Spo00008 (gene)

Overview
NameSpo00008
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionKinesin-like protein
LocationSpoScf_02547 : 9347 .. 43372 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
TTCCATATATACGGACCTCATGCTTTGCCAAAAGTTCAGTGTTATGATAATCATCATCAAAGTTGCAACTTTAGGACACTAAAGTTTTATGTATGTTTGTCTTCCACACCTCTAATCCTCTATAGTGATTCAACAATTGTTTAGTCAACGTAAAAGGTAGAACATTTGATTTCAAAAACCATTAACCATTAATGTGCAGAATATTTGGGTCGACATTTGTTTCTTCTTCTAGGTTGTTTTTCCTGTCATTTGTCTGCACTCTATACTACATAGATAGATGCATGCTCCTAAATGATAACAAGTGCTTTTGCCTTATCATTTCTCACTGTTATTTGTTGAGTATATCAGTTTACTATTAAGTTGCGTGGACTGTATTTCATAGTTCTAATTTATGAGGATGGATGTTAGTTGTACAAGTCCACCTAATGCAACATGACATTTACATCGTGAACACGCAAGAAGTAACACGCAAGTTGCATAATTTTCTTTCTGTTAAGAGTCCATCTTTTAACCACTCTCACTTCATCTCGCTCCCATTAGCCATACACACTGAACTAATTGATAAGCTCACCGGATTTCAGTCCACCATATTGGGATGTAATGATTCAAAAGATGCAGATGGGACTATGGATGTTGATTCAAGTAACGAGGCATTAGAATATGTGGAAAAAAGTGATAAACCCGTAAAAGTACTAGATGTTCCTGTCAAACTTAAAGTTGATGACACGAACAATGATAAAGGGGATGTAAGGAGCATTAATCTTGTAATATATGCACCCAAAATGACTGAGCATTACTCTTTTATTGGTGTTGTTGTTTGTAGTACTAGTTGTAGTTGTTGTTAATTTTACTTCAAACTTCCAAAATTAGGTAAACAAATTGTGGAAAGAGGTTATTGTTGTTTTGTTAATAGATGAATTATGCTAGAGGTATAATTCAACTCAATCAATTGCTTATTGGATTTGTTGTTTGAGAATTTCAATTTTTTTCATTATTACTTATATTTCTGTTTTAGGTTTAACTTTTAGGTTGATTAATTTGATTAATTAGGTGAACAAATTGTGGAAAGCACACATCAGCCATCTACAGGCTTCAGAGTCGGAGAATGGAGGTAAAGGTGGTGGTGGTTTTCCAAAGAGGCATGGGCAAAGGTGCCACCGTTTGGTGGTTGGGAGAATGGAGGTGAAGGTGGTTATACCCCTAGCTTTGAAAATGATAGGAAAATTAAGACGTCGGGGTCTGTGGTAGACCCTGCTGAGTCCCAGTTCAACAATAGAGCTCGGCCTTCTACTGCTGCTGGACCGAACATCCCCTCTAGGAAGGCACCCTAGGACAACAACCCATGAAGGCAAGTTATACTCCACATTTTAGAGTTTATTAATGTAGACACCAAATTTGTGTCTCCCTCTGGGATGATGACGATACCATTATCCTTATTAGGAGGTTTGAGCAACTCCGTGCAGAAATTCCAATTGCTAAGAACATGTCCAAAATTCAAGAGCCAAAATCCAATCCCCGAGGCCGTTCCCCTTCCGGAACTCGGTACAAAATACAATTTTCAAAAACCAATTTCAAAATCCAAGTACAATCTCACCCAATGGACCATTCCATTGGTTTTACAAGGCCTTTTCCAGTCAAAATGACATTAAGCAATCCAAATTCGGGTGCCGACCCACAAAACCGAGCAAGCCGGGCCTCGTCCCGTAAAACCGAAATTCAAAACACCGAAACGTCTTGTTTTTATACGCAAATCAAGTCTTAATCCCCAAGAAAACACTACGTGCCAAACTTCGTACGAATAGTACGAAGGTACACCAATACAAGACAAAACAAGGACGGAGCTCGCGTCCTTGTTTTGGCAGCGTCTGCGCCACGTCAGCAGCGCCTGGCGCTGGTGCTGCGCTGGATGCTGGCGTTGGCTGGCGTTTAGCAGCAAATCCTCCTATAAATACCCTTAATTCTAATCATTAAGGGAGGCAAAATCGAAACATAACGTCGTAATACAAAAATTGCCCCTCAAATCAAAATCCAAAAATCTTACAAAATCTCATACAACATTTCAAGTTCTAAGCAATTGGGAGCTCTAAAAGGAATTCTTGCCTAAGCCTAAATAGGTAATTCCGAATCCCACCATATTCAATCATGTTTCTTTGATTTTCCTATTTCAAAAATGATTAGTAAGTTGACATTTTTAACAATAACAATGTCACTTACAACAATCATACATTTCTTCAAAATCAAAACTTTTCAAAATACAAGAATGCAAACTTTCAAGATTTAAGGATGTTCAAAGTTGTTTGTAATCACTTCTTTGAACTAGAAACATTTTCAAAATGTGGAGTAATCAAATATGATGCCTTTCTAACTTTTAAAGGTTTAGTCTTTGAGATTCAAGACTCCATTTTTCAATATACAAGTTCAAGTTTTTAAATTTCAAGATCCAACAATGTTTAGGGTTGCTCATGACTACTTCCCTTGTTAGATAATGCCTTAAATCGGTCAAGCCCCTTACTGCAACGCCCCAGCACGGGGATCTCGCTATTTTGGACAGGGGTTATCTGTTTTGGGTCTATTTTCTGGGCTTTTTCGCATCTGTCTAGAGAGTACTATATAAACTCTTTAGGTCATAACCTAGCCGTATTCCGTAATCTGTAATCCTCAAAGATCAATAAAACTTTCCTCCCCTCTGCCTGTGGACGTAGCTAACACATTGTTAGTGAACCACGTTAAATCTCTGCGTTCTTTAATTACGTTATTTAACTTTCTTTGCATCCGATATAACAAACTGGAATCAGAGCCGGATCTTTTCTAGGGTTTGAAAATTTCGTTGAGAAAGATGTCTGGTATTAACGTGAAGGTCGAGAAATTGACCGGGAGTAATAGTTTCAGTTTATGGCGAATCAAGATGCGAGCCTTGTTAAAACAACAAGGGCTGTGGGCGCCGCTTGCTAGGAAGTCGGCAGATCCAATCACCGATGAGATGGCCGTTCTGGAGGAGAAGGCACACTCGACGATTTTGTTGTGTCTTGCTGACGATAAATAATAAACACTTTAATTTAGAAATTTTAAAATTTCAGTTTTAACTTACTTTATTGTTTGTTAATTAGATTTTTTGTTTTTTGTTTTTTTATGATTGACTTAAATTTGACATAAAATGGTAACACTTTTTATCTAGGGGAGCTTGGGCTGAGCCTGTCTCATGAAAACTTCGGTATGCCTTACTGCCTTAGTAAAAAGAAAATTAGACCCAAATGACATCTCCCTTTTATCCCTCAAAGAAAAAAATTTAACAACTCCCTTATTAAAAGTGGAAACCCTTCTCTTATGCCCTGTTCTTTTTGGCTTAATTTCAGCTTCAGGACTTATTTGGCAGTTCAGTTCAGTTCAGTTCAGTTCAGTTCAGGAGCATTCAGTTCAGTTCAGTTCAGTTCAGTTCAGTTCAGGAGCATTCAGTTCAGTTCAGTTCAGTTCAGGAGCATTAAATTCAGTTCAGTTTAATTCAGTTTAATTCAATTCAATTCAATTTAATTTAATTTAATTTATTTTAATAATAATAATTATTATTATAATATATTATTATTAATTATATTATTATTATTATTAATATTAATTATATTATTATTTATATTATTGTATTACTTATTACTTATTATTTATATTTATATTATTATATTATTATATTACTTATTATTTATACTTATATTATTATATTACTTATTATTATTATTATTATTATTATTTATAACTAAATATTTATTAATAATTAATATAATTTATTATTATTTTTATTAATTAGTATTATTTATTATTTATTATTTATTATTTATTATTTATTATTTATTATTTATTATTTATTATTTATTTCGGTAATATATTCTGTTAAGTAAAGTTCAGTTCAGTTCAGTTCAGTTCAGTCCAGTTCAGTTCAGTTCAGGAGCATTCAGTTCAGTTCAGTTCAGTTCAGTTCAGTTCAGTTCAATTCAGTTCAGTTCATTTCAGTTCAATTCAGTTCAGTTCAGTTCAGCTCTAAAGAACCGTGCTTTATTTGTTGGTTGCTTTCATCTGTGCCGTCTAGCATCTTGATCAACACACATAGCCAAAGCTGCTTCACCGGCGCTAACCAATTGTTGCCGGCCATCACAGAGTCGTTATCTCCTCTCTCCCTATAATGTGTCAGTTCGTATCTCTGTTCTTCTCTCTCGAAAATCTCTCGTCCCCACATCTTCTTCTCTTTCCTCCTTGTGCTTCGAACTGCTACGGTGCTGGTATCAACGATGTAGGTATTGTGGACAGTGATGACACCGCTCGCGGCGCTTCAATCTTATGCTTAGGGTTTTGATTTTGGCTTTATTGGGTATGATCTTTTTCAATTTCCTATCTCAAGTATTGAATTTTGGGTATGAGCTTTTTCTATTTTGGTTTTATTCGGTATGAGCTTTTTCAATTTACAAGTTAAGATCTTATGGATTCTAGATTATTTCTGATTTTATTTAGATCTTAGGTTTATGCAGAATTAGTCTTGATTGTTGAGTTGAATTTTGCTTTACAATTTTATATTCTGCTAAAAATTGACGAAATGGGTTTTAGTTATAATGAGTAGTATCGGTATGCTGTGGAGATGAATCAGACTGAGGTTTTGCATTTACTAGAGTCTCCAGATGCGCTTAAGGCTAAAGTTCAAGAGGCTATGTAAGTTCTGAGGAATGTTGCACAACAGTAGGGTTAATGCTGCTGAGCAGATGGCTTCATTGTCATCAACACTGGTTATGTCATGAAGTTCAAACATACATCAAGCCCAACGATATCGGAGGAAATAATTTCCAAACCAAAACAGGATTACCAATCTCAATTGGTTGGAATTCAGCTAAAAAAACAAGCAACAAGATTACATCATCTCCTAAAATAGAACTACTTACTCCACATGGGGAAAACGGGACAAAACTCATATATTTACCATGAATTTCTAGTTTATTTATTGAATTTCCACATTCTGATGTACTCGGTATTATGAATGGCAACGACTTTTCCCATCCCCACAGCTAAGCACTTAATGTTTGGCCTAGCATTCATTGGAATACTACCAATTGCTCCCTCTCCTTTTAATCTCTTCACCTTCCTTCTTTCAACTGAACCATACAAACTATTTGTTGAAGTTAATTTGGCTACGCTTGGGTCCATAACACACCTTGTCAGGATTTTGCCAGTATTCTGATCCACAATACGCACAACACCATCTACGCCACCAACTACCAGTGTTGATGTGTCATTTCTGAGATATTGCATTGAATACACTGCATTAGGGCTCACCCATTATTTATGATTAGTTGATCTTTGCAGTCATGAACTGGTAATATCGTGTAATTTACTTTAATCTCCCTAGAACCATAAAGAAGCTAACAAATATAAAATCATGTGTCATCTTCCTTTTGATGTTTGCTTTGATGCAATTCAGCAAATGTATACATACTGATATTGTTTTTCTAAAGTTAGCAGAAAATACGAGTGTCAATGTCATTACTATTTCTTTTATCTCGTATGTCTTTATTGGTTCATCTATTTTCTGGCTTGACTTATCATTGGTCCTTATGAAATCAGCATAAATGCATAATATTTGTTGAGAATATGGGTGTGCTGTGTACAATGGTGCAACAACTCTTGTGTGTGTGAATGTGGCACTGCAATGCAGTGGGTGAAGGATCAGTTGTTGGTCCTTGGTTGTGCTCAATCATCCCCATGTGAATATTGCTGATTGTATTTATTACTTTTGTCTTTTTNATCCCCATGTGAATATTGCTGATTGTATTTATTACGTTTGTCTTTTTACTATTTTTGTCCTAGTTTGTCTCCTTTGGTTGATCCAAGGAGGATTGCTGTCTTTTGTTGTTTTGTACAGCTAGCTAGGTTGGGGTTTTGCTAGGGTTTTATATATATAGAAGAGTAGTGGCTTGGTGCCGTTCTTGAGTTGTAATAAACAAACACACTAAACACTGAAATAGAGAAATAGATGAGATCATTTTGATCCATCAGAAAACCAAGATTAAGACTTTGTTTTTCTTTATGGTATCAGAGCGGGATCAAAAAGATTCTTTGTGAAAATTGTTTTGAGTTTGATCTAACCAAACCAAAATAAAAAATCCAATCTTTACTTTGAAACAAAATGGCACCAGCAAATGAAAACACAGTAAGCCAAACAATGAATCCTTACAAGGATCCTTTGTTCATTGCTGTGAATGAAAATGCTTCTGTTCCTCTGGGAAGTATCATCCTTGATGGTAATAACTTTATGAACTGGAGCAGAAGCATCAAGATAGCACTTGGTGCTAAGAACAAGCTTGCCTTCATGGAAGGAAACATCCAAAACCCACAGAAGGTGCAGATGAAATACAGAAATGGGTCAGATGTGACTATATGGCGAGGTCTTGGCTACTTGCAACCATGAAACCAGAAATAGCTTCAAGTTTGGTAACTATGCAATCCACTAAGAGTTTATGGGAGGAAATTCTTGAAAGGTATGGTCAGACAAACGCACCACAGTTGTTTCAACTTAAGAAGGAACTGTGGGATGCTGAACAAGGTAACTCAAGTGTGAGTGACTACTACTGTAAACTCAAGGGGTTGTGGGATCAGATAGCAGATTTGGAGGGAGTACCAGAATGTAGTTGTGGAGCAATGGCCAAGTGTAGCTGTAACTTGGCAAAGAAGATGCTTGACCTTCAAGCAACTGAGAAGCTGATTAAGTTTCTTATGGGGTTGAATGATGGGTATGACCAGATGAAAACAAGTTTTTTGAGTAGTGAACCATTGTTGCCTGTGAACAGGGCTTACAATCTGGTGTTGCAAGTAGAGAGACAGAAGCAAATGATGGGAGAGATGGCCCTAGGGCATGAAGTTAGTGCACTGGCTGTGAACAGGCACAATGTTAGTCTAGGGCCACTGAAGAACTTTGACAAGAAGGAATATAAGAAGATGAGAACTGAGAAACTGGATAGGGAAGCAAAGAAGTGTGAATATTGTGGAATGAAGGGGCATGTGAGAGATGAATGCTTCAAAATCATTGGCTATCCAGAGTGGTTTAAGAACAATCCTAAGGGAAAAGGGAGTTACAGACAAGCAGCTAATGTGGTGAGAGAGGATGGAACTCAAATGGAAGACAACCCTCTGGATTTCACACCTCAGAGTGGAGAGTCAAGTGGGGGAAAACAGGACAACAAGTTCATATCTTCTGTGGTTCAGGAAGTAATGAAGGCCATGATGGAGAAGCAAGGAGGATCTGGAAGTAGCCATACCAACTTTGCAGGTAAGATCAGTTGTTCTAATGGAGTTTTAAATAAAAATACTTCAGAATCTCACACTTGGCTCNGGGAAGCTGTGCTTTTAGTGCAAGATCATTGACAGGATACTGTGTTTTCTTGGGAAAGTCTCTAGTATCCTGGAAAACCAAGAAGCAGAAGACTGTATCCAAGTCTTCCTGTGAAGCTGAATACAGGTGTATGTCTCACACAACTAGTGAGATAGTCTGGATTGAAGGCATTCTTTCTGATTTAGGACACAATGTTCCCAAGCCTATTGACTTGTTCTGTGACAATCAATCAGCATTGCACTTGGCTCACAATCCTGTGTTCCACGAGAGAACTAAGCATCTCAATGTTGATTGTCACTATGTTAGAGATCACATCTCTAATGGTCTTTTGAAGGTGCTGCACATCAGGTCCTTTCTTCAGTTAGCTGATTTAATGACAAAGGCCCTGAGTGAACAACAACACAATCTTCTTTCCTTCAAGTTAGGACTGTTTAACACAGGTCCAACTTGAGGGGGGTGTGTTGAGAATATGGGTGTGCTGTGTACAATGGTGCAGCAACTCTTGTGTGTGTGAATGTGGCACTGCAATGCAGTGGGTGAAGGATCAGTTGTTGGTCCTTGGTTGTGCTCAATCATCCCCATGTGAATATTGCTGATTGTATTTATTACTTTTGTCTTTTTACTATTTTTGTCCTAGTTTGTCTCCTTTGGTTGATCCAAGGAGGATTGCTGTCTTTTGTTGTTTTGTACAGCTAGCTAGGTTGGGGTTTTGCTAGGGTTTTACACAGCCTGTATATATATAGAAGAGTAGTGGCTTGGTGCCGTTCTTGAGTTGTAATAAACAAACACACTAAACACTGAAATAGAGAAATAGATGAGATCATTTTGATCCATCAGAAAACCAAGATCAAGACTTTGTTTTTCTTTAATATTGCATATTTTAGAGGCGGAAAATGTTGCTCTAGTTCTCAGATTTTGCTGGCAGTGCTTTATTCAGGTGCCACCGTATGTCACGGATGCGAATTTGCGCATTAACCATCACCACTTATCCTGTAGCTAGGTTTATATTAAACTGATAAAATTCTGGCTGTTTGGTTGTTGGTCATTATAATCTCATAGAACCTTCACCCTCTATTTTTCAATATTTAGACTAGTTAAAGAATTTCATTGTAATGTTTATCATATACAACTTATTTGTTGTTCTGTTTTGTTGTAACAAGAATTAGTCTCCTTACTGTTGGTTTGCAGAAGATATTGTCGTCGCTTGAACCAGAAGATGCTGACATTAGAATTCATGTTGTGAAAGTTGTTGCAAATTCGGCTGCAGAAGGTAAAGAGCTCCGGTTGTTAATTGAATCAGCTATAGAGTATATCAATTTTTCCACCTATATTGTTAGAAAACTTCGTATTTTCACTCCCCATGATCTTGCAGAACAAATCAGGAGAAGATTGTAGAGGCAGGTGGGATTACTTCCTTGCTGAATCTTCTAAGAAGCTCTGAGGATGAGACCATACATCGAGTTGCTACTGGTGCTATTGCAAATTTAGCAATGAACGGTGAGTTTAGCTAACTCATTTTGCTGGCCTTCTTTCACTATCTTTTCCTTTTGATGCTATTAAGTTGCTCTTTTCTTGTTACTTCAGAAACCAACCAAGAGCTGATTATGGGCCAAGGAGGTGTCAGTTTACCGATTACTAATGCAGAGGATCCCCAAACCCCTCGCATGATTGCTGGAGCAGTCGCTTACCTTTGTGGCAATGGTAACCATGAATTTCATAAATGTTTGAGTTCCGAAGTGTCTTAATTGAAATTTATTGTTTTTTTCTTCTTGTATAGAAGGACATTGGGGTCTTAGATATTGGATCTCAAGCAGTTTCAAATTGTCTCAAAATAATGTGATCTATATGTGCCGGCACATATAGATCACATTATTTTTTTTAGAGTTGAAGATTACAGAGTTATATTAATAAAAGCACTTATAAGAGGAGAAATTCAATTACGAACCTAGGAATTCAGGATTTACACAGTGATTTGAGAAATTAAGCAAAGTACAATGAAAAAAGAGAGCTAGAACAGACCATTTAGTGTTATTTTAGACAGAGGTAACATTTCTTTGACCCTTCCAAGTAATAATTGCTTAAGTTTTGACGGGATGCGTCTTCTAAAAGACGCTCCTATATACACAGTTCACGATAACAGCATATATATATATATATATATACACACTATATTATACTTTTAACACTTTTGATATATTGATTATGTTAATAATCTTTATTTTGATGCAATTGAATTTGGTTGTTTGATTTTGTAACTACTCTTTGTTTGGATGTAATTCAATCAAGAACGACATCCTATGACATTTTTAGTACTCCTATTAATTTTAGAAGCGTTTTTTCTGCTTTGTTCTTATCTCCCTTAGCTAGCGATGTGAGTCAAATGACAGAGTTAGTGTCCTTTTACTCACAAGTCATAAATAATTACGGATTATTTAATTTGTATCTTACAAGAACATTTGCAGGCTTGGTTAATTGCTTGAGGTTCAGCAGGCTTGAGCTGTTGGTATTTTTCTAGTATTGTAGTCTTTGGGTTGCAGTCTTGGCTTTTTGTGCAGTGATTCGGTCGGTCAGGTTAGCAACAGGTTATAGGAAGCAGGTTTTAGGTTTTATGTTTTGTGCAGGTGCTTTGTTGGCTCAGTTTGTTTGTCTATGTTTGATGGCTTGGTTGATCTGATATATGGTGTTGCTGTTTGTTTTGTGTTTCACCTAGAATGCTGATTGTCAGTTTTAGGCTTGGTTGAAGTTGTAACTACACAGCGTGACCTGCATTTGCCATCTAATCTGGCTCTGCTAATTTTGGTGTTGGCTGCGGCAGTTTTATGGTGTTGTGGTTTATTTTTCTACAGGTTAGGATTCTGTAATGAGGATTATGTTTAAGCATTGCCTTGTCTTGATTAAATATTGGTTGAGCTGCTGACTTTTCTGTTGCTGGAAGATGGTGAAGACTATTGGGACTGCTCAGGGATGAGCAGCAAAAAAGTGGGCATCCAAAAGTAACTTCAAAAACTTGCTCGGAATCCTGTTGCGACAGGTCTCGATTCCGATTCTCGAATTGTGGAGTTGAAATCTGTTGGTAACCTGATCATATCGGTTATTATTTTTAACCTATTGCAACAAGTTCTAATTTTGGTTTCCGTTTCCAGAAACAGGTTACAAATATTTTCCAATTTTAAAAAAATTTGGCACGCTATCTTGTGTTGGGCTGCTCAACGGTAATGCTCACCCCTAGGACTGCTTGGCTGGCTGTTTGGGAAGTGTTGAATTTTCTTTTCTAGAATTTGGTGGTCTCGGCCGAAGTTGACCGTGGTTGACTTTTTGTTTTTTTTGGTTAATAAATTGCTTACTTACCAAAGAAAAAATTGGTGTTTATGGATGAGAATCATGCAGACGTAAGGGAAACCAGTTGAAGATGAAAAGATAGAAGACATTTAGTTTTGGATATGATCATTTGACTTTATTTTGAACATAATAATGTAATTTTCATAGACCGTACATCAAATACTATTATTTTAATTTGTTAATTTGTTAGGGAGCGGGTGTGCTCCCTTCCTTTAGTTGTTTCCTTGTTTGGAACTTATTTTGTGTACGTCTATCTTTTGGTAATAAAATTGTTATTTTACCAAAAAAATTGTAAATTATAAATTTATTATTTATTATAAATATTATTATTATTATAATTATTATTATTATTACCAATTTCGTAATATTTATTAAATGATTATATTTAATGAAAAGCATTACTTTGCAAGTGTTGCAATAGATATTAAAAAGTGTTAAATATGTAATGTTACCTAAGAATAGAAAAGTGTTCTTAAATAATGAACAAGGTGTTACGTTATATGGTGAAAAGTGATACCTACGATTCAATAAAGTGTTACTGTAAATTAAAAGATGATATAAAAAAGTGATACTAATGGTTAAAAAGTGTTACCTAAGATATTACGAGTAACACTTTTAAAGTGTTACAATAGGAATGGAAAAGTGTTACATAAAATTATTTTTGGTAACACTAGTAAAAGTGTTATCATATGTTATTAAAAGTGTTACCTAATAGAATAGGTAGCACGAGCAGATGTATCACCCATAAAGTGTTACCTATTATCTATGGGAACACTTAACCCCCTTTATGTAACAGTTTTTGGATGTTAACTAAAGTTAATTATGTACTAGTGAAGGGAGCTCGTCGCCCATTCGGTACAAGGCAACGAGCAATGCACAAGCCACGCGCGCGGGGCAGCCCCTGTGCAGTGTGTGTTGTGCGAGTGATCGAGCAAGGCGAAGGGGAAATGCTACACACGGCCAGTAGTGCTGGGGTCGAGGCAGCGTGCGATGGCTTCCGAGCCGTGCGCGTTAGCCAGCCTGCGTTGTGCCTAGCAGCGATGGCGACGAGGCATTGATGGATGCCCTCGTGCCATGCGCGCAAAGCAAGCAAGCATGCAGCAGCAGCCATCGATGGAGTCGAGCCAATGGGCGCTGGCGAGGGCCTGGCTGTGGGATGGCCTCGACCATGCGTGCAGTCAGCTCTTGCAACGCTGCAAGCCTTGGCGAGGCATGGTCCTTGCGACCATGGGCCTTGCCTTGGCCGATTAACTTGTTTCGTTTTGTCTTTTAATTAAATTTAATTTCGTAATTTAATTTTTCTAGGAATTTAATTTTGATTGATTTAATTATTATTATTTGTTTTCTACTAATTATTTTAATAAAATTAAAACCTTGGTAAAATTTTAATTAATTAATTTTAATCAACTTAAAATAATATAAAGGGATTTAAAATTATTTTTATGTGAGCTTTAAATTTTAATTAAATTTATATGTTTCCGGTTGGACTAGGAAATATAATTTTATGTTTAAAATTTGTGAAGCATGTAAATTCTTGGTTTTAGTGGGAGCTTTTAGTCATTAAACTCTTGATTAGGTCTTTATTCCTTTAAGGTTAAAACAACTCGATTAGAACTAATAAGGTTGAATAATTTGTAGATTGTTGGAACGTTTGATTAGTTGCCGCAAATGTTTATGTAATGCATAATTTTTCTACTAACTTGCTATGTGGGCCATTCATCTATAAATGAATGCATGAATACTATATTGTAAATGTACTGTTTTGCAGGTTGTGGAAAGTGACTAGTATGACCCAAATTTGATAGTAAATATGGTCTACGTACCATTAATTTGAATGTAAAATTGGTCTTATGCACCAAATGTTTATTTAAATATGGTCTGTGTACCATCATATAGTTGTAATTAGTTTTAATTATAGCATATCCTATTTGAAGAGAATGAGGCCTCCCATGGTGAAATTCAAGACGGAGTTTCGAATCCATTTTCAAGACGGAGTTTGAAGTTGAAGCTTCAAGATGAAGTCGGGCCATAGTAGATCACATTTAAATCTTATGCAAGGCCTGAAGCAGGTTGATTCTCAAAACAGATGTTTCAGGATGGAAGTCCAAGAAACGCATGCTCGTGTCCTTCGCTCTTAGCAAAGGGTTGGTGTTCCACTAAGATATCATGTGGACTTCATTCTTTCATTATTTGAACGCTTAAGTCTGCTAGGATCACCAATAAACGAAAGGATGTCAGTCTCAATCTTACTCAATTCACTTCATAATGGGTTTAGTCGCTTCAAGCTACTTTACATGAGGGAACCAAGAGAAGAAACAGTTGGAGAATTTATTCGTCTGGTTCAAATTGCTGAAATAGTACTCGCCTGTGAAGCCAGGGATTTACTCAAGGCTAAAGGGAGACCATTTAACACTAGTAGAAAAAACCCTTGTTGCAGCGGGCTTTTAGACCCCTGTTGCAGCGTACATCGTATGCTGCAACTGGGGGGCCTGCAACAAGTATTGACTTGTTGCAGCGTACAATGTACGCTGCNTTTAAAGTGCTACAATAGGAATGGAAAAGTGTTACATAAAATTATTTTTGGTAACACTAGTAAAAGTGTTATCATATGTTATTAAAAGTGTTACCTAATAGAATAGGTAGCACGAGCAGATGTAGCACCCATAAAGTGTTACCTATTATCTATGGGAACACTTTACCCCCTTTATGTAACAGTTTTTCGGTGTTACCTAAAGTTAATTATGTACTAGTGAAGGTATGCCTCTCCGAGATCACTTAGATCAATTAAACACAATCTTATTAGAATTGCGTAATATTGATGTTAAAATTGAAGATGAGGATGCTGCTTTAATTCTGTTGGTTTCTTTACCATTATCGTATGAAAATTTCGTGCAATCGTTTATTGTTGGTAGAGATACTATTTCTCTAGAGGAGGTTAGATCGTCCCTCCAAACTAGAGAGCTGCGCCATAGGGCGATTGGTACAAGTATAGATAATCAGGCTGCTGGGTTAGTAGCTAGTGGGAGTTATGGGCATGAAAATTCGGGGAAGAAGAAATTCAAGAAACCAGTTTCTAAGGGTCCTAAACCTAATGGTGTCTGTAATTACTGTAAGGAGAAGGGACACTGGAAATTTGATTGTCCCAAGAAGAAGAGGCAACAGGATAAATCGCCAGGTACTGCTGCGGTAGCTGATACCAATTCAGAAGAGGGTATTGCTCTAGTTGATGATGAGCACACGCATCACAGTGATGTGTGGATCCTTGATTCTAGAGCGTCTTACCATATATGTCCGCGCAGGGAGTGGTTTACAGCCTACGAGCAAGTACACGGTGGCAATATTTCTATGGCTAATAGTTCTGTTTGTAAGGCGGTTGAAGTAGGCTCAATTAAAATTCGGACACATGATGGTAAATTCTGCACATTGAATGATGTTAGGCATGTTCCACTTATGACAAAGAATCTGATATCTTTGAGTATGTTAGACAACAAGGGTTTCAGTTTTCAGGGTGAAGGTGGAGTTTTACATGTTTGCAAGGGTTCGAATGTGGTTCTGAAAGGTGTAAAACGTGGTACCTTGTATTTTCTTCAAGGTTCTACGTTATCAGGTTCTGTTGCTGTTGCATCATCGGAGATTGATAAGGAGAACATGAACAAGTTATGGCATATGAGGCTTGGTCACATGAGTGCAAGAGGGATGCAAATTCTGTCAAAAGCGGATCTTCTTTGTGGTCACAAGGTCACGCGTCTTGAATTATGTGAACATTGTATTTTTGGAAAACTACATCGCAGCAAGTTCCATAATGGTATACACGGAACAAAAGGCACACTTGATTACATCCATTCTGATTGTTGGGGTCCTTCCCGGGTGGAGTCTTTAGGGGGTCACAGATATTTTGTGTCAATGATTGATGATTTCTCAAGGATGACTTGGGTGTTCATTATGAAGCATAAAAGTGAAGCTTTTAAGAATTTCAGACAGTGGAAGGCATTACTAGAGAATCAAACAGGGAAGAATATCAAAAGGTTGCGAACTGATAATGGTCTGGAATTTTGTTGGTCTGAGTTCGATGAGTTCTGCAAGAATGAAGGGATTGCTAGGCATCATACAGTCAGGGATACACCACAGCAAAATGGTGTAGCAGAACGTATGAATCAGACACTTCTGGAGAGAGCTAGGTGCATGCTTTCTAATGCTGGACTAACTAGAAGATTTTGGGCAGAAGCGGTTAGTACAACATGTTATCTGATAAATCGTTGACCTCACACAGGTATACATCTCAAAACCCCTATTGAGGTGTGGTCTGGTAAGCCTGCTGATTACTCTAGTTTAAGAGCTTTTGGTTGTACTGTTTATTATCATGTAAATGAGGGTAAATTAGAGCCACGAGCTAAAAAGGGAGTATTTGTAGGTTATGGGGATGGGGTTAGAGGGTATAGAATTTGGTCTCCATCTGAGAAGAGGGTTATACTAAGTAGAAATGTAGTCTTTGATGAAAATTCTATGTTTAACCCTATTGTGAAGTCTATTGTTGTGTCAGAAAGTGGTAGTGTTGAGAAACAGGTGGAGCAGGAAGTCACTTTAGATGAGAGTGAACCACAACAACCACAGTCAGAATCAGAACCATCAGGTTCTTCATTACCAGTAGCGAATCAGCACAATTTGTCTCTTGATCGATCAAAGAGAGCTAATTATGGGATGCCTCCCAAGAGATATGGTTTTGAAGATATGGTGGCCTATGCACTACAGGTTGCTGAAGAGGTGGATCCTAACTCTGATGAGCCATCCACCTACAAAGAAGCAGTTACATGTACGGAGTCTACCCAATGGCTTGCTGCAATGGGAGATGAGATGGAGTCACTTCATAAGAATCAGACTTGGGAATTAACCAAGAGAGCTCGAGACAGAAAGATCGTCACTTGTAAATGGGTCTACAGGAAGAAGGAAGGAGAAACATCAGTTGAGGGTATCAAGTATAAAGCTCGAGTAGTAGCTAGAGGGTTCACTCAGAGAGAGGGAGTAGACTACAATGAGATTTTTTCGCAAGTGGTCGGACACACTTCCATCAGGGTGCTACTAGCAATAGTTGTACATCAGGATCTGGAGGTTGAACAACTAGATGTGAAGACAGCTTTTCTGCATGGAGAGTTGGAAGAGGAGATATACATGACTCAGCCAGATGGAAGTTGAAGAAGTCCTTGTATGGACTAAAGCAGTCTCTGAGGCAGTGGTATAAGAAATTCGATAGCTATATGATAAAGATTGGCTACACCAGGAGTCCGTATAATTCTTGTGTTTACTATAGCAAGGCAGAAAATGGTTCATTGATTTATCTGGTCCTGTATGTAGATGATATGTTGTTAGCTGCAGAGAGAAAATCTGATGTTCAGAAGTTGAAGGATCTCCTTAGTGCTGAGTTTGAGATGAAAGATTTGGGTGCGGCTCGGAAAATTCTGGGGATGGAGATTTATCGGGATAGAAGCGAAAAGAAGCCATTCTTATCACAGAAGGGATACATTCAGAAGATTCTGTCAAGATTTGGCATGTCTACAGCAAAACCCATAGATACTCCTAGTGCTGCAAATGCACATCTGTCTGTTGCTTTTGCACCTAAGTCTGCTGAGGAGAAGGAGTACATGTCTCGAGTTCCCTATGCTAGTGCACTAGGAAGCTTGATGTATGCAATGGTCTGCACTAGACCTGATCTGGCACAGTCTGTTAGTTTAGCTAAGGATCAAGTACATCATGAGAGGACTAAGCACATCGATGTAAGGTATCATTTTCTGAGAAGTGATCGAGAAGAGAATTAAGGTGAACAAAGTGGGTACTGCAGATAACCCAGCCGATATGTTCACCAAGCCTGTTCCACATAGCAAGTTTCAACATTGTTTGAACTTGCTAAATGTTAGGAGTTGTTGATTGCCCTTTTGTGGGCAAAATCTGAGGCAGAGGAGTTTTCTGGTACATCTCGCATTATAATGGTGCATCTGGTACATCTGTTATTTGTGAGAGGATTAAAGTCAAGGTGGAGATTTGTTAGATAATGCCTTGAATCGGTCAAGCCCCTTACTGCAACGCCCCAGCACGGGGATCTCGCTGTCTATAGAGTACTATATAAACTCTTTAGGTCATAACCTAGCCGTATTCTGTAATCTGTAATCCTCAAAGATCAATAAAACTTTCCTCCCCTCTGCCTGTGGACGTAGCTAACACATTGTTAGTGAACCACATTAAATCTCTGCGTTCTTTAATTACGTTATTTAATCTTTCTTTGCATCCGATATAACATCCCTAAAACTAGGATCATTTCAAAGTAAGAGCTCATCAAAGATCTAACCTTTTCAACATTAAAACGCCCGATCTTTGAGATTTAAGTCTCTTAAGTTCAATATTTCAAGTTTCAAGTTCAATATTTCAAGTTCAAGTTCAATATTTCAAGTTCAAGTTCAATATTTCAAAGTTCAACATTTCAAGTTTCAAACTTTTCAAGTTCAAGTTATATATGCAAAATCTAGGATACTTTGGGTGAACAATCCATCCTAGGTTGAGATTTTTTTTGCTTTGACTCCGTGTCGGACGCACTTATTTTTAAGTAGCCGTTTGGCGTTCGGACCTCATGTGCTTAAATTCTATGTCAATATTGCAATTTCTATTCCGCAATTTCAATCATGCACCTTTCAATTCCGCACTTTCAATTCCGCAACTTTACTTGCCTAGTCCTTCTGGGCAATGTGGACCTACTCCCTAGTCCATTTCTAGGGGGTCTTGTACTTTACTAAATCCGCACTTATTTTCAATTGTGATGTCGCTTTACTTGTTTATCGCTTTCATCACCTCACATGCTAAATTCAACAAAATACAAGGTTACACCACGCTTAACAAAGATAATTTCTTGGACAAACCGATCTTAGGTTCCCTTAAATTAACTTTAAAGCAAAGTGACCACCATACAAAGTAGAAATTCTATTTGTTATAAATTCAAACACACATAGTCTAAACTAGGGTATTTTCGAAAATGTTGTGTCACACACTTGAATTATTTCTAAAGCTCGCGGAATAAGGATCTCGTTCCCTTGCCCGAATCTCACCGATCCGTTTCGAAGATTCAAAGCCCTATCCTAATAGAGTCATTTTCGGTCTTTCCAAACGAGACCCTAAACAATGTTTGGTGGCAACTCCTACAAAGTACAAAAATACAAAGGTTTCTAAAAAAAACGCCCCCGTAGGAAGAGGAATCAAAAACCGTCCTACAATTCTGGCGACTCCACTGGGGAGTTCCTGATTTCAACTTCGAAAATACGAGCAGACTTCGAGCAGCAAGCCACTGATCTGCTTAAGTATTAGATGCCAGCACTGGCGCCAGGCGCAGCCACCTGCGCCAAAGGCCACTGCTTGCATCCAGGACAGTGGCTCACAGTGGCTTGTTGCCCACTTTTGCTCCAGTTTTCAAGTGGGAGTCAGTCTATTTCTGTACTTTGAAGGACGCTCCCAAACCTTCAGAACGAATGTCGAAAAACGAGCTTTTCAAATACAATATTCAAGTGCGATTACAATTTTCAATTTCTAGGCATTTCATGCATTTTCGAAAACCATATTTGTGCAAAATGAATTTCTACCTTGCCCAAACGGATGTGTTCTACATTCGGGCTAGCCCCGGGGGCAACGAAATGGTGACTCTCCATACGGTTCCCGACCAAAGTGTGTGACCATTTCCGCGCCTACCGAAACTTGGCATTTGCTTGACATTCTCGATGTCAAGTATGGAGGTCGTCTGCCGACACACACGTCCCTTAGGCGGATGTGCAAGTTGTCTCCAGATCCGCCTCTTAGTCAAGTACCTTTTGACACCCAAAGCCGACCACTTGCATCATACAAAACTTAGACCGACCTTAGGTTGAGAACTTTGCATGTCGCATTCATATACATGTTAGTGTGACAACGTGCTCTTTGTGCATCGTGTGGGCGTCTTTGCACGCGTGAATGACTAACCTCGAGTTCTAGCTTGCGAAAACCAATTAGCCTCCAACTAGGAAACCAAACCCCTAGGAGCAACATTCAAGCCTCATGCATCTAAAATCGCCGATTTAAGGTCTTTTAGGAGTGCCACTCCGTTTGATTCAAAACCCTTAAACACGCCTCACGCACAAATGCCAAATTTCAAATTCAATCCAACGGCGTCATAATGCCGGATTATCTTGTCCAAATTCCGAGTTTCAATTTCAAAATTCAAATCCAACGGCGTCATAATGCCGGATTTTCTAGTCCAAATTCCGAGTTTCAATTTCAAAATTCAATCCAACGGCGTCATAATGCCGGATTTTCTAGTCCAAATTTCATGTTTCAATTTCAAAATTCAAATCCAATGGCGACATAATGCCGGATTTTCTAGTCCAAATTTCGAGTTTCAATTTCAAAATTCAAATCCAACGACGACATAATGCCGGATTTTCCAATTCAAATTTCCAAGTTTCGAATTCAAGTTCAAATCCAACGGCGACATAATGCCGGATTTTCCAATTGAAATTTCGATTTTCAAATTCAAGTTCAAATCCAACGGCGTCATAATGCCGGATTTTCCAATTCAAACTTCAAGTTTCAAATTCAAAACTCAAATCCAAAGGTATCATGCCGGATTTTCTAGTCAAAACTTTCAAGTCTTCAAACCTCGAATTCAAATTACCAATTTCAAGTTTGAAACCTCAAGTTCAAATGTTCGAATTCATGCTGTCGTAATGCCGACTTTTCCATTCCATATTCCAAACCTCAAGTTCAAAATTCCTATATTCAATCTTTCAAATCTCAAGTCCCATGTTCGAAACTTTCCAATTCCAAATCCATGATGGCGTAATGCCGGATTTTCCTCATTCAATTTCAAATTCAAAATTCCATGATCAAACACGTCAAAATTCCAAGTCCACGGCGGCATGATGCCGGACTTTTTCCAAATTTCAAATCAAATTCCAATTCCATGATGGCGCGATGCCGGAATATTCAAATTCAAACATCTCATGTGCCTCTTTCCCATTTCAATGCCCAAACTTCGAATCAAATTCAAACTTCAAACTTCAAACTCATCTTCAAGCTACAAAAAGTCCTTGCCTTCCGTTGCTCCCAAATACAAAATCGAAAATATTTTCCAATGGGTTGANAATTCAAATCCAATGGCGACATAATGCCGGATTTTTGTAGTCCAAATTTCGAGTTTCAATTTCAAAATTCAAATCCAACGACGACATAATGCCGGATTTTCCAATTCAAATTTCCAAGTTTCGAATTCAAGTTCAAATCCAACGGTGACATAATGCCGGATTTCCCAATTGAAATTTCGATTTTCAAATTCAAGTTCAAATCCAACGGCGTCATAATGCCGGATTTTCCAATTCAAACTTCAAGTTTCAAATTCAAAACTCAAATCCAAAGGTATCATGCAGGATTTTCTAGTCAAAACTTTCAAGTCTTCAAACCTCGAATTTAAATTACCAATTTCAAGTTTGAAACCTCAAGTTCAAATGTTCGAATTCATGCTGTCGTAATGCCGACTTTTCCATTCCATATTCCAAACCTCAAGTTCAAAATTCCTATATTCAATCTTTCAAATCTTATGTCCCATGTTCGAAACTTTCCAATTCCAAATCCATGATGGCGTAATGCCGGATTTTCCTCATTCAATTTCAAATTCAAAATTCCATGATCAAACACGTCAAAATTCCAAGTCCACGGCGGCATGATGCCGGACTTTTTCCCAATTTCAAATCAAATTCCAATTCCATGATGGCGCGATGCCGGAATATTCAAATTCAAACATCTCATGTGCCTCTTTCCCATTTCAATGCCCAAACTTCGAATCAAATTCAAACTTCAAACTTCAAACTCATCTTCAAGCTACAAAAAGTCCTTGCCTTCTGTTGCTCCCAAATACAAAATCGAAAATATTTTCCAATGGGTTGAAAATCCCTTTAAATAGTACAAACTCAAATTCTATCACGGGTTGAAACTCCCCTGAAATAATACAAATTCGATCCCTTAAAACATTTCCATTGGGTTGAAAATCCCCTGAAATAGTACAAATCCAATTTCCTCATTCTATGATGGGTTGAAATCCCCCTAAAATACTCCGATACTCAACAGGTTGAAATCCCCCTAAAATACTTCAAAACTCAACGGGTTGAAATCCGCCTAAAATACATCCATGGGTTGAAATTCCCCTAAAATATTGACGGGTTGAAATTCCCTTGAAACAATACAAAATCAATTCCCTTTCGATCGGGTTGAAATTCCCTTGAAATAATACAAAATTGAATCTCCTAATACAAGTCCAATTTCCAAATTTCCAATGGGTTGAAATTCCCCTAAAAAAGGTCCAATGTTCCAATAGGTCGAAATCCCCTTTTCGATATTCCAAGTTCTAGTACAACGGGTTAACTTCCACAAAAGAATGAAGGCTCCTTTCAAATACTTCCAACGGGTTGCGAATCCCGAATACACAATACAAAATCCAAAATCCCGAGTCTTCGGAGTGGCACTTAGAGTCAAGTCTAGGTCTCATTCATTGCATGCATATCATATCATGTGTCGGGAATTCCAATGTCTAAAGTTCAAAATCATGTGGTAAATAGGTTCTCGGACTCATTCTCTCAAAACCCTATACAAGATGACTTCACTAGCAGCGGCCGTAGCAGAGCTCTATGAACGTGTTGAGGAAGCTGAGGCTCGCATAAGGGCTCTCGAAGATAATCAAGAAACTCTTTTCAATGCATAAGGCTGGAGAAAGGCCCTCAAGATATCTGCTCCAAATGGCAAAATGTTCAAGATTACTGTGGGCGAAGGATCTATGATGTCTGGATCCGAGTCAGAGGATGAGTCTGGATCTGAGTCTAGTGATGAGTCTAAGAGTCTAGGGCTAGAGTCTTGCATCAATCAAGAGCCTCTAAAGGCCGAGCTTCAAGTCAAAACTGTCGATGTAATGATTGCTGATTTCAATAACACTTCAATTTCCTCTTACTCTTCATGTCCAAATTTAAAACACACTTATAATCCAAACAACTTTGCTTCACAAGAAACTGACCTTGAAATACTAAAAGCTATTGAAAATCATGAAAATAGGACGCCCATAATTGAGGAAACAGAAAAAGTTAACCTTTCTAACAACAGTGACTCAAAACTAGTTCAGATTGGCCTAACTCTATCTCAAGCAGAGCAAGATGATCTTATCAAGCTACTTTCAGAGTACATAGACGTCTTCGCATGGTCCTATCATGATATGCCAGGGGTTGATCCAAGCATCGGTCAGCATACGATTCGCCTCATTCCAGGTTCAAAACCCATCAAGCAAAAACTCCGTCGCATGAAACCGGACGTTTCCCTCAAAATCCAAGAAGAGGTCTCTAAGCAGTTGGAGGCCGGGTTTATTCGACAAGCCAAATATCCGGAATGGATTGCAAATGTCGTCCCAGTTCCAAAGAAAGACGGCAAAGTACGAATGTGTGTGGATTACAGAGATCTTAACAGGGCCAGCCCTAAAGACGGCTTTCCATTGCCTCACATCGACATCCTAGTTGACAACACCGCAAATCATGCCTTACTCTCTTTTATGGACGGGTATGCAGGCTACAATCAGATTCCCATGGAAGAGGAAGACATGGAGAAAACACCCTTCATCACTCAGTGGGGTACATATTTCTATACAGTCATGCCGTTCGGACTGAAGAACGCAGGGGTAACCTATCAAAGAACATCCACATATGATTGAAGTATATGTCGATGACATGATCGTCAAGTCCAAAGAGCGACCTGAGCATACCTCAGTACTCCGAAAGTTCTTCGACAGGCTCAGGCAATACAATATGAGGCTCAATCCTCAGAAGTGTGCATTCGGGGTGACGTCAGACAAGTTACTCGGATATGTCATCAGCTCTCGTGGCATCGAGGCTGATCCTTCGAAAATCAATGCCATTCAAGAGATGAAGCCGCCAACGAATGAAAAGGATATTCGGGGGTTTCTAGGAAAATTGCAATACATCAGTAGGTTCATTTTAAAGCTCACTATTATATGTCAACCGTTATTTCGAAAGCTCCGCAAAAGCGAACCCAAAGTCTGGGACGAGAACTGCCAGCAAGCATTCAATACTATCAAAGACTACCTTTCCAATCCGCCAATGCTAAAGCCAACCATGCCAGGGATTCCCCTCAGACTCTACCTTACAACAACAGAATCAGCGGTCGGGGCCATGCTCGCCCAGGAAATTAAAGGCAAAGAAAACGCCATATACTACATCAGCAAAAAGTTAATCGAGTACGAGACCAGATACACTCAGCTTGAGAAACTCGGCATCGCCTTGGTTTGGGCCACAAAGAAACTACGGCACTACATGCTGTCCCATACAGTGCATGTAATCAGCAAAGTAGATCCTCTCAAGTACTTGTTCGAAAAACCAGCTCTCAACGGACGATTATCCAGATGGTTGGTCATGCTAGCAGAATTCGATCTCAAATACACCCCGCAAAAGTCTATCAAGGGTTAAGCAGTGTCAGACTTCCTAACCGACTGCCCTTTCGAGGCAGAAGAGGAGGATTATGNACTTGTTCGAAAAACCAGCTCTCAACGGACGATTATCCAGATGGTTGGTCATGCTAGCAGAATTCGATCTCAAATACACCCCGCAAAAGTCTATCAAGGGTTAAGCAGTCTCAGACTTCCTAACCGACTGCCCTTTCGAGGCAGAAGAGGAGGATTATGACTTACCCGACGAGTAAATCTTAATGACCAGTGATGACAGTTAGTCGATGCATTTTGACGGTGCTTCAAATCAGAACGGATGTGGAGTTGGAGTAATTCTAGTAGCCCCAGACGGCACCCACATTCCGATATCAGCAAAACTGCAATTCAACGTCACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTAATGCCATTAAATACTTGATCCGTTTACGTACTATTTGTGTGACCCTACGGGTTCAGTCAAGAGTAAGCTGTGGATTAATATCATTAATACCACTTGAACTGAAGCGGCCTCTAGCTAGGCATTCAGCTCACTTGATCTCACTGAATTATTAACTTGTTAATTAATACTGAACCGCATTTATTAGACTTAACATAGAATGCATACTTGGACCAAGGGCATTATTTCCTTCACTGGGTAGACCCATACATTGTCAAGAAAATCCTCTCCGGGGGAGCAGTCGAATTAACAGATGTCGACGGAACAGAATTCTGATCTCTGACAAACCCCGATCAACTCAAGAAGTTCTATGTCTAAGTTCAATGTTCAAATTCAAAGTCCAATTCAAAAAAGTCCTGTAAGGGTTAGAACTACGTCCGGCCTGATTTTTTGGATTTTGTAGGCAACCTCATTCCGAGGCCCGGCTACTTTAATACAAAAAAAAAATTCAAAATTTCCTCAATTAAGGCCATCCTAAAAATCAAACTCAAAATTCAAAACTCAATGGTTGTTGTCTATATTCCAAATGTGCCAATTCAAAGCAAAGCATGTTCAAGAGGAATTTAACACAATAAAAGTTTATTTGGCTCTAAGGCCTTCAAAGCTAATTCAAAGCAAGGTTGGAATCAAGTGAAGCAAATTTCAAAGCCTTTTCACTTCCACTAAACACATTTTCTAAACACACCTTCCAAACACATTCTTCAAACACAATTCCTTCTAATACAACTTCAAACACATTTAGCCTACAATGATCTAGGGTCGGGCGACTATGCTCTTAAGTCTTGGCACCTTGAGTACTATCCCCTGGCTCTTCCCGCAATCAATCATCAATCTTCCACTTGCCCAGGCGGCGGGAGAAATAACTTGCTATTCTTCCAAGACGGGAGGATGACGAACCTCCTGTGGACTCCGATCGGTCAAGCACTGGACGGGCCACACTCCCGTCACCTTCCTCATAATCAGTTGATGCAGGGCGTCTAGCTCTAGAACCTCGGACTCTAGCTGGTCCGGAGAAAGAAATGTCCCTCTGGCTTGGGCCATTCATCCATAAAACATAACCCGCAGACAGAGTGATTGGCTCAGGTGGGTATTGAACACTCAAGAATGGTTTGGCAACCCAATACCGCCTCCAAACTTCAAGTCGATTGGCATTCAGAACAACAGGTTTCGGGTTCTCTTCAGCACAGTCCGGGATTTCCTGTTTTAAGCCATACTATCTCATCACTCTAGCAGGCGAGTAGAAGACCAGCATTGTGAGGCTTGGCACCCTCAAAGCAGTAGAGCCTGGGGCATGTCTCATCGCAGCAATTCCCCACCAAGGAACTACCCACCTTATACAAGATTCAATCCCAGAGAGTGCGCATCGCCACTCTTCCAATGAAAGCCGGCCATACACCATGTGCCGCACAGTGAATCCCTTTCTATTATAGCTTTCCATGTTCTCCGGTGGTGCCACCAGCATGAGCCTCTCCATAAGCCATACCTTGGGGAATATACAAGAAAAGCATTTCGAAATCCAAACATTCAAAATTCAACACAAGTACAAATTCAAAATACAAGAAAGCTCCAGATCCTTACTTGGAGTAATACCGGACTTCCCGAAGGCAAAGAGAAGGGGTCCGATTTCAACATATCAAGGCCCATCAATGTTTCGCCAATTACGAGCGGTATTGGGTCCCGACCACTAGCAAACTCCTCTACAATCTCTATTAGGTAGGCATCACCTTTGCCAAACCCCTGTTTCGAAAAGAGGAAGCGTGCAAAGATACAAAAACTCAAGGCCCTCAAGCGGAAAGCCTTGGGAACATCAAGCCCAGAAAAATAGGTGACAAGGAGGGACAAATCCACCCCTCTTCCATATACAACAACACTCAAAAGTGGGGGNGGAAATGAATTCCGAAATCGGGAATTTAATCGGAAGCGTATCGTACGAATTAGCATCGGACGAGGCCAGCTAGACGAAGGCCCAGCACGAAGCCAGGCCATCGCCCAGCGAGCCGCACGCAGCAACGCACGCCTCGACCAAGCCCAACGCAAGGCCAGGCCCAGCCAAGGGTGCGCGCGCACGCAGCACCGCACATGGGCTGTGCGCTTGTCGTGGGCCGCAAGGCCTGCGCGGGTGCACGGCTTGTACGATGCGTGTGCGGGAAATCCTAATTCTATTAGGATTCGTGCGAAGATTAAAATCATAATCTTATTAGAATTGCTTTGTTATTTAGAGTCCTAATAAAGTTCTAATTAACAAATCCACATCCTAGTAGGATTACAATTCCTTTTCCATACCTCTATAAATAAGGGCCTAGGGTCATTATTTATATACAAGTTTTAAGTATTCAAAGCTAGGATTTTTAAGCAGAAAAATCAGCCATAACTCTTGCCCATTTAGCCGAAAATAAGTAGTACCTTAAGGGCGATTCTAGTTGGTCTATCTTAAGGCGGATCCGGACGTGCTGTGGACTATCTACGGAGGGACGACACTTGGAGTCCTAAAGACTTGTTCTTGTTCGGTTCGGGCGCAGCTAGGGAAGGCACGCAACAAAGAGTATGCATCTAAACTATGCTAAATGATTATGTGTAAATAATATGCTTTCCTGGCTTTATGGTTTTTTCCGCATGATTTATGAATTGTCATATGTATCATAACCTAACAACCCCTGTTTCGAAAAGAGGAAGCGAGCAAAGATACAAAAACTCAAGGCCCTCAAGCGGAAAGCCTTGGGAACATCAAGCCCAGAAAAATAGGTGACAAGGAGGGACAAATCCACCCCTCTTCCATATACAACAACACTCAAAAGTGGGGGCTTCAAGCCCAAATATCTTTCAAAACCCAAGAAAAAGTGTTCTTCAACACTAGGAATGCATGGCTCCGGCATAACGGGCCACCCCAATATGGCACTAAACTCTTCAGGGAGGGGACATACCTCATTATTTCCAAAGAGGAAGACATGATGATTCGAATCCCAAGCCTCCAGAGCAGCAAGAATGAAGTGCACATCAAGCTTTACAAACCGCAAGGAGGCGAGCACTCCAAGATGCATGCCATCGAGCTCCCTTTTCTCCATCTTGCCTAACGAACCAAGCCAAGAGTTCAAGGCATTTTCAAAAGACAAGGCCATTTTCTTTCTTTTCGTGAGGAAGCAGTATACAAGGCAGAGCAGGGAAGGGATTGATACAAAAAATGATCTGAAACACTCTCTATTTATACAAGAATCGGCTCTCATCACAGCACACTGGCGCCAGGCGCCGGGGCCTGCGCCAAGTGCAGGGGCCTGCAACGAAGGACGAGGCCACCGTCCCCTTTATGATTCCGAGTACGCACTCTTTAGTGCTTCGGCCAGCAGAGTACAACCTCAATAATTCAAGATTCCAAAGCCGCAAATCGCGCAATTTCAAGCAGTCCGAGTCAGCACCTCGGGCCGATTTCGGGTCAATCTGTCCAAAATTCAAGCATTCTAGTCCTAGATCGGCGTCCTAAGTCGAGTCTGCATACGCATAAGCAAAAGTTGAATATACTTTGACTTGCTCTTTTCCTAACAAAAAAACCTTAGTCAAAGTGAGGGCTTATAATGGGTATATACACCCGAAAAAATGGACAAAATTTTCAAATTTTTTACAAATTTTTCATGCATGCATATAGCTACAAATTTCAAAAGCACACACAACGTATACAAAGTTCAACTTTCAACCATGCAAAATTCAAATTTTCAACCATACAATATTCAAAAATTCCAAACCTTGCAAATTTCAAGTACAAAACCATCAAAAAATCAAACCATACAAACCCATACAAATACAATCAATACAAAATCCAACAAAGGCAAGTTGGAACTCGCTACATTGCAGGATTGGAAAAAGTAAAAAGTCTATTTAGAGCCTCTCCAAATACAAAGAGGCTATTCAGAGCCTATTCAAGTACAAAAAGGCTATCTAGTACCTATTCAAGTACAAAAAGGCTATTCAGAGCCTCTTCAAATTCAAAAAGGATGTTCAGAGCCTCTTCAAGTACAAAAGGCTATTCAGAGCTTATGTTCAAGAGGCTACGCGGAGCCTACCTCAAAGATTGACTACCCAGAGTCAATTCAATCTTGGCTAATCCTAAGCCTAGTTCGAAATCAAGAGCACCAACATCCCCAACAGAAGGGTGACACATGTACAAAACCGGCTAGCATAGTCGATTCACTCTAGACTATCCCTAGCCCATACAAAGATCAAAATTCTAAAAATCCCCAGTGGCAATACAAATTCAGCCAGGGACCTCTACTTCAACATACAAATTCTACGCCAACGCCTAGGTTATCCATGCCGAAGAAGGTATACAAGTTCTACACTAACGCATAGGCTATCCATGTCGAAGCAGGTATATTCAAAAGTTCTACACCAACGCCTAGGCTATCCATGCCGAAGCAGGAATACGATTTCTATACCAACGCCTAAGCTATCTATGCCGTAGCAGGTACACAAATTTAAGAAAAATTTCAAAATTCAAATCTACAAGTTCCAACAGTTCCAGTTCAAGTGGCTATCAAATAATTTTCTACAAGATTCAAGAAGCCTAGTATCATACAAGTATCATTCCAAGTACAAGAAAAATCAAAGCTACATGCAATCCTAGAGATTATTTCATAAGCAAAACATGAAATACTTACATGGATAAGGCAAGAACAAGACCAAGGGGGAGAGATTATCCGACCTTTGAGAGAATGAAGCAAGAGAATGCAAGAGAGTGTTCTTCAAAATGGCACGGCAATGGGTGCTTTTATAGCACAACCCCGCGTCGAACGCCGAGCTCAGCGCCTAGCGCTGCCTGCTGCATGCGCAGGAATCTTCAGCGTGTGGTCTCCCGTGCTGATTGCACGTTCTTTGTTGCTACGGTTTTCTGCACCAGGCATCAAACGTCATTTCATGTTGTCCTCCGAAAATACGGGTATACACTTGTATCTCCAAATACAAACAGACGAGCATTTCAAGCATACAAAGTTCGAAAAATACAAAATTTAGGCGTTCGACTCCCAACGGACCCAAGATCCAGGAAAGTCACTCGAAATTTCAAAATCTTAAGGGCCAATAAAAAGCTCTTATCCCCAGTGAAGCACATCCCCAACGGATCAATTCCGGGTATTCAAAATTCAAAATTCAAGATTCAAAATTCAAGATTCAAAAAAAAATTCGATGCCAAGCTCCATCCCAGACCAAGTACGGAAGAGTAGTACAAGTACAAATCGGAGTCGTCATAACCGAACGGAGGTAGACTCTATCCTTTTTTCTAATCCCTGTTTTGTGCAGGTACCGGCGTACAAAGAATGGTCTTGATTGCAGAACATCTTGATCATTCTCCGTCCGTTTCGAAATACTTTGACTTGCGCTTTCCTAACCGAACGCTCAGTCAAAGTGGGGGATTCTGTAAACACCTAATTTGTGTCTCCCCTCTGGGATGATGACGATACATTATCCTTATTAGGCGGTTGGAGCAACTCCGTGCGGAAATTCCAATTTCTAAGAACATGTCCAAAATCCAAGAGCCAAAATCCAAAATCCAATCCCCGAGGTCGTTCCCCTTCCGGAACTCGGTACAAAATACAATTTTCAAAAATCAATTTCAAAATCCAAGTACAACCTCACCCAATGGACCATTCCATTGGTTTTGCAAGGCCTTTTCCAGTCAAAATGACATTAAGCAATCCAAATTTGGGCGCCGACCCACAAAACCGAGCAAGTCGGGCCTCGTCCCGTAAAACCGAAATTCAAAAAACCGAAACTGCTTGTTTTTAGACGCAAATCAAGTCTTAATCCCCAAGAAAACACTACGTGCCAAACTTTGTACGAATAGTACGAAGGTACACCAATACAAGACAAAGCAAGGACGGAGCCCGCGTCCTTGTTTTGGCAGCGTCTGCGCCACGTCAGCAGCGCCTGGCGTTGGTGCTGCGCTGGACGCTGGCGTTGGTGCTGCGCTGGACGCTGGCGTTGGCTGGCGTTTAGCAGCAAATCCTCCTATAAATACCCTTAATGTTAGGTTATGATACATATGAATAAACATAAATCATGCGGAAAAACCATAAAGCCAGGAAACATATTATTTAGACAAAATCATTTAGCATAATTCAGATGCATACACTTTGTAGCGTGCCCTCCCTAGCTGCGCCCAAACCGAACAAGAACAAGTCTTTAGGACTCTAGGTGTCGTCCCTCCATAGATATTCCACAGCACGTCCGGATCCGGCTTAAGATTGACCAACTAGAATCGCCCTTAAGGTACTATAAATTTCGGCTAATAGGGCAAATGTTTGTGGCTGATTTTTGCTTGAAAATCTTACCTTTGAATACTTCAATTCTTACGTCGATAAATTTGTGACCCTAGGCACATATTTATAGAGTTATGGAAAAGGACTTAGAATCCTATTAGAATACCAATTTAGTTTAATTAGAATCCTGTTAGGACTCTTATTAAATAAAATCTATCTACTAGGATTAGGATTTAATCATAGAACAAATTCTAATAGCTTTAGGATTTGTATTGCACACAACCGTACACGAGCACGAACACGAGCACCACCCGCGCAAGCCTTGCGGCCCACGCGAGCTGCACTCGCTCGCAACCCAAATGTCGCAGCCCATATTGCTCCGCGCGCGCCAAGGCCTTGCTGGGCCTGGCCTTGCGCTGGGCCTGGCGGGGCTTGGCTGTGTGTAATTGATGCGTGTGGTTTGCTGGGCGATGGCCCGGCTTCGTGCTGGGCCTTCGTCTGGCAGGCCTCGTCCGATGCTAATTCGTACGATACGCTTCCGATTAAATTCCCGATTCCGGAATTTATTTCCGATACGAACAATATTTAATATTTCCGATTCCGGAATAAATTTCCGTTTCGAACAAATATTTAATATTTCCGTTTCCGGAATTATTTTCCGATTCCGATAATATTTCCGATTCTGACAATATTTCCGTTTCCGGTAATATTTCCGATTCCGGCAATATTTCTATTTCCGATAATATTTTCCGATACGTACCATGTTTCCGTTTCCGGCAACATCTACGACTTGGAGAATATTTATATTTCCGATACGATCCATATTTCCGTTTCCGGCAACATCATCGTTTCCGGAGTATTCATTTACTTGCCTTTGACGATCTCAGCTCCCACTGAAACCAAGATCCGTCGATTCCGAATATCCATAGATGGAGTATTTAATGCCATTAAATACTTGATCCGTTTACGTACTATTTGTGTGACCCTACGGGTTCAGTCAAGAGTAAGCCGTGGATTAATATCATTAATTCCACTTGAACTGAAGCGGCCTCTAGCTAGGCATTCAGCTCACTTGATCTCACTAAATTTATTAACTTGTCAATTAATACTGAACCGCATTTATTAGACTTAACATTATATGCATACTTGGACCAAGGGCATTATTTCCTTCACTTAATTCTAAGCATTAAGGGAGGCAAAATCGAAACATAACGTCGTAATACAAAAATTGCCCCTCAAATAAAAATCCAAAAATCTTACAAAATCTCATACAACATTTCAAGTTGTAAGCAATTGGGAGCTCTAAAAGGAATTCTTGCCTAAGCCTAAATAGGTAATTCCGAATCCCACCATATTCAATCATGTTTCTTTGATTTTCCTATTTCGAAAATGATTAGTAAGTTGACATTTTTAACAATAAAAATGTCACTTACAACAATCATACATTTCTTCAAAATCCAAACTTTTCAAAATACAAGAATGCAAACTTTCAAGATTCAAGGATGTTCAAAGTTGTTTGTAATCACTTCTTTGAACTAGAATCATTTTCAAAATGTGGAGTAATCAAAGATGATGCCTTTCTAACTTTTAAAGGTTTAGTCTTTGAGATTCAAGACTCCATTTTTCAATATACAAGTTCAAGTTTTCAAATTTCAAGATCCAACAATGTTTAGGGATATTCAGTTAAATATTTTGCAAAAAAAAATAATCAANATGATCTAACATTCAATCAATTATTCTTTGTTTAACTCGTGCATGCATCTGTCGTGCGAGAACTAACCTAATATACAACTATTTCTACGTAAACCAGACTATGAGTTTTTGGTTTTGTTGGTGTAACTAAGCCATTTTTGGCAATACAGATAATAAATGGGGATACTAGGCTACAAGATAGTGGTGTTGGTGGCCGGGTGTTAATGAGCTTATAGAATTCCCGAGTTATTCTAATCGGACTCAGTCAAATCTCGACTCGAGCTCGAGATATGATGGACTCAAATATTTAACGAGTCGAGTCGAGCAACTTGATAGTCGACTCAAAAATCTAGCGAGAAGCTCAATTTATTTATACATATATAATTTTTTTGTAAAGATAAATGTTATATTTATCACTTTTATTCATCATGTGTTTCTTCCTTTTAAAAGAAAAATATACTTGTTTTTTTTCCCTAAAAAGAGTGAATATAGAAATTATTAAGCAAAAAAATATCTAAACCAACAATCAAGATTACACTAATTGGCAGTCAAAAAGTCTTTTAGAGTTACTCCCATATTGGTAAATAAGTGAAGTAGGAAATAAGGAAAGGGTTTTATATTTATTTTGTACCACTTTGGTAAATAAGTGAGGGAGGAAAGAAAGAAATGGTTATATTCATTTTATCCCACATTATTAATTAATTGTGGGAAAAAAGAAGGAAATAATTTTCAGTCTTTTAATGTAAAAGTGTACCAATTACATCCATTGGGCTTCCACTTGGGCTTATGGATATATTGATTTTGGGGTATAAACTTGCTTTTTATAAGATTGGAATTTTATTTGAGTCAAATTTAAACTCAATTTTGGGTTTTCGAGTCGATTTCGAATTAAGTTTGAGCTTGAGTTTGTGTTTTCGAGCCGATTTCGAAACGAATTCGAGCTCGAGTTTTTAGTGTGCTTATGAAAATATAGGGTAGCCCAATGACCTAAATAATGAAGCCTTGTTTTGTGTTTGGCTGTACACAGAGTTGGCTGTACCCGCATCCAAAAATGGCGTCGTTTTGTGTTGTTTAAGATGAATATTATATACTGGTATGGAAATGAACATTTACTATTTGGAAATGAACATTTATTTATTTGTTTTGAAATGAACATTTACTATTCGGGACATGAACATTTATTTATTTATTTGGAAATGAACATTTATTTATTTTTTAGAAAATGAACATTTTTCTACTGATCGTAAGATGCGTATTTAC

