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKEL 120
           IYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKEL
Sbjct: 61  IYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKEL 120

Query: 121 KGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKG-----V 180
           KGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKG      
Sbjct: 121 KGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKGGRAMPF 180

Query: 181 SIQTGKTVTTASSSAARKFSLKIDMRTSSTDLVEADYLLIATGSSKQGYSLAGQLGHSII 240
           SIQTGKTVTTASSSAARKFSLKIDMRTSSTDLVEADYLLIATGSSKQGYSLAGQLGHSII
Sbjct: 181 SIQTGKTVTTASSSAARKFSLKIDMRTSSTDLVEADYLLIATGSSKQGYSLAGQLGHSII 240

Query: 241 DPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPV 300
           DPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPV
Sbjct: 241 DPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPV 300

Query: 301 ILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNL 360
           ILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNL
Sbjct: 301 ILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNL 360

Query: 361 VKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK-----------GIPV 420
           VKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK           G+P+
Sbjct: 361 VKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGKGQFKDEFVTAGGVPL 420

Query: 421 MGFTGCTLED----------IILNIDGVTGGFNFQKGKYLCFLCNPW-GGVVA 447
              +  T+E            ILNIDGVTGGFNFQ         N W GG +A
Sbjct: 421 SEISLKTMESKILPNLFFAGEILNIDGVTGGFNFQ---------NAWTGGYIA 464

[Close]

BLAST of Spo10905.1 vs. NCBI nr
Match: gi|731319551|ref|XP_010670332.1| (PREDICTED: uncharacterized protein LOC104887411 isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 693.0 bits (1787), Expect = 4.300e-196
Identity = 357/469 (76.12%), Postives = 393/469 (83.80%), Query Frame = 1


		  
Query: 1   MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAG 60
           MSLSFA+E GFLH+   FP  F FK   ++R S F +FAHFPN K N+ELLVVVGGGAAG
Sbjct: 1   MSLSFAVEIGFLHRNSSFPGSFNFKPNVKNRSSKFSVFAHFPNTKSNEELLVVVGGGAAG 60

Query: 61  IYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKEL 120
           IYGAIWAKTVAPNLNV+VIEK  PLSKVKVSGGGRCNVTNGHCP+N +MAEHYPRGNKEL
Sbjct: 61  IYGAIWAKTVAPNLNVIVIEKGQPLSKVKVSGGGRCNVTNGHCPDNAIMAEHYPRGNKEL 120

Query: 121 KGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKGVSIQTG 180
           KGSFFSMHSPLDTMSWFTDRG+KLKTESDGRVFPVSNSSSSIIDCLMTEARKK VS+QTG
Sbjct: 121 KGSFFSMHSPLDTMSWFTDRGIKLKTESDGRVFPVSNSSSSIIDCLMTEARKKRVSLQTG 180

Query: 181 KTVTTASSSAARKFSLKIDMRTS-STDLVEADYLLIATGSSKQGYSLAGQLGHSIIDPVP 240
           KTV++ASSSAA KF LKI+MRTS STDLVEADYLLIATGSSKQGY LAGQLGHSIIDPVP
Sbjct: 181 KTVSSASSSAAGKFVLKIEMRTSPSTDLVEADYLLIATGSSKQGYGLAGQLGHSIIDPVP 240

Query: 241 SLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPVILRL 300
           SLFTFK++D NL ELSGVTFSKVKAKL+LEN G+++PQLTQ+GPMLVTHWGLSGPV+LRL
Sbjct: 241 SLFTFKIKDANLPELSGVTFSKVKAKLRLENGGKSIPQLTQVGPMLVTHWGLSGPVVLRL 300

Query: 301 SAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNLVKRF 360
           SAWSAR+LYSS YKG L LDFAPDLHK EV +ILL QKK FAKQK+VNSSP EF+LVKRF
Sbjct: 301 SAWSARDLYSSGYKGTLVLDFAPDLHKEEVKSILLNQKKSFAKQKMVNSSPLEFSLVKRF 360

Query: 361 WKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK-----------GIPVMGFT 420
           WKY+LKREGLAEDISWASIS++AL+SVASLLKQC FEV GK           G+P+   +
Sbjct: 361 WKYLLKREGLAEDISWASISTDALISVASLLKQCPFEVTGKGQFKDEFVTAGGVPLSEIS 420

Query: 421 GCTLED----------IILNIDGVTGGFNFQKGKYLCFLCNPW-GGVVA 447
             T+E            ILNIDG+TGGFNFQ         N W GG +A
Sbjct: 421 LKTMESKILSNLFFAGEILNIDGITGGFNFQ---------NAWTGGYIA 460

[Close]

BLAST of Spo10905.1 vs. NCBI nr
Match: gi|731319553|ref|XP_010670333.1| (PREDICTED: uncharacterized protein LOC104887411 isoform X2 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 679.9 bits (1753), Expect = 3.800e-192
Identity = 353/469 (75.27%), Postives = 388/469 (82.73%), Query Frame = 1


		  
Query: 1   MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAG 60
           MSLSFA+E GFLH+   FP  F FK   ++R S F +FAHFPN K N+ELLVVVGGGAAG
Sbjct: 1   MSLSFAVEIGFLHRNSSFPGSFNFKPNVKNRSSKFSVFAHFPNTKSNEELLVVVGGGAAG 60

Query: 61  IYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKEL 120
           IYGAIWAKTVAPNLNV+VIEK  PLSKVKVSGGGRCNVTNGHCP+N +MAEHYPRGNKEL
Sbjct: 61  IYGAIWAKTVAPNLNVIVIEKGQPLSKVKVSGGGRCNVTNGHCPDNAIMAEHYPRGNKEL 120

Query: 121 KGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKGVSIQTG 180
           KGSFFSMHSPLDTMSWFTDRG+KLKTESDGRVFPVSNSSSSIIDCLMTEARKK      G
Sbjct: 121 KGSFFSMHSPLDTMSWFTDRGIKLKTESDGRVFPVSNSSSSIIDCLMTEARKK-----RG 180

Query: 181 KTVTTASSSAARKFSLKIDMRTS-STDLVEADYLLIATGSSKQGYSLAGQLGHSIIDPVP 240
           KTV++ASSSAA KF LKI+MRTS STDLVEADYLLIATGSSKQGY LAGQLGHSIIDPVP
Sbjct: 181 KTVSSASSSAAGKFVLKIEMRTSPSTDLVEADYLLIATGSSKQGYGLAGQLGHSIIDPVP 240

Query: 241 SLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPVILRL 300
           SLFTFK++D NL ELSGVTFSKVKAKL+LEN G+++PQLTQ+GPMLVTHWGLSGPV+LRL
Sbjct: 241 SLFTFKIKDANLPELSGVTFSKVKAKLRLENGGKSIPQLTQVGPMLVTHWGLSGPVVLRL 300

Query: 301 SAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNLVKRF 360
           SAWSAR+LYSS YKG L LDFAPDLHK EV +ILL QKK FAKQK+VNSSP EF+LVKRF
Sbjct: 301 SAWSARDLYSSGYKGTLVLDFAPDLHKEEVKSILLNQKKSFAKQKMVNSSPLEFSLVKRF 360

Query: 361 WKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK-----------GIPVMGFT 420
           WKY+LKREGLAEDISWASIS++AL+SVASLLKQC FEV GK           G+P+   +
Sbjct: 361 WKYLLKREGLAEDISWASISTDALISVASLLKQCPFEVTGKGQFKDEFVTAGGVPLSEIS 420

Query: 421 GCTLED----------IILNIDGVTGGFNFQKGKYLCFLCNPW-GGVVA 447
             T+E            ILNIDG+TGGFNFQ         N W GG +A
Sbjct: 421 LKTMESKILSNLFFAGEILNIDGITGGFNFQ---------NAWTGGYIA 455

[Close]

BLAST of Spo10905.1 vs. NCBI nr
Match: gi|720051810|ref|XP_010272207.1| (PREDICTED: uncharacterized protein LOC104608047 [Nelumbo nucifera])

HSP 1 Score: 551.6 bits (1420), Expect = 1.600e-153
Identity = 300/491 (61.10%), Postives = 354/491 (72.10%), Query Frame = 1


		  
Query: 3   LSFALEPGFLHQVRGFPVPFT--------FKLKSRSRRSSFPIFAHFPNPKCNQELLVVV 62
           +SF   P FL  +  FP+           F L  R RR  F   +     + N+ LLVVV
Sbjct: 1   MSFTFAPFFL--LSRFPLETAIISRNFDGFLLLGRRRR--FTASSISRAQQANEPLLVVV 60

Query: 63  GGGAAGIYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYP 122
           GGGAAGIYGAI AKTVAP+L V+VIEK  PLSKVK+SGGGRCNVTNGHC +  ++AEHYP
Sbjct: 61  GGGAAGIYGAIRAKTVAPDLGVLVIEKGKPLSKVKISGGGRCNVTNGHCTDKMILAEHYP 120

Query: 123 RGNKELKGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKG 182
           RGNKEL+GSFFS+H PLDTMSWF D GV+LKTE DGRVFPV NSSSSIIDCLM EA+++G
Sbjct: 121 RGNKELRGSFFSVHGPLDTMSWFYDHGVELKTEDDGRVFPVGNSSSSIIDCLMLEAKRRG 180

Query: 183 VSIQTGKTVTTASSSAARKFSLKIDMRT-SSTDLVEADYLLIATGSSKQGYSLAGQLGHS 242
           V +QTGKTVTTAS++A  KF LKI+ RT +  + VE+DYLLIA+GSS QGY+LA QLGHS
Sbjct: 181 VVLQTGKTVTTASTNAGGKFLLKIEKRTINMVEHVESDYLLIASGSSPQGYTLASQLGHS 240

Query: 243 IIDPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSG 302
           I+DPVPSLFTFK+ D  LAELSGVTFSKVKAKLKLE+ GR +PQLTQ+GPMLVTHWGLSG
Sbjct: 241 IVDPVPSLFTFKIEDTQLAELSGVTFSKVKAKLKLESIGRHMPQLTQVGPMLVTHWGLSG 300

Query: 303 PVILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEF 362
           PVILRLSAW AR+L+ S YKG+L +DF PD H  EV +IL++ K +FAKQK +NS P EF
Sbjct: 301 PVILRLSAWGARDLFGSGYKGLLLVDFIPDCHVDEVKSILIRHKDQFAKQKALNSFPLEF 360

Query: 363 NLVKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK-----------GI 422
            LVKRFWKY+L+REGL+ D+ WASI + +L+SVASLLKQCSF V GK           G+
Sbjct: 361 GLVKRFWKYILEREGLSGDLLWASIPNNSLVSVASLLKQCSFRVVGKGQFKDEFVTAGGV 420

Query: 423 PVMGFTGCTLEDII----------LNIDGVTGGFNFQKGKYLCFLCNPWGGVVAVIDEGV 464
           P+   +  T+E  I          LNIDGVTGGFNFQ         N W G       G 
Sbjct: 421 PLSEVSLNTMESRIQPHLFFAGEVLNIDGVTGGFNFQ---------NAWSG-------GY 471

[Close]

BLAST of Spo10905.1 vs. NCBI nr
Match: gi|225452674|ref|XP_002276735.1| (PREDICTED: uncharacterized protein LOC100264605 isoform X1 [Vitis vinifera])

HSP 1 Score: 535.8 bits (1379), Expect = 8.800e-149
Identity = 288/467 (61.67%), Postives = 341/467 (73.02%), Query Frame = 1


		  
Query: 16  RGFPVPFT---FKLKSRSRRSSFPIF----------AHFPNPKCNQELLVVVGGGAAGIY 75
           RGF + FT   F   S SR   FPI           A   +PK ++E LVVVGGGAAG+Y
Sbjct: 44  RGF-MSFTLVRFIHTSISRNHGFPIMSPKKKLFTTAATSTSPKSSEERLVVVGGGAAGVY 103

Query: 76  GAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKELKG 135
           GAI AKTVAPNL+VV+IEK  PLSKVK+SGGGRCNVTNGHC +  ++AEHYPRGNKE +G
Sbjct: 104 GAIRAKTVAPNLDVVIIEKGKPLSKVKISGGGRCNVTNGHCLDKMILAEHYPRGNKEFRG 163

Query: 136 SFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKGVSIQTGKT 195
           SFFSMH P+DTMSWF+D GV LKTE DGRVFPVSNSSSS+I+CLM+E +K+ V +QTGK 
Sbjct: 164 SFFSMHGPVDTMSWFSDHGVNLKTEDDGRVFPVSNSSSSVIECLMSEMKKRRVLLQTGKV 223

Query: 196 VTTASSSAARKFSLKIDMRT-SSTDLVEADYLLIATGSSKQGYSLAGQLGHSIIDPVPSL 255
           VTT S++   KF LKI+ RT +S + +EADYL+IA+GSS+QGY+LA QLGHSIIDPVPSL
Sbjct: 224 VTTVSTTVGGKFLLKIEKRTINSVEYLEADYLIIASGSSRQGYTLATQLGHSIIDPVPSL 283

Query: 256 FTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPVILRLSA 315
           FTFK+ D +LAELSGVTF KVKA LKLEN  +  PQL+Q+GPMLVTHWG SGPVILRLSA
Sbjct: 284 FTFKIEDPHLAELSGVTFHKVKANLKLENVQKNKPQLSQVGPMLVTHWGFSGPVILRLSA 343

Query: 316 WSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNLVKRFWK 375
           W AR+L++S Y+GIL +DF PDLH  +V  IL++ K  FAKQKV+NS P +F LVKRFWK
Sbjct: 344 WGARDLFNSGYRGILLVDFTPDLHIEDVKTILIQHKDHFAKQKVLNSCPSKFGLVKRFWK 403

Query: 376 YMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGKGIPVMGFT---GCTLEDI--- 435
           Y+L REGL  +I WASIS+ +L SVASLLK CSF V GKGI    F    G  L +I   
Sbjct: 404 YILDREGLDGNILWASISNNSLYSVASLLKHCSFGVTGKGIFKDEFVTAGGVPLSEISLN 463

Query: 436 ---------------ILNIDGVTGGFNFQKGKYLCFLCNPW-GGVVA 447
                          +LN+DGVTGGFNFQ         N W GG +A
Sbjct: 464 TMESRIQSHLFFAGEVLNVDGVTGGFNFQ---------NAWTGGYIA 500

[Close]

BLAST of Spo10905.1 vs. UniProtKB/TrEMBL
Match: A0A0K9R356_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_111930 PE=4 SV=1)

HSP 1 Score: 805.1 bits (2078), Expect = 5.400e-230
Identity = 422/473 (89.22%), Postives = 427/473 (90.27%), Query Frame = 1


		  
Query: 1   MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAG 60
           MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAG
Sbjct: 1   MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAG 60

Query: 61  IYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKEL 120
           IYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKEL
Sbjct: 61  IYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKEL 120

Query: 121 KGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKG-----V 180
           KGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKG      
Sbjct: 121 KGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKGGRAMPF 180

Query: 181 SIQTGKTVTTASSSAARKFSLKIDMRTSSTDLVEADYLLIATGSSKQGYSLAGQLGHSII 240
           SIQTGKTVTTASSSAARKFSLKIDMRTSSTDLVEADYLLIATGSSKQGYSLAGQLGHSII
Sbjct: 181 SIQTGKTVTTASSSAARKFSLKIDMRTSSTDLVEADYLLIATGSSKQGYSLAGQLGHSII 240

Query: 241 DPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPV 300
           DPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPV
Sbjct: 241 DPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPV 300

Query: 301 ILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNL 360
           ILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNL
Sbjct: 301 ILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNL 360

Query: 361 VKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK-----------GIPV 420
           VKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK           G+P+
Sbjct: 361 VKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGKGQFKDEFVTAGGVPL 420

Query: 421 MGFTGCTLED----------IILNIDGVTGGFNFQKGKYLCFLCNPW-GGVVA 447
              +  T+E            ILNIDGVTGGFNFQ         N W GG +A
Sbjct: 421 SEISLKTMESKILPNLFFAGEILNIDGVTGGFNFQ---------NAWTGGYIA 464

[Close]

BLAST of Spo10905.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CTS1_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g040520 PE=4 SV=1)

HSP 1 Score: 693.0 bits (1787), Expect = 3.000e-196
Identity = 357/469 (76.12%), Postives = 393/469 (83.80%), Query Frame = 1


		  
Query: 1   MSLSFALEPGFLHQVRGFPVPFTFKLKSRSRRSSFPIFAHFPNPKCNQELLVVVGGGAAG 60
           MSLSFA+E GFLH+   FP  F FK   ++R S F +FAHFPN K N+ELLVVVGGGAAG
Sbjct: 1   MSLSFAVEIGFLHRNSSFPGSFNFKPNVKNRSSKFSVFAHFPNTKSNEELLVVVGGGAAG 60

Query: 61  IYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKEL 120
           IYGAIWAKTVAPNLNV+VIEK  PLSKVKVSGGGRCNVTNGHCP+N +MAEHYPRGNKEL
Sbjct: 61  IYGAIWAKTVAPNLNVIVIEKGQPLSKVKVSGGGRCNVTNGHCPDNAIMAEHYPRGNKEL 120