mRNA sequence

TTCCATATATACGGACCTCATGCTTTGCCAAAAGTTCAGTGTTATGATAATCATCATCAAAGTTGCAACTTTAGGACACTAAAGTTTTATAGTCCATCTTTTAACCACTCTCACTTCATCTCGCTCCCATTAGCCATACACACTGAACTAATTGATAAGCTCACCGGATTTCAGTCCACCATATTGGGATGTAATGATTCAAAAGATGCAGATGGGACTATGGATGTTGATTCAAGTAACGAGGCATTAGAATATGTGGAAAAAAGTGATAAACCCGTAAAAGTACTAGATGTTCCTGTCAAACTTAAAGTTGATGACACGAACAATGATAAAGGGGATTATCGGTATGCTGTGGAGATGAATCAGACTGAGGTTTTGCATTTACTAGAGTCTCCAGATGCGCTTAAGGCTAAAGTTCAAGAGGCTATAGGCGGAAAATGTTGCTCTAGTTCTCAGATTTTGCTGGCAGTGCTTTATTCAGGTGCCACCAAGATATTGTCGTCGCTTGAACCAGAAGATGCTGACATTAGAATTCATGTTGTGAAAGTTGTTGCAAATTCGGCTGCAGAAGGTAAAGAGCTCCGAACAAATCAGGAGAAGATTGTAGAGGCAGGTGGGATTACTTCCTTGCTGAATCTTCTAAGAAGCTCTGAGGATGAGACCATACATCGAGTTGCTACTGGTGCTATTGCAAATTTAGCAATGAACGAAACCAACCAAGAGCTGATTATGGGCCAAGGAGGTGTCAGTTTACCGATTACTAATGCAGAGGATCCCCAAACCCCTCGCATGATTGCTGGAGCAGTCGCTTACCTTTGTGGCAATGAAAATGAACATTTTTCTACTGATCGTAAGATGCGTATTTAC

Coding sequence (CDS)

TTCCATATATACGGACCTCATGCTTTGCCAAAAGTTCAGTGTTATGATAATCATCATCAAAGTTGCAACTTTAGGACACTAAAGTTTTATAGTCCATCTTTTAACCACTCTCACTTCATCTCGCTCCCATTAGCCATACACACTGAACTAATTGATAAGCTCACCGGATTTCAGTCCACCATATTGGGATGTAATGATTCAAAAGATGCAGATGGGACTATGGATGTTGATTCAAGTAACGAGGCATTAGAATATGTGGAAAAAAGTGATAAACCCGTAAAAGTACTAGATGTTCCTGTCAAACTTAAAGTTGATGACACGAACAATGATAAAGGGGATTATCGGTATGCTGTGGAGATGAATCAGACTGAGGTTTTGCATTTACTAGAGTCTCCAGATGCGCTTAAGGCTAAAGTTCAAGAGGCTATAGGCGGAAAATGTTGCTCTAGTTCTCAGATTTTGCTGGCAGTGCTTTATTCAGGTGCCACCAAGATATTGTCGTCGCTTGAACCAGAAGATGCTGACATTAGAATTCATGTTGTGAAAGTTGTTGCAAATTCGGCTGCAGAAGGTAAAGAGCTCCGAACAAATCAGGAGAAGATTGTAGAGGCAGGTGGGATTACTTCCTTGCTGAATCTTCTAAGAAGCTCTGAGGATGAGACCATACATCGAGTTGCTACTGGTGCTATTGCAAATTTAGCAATGAACGAAACCAACCAAGAGCTGATTATGGGCCAAGGAGGTGTCAGTTTACCGATTACTAATGCAGAGGATCCCCAAACCCCTCGCATGATTGCTGGAGCAGTCGCTTACCTTTGTGGCAATGAAAATGAACATTTTTCTACTGATCGTAAGATGCGTATTTAC

Protein sequence

FHIYGPHALPKVQCYDNHHQSCNFRTLKFYSPSFNHSHFISLPLAIHTELIDKLTGFQSTILGCNDSKDADGTMDVDSSNEALEYVEKSDKPVKVLDVPVKLKVDDTNNDKGDYRYAVEMNQTEVLHLLESPDALKAKVQEAIGGKCCSSSQILLAVLYSGATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDETIHRVATGAIANLAMNETNQELIMGQGGVSLPITNAEDPQTPRMIAGAVAYLCGNENEHFSTDRKMRIY
Relationships

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

Feature NameUnique NameType
Spo00008.1Spo00008.1mRNA


Homology
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BLAST of Spo00008.1 vs. NCBI nr
Match: gi|902193326|gb|KNA12275.1| (hypothetical protein SOVF_127470 [Spinacia oleracea])

HSP 1 Score: 168.3 bits (425), Expect = 2.000e-38
Identity = 95/119 (79.83%), Postives = 99/119 (83.19%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE +DADIRIH VKVVAN AAE     TNQEKIVEAGG+TSLLNLLRSSEDE
Sbjct: 378 GLQKILSLLEADDADIRIHAVKVVANLAAE----ETNQEKIVEAGGLTSLLNLLRSSEDE 437

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGV---SLPITNAEDPQTPRMIAGAVAYLCGNE 277
           TIHRVA GAIANLAMNETNQELIM QGGV   S+  TNAEDPQT RMIAGAVA LCGN+
Sbjct: 438 TIHRVAAGAIANLAMNETNQELIMAQGGVGLLSVTATNAEDPQTLRMIAGAVANLCGND 492
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BLAST of Spo00008.1 vs. NCBI nr
Match: gi|731331387|ref|XP_010676635.1| (PREDICTED: armadillo repeat-containing kinesin-like protein 3 isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 163.7 bits (413), Expect = 4.800e-37
Identity = 92/119 (77.31%), Postives = 98/119 (82.35%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE +DAD+RIH VKVVAN AAE      NQEKIVEAGG+TSLLNLLRSSEDE
Sbjct: 661 GLQKILSLLEADDADVRIHAVKVVANLAAE----EANQEKIVEAGGLTSLLNLLRSSEDE 720

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGV---SLPITNAEDPQTPRMIAGAVAYLCGNE 277
           TI+RVA GAIANLAMNETNQELIM QGGV   S+  TNAEDPQT RMIAGAVA LCGN+
Sbjct: 721 TIYRVAAGAIANLAMNETNQELIMAQGGVGLLSVTATNAEDPQTLRMIAGAVANLCGND 775
[Close]
BLAST of Spo00008.1 vs. NCBI nr
Match: gi|731331389|ref|XP_010676636.1| (PREDICTED: armadillo repeat-containing kinesin-like protein 3 isoform X2 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 163.7 bits (413), Expect = 4.800e-37
Identity = 92/119 (77.31%), Postives = 98/119 (82.35%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE +DAD+RIH VKVVAN AAE      NQEKIVEAGG+TSLLNLLRSSEDE
Sbjct: 654 GLQKILSLLEADDADVRIHAVKVVANLAAE----EANQEKIVEAGGLTSLLNLLRSSEDE 713

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGV---SLPITNAEDPQTPRMIAGAVAYLCGNE 277
           TI+RVA GAIANLAMNETNQELIM QGGV   S+  TNAEDPQT RMIAGAVA LCGN+
Sbjct: 714 TIYRVAAGAIANLAMNETNQELIMAQGGVGLLSVTATNAEDPQTLRMIAGAVANLCGND 768
[Close]
BLAST of Spo00008.1 vs. NCBI nr
Match: gi|947079216|gb|KRH28005.1| (hypothetical protein GLYMA_11G0287001, partial [Glycine max])

HSP 1 Score: 161.4 bits (407), Expect = 2.400e-36
Identity = 89/119 (74.79%), Postives = 96/119 (80.67%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE EDAD+RIH VKVVAN AAE     TNQ KIVEAGG+TSLLNLL+SS DE
Sbjct: 47  GLQKILSLLEAEDADVRIHAVKVVANLAAE----ETNQGKIVEAGGLTSLLNLLKSSHDE 106

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGVSL---PITNAEDPQTPRMIAGAVAYLCGNE 277
           TIHRVA GAIANLAMNETNQELIM QGG+SL      NAEDPQT RM+AGA+A LCGN+
Sbjct: 107 TIHRVAAGAIANLAMNETNQELIMAQGGISLLSMTAANAEDPQTLRMVAGAIANLCGND 161
[Close]
BLAST of Spo00008.1 vs. NCBI nr
Match: gi|947079215|gb|KRH28004.1| (hypothetical protein GLYMA_11G0287001, partial [Glycine max])

HSP 1 Score: 161.4 bits (407), Expect = 2.400e-36
Identity = 89/119 (74.79%), Postives = 96/119 (80.67%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE EDAD+RIH VKVVAN AAE     TNQ KIVEAGG+TSLLNLL+SS DE
Sbjct: 47  GLQKILSLLEAEDADVRIHAVKVVANLAAE----ETNQGKIVEAGGLTSLLNLLKSSHDE 106

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGVSL---PITNAEDPQTPRMIAGAVAYLCGNE 277
           TIHRVA GAIANLAMNETNQELIM QGG+SL      NAEDPQT RM+AGA+A LCGN+
Sbjct: 107 TIHRVAAGAIANLAMNETNQELIMAQGGISLLSMTAANAEDPQTLRMVAGAIANLCGND 161
[Close]
BLAST of Spo00008.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QYE7_SPIOL (Kinesin-like protein OS=Spinacia oleracea GN=SOVF_127470 PE=3 SV=1)

HSP 1 Score: 168.3 bits (425), Expect = 1.400e-38
Identity = 95/119 (79.83%), Postives = 99/119 (83.19%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE +DADIRIH VKVVAN AAE     TNQEKIVEAGG+TSLLNLLRSSEDE
Sbjct: 378 GLQKILSLLEADDADIRIHAVKVVANLAAE----ETNQEKIVEAGGLTSLLNLLRSSEDE 437

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGV---SLPITNAEDPQTPRMIAGAVAYLCGNE 277
           TIHRVA GAIANLAMNETNQELIM QGGV   S+  TNAEDPQT RMIAGAVA LCGN+
Sbjct: 438 TIHRVAAGAIANLAMNETNQELIMAQGGVGLLSVTATNAEDPQTLRMIAGAVANLCGND 492
[Close]
BLAST of Spo00008.1 vs. UniProtKB/TrEMBL
Match: A0A0J8F8H4_BETVU (Kinesin-like protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_5g101760 PE=3 SV=1)

HSP 1 Score: 163.7 bits (413), Expect = 3.300e-37
Identity = 92/119 (77.31%), Postives = 98/119 (82.35%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE +DAD+RIH VKVVAN AAE      NQEKIVEAGG+TSLLNLLRSSEDE
Sbjct: 654 GLQKILSLLEADDADVRIHAVKVVANLAAE----EANQEKIVEAGGLTSLLNLLRSSEDE 713

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGV---SLPITNAEDPQTPRMIAGAVAYLCGNE 277
           TI+RVA GAIANLAMNETNQELIM QGGV   S+  TNAEDPQT RMIAGAVA LCGN+
Sbjct: 714 TIYRVAAGAIANLAMNETNQELIMAQGGVGLLSVTATNAEDPQTLRMIAGAVANLCGND 768
[Close]
BLAST of Spo00008.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CEJ1_BETVU (Kinesin-like protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_5g101760 PE=3 SV=1)

HSP 1 Score: 163.7 bits (413), Expect = 3.300e-37
Identity = 92/119 (77.31%), Postives = 98/119 (82.35%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE +DAD+RIH VKVVAN AAE      NQEKIVEAGG+TSLLNLLRSSEDE
Sbjct: 661 GLQKILSLLEADDADVRIHAVKVVANLAAE----EANQEKIVEAGGLTSLLNLLRSSEDE 720

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGV---SLPITNAEDPQTPRMIAGAVAYLCGNE 277
           TI+RVA GAIANLAMNETNQELIM QGGV   S+  TNAEDPQT RMIAGAVA LCGN+
Sbjct: 721 TIYRVAAGAIANLAMNETNQELIMAQGGVGLLSVTATNAEDPQTLRMIAGAVANLCGND 775
[Close]
BLAST of Spo00008.1 vs. UniProtKB/TrEMBL
Match: A0A0R0HN74_SOYBN (Uncharacterized protein (Fragment) OS=Glycine max GN=GLYMA_11G0287001 PE=4 SV=1)

HSP 1 Score: 161.4 bits (407), Expect = 1.700e-36
Identity = 89/119 (74.79%), Postives = 96/119 (80.67%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE EDAD+RIH VKVVAN AAE     TNQ KIVEAGG+TSLLNLL+SS DE
Sbjct: 47  GLQKILSLLEAEDADVRIHAVKVVANLAAE----ETNQGKIVEAGGLTSLLNLLKSSHDE 106

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGVSL---PITNAEDPQTPRMIAGAVAYLCGNE 277
           TIHRVA GAIANLAMNETNQELIM QGG+SL      NAEDPQT RM+AGA+A LCGN+
Sbjct: 107 TIHRVAAGAIANLAMNETNQELIMAQGGISLLSMTAANAEDPQTLRMVAGAIANLCGND 161
[Close]
BLAST of Spo00008.1 vs. UniProtKB/TrEMBL
Match: A0A0R0HB35_SOYBN (Uncharacterized protein (Fragment) OS=Glycine max GN=GLYMA_11G0287001 PE=4 SV=1)

HSP 1 Score: 161.4 bits (407), Expect = 1.700e-36
Identity = 89/119 (74.79%), Postives = 96/119 (80.67%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE EDAD+RIH VKVVAN AAE     TNQ KIVEAGG+TSLLNLL+SS DE
Sbjct: 47  GLQKILSLLEAEDADVRIHAVKVVANLAAE----ETNQGKIVEAGGLTSLLNLLKSSHDE 106

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGVSL---PITNAEDPQTPRMIAGAVAYLCGNE 277
           TIHRVA GAIANLAMNETNQELIM QGG+SL      NAEDPQT RM+AGA+A LCGN+
Sbjct: 107 TIHRVAAGAIANLAMNETNQELIMAQGGISLLSMTAANAEDPQTLRMVAGAIANLCGND 161
[Close]
BLAST of Spo00008.1 vs. ExPASy Swiss-Prot
Match: ARK3_ARATH (Armadillo repeat-containing kinesin-like protein 3 OS=Arabidopsis thaliana GN=ARK3 PE=1 SV=1)

HSP 1 Score: 154.1 bits (388), Expect = 2.400e-36
Identity = 84/119 (70.59%), Postives = 95/119 (79.83%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE EDAD+RIH VKVVAN AAE      NQ++IVEAGG+TSLL LL+++EDE
Sbjct: 661 GLQKILSLLEAEDADVRIHAVKVVANLAAE----EANQQQIVEAGGLTSLLMLLKNTEDE 720

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGVSL---PITNAEDPQTPRMIAGAVAYLCGNE 277
           TIHRVA GAIANLAMNETNQELIM QGG+ L      NAEDPQT RM+AGA+A LCGN+
Sbjct: 721 TIHRVAAGAIANLAMNETNQELIMDQGGIGLLSSTAANAEDPQTLRMVAGAIANLCGND 775
[Close]
BLAST of Spo00008.1 vs. ExPASy Swiss-Prot
Match: ARK2_ORYSJ (Armadillo repeat-containing kinesin-like protein 2 OS=Oryza sativa subsp. japonica GN=Os06g0137100 PE=2 SV=1)

HSP 1 Score: 152.9 bits (385), Expect = 5.300e-36
Identity = 85/119 (71.43%), Postives = 95/119 (79.83%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE E+ D+R+H VKVVAN AAE      NQEKIVEAGG+TSLL LLRSSEDE
Sbjct: 634 GLQKILSLLESEEPDVRVHAVKVVANLAAE----EANQEKIVEAGGLTSLLMLLRSSEDE 693

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGVSL---PITNAEDPQTPRMIAGAVAYLCGNE 277
           TI RVA GAIANLAMNETNQ+LIM QGGVSL     ++AEDPQT RM+AGA+A LCGN+
Sbjct: 694 TIRRVAAGAIANLAMNETNQDLIMAQGGVSLLSMTASDAEDPQTLRMVAGAIANLCGND 748
[Close]
BLAST of Spo00008.1 vs. ExPASy Swiss-Prot
Match: ARK2_ARATH (Armadillo repeat-containing kinesin-like protein 2 OS=Arabidopsis thaliana GN=ARK2 PE=1 SV=2)

HSP 1 Score: 143.3 bits (360), Expect = 4.200e-33
Identity = 80/119 (67.23%), Postives = 92/119 (77.31%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KIL  LE +DA+IRIH VKVVAN AAE      NQEKIVEAGG+TSLL LLRS EDE
Sbjct: 637 GLQKILQLLESDDANIRIHAVKVVANLAAE----EANQEKIVEAGGLTSLLMLLRSYEDE 696