Query: 121 KGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKGVSIQTG 180
           KGSFFSMHSPLDTMSWFTDRG+KLKTESDGRVFPVSNSSSSIIDCLMTEARKK VS+QTG
Sbjct: 121 KGSFFSMHSPLDTMSWFTDRGIKLKTESDGRVFPVSNSSSSIIDCLMTEARKKRVSLQTG 180

Query: 181 KTVTTASSSAARKFSLKIDMRTS-STDLVEADYLLIATGSSKQGYSLAGQLGHSIIDPVP 240
           KTV++ASSSAA KF LKI+MRTS STDLVEADYLLIATGSSKQGY LAGQLGHSIIDPVP
Sbjct: 181 KTVSSASSSAAGKFVLKIEMRTSPSTDLVEADYLLIATGSSKQGYGLAGQLGHSIIDPVP 240

Query: 241 SLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPVILRL 300
           SLFTFK++D NL ELSGVTFSKVKAKL+LEN G+++PQLTQ+GPMLVTHWGLSGPV+LRL
Sbjct: 241 SLFTFKIKDANLPELSGVTFSKVKAKLRLENGGKSIPQLTQVGPMLVTHWGLSGPVVLRL 300

Query: 301 SAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNLVKRF 360
           SAWSAR+LYSS YKG L LDFAPDLHK EV +ILL QKK FAKQK+VNSSP EF+LVKRF
Sbjct: 301 SAWSARDLYSSGYKGTLVLDFAPDLHKEEVKSILLNQKKSFAKQKMVNSSPLEFSLVKRF 360

Query: 361 WKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK-----------GIPVMGFT 420
           WKY+LKREGLAEDISWASIS++AL+SVASLLKQC FEV GK           G+P+   +
Sbjct: 361 WKYLLKREGLAEDISWASISTDALISVASLLKQCPFEVTGKGQFKDEFVTAGGVPLSEIS 420

Query: 421 GCTLED----------IILNIDGVTGGFNFQKGKYLCFLCNPW-GGVVA 447
             T+E            ILNIDG+TGGFNFQ         N W GG +A
Sbjct: 421 LKTMESKILSNLFFAGEILNIDGITGGFNFQ---------NAWTGGYIA 460

[Close]

BLAST of Spo10905.1 vs. UniProtKB/TrEMBL
Match: D7TX06_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_14s0066g02530 PE=4 SV=1)

HSP 1 Score: 535.8 bits (1379), Expect = 6.200e-149
Identity = 288/467 (61.67%), Postives = 341/467 (73.02%), Query Frame = 1


		  
Query: 16  RGFPVPFT---FKLKSRSRRSSFPIF----------AHFPNPKCNQELLVVVGGGAAGIY 75
           RGF + FT   F   S SR   FPI           A   +PK ++E LVVVGGGAAG+Y
Sbjct: 44  RGF-MSFTLVRFIHTSISRNHGFPIMSPKKKLFTTAATSTSPKSSEERLVVVGGGAAGVY 103

Query: 76  GAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPENKVMAEHYPRGNKELKG 135
           GAI AKTVAPNL+VV+IEK  PLSKVK+SGGGRCNVTNGHC +  ++AEHYPRGNKE +G
Sbjct: 104 GAIRAKTVAPNLDVVIIEKGKPLSKVKISGGGRCNVTNGHCLDKMILAEHYPRGNKEFRG 163

Query: 136 SFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTEARKKGVSIQTGKT 195
           SFFSMH P+DTMSWF+D GV LKTE DGRVFPVSNSSSS+I+CLM+E +K+ V +QTGK 
Sbjct: 164 SFFSMHGPVDTMSWFSDHGVNLKTEDDGRVFPVSNSSSSVIECLMSEMKKRRVLLQTGKV 223

Query: 196 VTTASSSAARKFSLKIDMRT-SSTDLVEADYLLIATGSSKQGYSLAGQLGHSIIDPVPSL 255
           VTT S++   KF LKI+ RT +S + +EADYL+IA+GSS+QGY+LA QLGHSIIDPVPSL
Sbjct: 224 VTTVSTTVGGKFLLKIEKRTINSVEYLEADYLIIASGSSRQGYTLATQLGHSIIDPVPSL 283

Query: 256 FTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPMLVTHWGLSGPVILRLSA 315
           FTFK+ D +LAELSGVTF KVKA LKLEN  +  PQL+Q+GPMLVTHWG SGPVILRLSA
Sbjct: 284 FTFKIEDPHLAELSGVTFHKVKANLKLENVQKNKPQLSQVGPMLVTHWGFSGPVILRLSA 343

Query: 316 WSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQKVVNSSPPEFNLVKRFWK 375
           W AR+L++S Y+GIL +DF PDLH  +V  IL++ K  FAKQKV+NS P +F LVKRFWK
Sbjct: 344 WGARDLFNSGYRGILLVDFTPDLHIEDVKTILIQHKDHFAKQKVLNSCPSKFGLVKRFWK 403

Query: 376 YMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGKGIPVMGFT---GCTLEDI--- 435
           Y+L REGL  +I WASIS+ +L SVASLLK CSF V GKGI    F    G  L +I   
Sbjct: 404 YILDREGLDGNILWASISNNSLYSVASLLKHCSFGVTGKGIFKDEFVTAGGVPLSEISLN 463

Query: 436 ---------------ILNIDGVTGGFNFQKGKYLCFLCNPW-GGVVA 447
                          +LN+DGVTGGFNFQ         N W GG +A
Sbjct: 464 TMESRIQSHLFFAGEVLNVDGVTGGFNFQ---------NAWTGGYIA 500

[Close]

BLAST of Spo10905.1 vs. UniProtKB/TrEMBL
Match: V4UX06_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10011620mg PE=4 SV=1)