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGV---SLPITNAEDPQTPRMIAGAVAYLCGNE 277
           T+ RVA GAIANLAMNE +Q+LI+ QGG+   SL   +AEDPQT RM+AGA+A LCGN+
Sbjct: 697 TVRRVAAGAIANLAMNEVSQQLIVDQGGISLLSLTAADAEDPQTLRMVAGAIANLCGND 751
[Close]
BLAST of Spo00008.1 vs. ExPASy Swiss-Prot
Match: ARK1_ORYSJ (Armadillo repeat-containing kinesin-like protein 1 OS=Oryza sativa subsp. japonica GN=Os03g0152900 PE=2 SV=2)

HSP 1 Score: 120.2 bits (300), Expect = 3.800e-26
Identity = 72/145 (49.66%), Postives = 95/145 (65.52%), Query Frame = 1 

		  

Query: 138 KVQEAIGGKCCSSSQILLAVLYSGATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTN 197
           K +E +  +  + S+I   V   G   +L+ L+ ++ +++IH VKVVAN AAE      N
Sbjct: 674 KSRELLSSQRSNISKIFEEV---GLPNVLALLKSDELEVQIHAVKVVANLAAED----VN 733

Query: 198 QEKIVEAGGITSLLNLLRSSEDETIHRVATGAIANLAMNETNQELIMGQGGVSL---PIT 257
           QEKIVE GG+ +LL+LL +SE+ TIHRV  GAIANLAMN +NQ LIM +GG  L     +
Sbjct: 734 QEKIVEEGGLDALLSLLETSENTTIHRVTAGAIANLAMNGSNQGLIMNKGGARLLANIAS 793

Query: 258 NAEDPQTPRMIAGAVAYLCGNENEH 280
              DPQT RM+AGA+A LCGNE  H
Sbjct: 794 KTNDPQTLRMVAGALANLCGNEKLH 811
[Close]
BLAST of Spo00008.1 vs. ExPASy Swiss-Prot
Match: ARK1_ARATH (Armadillo repeat-containing kinesin-like protein 1 OS=Arabidopsis thaliana GN=ARK1 PE=1 SV=2)

HSP 1 Score: 116.7 bits (291), Expect = 4.200e-25
Identity = 80/206 (38.83%), Postives = 122/206 (59.22%), Query Frame = 1 

		  

Query: 75  DVDSSNEALEYVEKSDKPVKVLDVPVKLKVDDTNNDKGDYRYAVE-MNQTEVLHLLESPD 134
           +V    E L   EK  K ++     +K  + ++ N   + RY  E +++       ++  
Sbjct: 719 EVRDMKERLLLEEKQRKQMESELSKLKKNLRESENVVEEKRYMKEDLSKGSAESGAQTGS 778

Query: 135 ALKAKVQEAIGGKCCSSSQILLAVLYSGATKILSSLEPEDADIRIHVVKVVANSAAEGKE 194
                +++++ G+  + +++   V   G  KIL  ++ ED +++I  VKVVAN AAE   
Sbjct: 779 QRSQGLKKSLSGQRATMARLCEEV---GIQKILQLIKSEDLEVQIQAVKVVANLAAE--- 838

Query: 195 LRTNQEKIVEAGGITSLLNLLRSSEDETIHRVATGAIANLAMNETNQELIMGQGGVSL-- 254
              NQ KIVE GG+ +LL L++SS++ TI RVA+GAIANLAMNE +Q+LIM +GG  L  
Sbjct: 839 -EANQVKIVEEGGVEALLMLVQSSQNSTILRVASGAIANLAMNEKSQDLIMNKGGAQLLA 898

Query: 255 -PITNAEDPQTPRMIAGAVAYLCGNE 277
             +T  +DPQT RM+AGA+A LCGNE
Sbjct: 899 KMVTKTDDPQTLRMVAGALANLCGNE 917
[Close]
BLAST of Spo00008.1 vs. TAIR (Arabidopsis)
Match: AT1G12430.2 (armadillo repeat kinesin 3)

HSP 1 Score: 154.1 bits (388), Expect = 1.300e-37
Identity = 84/119 (70.59%), Postives = 95/119 (79.83%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KILS LE EDAD+RIH VKVVAN AAE      NQ++IVEAGG+TSLL LL+++EDE
Sbjct: 661 GLQKILSLLEAEDADVRIHAVKVVANLAAE----EANQQQIVEAGGLTSLLMLLKNTEDE 720

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGVSL---PITNAEDPQTPRMIAGAVAYLCGNE 277
           TIHRVA GAIANLAMNETNQELIM QGG+ L      NAEDPQT RM+AGA+A LCGN+
Sbjct: 721 TIHRVAAGAIANLAMNETNQELIMDQGGIGLLSSTAANAEDPQTLRMVAGAIANLCGND 775
[Close]
BLAST of Spo00008.1 vs. TAIR (Arabidopsis)
Match: AT1G01950.3 (armadillo repeat kinesin 2)

HSP 1 Score: 143.3 bits (360), Expect = 2.400e-34
Identity = 80/119 (67.23%), Postives = 92/119 (77.31%), Query Frame = 1 

		  

Query: 161 GATKILSSLEPEDADIRIHVVKVVANSAAEGKELRTNQEKIVEAGGITSLLNLLRSSEDE 220
           G  KIL  LE +DA+IRIH VKVVAN AAE      NQEKIVEAGG+TSLL LLRS EDE
Sbjct: 658 GLQKILQLLESDDANIRIHAVKVVANLAAE----EANQEKIVEAGGLTSLLMLLRSYEDE 717

Query: 221 TIHRVATGAIANLAMNETNQELIMGQGGV---SLPITNAEDPQTPRMIAGAVAYLCGNE 277
           T+ RVA GAIANLAMNE +Q+LI+ QGG+   SL   +AEDPQT RM+AGA+A LCGN+
Sbjct: 718 TVRRVAAGAIANLAMNEVSQQLIVDQGGISLLSLTAADAEDPQTLRMVAGAIANLCGND 772
[Close]
BLAST of Spo00008.1 vs. TAIR (Arabidopsis)
Match: AT3G54870.1 (Armadillo/beta-catenin repeat family protein / kinesin motor family protein)

HSP 1 Score: 114.8 bits (286), Expect = 9.000e-26
Identity = 79/205 (38.54%), Postives = 121/205 (59.02%), Query Frame = 1 

		  

Query: 75  DVDSSNEALEYVEKSDKPVKVLDVPVKLKVDDTNNDKGDYRYAVE-MNQTEVLHLLESPD 134
           +V    E L   EK  K ++     +K  + ++ N   + RY  E +++       ++  
Sbjct: 719 EVRDMKERLLLEEKQRKQMESELSKLKKNLRESENVVEEKRYMKEDLSKGSAESGAQTGS 778

Query: 135 ALKAKVQEAIGGKCCSSSQILLAVLYSGATKILSSLEPEDADIRIHVVKVVANSAAEGKE 194
                +++++ G+  + +++   V   G  KIL  ++ ED +++I  VKVVAN AAE   
Sbjct: 779 QRSQGLKKSLSGQRATMARLCEEV---GIQKILQLIKSEDLEVQIQAVKVVANLAAE--- 838

Query: 195 LRTNQEKIVEAGGITSLLNLLRSSEDETIHRVATGAIANLAMNETNQELIMGQGGVSL-- 254
              NQ KIVE GG+ +LL L++SS++ TI RVA+GAIANLAMNE +Q+LIM +GG  L  
Sbjct: 839 -EANQVKIVEEGGVEALLMLVQSSQNSTILRVASGAIANLAMNEKSQDLIMNKGGAQLLA 898

Query: 255 -PITNAEDPQTPRMIAGAVAYLCGN 276
             +T  +DPQT RM+AGA+A LCGN
Sbjct: 899 KMVTKTDDPQTLRMVAGALANLCGN 916
[Close]
BLAST of Spo00008.1 vs. TAIR (Arabidopsis)
Match: AT3G16230.2 (Predicted eukaryotic LigT)

HSP 1 Score: 53.5 bits (127), Expect = 2.500e-7
Identity = 34/83 (40.96%), Postives = 48/83 (57.83%), Query Frame = 1 

		  

Query: 31  SPSFNHSHFISLPLAIHTELIDKLTGFQSTILG----CNDSKD-----ADGTMDVD-SSN 90
           SPS ++SHF+SLPLAIH EL+DKL  FQ++ILG     +D +D     A  ++ VD  +N
Sbjct: 173 SPSLDYSHFVSLPLAIHPELVDKLVNFQNSILGIHSIASDKQDDQANRATTSVAVDLKAN 232

Query: 91  EALEYVEKSDKPVKVLDVPVKLK 104
                V    K + ++  P K K
Sbjct: 233 SETNQVNVGIKSIPIVSYPPKAK 255
[Close]
BLAST of Spo00008.1 vs. TAIR (Arabidopsis)
Match: AT4G34110.1 (poly(A) binding protein 2)

HSP 1 Score: 49.3 bits (116), Expect = 4.700e-6
Identity = 29/52 (55.77%), Postives = 37/52 (71.15%), Query Frame = 1 

		  

Query: 118 VEMNQTEVLHLLESPDALKAKVQEAIGGKCCSSSQILLAVLYSGATKILSSL 170
           +EM+QTEVLHLLESP+ALKAKV EA+         +L +V   GAT+ L+SL
Sbjct: 583 LEMDQTEVLHLLESPEALKAKVAEAM--------DVLRSVAAGGATEQLASL 626
The following BLAST results are available for this feature:
BLAST of Spo00008.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902193326|gb|KNA12275.1|2.0e-3879.8hypothetical protein SOVF_1274... [more]
gi|731331387|ref|XP_010676635.1|4.8e-3777.3PREDICTED: armadillo repeat-co... [more]
gi|731331389|ref|XP_010676636.1|4.8e-3777.3PREDICTED: armadillo repeat-co... [more]
gi|947079216|gb|KRH28005.1|2.4e-3674.7hypothetical protein GLYMA_11G... [more]
gi|947079215|gb|KRH28004.1|2.4e-3674.7hypothetical protein GLYMA_11G... [more]
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BLAST of Spo00008.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9QYE7_SPIOL1.4e-3879.8Kinesin-like protein OS=Spinac... [more]
A0A0J8F8H4_BETVU3.3e-3777.3Kinesin-like protein OS=Beta v... [more]
A0A0J8CEJ1_BETVU3.3e-3777.3Kinesin-like protein OS=Beta v... [more]
A0A0R0HN74_SOYBN1.7e-3674.7Uncharacterized protein (Fragm... [more]
A0A0R0HB35_SOYBN1.7e-3674.7Uncharacterized protein (Fragm... [more]
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BLAST of Spo00008.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
ARK3_ARATH2.4e-3670.5Armadillo repeat-containing ki... [more]
ARK2_ORYSJ5.3e-3671.4Armadillo repeat-containing ki... [more]
ARK2_ARATH4.2e-3367.2Armadillo repeat-containing ki... [more]
ARK1_ORYSJ3.8e-2649.6Armadillo repeat-containing ki... [more]
ARK1_ARATH4.2e-2538.8Armadillo repeat-containing ki... [more]
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BLAST of Spo00008.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 5
Match NameE-valueIdentityDescription
AT1G12430.21.3e-3770.5armadillo repeat kinesin 3[more]
AT1G01950.32.4e-3467.2armadillo repeat kinesin 2[more]
AT3G54870.19.0e-2638.5Armadillo/beta-catenin repeat ... [more]
AT3G16230.22.5e-740.9Predicted eukaryotic LigT[more]
AT4G34110.14.7e-655.7poly(A) binding protein 2[more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000225ArmadilloPFAMPF00514Armcoord: 198..234
score: 2.
IPR000225ArmadilloPROFILEPS50176ARM_REPEATcoord: 205..248
score: 15
IPR002004Polyadenylate-binding protein/Hyperplastic disc proteinGENE3D1.10.1900.10coord: 119..143
score: 1.
IPR002004Polyadenylate-binding protein/Hyperplastic disc proteinPFAMPF00658PABPcoord: 119..143
score: 1.
IPR011989Armadillo-like helicalGENE3D1.25.10.10coord: 147..277
score: 5.4
IPR016024Armadillo-type foldunknownSSF48371ARM repeatcoord: 133..276
score: 4.03

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:0007018 microtubule-based movement
cellular_component GO:0005871 kinesin complex
cellular_component GO:0005874 microtubule
cellular_component GO:0045298 tubulin complex
molecular_function GO:0005524 ATP binding
molecular_function GO:0008017 microtubule binding
molecular_function GO:0003777 microtubule motor activity
molecular_function GO:0003723 RNA binding
molecular_function GO:0005488 binding
molecular_function GO:0005515 protein binding
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo094500.67Barchart | Table