HSP 1 Score: 531.9 bits (1369), Expect = 8.900e-148
Identity = 274/436 (62.84%), Postives = 334/436 (76.61%), Query Frame = 1


		  
Query: 47  NQELLVVVGGGAAGIYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPEN 106
           ++ELLVVVGGGAAG+YGAI AKTVAP LNVV+IEK  PLSKVK+SGGGRCNVTNGHC + 
Sbjct: 49  SEELLVVVGGGAAGVYGAIRAKTVAPKLNVVIIEKGKPLSKVKISGGGRCNVTNGHCADK 108

Query: 107 KVMAEHYPRGNKELKGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCL 166
            ++A HYPRG+KE +GSFFS+H P+DTMSWF+D GV+LKTE DGRVFPVS+SSSS+IDCL
Sbjct: 109 MILAGHYPRGHKEFRGSFFSLHGPMDTMSWFSDHGVELKTEDDGRVFPVSDSSSSVIDCL 168

Query: 167 MTEARKKGVSIQTGKTVTTASS-SAARKFSLKIDMRTSS-TDLVEADYLLIATGSSKQGY 226
           +TEA+ +GV +QTGK VTTASS +A RKF LK++ RT +  + +EADYLLIA+GSS+QG+
Sbjct: 169 LTEAKHRGVVLQTGKVVTTASSDNAGRKFLLKVEKRTMNLVECIEADYLLIASGSSQQGH 228

Query: 227 SLAGQLGHSIIDPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPM 286
            LA QLGHSI+DPVPSLFTFK+ D+ L ELSGV+F KV AKLKLEN  R+ P LTQ+GPM
Sbjct: 229 RLAAQLGHSIVDPVPSLFTFKIADSQLTELSGVSFPKVVAKLKLENVQRSSPYLTQVGPM 288

Query: 287 LVTHWGLSGPVILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQK 346
           LVTHWGLSGPVILRLSAW AR L+SS YKG+LT+DF PDLH  ++ +IL + K +FAKQK
Sbjct: 289 LVTHWGLSGPVILRLSAWGARYLFSSCYKGMLTVDFVPDLHIEDMQSILSQHKIRFAKQK 348

Query: 347 VVNSSPPEFNLVKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK---- 406
           V+NS PPEF LVKRFWKY+L REGL+ D  WAS+S+ +L+S+A LLK C+ EVAGK    
Sbjct: 349 VLNSCPPEFCLVKRFWKYILGREGLSGDTLWASVSNNSLISIARLLKHCTLEVAGKGQFK 408

Query: 407 -------GIPVMGFTGCTLEDII----------LNIDGVTGGFNFQKGKYLCFLCNPW-G 459
                  G+P+   +  T+E  I          LN+DGVTGGFNFQ         N W G
Sbjct: 409 DEFVTAGGVPLSEISLNTMESKIHPRLFFAGEVLNVDGVTGGFNFQ---------NAWSG 468

[Close]

BLAST of Spo10905.1 vs. UniProtKB/TrEMBL
Match: A0A067GAA2_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g011458mg PE=4 SV=1)

HSP 1 Score: 531.9 bits (1369), Expect = 8.900e-148
Identity = 274/436 (62.84%), Postives = 334/436 (76.61%), Query Frame = 1


		  
Query: 47  NQELLVVVGGGAAGIYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCPEN 106
           ++ELLVVVGGGAAG+YGAI AKTVAP LNVV+IEK  PLSKVK+SGGGRCNVTNGHC + 
Sbjct: 49  SEELLVVVGGGAAGVYGAIRAKTVAPKLNVVIIEKGKPLSKVKISGGGRCNVTNGHCADK 108

Query: 107 KVMAEHYPRGNKELKGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCL 166
            ++A HYPRG+KE +GSFFS+H P+DTMSWF+D GV+LKTE DGRVFPVS+SSSS+IDCL
Sbjct: 109 MILAGHYPRGHKEFRGSFFSLHGPMDTMSWFSDHGVELKTEDDGRVFPVSDSSSSVIDCL 168

Query: 167 MTEARKKGVSIQTGKTVTTASS-SAARKFSLKIDMRTSS-TDLVEADYLLIATGSSKQGY 226
           +TEA+ +GV +QTGK VTTASS +A RKF LK++ RT +  + +EADYLLIA+GSS+QG+
Sbjct: 169 LTEAKHRGVVLQTGKVVTTASSDNAGRKFLLKVEKRTMNLVECIEADYLLIASGSSQQGH 228

Query: 227 SLAGQLGHSIIDPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGPM 286
            LA QLGHSI+DPVPSLFTFK+ D+ L ELSGV+F KV AKLKLEN  R+ P LTQ+GPM
Sbjct: 229 RLAAQLGHSIVDPVPSLFTFKIADSQLTELSGVSFPKVVAKLKLENVQRSSPYLTQVGPM 288

Query: 287 LVTHWGLSGPVILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQK 346
           LVTHWGLSGPVILRLSAW AR L+SS YKG+LT+DF PDLH  ++ +IL + K +FAKQK
Sbjct: 289 LVTHWGLSGPVILRLSAWGARYLFSSCYKGMLTVDFVPDLHIEDMQSILSQHKIRFAKQK 348

Query: 347 VVNSSPPEFNLVKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK---- 406
           V+NS PPEF LVKRFWKY+L REGL+ D  WAS+S+ +L+S+A LLK C+ EVAGK    
Sbjct: 349 VLNSCPPEFCLVKRFWKYILGREGLSGDTLWASVSNNSLISIARLLKHCTLEVAGKGQFK 408

Query: 407 -------GIPVMGFTGCTLEDII----------LNIDGVTGGFNFQKGKYLCFLCNPW-G 459
                  G+P+   +  T+E  I          LN+DGVTGGFNFQ         N W G
Sbjct: 409 DEFVTAGGVPLSEISLNTMESKIHPRLFFAGEVLNVDGVTGGFNFQ---------NAWSG 468

[Close]

BLAST of Spo10905.1 vs. ExPASy Swiss-Prot
Match: YTFP_BACSU (Uncharacterized protein YtfP OS=Bacillus subtilis (strain 168) GN=ytfP PE=4 SV=2)

HSP 1 Score: 130.6 bits (327), Expect = 5.400e-29
Identity = 102/362 (28.18%), Postives = 186/362 (51.38%), Query Frame = 1


		  
Query: 51  LVVVGGGAAGIYGAIWAKTVAPNLNVVVIEKAHPLS-KVKVSGGGRCNVTNGHCPENKVM 110
           ++V+GGG +G+  AI A        V++I+K + L  K+ +SGGGRCNVTN   P  +++
Sbjct: 6   VIVIGGGPSGLMAAIAAGE--QGAGVLLIDKGNKLGRKLAISGGGRCNVTN-RLPVEEII 65

Query: 111 AEHYPRGNKELKGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIIDCLMTE 170
            +H P GN     S FS  +  D + +F + G++LK E  GR+FPV++ + S++D L+  
Sbjct: 66  -KHIP-GNGRFLYSAFSEFNNEDIIKFFENLGIQLKEEDHGRMFPVTDKAQSVVDALLNR 125

Query: 171 ARKKGVSIQTGKTVTTASSSAARKFSLKIDMRTSSTDLVEADYLLIA--------TGSSK 230
            ++  V+I+T + +     S   +      + T++ +++ +  ++IA        TGS+ 
Sbjct: 126 LKQLRVTIRTNEKI----KSVLYEDGQAAGIVTNNGEMIHSQAVIIAVGGKSVPHTGSTG 185

Query: 231 QGYSLAGQLGHSIIDPVPSLFTFKVRDNNLAE--LSGVTFSKVKAKLKLENSGRTVPQLT 290
            GY  A   GH+I +  P+       +  + +  L G++   V   + L   G+  P +T
Sbjct: 186 DGYEWAEAAGHTITELFPTEVPVTSGEPFIKQKTLQGLSLRDVAVSV-LNKKGK--PIIT 245

Query: 291 QIGPMLVTHWGLSGPVILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKK 350
               ML TH+GLSGP ILR S +  +EL       I  +D  PD+++  +   + K+ K+
Sbjct: 246 HKMDMLFTHFGLSGPAILRCSQFVVKELKKQPQVPI-RIDLYPDINEETLFQKMYKELKE 305

Query: 351 FAKQKVVNSSPPEFNLVKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAG 402
             K+ + N   P   + +R+  ++L++ G++ ++S++ +  +         KQ  F V  
Sbjct: 306 APKKTIKNVLKPW--MQERYLLFLLEKNGISPNVSFSELPKDPFRQFVRDCKQ--FTVLA 350

[Close]

BLAST of Spo10905.1 vs. TAIR (Arabidopsis)
Match: AT5G39940.1 (FAD/NAD(P)-binding oxidoreductase family protein)

HSP 1 Score: 458.4 bits (1178), Expect = 6.300e-129
Identity = 239/436 (54.82%), Postives = 308/436 (70.64%), Query Frame = 1


		  
Query: 45  KCNQELLVVVGGGAAGIYGAIWAKTVAPNLNVVVIEKAHPLSKVKVSGGGRCNVTNGHCP 104
           K   ELLVVVGGGAAG+YGAI AKT++P+L V+VIEK   LSKVK+SGGGRCNVTNGHC 
Sbjct: 41  KDESELLVVVGGGAAGVYGAIRAKTLSPDLRVLVIEKGSFLSKVKISGGGRCNVTNGHCN 100

Query: 105 ENKVMAEHYPRGNKELKGSFFSMHSPLDTMSWFTDRGVKLKTESDGRVFPVSNSSSSIID 164
           +   +A HYPRG+KELKGSFF  H P DTMSWF++ GV LKTE DGRVFPVS++S S++D
Sbjct: 101 DTINLAGHYPRGHKELKGSFFYTHGPADTMSWFSEHGVPLKTEDDGRVFPVSDNSLSVVD 160

Query: 165 CLMTEARKKGVSIQTGKTVTTASSSAARKFSLKIDMRTSST-DLVEADYLLIATGSSKQG 224
           CL+ EA  +GV ++ GK+V  AS     KF +K+  +++ T + +EA YLLIATGSS++G
Sbjct: 161 CLLNEANIRGVRLERGKSVLAASIKPDGKFLVKVGKQSADTSESIEATYLLIATGSSQKG 220

Query: 225 YSLAGQLGHSIIDPVPSLFTFKVRDNNLAELSGVTFSKVKAKLKLENSGRTVPQLTQIGP 284
           +SLA + GHSI+DPVPSLFTFK+ D  L EL+G++FSKV+AKLKL+N    +  L QIGP
Sbjct: 221 HSLATKFGHSIVDPVPSLFTFKINDPLLTELAGISFSKVQAKLKLDNPCPDLSNLVQIGP 280

Query: 285 MLVTHWGLSGPVILRLSAWSARELYSSSYKGILTLDFAPDLHKGEVNAILLKQKKKFAKQ 344
           MLVTHWGLSGPVILRLSAW AR L+SS YKG L +DF PD++     ++L + K +F+K 
Sbjct: 281 MLVTHWGLSGPVILRLSAWGARYLFSSKYKGHLIVDFIPDINIETAKSVLKEHKLQFSKH 340

Query: 345 KVVNSSPPEFNLVKRFWKYMLKREGLAEDISWASISSEALLSVASLLKQCSFEVAGK--- 404
           KV NS PP+F LV RFW+Y+L REG ++D  WAS+S+ +L S++ LLK C+F+V GK   
Sbjct: 341 KVSNSYPPQFGLVNRFWRYILDREGSSKDTLWASLSNNSLSSISDLLKHCTFQVTGKGQY 400

Query: 405 --------GIPVMGFTGCTLED----------IILNIDGVTGGFNFQKGKYLCFLCNPW- 458
                   G+P+   +  T+E            +LN+DGVTGGFNFQ         N W 
Sbjct: 401 KDEFVTAGGVPLSEVSLKTMESKLVPNLFFAGEVLNVDGVTGGFNFQ---------NAWS 460

[Close]

BLAST of Spo10905.1 vs. TAIR (Arabidopsis)
Match: AT1G51560.1 (Pyridoxamine 5'-phosphate oxidase family protein)

HSP 1 Score: 61.6 bits (148), Expect = 1.700e-9
Identity = 34/89 (38.20%), Postives = 56/89 (62.92%), Query Frame = 1


		  
Query: 464 GGKREILELVSLICRYFGFLILSFRRQECDFRSIVRCGSDALFLKI---VEFNIQRISFE 523
           GG++ + EL ++  +    L+ S    E D  +I+   S  + +++    +F IQR++FE
Sbjct: 306 GGEQNLKELNAIFSKPLRELLSS--EAELDDAAIISIDSKGIDIRVRQGAQFKIQRLAFE 365

Query: 524 EGHAVETLEEAKSALQQLIKNGQIYNFQK 550
           E H VETLEEAKSAL ++I+ G+++N QK
Sbjct: 366 ESHGVETLEEAKSALWKVIEKGKLHNLQK 392

[Close]

BLAST of Spo10905.1 vs. TAIR (Arabidopsis)
Match: AT3G21140.1 (Pyridoxamine 5'-phosphate oxidase family protein)

HSP 1 Score: 60.8 bits (146), Expect = 2.900e-9
Identity = 38/111 (34.23%), Postives = 66/111 (59.46%), Query Frame = 1


		  
Query: 443 GVVAVIDEGVIDGKSTKRVDL-GGKREILELVSLICRYFGFLILSFRRQECDFRSIVRCG 502
           G VA +D    +G    ++ + GG+R + EL ++  +    L+ +    E D  +++   
Sbjct: 280 GTVAWVDVKEYEGLQPDKIAVDGGERNLKELNAIFSKPLRELLST--ESEVDDAALISID 339

Query: 503 SDALFLKI---VEFNIQRISFEEGHAVETLEEAKSALQQLIKNGQIYNFQK 550
           S  + +++    +FNIQR++FEEGH VETLEEAKSAL ++++  ++ N QK
Sbjct: 340 SKGIDVRVRQGAQFNIQRLAFEEGHGVETLEEAKSALWKVLEKVKL-NLQK 387

The following BLAST results are available for this feature:

BLAST of Spo10905.1 vs. NCBI nr
BLAST of Spo10905.1 vs. UniProtKB/TrEMBL
BLAST of Spo10905.1 vs. ExPASy Swiss-Prot
BLAST of Spo10905.1 vs. TAIR (Arabidopsis)

BLAST of Spo10905.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5


Match Name	E-value	Identity	Description
gi\|902201273\|gb\|KNA13951.1\|	7.8e-230	89.2	hypothetical protein SOVF_1119...	[more]
gi\|731319551\|ref\|XP_010670332.1\|	4.3e-196	76.1	PREDICTED: uncharacterized pro...	[more]
gi\|731319553\|ref\|XP_010670333.1\|	3.8e-192	75.2	PREDICTED: uncharacterized pro...	[more]
gi\|720051810\|ref\|XP_010272207.1\|	1.6e-153	61.1	PREDICTED: uncharacterized pro...	[more]
gi\|225452674\|ref\|XP_002276735.1\|	8.8e-149	61.6	PREDICTED: uncharacterized pro...	[more]

BLAST of Spo10905.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5


Match Name	E-value	Identity	Description
A0A0K9R356_SPIOL	5.4e-230	89.2	Uncharacterized protein OS=Spi...	[more]
A0A0J8CTS1_BETVU	3.0e-196	76.1	Uncharacterized protein OS=Bet...	[more]
D7TX06_VITVI	6.2e-149	61.6	Putative uncharacterized prote...	[more]
V4UX06_9ROSI	8.9e-148	62.8	Uncharacterized protein OS=Cit...	[more]
A0A067GAA2_CITSI	8.9e-148	62.8	Uncharacterized protein OS=Cit...	[more]

BLAST of Spo10905.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 1


Match Name	E-value	Identity	Description
YTFP_BACSU	5.4e-29	28.1	Uncharacterized protein YtfP O...	[more]

BLAST of Spo10905.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 3


Match Name	E-value	Identity	Description
AT5G39940.1	6.3e-129	54.8	FAD/NAD(P)-binding oxidoreduct...	[more]
AT1G51560.1	1.7e-9	38.2	Pyridoxamine 5'-phosphate oxid...	[more]
AT3G21140.1	2.9e-9	34.2	Pyridoxamine 5'-phosphate oxid...	[more]

InterPro

Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR004792	Conserved hypothetical protein CHP00275, flavoprotein HI0933-like	TIGRFAMs	TIGR00275	TIGR00275	coord: 52..400 score: 1.4
IPR023753	FAD/NAD(P)-binding domain	GENE3D	3.50.50.60		coord: 52..237 score: 2.8
IPR023753	FAD/NAD(P)-binding domain	unknown	SSF51905	FAD/NAD(P)-binding domain	coord: 52..237 score: 2.46
None	No IPR available	PRINTS	PR00368	FADPNR	coord: 210..228 score: 9.8E-6coord: 51..70 score: 9.
None	No IPR available	GENE3D	2.40.30.10		coord: 238..339 score: 9.2
None	No IPR available	PANTHER	PTHR10617	ELECTRON TRANSFER FLAVOPROTEIN-UBIQUINONE OXIDOREDUCTASE	coord: 399..429 score: 1.1E-127coord: 24..356 score: 1.1E
None	No IPR available	PANTHER	PTHR10617:SF103	SUBFAMILY NOT NAMED	coord: 399..429 score: 1.1E-127coord: 24..356 score: 1.1E
None	No IPR available	PFAM	PF03486	HI0933_like	coord: 51..400 score: 1.5
None	No IPR available	unknown	SSF160996	HI0933 insert domain-like	coord: 237..400 score: 3.01

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0008152	metabolic process
biological_process	GO:0016567	protein ubiquitination
biological_process	GO:0006396	RNA processing
biological_process	GO:0009073	aromatic amino acid family biosynthetic process
biological_process	GO:0006571	tyrosine biosynthetic process
biological_process	GO:0007267	cell-cell signaling
biological_process	GO:0007276	gamete generation
biological_process	GO:0009561	megagametogenesis
biological_process	GO:0000278	mitotic cell cycle
biological_process	GO:0035196	production of miRNAs involved in gene silencing by miRNA
biological_process	GO:0010267	production of ta-siRNAs involved in RNA interference
biological_process	GO:0051302	regulation of cell division
biological_process	GO:0055114	oxidation-reduction process
biological_process	GO:0032875	regulation of DNA endoreduplication
biological_process	GO:0051510	regulation of unidimensional cell growth
biological_process	GO:0006511	ubiquitin-dependent protein catabolic process
biological_process	GO:0009616	virus induced gene silencing
biological_process	GO:0000162	tryptophan biosynthetic process
biological_process	GO:0006432	phenylalanyl-tRNA aminoacylation
biological_process	GO:0046496	nicotinamide nucleotide metabolic process
biological_process	GO:0016310	phosphorylation
biological_process	GO:0048573	photoperiodism, flowering
biological_process	GO:0001510	RNA methylation
biological_process	GO:0006281	DNA repair
biological_process	GO:0009094	L-phenylalanine biosynthetic process
biological_process	GO:0006655	phosphatidylglycerol biosynthetic process
biological_process	GO:0016117	carotenoid biosynthetic process
biological_process	GO:0030154	cell differentiation
biological_process	GO:0015995	chlorophyll biosynthetic process
biological_process	GO:0009108	coenzyme biosynthetic process
biological_process	GO:0019344	cysteine biosynthetic process
biological_process	GO:0006546	glycine catabolic process
biological_process	GO:0019288	isopentenyl diphosphate biosynthetic process, methylerythritol 4-phosphate pathway
biological_process	GO:0009695	jasmonic acid biosynthetic process
biological_process	GO:0009965	leaf morphogenesis
biological_process	GO:0009106	lipoate metabolic process
biological_process	GO:0009117	nucleotide metabolic process
biological_process	GO:0006733	oxidoreduction coenzyme metabolic process
biological_process	GO:0031408	oxylipin biosynthetic process
biological_process	GO:0045893	positive regulation of transcription, DNA-templated
biological_process	GO:0009416	response to light stimulus
biological_process	GO:0000304	response to singlet oxygen
biological_process	GO:0006364	rRNA processing
biological_process	GO:0019748	secondary metabolic process
biological_process	GO:0006636	unsaturated fatty acid biosynthetic process
biological_process	GO:0019216	regulation of lipid metabolic process
biological_process	GO:0006766	vitamin metabolic process
cellular_component	GO:0005819	spindle
cellular_component	GO:0016021	integral component of membrane
cellular_component	GO:0005886	plasma membrane
cellular_component	GO:0031969	chloroplast membrane
cellular_component	GO:0005634	nucleus
cellular_component	GO:0031461	cullin-RING ubiquitin ligase complex
cellular_component	GO:0009328	phenylalanine-tRNA ligase complex
cellular_component	GO:0009535	chloroplast thylakoid membrane
molecular_function	GO:0000049	tRNA binding
molecular_function	GO:0016301	kinase activity
molecular_function	GO:0004826	phenylalanine-tRNA ligase activity
molecular_function	GO:0008171	O-methyltransferase activity
molecular_function	GO:0047453	ATP-dependent NAD(P)H-hydrate dehydratase activity
molecular_function	GO:0005524	ATP binding
molecular_function	GO:0052855	ADP-dependent NAD(P)H-hydrate dehydratase activity
molecular_function	GO:0031625	ubiquitin protein ligase binding
molecular_function	GO:0016874	ligase activity
molecular_function	GO:0008173	RNA methyltransferase activity
molecular_function	GO:0008270	zinc ion binding
molecular_function	GO:0016787	hydrolase activity
molecular_function	GO:0003824	catalytic activity
molecular_function	GO:0005515	protein binding
molecular_function	GO:0016491	oxidoreductase activity

RNA-Seq Expression

Co-expression


Gene	r value	Expression
Spo08416	0.75	Barchart \| Table
Spo13174	0.71	Barchart \| Table
Spo19899	0.70	Barchart \| Table
Spo26990	0.68	Barchart \| Table
Spo07441	0.68	Barchart \| Table
Spo10072	0.68	Barchart \| Table
Spo15067	0.67	Barchart \| Table
Spo08073	0.67	Barchart \| Table
Spo24698	0.67	Barchart \| Table
Spo21558	0.67	Barchart \| Table
Spo07739	0.66	Barchart \| Table
Spo06755	0.66	Barchart \| Table
Spo21823	0.66	Barchart \| Table
Spo23532	0.66	Barchart \| Table
Spo24841	0.66	Barchart \| Table
Spo24990	0.66	Barchart \| Table
Spo09770	0.65	Barchart \| Table
Spo07079	0.65	Barchart \| Table
Spo11384	0.65	Barchart \| Table
Spo02855	0.65	Barchart \| Table
Spo20303	0.65	Barchart \| Table
Spo00161	0.65	Barchart \| Table