Spo18691.1 (mRNA)

Overview
NameSpo18691.1
TypemRNA
OrganismSpinacia oleracea (Spinach)
DescriptionPreprotein translocase subunit SecA
LocationSuper_scaffold_175 : 555631 .. 586530 (+)
Sequence length618
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.
ATGCTTAAAGCTTATGTGTTTGCAATGTTCAATGAGGATGACAAACCTGGGCCAAATTTTGAGAGGAATTTTGGGCTTTGGAAACCTGATGGCAGCATCTCGTATGATGTGGGTTTTCCTGCATTGAAGTCAACTGCTTTAGCTATATCACCCTTCTCCATAAAGGTACACATTTGATTAATTTATTTGTTTTTATTCTAGTAGTAGACTTGACTAAACTGGTGTAACGCCCCGACCTCTAAATCACTTATTAAAGCATAATTAGCAGCGGAATTACCCTGATTTGGTCGGGACATTACCTGCCGTAATTCCCTCTTGGAAATTACAAGGCAAACATCAATCTTAAGCTATTAATTACTCTGAAAATATATAATACTCCTTTATAATACCAAAATAAAAGTTCATAACTTACTAAAAGTCTTGAATTAAACTATTAAAACTTTAAACATAAACTAGGTGAATAATAATAAAGTGAAATTCCTCGCCACTACTCGTTTCCATCGTTCCCCGCAGTACCTAAAACAGAAAACAAAATAACGGTGAGCCGAAGACTCAGTAACGAACTATTCTAGCAACGTAAATTCATTTCAATTCATTTTATTTAATAACACAGGGAGAATAGAATAATGTAAAACATTTTATAAAGTCCTTTATTTAATTCATTCATAACTTTTGGGTGCACATGCTAGTCGTGGCAAGTATGACATGGTGGAACGTCTTCCACGATGGACCGCTGTCCATAAACATGGGGCCTTGGCCCGAAAACATGAGAGCCTTGGCTCAATGGGCGGATGCCCCATGGGTACATGCATGACCGAGAATCGTAACCTGTGAACATATACTGCCAAACGGACTAGGAATTTCACTTTCATTTATCATGTTTCGTTTGATTTTACATTTTAGTCTTTTTACTTCAGTTGAAGTAACATAATTCCTTTGGATCATAAGATCAAACATCCTTTCTTTCATGGTTTCTTATAAACAGCATTTTATAAGAAATTCAATCAATCATCATAGCATTTTATAATCAATCATAAAATAAGGAATAATTCAAATCATATTATAATAAATTATTCAATAAAATCATACTTCATTTCCCGCAATTCATAAAACATGTCAAAACATTCATTTAATAAATCAATCATACATTGTAATTTCATAATCACATTTATAAGGGAATTGCGGGTACTAGCAATAGCCGTTACCTAACTCCACGATTTCCTAGGGATTTTCCTTGGTTCGTTCGTCCTGAGCTCCGAGTTCAATTCTTTCAAAATATTAAATCATTGAATTAGTACTAAATCGATAAATAATTTAAAATCAATATTTTATAAATCATAACCTTTATAAATCAAGAATTTTATAAATAACGAATTTTAATATAAATATAATTTCATAACTTAATGAAAATATTATTAATTGAAATTTTAATCGAATATATATTTATTTCATAAATCGGTTTTCATGAAAATCTTATTTAAATTCTGTTTTTGTTAATCCAAGATAATAATTTATTTTAGTAAAATCCATATTTGATAATTAAACCTGAAAAATAATAACAATTTATTAGTAAATAATTATATCATAAAAAAAACAATATTAAAACATGAAAATTAATAGTTAGAGAATCTGAAATTTAATAGTTAGGAAATCTGAAATAGTAATTCAAAGTTTAACTCACCAAAGGCCCAAGTTAGAATAGCCCAACTCAAGTATGGATTTGATGTGAATAAAATTCAAGGTTTCAAGAAACCTGATTTTCGGTTCTTCTGGGAAAGGGAATAGAAACAGGGGAGGGGGCACGAAGAAGAGCAGGGGAGGAAAGAGAGGAGGAAGGAAGGGAAAGGTGGTCGGCTGGGCGGCTCGGTGTCGGATGCGACGGTGAGGGTGGTGGTTGTGCGGTGGACGAACGACAAGAGATAAGAGGTAGGGGTACGACAGAGCAGAGCACAGGGAAGAGGGGGGGAAGAAGGTGGCCGACTGGGTGTCTGGCTGGGCGTCGCAGATGGGTTGCGACGGTGATGGCGGTGGTTTGGTGGCAGAGGAACGGCGAGGGAGACAGAAAATGGAGCACGAAGTGAGTGAAAACAGGGGAAATTCGGGTTTGTTTCTGGGTGGTTTTGGGCGGCGGCTCGCCGGAATTGAGGGCGGAGGTGGTTGACGAGATGGTGAGGGTGGCTGGGGGTGGTGGTGTGTGGTGTGGTGTTGGTGCGGGTGGTGCAGCGAAGAGAAAAGGGGAGAGGCAGGGGAGTGCGAAGCGGGGAAGCAGGGGACGGTGGTTGAGTACGGTGGTGTTTCTGGCTGGCCGAGTGGTGCTGGGGTGGTGGTCGAACAGTGGTGGGAATGGTGGTGGTCGGTGGCTGTTGTGGTGGTTAATGGTGGTTGCAGCACGGTGGTGCCGTGAAAGGAAGAAGGAGGGAAGCTTTGGTGGGTTGTTGGTTCGAAACAGAGAGGAGAATTAGAATTGAAAATTGGTTTTGATTTTGTGATGTTGAATTCCAATTGGTACTATGACTGATTTGTATAGTCAAGAAGATTGAATGGAAAGGAAAAGTCCTTGGTCTCCAAGGCAGGAATGTAGACAGAATTCAAGGAAAGGAGTGGAAACATACGTGGAGAGGGGGGGAAGAAGAAGAGAAATGGAATTTTTCTCTTTCAAGGGCATTTTTGTAATTTCACAAGATTAGGCTAAAATTCTGAAAAAAAATTGGTTTCTATTTTTAGGAAATTAATTAGAATAGAGATGTTTAATTAAAACTAAGTTTCAAGATAATCTTTTATAAAAATATCGTTAACGAAAAATAAATTTAGTTTTTGAATAGAATAAGAACGTTTCGAAATTATTTAAAAATCCGAAATAATTAACGAAATAACTAAAATAAATAGCTTAAACTCGTAACTTTTTAAATTAAATCATGGAATCTGAAAAATAATAAATCGTGTAATAATATTAAAAATTCAAGTGAAGTAAACTTCGTTAATTAAAATAAAGTTCGAATTTAGGATTTAAAAACGGTTTTAAGCTAAATAAAAATAATTAAGCATAATTAATCGAGTTTTAAAAATTCGGGGTATTACAACTGGGCAGTGGACTGACGGTCTCCTTTGTCAAAACTTATGAAAGCGTCATCATGTTGATCTAAGATTAATGAACATTGCTTCAAGAAATATGACGACTTCCATAATAAATTACACAGTGTCTATTCGTTATTGTATTGCTTTTATCTCCTGCCTTTTGTGGACATATTCGTATATGTAAGTGTTTATCATTGCTGGAGATAAGGAGTTAGTATTTACATATCTCTTTCCTTGAATCAAGGACAAGCCGTTGTACGAGCAATGCTAGTTTACGTACTATTTGTGTGACCCTACGGGTTCAGTCAAGAGTAAGCTGTGGATTAATATCATTAATTCCACTTGAACTGAAGCGGCCTCTAGCTAGGCATTCAGCTCACTTGATCTCACTGAATTATTAACTTGTTAATTAATACTGAACCGCATTTATTAGACTTAACATTGAATGCATACTTGGACCAAGGGCATTATTTCCTTCAGTCTCCCACTTGTCCTTAGGGACAAGTGTGCATTTCCTAATTCCTTTGTCGCTCGATGCTTGCTCTTGAACATAAGGTAAGAGTTGTCATCCTTATTATGTCCAGAGGTGTTCCTCGGTTTCAGAGTTCAACTGATCAAATAAACAGATAATCATAGCCTATGATTCATCTGAGCACGGCCATGCATTTCACAGTTTCTAGCTCTCCGAGTGGCCTTGTACAACTTTTAAGCATCTCATCCCGATTTATGGGAGGACAATCCCAATCTTGCGATCTTAAGATTAGACTTCGTTTGATAGGTGATTACCTGAGCGTTGCCTTTATAGCCTCCTTTTACGGTGCGACGGTTGGTCAACGTCAAAGCAACCAGTTCTCAAACAAGTAATCTCAAATCACTCAGGTATTGAGGATTTAGTGTCTAATAATTTTATTGAAATTTACTTATGACAGATTTTCATCTCTTACAGTAAAGTTTCATAGGTCTTGTCCGATACTAGTCTTCCCAAAGTAAGTATCTATGCAAATGATTATGACATTGCCATGTCCACATAGTTCAAGAAACAGAACTACTAGTCATCTTGCATTCTAATCGTCTAACGTTTTCTATGCGTCCAATTTTATAGAAAACTCCGACTAGGGACCATTTTCAACCTTTGACATTCAAGTTCACTTGATAGACATTTCTTAGTCACAGGACTGGTCCTGACAGTCTATCTTGAATATATCGTCAAATTGAAGGGACTCATCATTTAATAAACCACAAATTAAATGGAAAAATGAATTCTTTTCATTTATTGTGAATGATTAACCAATAATGTTTTACAAAGATTTAAACTCTAAAACTTTAAAACATTAAACAGAGACATCAAAGCCATTCTCCAATATGCTTGATTCCCATAGCTGCAGTGTGCGAGTTGTGCTTCGCCTGCGGCAGAGGTTTAGTTAATGGATCTGATATGTTGTCATCAGTTCCAATTTTGCTTATCTCGACTTCTTTTCTTTCAACGAACTCTCGTAGAAGGTGAAATCTACGAAGTACATGCTTGACTCTCTGGTGGTGTCTAGGCTCTTTTGCCTGTGCAATAGCTCCGTTATTATCACAATACAGGGCTATTGGTCCTTTAATGGAGGGGACTACACCAAGTTCTCCTATGAACTTCCTTAGCCATATAGCTTCCTTTGCTGCTTCATGTGCAGCAATGTACTCCGCTTCAGTTGTAGAATCCGCAATGGTGCTTTGCTTAGCACTTTTCCAGCTTACTGCTCCTCCGTTGAGGCAGAAGACAAACCCAGACTGTGATCTGAAATCATCTTTGTCGGTTTGGAAACTTGCGTCCGTATAGCCTTTAACAATTAATTCATCATCTCCACCATAGACCAGGAAGTCATCTTTGTGCCTTTTCAGGTACTTCAGAATATTCTTGGCAGCAGTCCAATGCGCCTCTCCTGGGTCTGACTGGTATCTGCTCGTAGCACTGAGTGCGTACGCAACATCCGGGCGTGTACATATCATAGCATACATTATTGAACCAATCAATGATGCATATGGAATCCCATTCATTCGTCTACGCTCATCAAGTGTTTTTGGGCACTGAGTCTTGCTTAGAGTCATTCCATGAGACATGGGTAGGTAGCCTCGCTTGGAGTCCGCCATCTTGAACCTATCAAGCACCTTATTGATATAAGTGCTTTGACTAAGTCCAATCATCTTTTTAGATCTATCTCTGTAAATCTTGATGCCCAATATGTACTGTGCTTCTCCTAGATCCTTCATCGAAAAACATTTCCCAAGCCAAATCTTGACAGAGTTCAACATAGGAATGTCATTTCCGATAAGCAATATGTCGTCGACATATAATACTAGGAAAGCAATTTTGCTCCCACTGACCTTCTTGTATACACAAGATTCGTCCGCGTTCTTGATGAAACCAAAGTCACTGACTGCTTCATCAAAACGTATATTCCAGCTCCTGGATGCCTGCTTCAATCCGTAGATTGACTTCTTTAGCTTGCATACCTTTTTAGCATTCTTTGGATCCTCAAAACCTTCAGGCTGTGTCATAAACACAGTTTCTGTTAAAACGCCGTTTAAGAAAGCAGTTTTGACATCCATCTGCCATATTTCGTAATCGTAATATGCAGCGATTGCTAACATTATTCGAATAGACTTTAGCATTGCAACTGGTGAAAAGGTTTCATCGTAATCCACACCGTGGACTTGCCTGTAACCTTTTGCAACCAATCTAGCTTTGAAAACTTCAAGTTTCCCATCCTTGTCCTTTTTCAGTTTGAAAACCCATTTGCTTCCAATGGCTTGGTAGCCATCTGGCAAATCGACCAAATCCCATACTTGGTTTTCAGACATGGAGTCTAATTCAGATTGCATGGCTTCTTGCCATTGCTTGGAGCTAGGGCTCGTCATAGCTTGCTTGTAAGTCGCAGGTTCATCACTTTCAAGTAATAGAACGTCATAGCTCTCGTTCGTCAAAATACCTAAGTACCTTTCCGGTTGAGATCTATATCTTTGCGATCTACGCGGGGTAACATTTCTAGATTGACCATGATTCTCACCAGATTCTTCTAAAGATCTCTGAGTTTCATCCTGAATGTCATCTTGAGCATTCTCTAGAGTTTGTTGTTCGACTCGAATTTCTTCGAGGTCTACTTTTCTCCCACTTGTCATTTTGGAAATGTGATCTTTCTCCAAAAAGACACCATCTCGAGCAACAAACACCTTGTTCTCAGATGTATTGTAGAAGTAATACCCCTTTGTTTCCTTTGGATAGCCCACAAGGATACATTTGTCAGATTTTGGATGAAGTTTGTCTGAAATTAATCGTTTGACGTATACTTCACATCCCCAAATCTTAAGAAAAGACACATTTGGAGGCTTTCCAAACCATAATTCGTATGGAGTCTTTTCGACAGCTTTAGACGGAGCTCTATTTATAGTGAGTGCAGCTGTATTTAGTGCATGTCCCCAAAATTCTAATGGAAGTTCGGCCTGACCCATCATTGACCTGACCATGTCTAGCAAGGTTCTGTTCCTCCGTTCCGACACACCGTTCCATTGTGGTGTTCCAGGAGGAGTCAATTCTGATAGAATTCCACATTCTTTCAGATGGTCATCAAATTCATAGCTCAGATATTCACCGCCTCTATCAGACCGCAGTGCCTTAATCTTCTTGCCTAATTGATTCTCTACTTCACTCTGAAATTCCTTGAATTTGTCAAAGGATTCAGACTTATGCTTCATTAGGTAGACATAACCATACCTACTGAAGTCATCAGTGAAAGTGATAAAGTAGCTGAAACCACCTCTAGCATTTGTACTCATTGGTCCACATACATCTGTATGGATTAAACCCAATAGTTCATTTGCTCTTTCTCCAACTTTAGAGAAAGGTTGCTTTGTCATTTTGCCAAGTAAACATGATTCGCATTTACCATAATCCTCTAAGTCAAATGGTTCTAGAATTCCTTCTTTTTGAAGTCTTTCTAAGCGTTTCAAGTTTATATGGCCTAATCGACAATGCCACAGATAGGTGAGATCTGAATCATCCTTTTTGGCCTTTTTGGTATTTATGTTATATACTTGTTTGTCGTGATCTAATAAATAAAGTCCATTGACTAATCTAGCAGATCCATAAAACATCTCTTTAAAATAAAACGAACAACTATTGTCTTTTATTAAAAAGGAAAATCCCTTAGCATCTAAGCAAGAAACTGAAATGATGTTTTTAGTAAGACTTGGAACATGGAAACATTCTTCCAGTTCCAAAACTAGCCCGGAGGGCAACGACAAATAGTAAGTTCCTACAGCTAATGCAGCAATCCGTGCTCCATTTCCCACTCGTAGGTCGACTTCACCCTTGCTTAACTTTCTACTTCTTCTTAGTCCCTGTGGATTGGAACATAAGTGTGAGCCACAACCTGTATCTAATACCCAAGAAGTTGAATTAGCAAGTATACAGTCTATAACGAAAATACCTGAAGATGGAACGACTGTTCCGTTCTTCTGATCTTCCTTTAGCTTCAAGCAATCTCTCTTCCAATGCCCCTTCTTCTTGCAGTAGAAGCATTCGGATTCAGAAGTGGGTTGACTGACCTTCCTCTTTACAGATTTGGCGCCAGTTTGCTTAGTTGGGCTGGCCTTGTTGCCACCTTTCTTAGCATTCCTCTTCTTTCCAGATTTCTTGAACTTGCCCCCACGCACCATAAGCACATCCTGCTTATCACTTTTGAGCGTCTTTTCAGCGGTCTTCAGCATACCGTGAAGCTCAGTGAGCGTTTTGTCCAGACTATTCATACTGTAGTTCAGTTTGAACTGATCATACCCGCTATGAAGAGAATGGAGGATGGTGTCTATAGCCATTTCCTGAGAAAATTGTTGATCCAGCCGACTCATATTCTCAATGAGTCCAATCATTTTGAGAACATGTGGACTTACGGGCTCGCCTTTCTTAAGCTTGGTCTCAAGAATTTGCCTATGAGTCTCGAATCTTTCGACTCGAGCCAGATCTTGGAACATGTTCTTCAACTCACTGATGATTGTGAAAGCATCTGAGTTGATGAACGTTTTCTGCAGATCCGCACTCATGGTGGCGAGCATTAGACATTTCACATCCTTGTTGGCATCAATCCAACGATTGAGGGCTGCCTGAGTGACCCCGTCGCCTGCGGCTTCGGGTATCGCCTCTTCTAGGACATACTCCTTTTCTTCCTGCATAAGAACTATTTGCAAGTTCCTTTGCCAGTCAAGGAAGTTTTTCCCGTTCAACTTCTCCTTTTCGAGAATTGATCGAATGTTGAATGAATTGTTGTTTGCCATATTAAAAACTACAATTGAAAAGAATAAACAAATAAATAACCATTCACAGTTTCTCTTAATAAACTTAAATTCTAGCATACATGCATAACTCAATGTTTATTAAGCATTTTATTCAAGTTATGTGTTCCGGCAGGTGTGAATAAAATGATTCCAAGATCCTAAAATCATTGAAGAACTAAGCACAGTTTGTCGACTTAATATTGGTTTTCCCTTGTATGTTTTCTTTTGTGTATTTCACATTTTCCTGATAATGCAATTTTCTGCTCTTTGATGTCAAACTATCTCTTCCTTTCCTGATAATATATTCTATGGTTAGAACGAAAATTTCCAGAATGAACTTTATTATTTCAGTGGTAGGATTTACTTAAGAAAAGATCCAATAATCCAATTGTTATCTTTGTTTTGTGTCTATTCGGCCGAGGAACACTTCCTCTATTAGCATATGATCAGCTTCCAATTTTTGTCATTTTTTCTGCTGTAGTGGTAACTGTCAACGATTATCTTACTCGTCGTGATGCTGAGTGGATGAGCAGTGTTCATCATTTCCTTGGTCTATCAGTTGGTCTCATTCAGGTAAATTTTTCAAATGTGAATTTGAGTTGTGCTTGTCTTTCATTTACGTCCGCATTATCTTGGACGTTGGGTCATGCCTACTGTTGTTTTTTGATTTCCTGCTCTGCATCTTGATTTTTATTCTCCTATTTATAAGTGTAGAAGGGAATGAAGGCTGAGGAGAGGAGATCCAACTATAGATGTGATATAACTTATACCAACAATTCAGTATGTAGCTTTTAGATCATTTCTCTTAGTTTTGGCTTATTTTTCATTTTTTCTCTGCTGGAAACTCGGAAGCTGTCACTTGCTCTTGTGGCAACTTCTTGATGTGCCTGGTACACTGTCTTATAATTGGATTCTATCGTTTTGTCCGCAGCGCCATGTTTTGGAACTGAATCATGTGTGCCTCATTTTTTGCAAAATTTAGGAACTTGGTTTTGATTATCTGCGGGACATGCAACCTTGCTGGAACTAGTGGAGAGCTTGTGATGAGATGGTACTTCTCCAAATAATATTGAATTTCTGTTTGATTTTTCTTTTTTTCCCCTATGAGAGTTTAATCTAGAAATTGTAAACAGGCCAAAGCCATTTCATTTTGCAATTTTTGATGAGGTCGATTCTGTTCTTATTGATGAGGGCAGAAACCCTTTACTGATAAGTGGACAGGTAATCTTCTTTCTATGTATAGGATGGGGTAATAGTAAATTTCCTTGATAATTATAACTATGTGATTATATTGGAGGTCCACCAGCATCCCTCTGAAAGTGTGTCTCTCGGTATATATTTAGGCCAATGAAGATGCTGCCCGATACCCTGTTGCTGCCAAAGTAGCGGATTTGCTTGTGCGGGGTATTGTAAGTTTTTGTTAGGTTATGATACATATGACATTTACATAGATCATGCGGAAACAACCATTAACCCAGGAAACATATTATTTACACATAATCATATAGCATAATTAGATGCATACTCTTTGTTGCGTGCCTTCCCTAGCTGCGCCCGAACCGAACAAGAACAAGTCTTTTAGGACTCCAAGTGTCGTCCCTCCGTAGAAAGTCCACAGCACGTCCGGATCCGCCTTAAGATTGACCAACTAGAATCGCCCTTAAGGTACTCAGAAAATTCGGCACTTTTGGGGCAAGATGGGTGTTTGAATTTTCTCTCAAAAACCTCACTTTTGAATACTTTGAAACTTGTGTATAAATTATGACCCCTAGGCCTTTATTTATAGAGTTATGGAAAAGGAATCGTAATCCTAGTAGGATGCGAATTAATTGGAATTAGAATTCTACATGAATTCTACTTAATCAATTTATCCAATAGGAATAGACATTTAATCATACACTGACTCTTGCAGATTCAGGAATCTCGCATGAGCTCAAACTCACACACACACGGCAGCCACAAGGGCTGCCCACGCATGCGAGCAGCAGCCCACGCAGCGCGGCCCACGCATGCGCGGCCTTGTGCGCGCTGGGCTGTGGCGTGCGTGCTTGCTGGGCGATGGCCTGGCTTCGTGCTGGGCCTTCGTCCGGCAGGCCTCGTCCGATGCTAATTCGTACGATACGCTTCCGATTAAATTTCCATTTCCGGAATCTATTTCCGATACGAACAATATTTAATATTTCCGATTCCGGAATTAATTTCCGTTTCGAACAAATATTTAATATTTCCGTTTCCGGAATTATTTTCCGATTCCGGTAATATTTCCGATTCTGACAATATTTCCGTTTCCGGCAATATTTCCGATTCTGGTAATATTTCCATTTCCAATAATATTTTCCGATACGTACCATGTTTCCGTTTCCGGCAACATCTACGACTTGGATAATATTCATATTTCCGATACGATCCATATTTCCGTTTCCGGCAATATCATCGTTTCCGGAGTATTCATTTCTTGCCTGTGACGATCTTAGCTCCCACTGAAACCAAGATCCGTCGGTTCCGAATATTCATAGATGGAGTATTTAATGCCATTAAATACTTGATCCGTTTACGTACTATTTGTGTGACCCTACGGGTTCAGTCAAGAGTAAGCTGTGGATTAATATCATTAATTCCACTTGAACTGAAGCGGCCTCTAGCTAGGCATTCAGCTCACTTGATCTCACTGAATTATTAACTTGTTAATTAATACTGAACCGCATTTATTAGACTTAACATAGAATGCATACTTGGACCAAGGGCATTATTTCCTTCAGTCTCCCACTTGTCCTTAGGGACAAGTGTGCATTTCCTAATTCCTTTGTCGCTCGATGCTTGCTCTTGAACATAAGGTAAGAGTTGTCATCCTTATTATGTCCAGAGGTGTTCCTCGGTTTCAGAGTTCAACTGATCAAATAAACAGATAATCATAGCCTATGATTCATCCGAGCACGGCCATGCATTTCACAGTTTCTAGCTCTCCGAGTGGCCTTGTACAACTTTTAAGCATCTCATCCCGATTTATGGGAGGACAATCCCAATCTTGCGATCTTGAGATTAGACTTCGTTTGATAGGTGATTACCTGAGCGTTGCCTTTATAGCCTCCTTTTACGGTGCGACGGTTGGTCAACGTCAAAGCAACCAGTTCTCAAACAAGTAATCTCAAATCACTCAGGTATTGAGGATTTAGTGTCTAATAATTTAATGAAATTTACTTATGACAGACTTTCATCTCTTACAGTAAAGTTTCATAGGTCTTGTCCGATACTAGTCTTCCCAAAGTAAGTATCTATGCAAATGATTATGACATTGCCATGTCCACATAGTTCAAGAAACAGAACTACTAGTCATCTTGCATTCTAATCGTCTAACGTTTTCTATGCGTCCAATTTTATAGAAAACTCCGATTAGGGACCATTTTCAACCTTTGACATTCAAGTTCACTTGATAGACATTTCTTAGTCACAGGACTGGTCCTGACAGTCTATCTTGAATATATCGTCAAATTGAAGGGACTCATCATTTAATAAACCACAAATTAAATGGAAAAATGAATTCTTTTCATTTATTGTGAATGATTAACCAATAATGTTTTACAAAGATTTAAACTCTAAAACTTTAAAACATTAAACAGAGACATCAAAGCCATTCTCCAATATGCTTGATTCCCATAGCTGCAGTGTGCGAGTTGTGCTTCGCTTGCGGCAGAGGTTTAGTTAATGGATCTGATATGTTGTCATCAGTTCCAATTTTGCTTATCTCGACTTCTTTTCTTTCAACGAACTCTCGTAGAAGGTGAAATCTACGAAGTACATGCTTGACTCTCTGGTGGTGTCTAGGCTCTTTTGCCTGTGCAATAGCTCCGTTATTATCACAATACAGGGCTATTGGTCCTTTAATGGAGGGGACTACACCAAGTTCTCCTATGAACTTCCTTAGCCATATAGCTTCCTTTGCTGCTTCATGTGCAGCAATGTACTCCGCTTCAGTTGTAGAATCCGCAATGGTGCTTTGCTTAGCACTTTTCCAGCTTACTGCTCCTCCGTTGAGGCAGAAGACAAACCCAGACTGTGATCTGAAATCATCTTTGTCGGTTTGGAAACTTGCGTCCGTATAGCCTTTAACAATTAATTCATCATCTCCACCATAGACCAGGAAGTCATCTTTGTGCCTTTTCAGGTACTTCAGAATATTCTTGGCAGCAGTCCAATGCGCCTCTCCTGGGTCTGACTGGTATCTGCTCGTAGCACTGAGTGCGTACGCAACATCCGGGCGTGTACATATCATAGCATACATTATTGAACCAATCAATGATGCATATGGAATCCCATTCATTCGTCTACGCTCATCAAGTGTTTTTGGGCACTGAGTCTTGCTTAGAGTCATTCCATGAGACATGGGTAGGTAGCCTCGCTTGGAGTCCGCCATCTTGAACCTATCAAGCACCTTATTGATATAAGTGCTTTGACTAAGTCCAATCATCTTTTTAGATCTATCTCTGTAAATCTTGATGCCCAATATGTACTGTGCTTCTCCTAGATCCTTCATCGAAAAACATTTCCCAAGCCAAATCTTGACAGAGTTCAACATAGGAATGTCATTTCCGATAAGTAATATGTCGTCGACATATAATACTAGGAAAGCAATTTTGCTCCCACTGACCTTCTTGTATACACAAGATTCGTCTGCGTTCTTGATGAAACCAAAGTCACTGACTGCTTCATCAAAACGTATATTCCAGCTCCTGGATGCCTGCTTCAATCCGTAGATTGACTTCTTTAGCTTGCATACCTTTTTAGCATTCTTTGGATCCTCAAAACCTTCAGGCTGTGTCATAAACACAGTTTCTGTTAAAACGCCGTTTAAGAAAGCAGTTTTGACATCCATCTGCCATATTTCGTAATCGTAATATGCAGCGATTGCTAACATTATCCGAATAGACTTTAGCATTGCAACTGGTGAAAAGGTTTCATCGTAATCCACACCGTGGACTTGCCTGTAACCTTTTGCAACCAATCTAGCTTTGAAAACTTCAAGTTTCCCATCCTTGTCCTTTTTCAGTTTGAAAACCCATTTGCTTCCAATGGCTTGGTAGCCATCTGGCAAATCGACCAAATCCCATACTTGGTTTTCAGACATGGAGTCTAATTCAGATTGCATGGCTTCTTGCCATTGCTTGGAGCTAGGGCTCGTCATAGCTTGTTTGTAAGTCGCAGGTTCATCACTTTCAAGTAATAGAACGTCATAGCTCTCGTTCGTCAAAATACCTAAGTACCTTTCCGGTTGAGATCTATATCTTTGCGATCTACGCGGGGTAACATTTCTAGATTGACCATGATTCTCACCAGATTCTTCTAAAGATCTCTGAGTTTCATCCTGAATGTCATCTTGAGCATTCTCTAGAGTTTGTTGTTCGACTCGAATTTCTTCGAGGTCTACTTTTCTCCCACTTGTCATTTTGGAAATGTGATCTTTCTCCAAAAAGACACCATCTCGAGCAACAAACACCTTGTTCTCAGATGTATTGTAGAAGTAATACCCCTTTGTTTCCTTTGGATAGCCCACAAGGATACATTTGTCAGATTTTGGATGAAGTTTGTCTGAAATTAATCGTTTGACGTATACTTCACATCCCCAAATCTTAAGAAAAGACACATTTGGAGGCTTTCCAAACCATAATTCGTATGGAGTCTTTTCGACAGCTTTAGACGGAGCTCTATTTATAGTGAGTGCAGCTGTATTTAGTGCATGTCCCCAAAATTCTAATGGAAGTTCGGCCTGACCCATCATTGACCTGACCATGTCTAGCAAGGTTCTGTTCCTCCGTTCTGACACACCGTTCCATTGTGGTGTTCCAGGAGGAGTCAATTCTGATAGAATTCCACATTCTTTCAGATGGTCATCAAATTCATAGCTCAGATATTCACCGCCTCTATCAGACCGCAGTGCCTTAATCTTCTTGCCTAATTGATTCTCTACTTCACTCTGAAATTCCTTGAATTTGTCAAAGGATTCAGACTTATGCTTCATTAGGTAGACATAACCATACCTACTGAAGTCATCAGTGAAAGTGATAAAGTAGCTGAAACCACCTCTAGCATTTGTACTCATTGGTCCACATACATCTGTATGGATTAAACCCAATAGTTCATTTGCTCTTTCTCCAACTTTAGAGAAAGGTTGCTTTGTCATTTTGCCAAGTAAACATGATTCGCATTTACCATAATCCTCTAAGTCAAATGGTTCTAGAATTCCTTCCCTTTGAAGTCTTTCTAAGCGTTTCAAGTTTATATGGCCTAATCGACAATGCCACAGATAGGTGAGATCTGAATCATCCTTTTTGGCCTTTTTGGTATTTATGTTATATACTTGTTTGTCGTGATCTAATAAATAAAGTCCATTGACTAATCTAGCAGATCCATAAAACATCTCTTTAAAATAAAACGAACAACTATTGTCTTTTATTAAAAAGGAAAATCCCTTAGCATCTAAGCAAGAAACTGAAATGATGTTTTTAGTAAGACTTGGAACATGGAAACATTCTTCCAGTTCCAAAACTAGCCCGGAGGGCAACGACAAATAGTAAGTTCCTACAGCTAATGCAGCAATCCGTGCTCCATTTCCCACTCGTAGGTCGACTTCACCCTTGCTTAACTTTCTACTTCTTCTTAGTCCCTGTGGATTGGAACATAAGTGTGAGCCACAACCTGTATCTAATACCCAAGAAGTTGAATTAGCAAGTATACAGTCTATAACGAAAATACCTGAAGATGGAACGACTGTTCCGTTCTTCTGATCTTCCTTTAGCTTCAAGCAATCTCTCTTCCAATGCCCCTTCTTCTTGCAGTAGAAGCATTCGGATTCAGAAGTGGGTTGACTGACCTTCCTCTTTACAGATTTGGCGCCAGTTTGCTTAGTTGGGCTGGCCTTGTTGCCACCTTTCTTAGCATTCCTCTTCTTTCCAGATTTCTTGAACTTGCCCCCACGCACCATAAGCACATCCTGCTTATCACTTTTGAGCGTCTTTTCAGCGGTCTTCAGCATACCGTGAAGCTCAGTGAGCGTTTTGTCCAGACTATTCATACTGTAGTTCAGTTTGAACTGATCATACCCGCTATGAAGAGAATGGAGGATGGTGTCTATAGCCATTTCCTGAGAAAATTGCTGATCCAGCCGACTCATATTCTCAATGAGTCCAATCATTTTGAGAACATGTGGACTTACGGGCTCGCCTTTCTTAAGCTTGGTCTCAAGAATTTGCCTATGAGTCTCGAATCTTTCGACTCGAGCCAGATCTTGGAACATGTTCTTCAACTCACTGATGATTGTGAAAGCATCTGAGTTGATGAACGTTTTCTGCAGATCCGCACTCATGGTGGCGAGCATTAGACATTTCACATCCTTGTTGGCATCAATCCAACGATTGAGGGCTGCCTGAGTGACCCCGTCGCCTGCGGCTTCGGGCATCGCCTCATCTAGGACATACTCCTTTTCTTCCTGCATAAGAACTATTTGCAAGTTCCTTTGCCAGTCAAGGAAGTTTTTCCCGTTCAACTTCTCCTTTTCGAGAATTGATCGAATGTTGAATGAATTGTTGTTTGCCATATTAAAAACTACAATTGAAAAGAATAAACAAATAAATAACCATTCACAGTTTCTCTTAATAAACTTAAATTCTAGCATACATGCATAATTCAATGTTTATTAAGCATTTTATTCAAGTTATGTGTTCCGGCAGGTGTGAATAAAATGATTCCAAGATCCTAAAATCATTGAAGAACTAAGCACAGTTTGTCGACTTAATCCTAGAACATCTTAGGTAAGCAAAAGCCTTTTGCTAATAGTCTAGAAACTATTCTTGGTTGATAGGTACGTCTAAGAACTTATTAGGTAAACCTATCGAATTTGCCACGACATAAAAGGACTCCTTACTTATATCGTTGAGTTTCACCAAAACTAACATGTACTCACAATTATTTGTGTACCTTGCCCCTTTAGGACCAATAAGTAACACCTCGCTGAGCGAAAACTATTACTAGATTGATGTAAAGGATATCCAAGCAAGTGTATATTTTGGCATGGCACCTTTTAACTCAATTTTTAAGTTTGGAACTTAAGGCTCTTACTATGTTGGTTAGATTTTAAGTGAACTAAAATCCTTAATCATGCAACATAATCAAGCTTTTGATCTCATGCATTTTAAGACATATTTAAAAGCAATAAATAACTTAAAACATGCATAAGATAAATGTGATCTAGTATGGCCCGACTTCATCTTGAAGCTTTGACTTCAAAGTCCGTCTTGAAAATCTCCGTGGGAGGCACCATTTTCTTCAAATAGGATAAGCTATAACTAATTACAACTATTTGATGGTACGCAGACCATATTTGAATTGAAAAATAACTTTGGTACTTTAGACCAATTACATTCAAATTAATGGTACGCAGACCATATTTTCTATCCTATTTGGGCCATACTAGTCACTTCATAACCTGCAAAACAGTACATATACAATATATACCATTCACCCATTCATTATCATGAATGGCCCACATAGCTGGTTAGTAAAACACATTATGCATCACGTAAACATTTGCAGCAATTAATCAAGGGCACCAATAATCTACCAATTATTCAGTCCTTATTAATTCTAATCAAGTTGTTTTAACCTTAAGGATTTGTAGACCTAATCAAGAGTTTATGACTAAAAAGCGCTCCCACTTAAACCAATAAATTTATATGCTTTACTAATTTTAAACATAAAAATGTATTTCTAGTCTAACCGGAAACATACAAATTTAATTAAAATTTAAAGCTCATATAAATTTATAATTGAATCCAAAAAGTTTAATTTAATTTCAGTCGTATTTAAATTAATTCATGATTTTAATTTTAGTAAAATAATTAGAATAAATAAAATTTATTATAATTACAATATTCAAAATTAAAATCCAAGAAAATAATTTAAATTATTAATTTTAAAATTAATTAAAATTACGTAAACTGAAAATTTCAAATTAAAATTTCAAAACGATCTAATCGCAACGCAACAACCCCACGCAACGCACGCCCATGGGCCACACGCACACAGCCATCGCTGGCCATGTGCGCGCAGCCCATGCGCTGTGTCGCATTGCTGCTGCTCACCATCGCAAGGCATCACGCGAGCTGGTGCTCGCTGCGCGCGCCACCGCTCGACGCACGAGCATGCTGCCGCAGCCCATCGCTGGGCGCAGCGCTCGTCGCACGTCGCAACAAGCACGCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAGGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAACAAGCACTCGCACGCCATCGCTGGGCGCAGCGCTCGTCGCACGCACAATAGCGCTCGCTGCGCGCGAGCGATCGATGCTTGGCGCAGCACTCGTGGCACGCGAGCTTACGCTCGCTGCGCGCGAGGCTCCGCACGCTTGCGCGAGGCAGTGCGCGCTGTGGCGCAGCTCGCTTGCTGCCCACACGCGACTGCTCGTGCCTTGCTCTCGCCCTCGCCCATTCGCCCATTGCACACAGCCCACGACACAAGGCAGGGCTGCTGCCTTGTGCTCGTGCACCATGGCCTTGCTCATTGCATTCGTACCGCATGGGCGACGAGCTCCCTTGCTCGTCGTCACATGCCCGCACTATACAACACCCCTTAAGGGTAACACGTAGCGTCCATTGCTTTGTGCGTGCAAGTTATATGAGCGAATCGCATAAAAATTTAAAATTTATATTCAAAATTAATGACAAATTAATAAATAATATTAATTTCATAATTTTAGGGCGAAAAATCGAAAATTTATTATTCAATTGATTTCCGATTAACATGGATTCAAGTCTAGGTCATAAAAATTTAAAATTTAACATAAATTTACAATTTTTATGGTGGTTTTTAATCATAGGTATCTAATTAAATTATAACTAATTATGAAAATCAAATTAATTCTAAATTATTCCAATTTTCAACAAATTAATCATAATTACAAATTAGATTGCATAATTAACAAGGCTAGGCATTCAAACTTGTTAAACATATACAGTAGGTCAATCAAAAATTCAAGATTTATCAACAAGAATCGCAAATATTTAATTTAACATCTTAAATTTACGAAATTTTGCATTCGAAAAACTAAAACCTCCGAAAAGTCATAGTTAGGCTTCGAATTTGAGAATTCTGGGTTCGGCCGAAAAATACTATTTTTGTCAAAATTTTAGAATGCCTTTTACATGCGGAATTGACACAAAAATCACTCGATTTGGATGAGTAACGAAGAAACTGCCGAAAAACTGCGTACGTATAATTAAATAAACGCAATTTGCAATTAATTAACAATTACGAAAATTAATCACCCCTTTTAATTCTTGCAAATTTGTAATATTTAACCATGTTCATGCAATTTAGATTATGAAAATAATAAGAGGCTCGTGATACCACTGTTAGGTTATGATACATATGACAATTCATAAATCATGCGGAAAAACCATAAAGCCAGGAAAACATATTATTTACACATAATCATTTAGCATAGTTTAGATGCATACTCTTTGTTGCGTGCCTTCCCTAGCTGCGCCCGAACCGAACAAGAACAAGTCTTTAGGACTCCAAGTGTCGTCCCTCCGTAGATAGTCCACAGCACGTCCGGATCCGCCTTAAGATTGACCAACTAGAATCGCCCTTAAGGTACTATTATTTTCGGCACTTTATAGGCAAATGTGTGACTGAATTTTTCTCTCAAAAACTCACTTTGAATACTTTGAAACTTGTGTTATAAATTGTGAGCCCTAGCCTCATATTTATAGCGGTATGGAAAGGGAATCGAAATCCTATTCAGATACAAATTAATCAAACCTAGAATCCTACAAGAACTCTAATTTAATTAATTTATCAAATAGAATTAGGAATTTAATCATTAACCGAACTCTGCATGTTTTAGGAAACGTGCACGAACACAAACACTTGCACACACACGCACGACAGCCACGATGGGCCCCATGCGTGCGCGCGAGCAGCAGCCCACTCAGCGCCCGCGCGCGCTGCGCGCTGCGCGTGCTGTGCGCGCTGTGCGCGCTGCGCGCTGCGCGCAGCCTGCTGGGCCTGGCCTTGCGCTGGGCCTGGCGTGGCTGTTTGTGCGGCGCGCTTGGCTTGCTGGGCGATGGCCTGGCTTCGTGCTGGGCCTCGTCCGGCAGGCCTCGTCCGATGCTTATTCGTACGATGCGCTTCCGATTAAATTTTCCGATTCCGGAATTCATTTCCGATACGAACAATATTTAATATTTCCGATTCCGGAATTAATTTCCGTTTCGAACAAATATTTAATATTTCCGTTTCCGGAATTATTTTCCGATTCCGGCAATATTTCCGATTCTGACAATATTTCCGTTTCCGGCAATATTTCCGATTCTGGTAATATTTCCATTTCCAATAATATTTTCCGATACGTACCATGTTTCCGTTTCCGGCAACATCTACGACTTGGATAATATTCATATTTCCGATACGATCCATATTTCCGTTTCCGGCAATATCATCGTTTCCGGAGTATTCATTTCTTGCCTGTGACGATCTTAGCTCCCACTGAAACCAAGATCCGTCTGTTCCGAATATTCATAGATGGAGTATTTAATGCCATTAAATACTTGATCCGTTTACGTACTATTTGTGTGACCCTACGGGTTCAGTCAAGAGTAAGCTGTGGATTAATATCATTAATTCCACTTGAACTGAAGCGGCCTCTAGCTAGGCATTCAGCTCACTTGATCTCACTGAATTATTAACTTGTTAATTAATACTGAACCGCATTTATTAGACTTAACATAGAATGCATACTTGGACCAAGGGCATTATTTCCTTCAGTTTTATGTTCCTCTTTTCAGCAATAAGTAGAAGTCGTGATTTGGCCTTCTCTTTTAATTGTGCCAAAGATCCTAAGGACACATTTTATTCTTATTACATGATTAATATGCATAGTTTTAACTTTCTAAAACTCATTCCAATCTATGTAAGTACATTTAAGGCTCATTGGGTCGTTATAAGTCATATTTAGAGCTAAAACGACATTTCCGCTCCCAACTTTGAACTAAAGAACTTAAGGACTCATTTGATTATTATCACATGATTAATATGCATAGTTTTAATTTTCTAAAACTCATTCCAATCTATGTAAGCACATTTAAGGCTCATTGGGTCGTTATAGGTCATATTTAGAGCTAAAACGACATTTCCGCTCCCAACTTTGAACTAAAGAACCTAAGGACTCATTTGATTTTTATAACATGATAACATGCATAGTTTTAACTTTCTTACACTAATTCCAATCTATTTATGCACATTTAAGGCTCATTAGATCGTTATAGATCATATTTAGAGCTAAAATGACATTTATGCTCCCAACTTTGAACTAAAGAACCTAAGGACTCATTTTATTATTATTACATGATTAATATGAATAGTATTAACATTCTAAAACTCATTCTAATCTATGTATGCATATTTAAGGCTCATTGGGTCGTTATAGATAATATTTAGAGCTAAAACCACATTTCCGCTCCCAACTTTGAACTAAAGAACCTATGGACTCATTTAATTCTTATTACATGATTAATATGCATAGTTTTAACTTTCTTAAACTAATTCCAATCTATCTATGCACATTTAAGGCTCATTAGATCGCTATAGGTCATATTTAGAGCTTAAATGACATTTAAGCTCCCAACTTTGAACTAAAAAACCTAAGGACTCATTTGATTCTTATTAAATGATTAATATGCATATTTTTAACTTTCTTAAACTCATTCCAAACTATTTATGCACATTTAAGGCTAATTGGATCGTTATAAGTCATATTTAGATCTAAAATGACATTTACGCTCCTAACTTTGAACTTAAAAACCTAAGGACTCATTTGATTCTTATTAAATGATTAATATGCATATTTTTAACTTTCTAAAACTCATTCCAATCTATGTATGCACATTTAAGGCTCATTGGGTCGTTATAGGTCATATTTAGAGCTAAAACGACATTTCCGTTCCCAACTTTGAACTAAAGAACCTAAGGACTCATTTGATTCTTATTACTTGATTATATGCATAGTTTTAACTTTCTTAAACTAATTCCAATCTATTTATGCACATTTAAGGCTCATTAGATCGTTATTGGTCATATTTAGAGCTAAAATGACATTTACGCCCCCAACTTTGAACTGAAGAACCTAAGTACTCATTTTTATTCTAATTACATGATTAATATGCATAGTATTAACTTTCTAAAACTCATTCTAATCTATGTATGCACATTTAAGGCTCATTGGGTCGTTATAGGTAATATTTAGAGCTAAAACGACATTTCCGCTCCCAACTTTGAACTAAAGAACCTAAGGACTCATTTGATTCTTATTACATGATTAATATGCATAGTTTTAACTTTCTTAAATTAATTCCAATCTATTTATGCACATTTAAGGCTCATTAGATCGCTATAGGTCATATTTAGAGCTTAAATGACATTTACGCTCCCAACTTTGAACTAAAGAACCTAAGGACTCATTTTATTCTTATTACATGATTAATATGCATAGTTTTAACTTTCTTAAACTAATTCCAATCTATTTATGCACATTTAAGGCTCATTAGATCGCTATAGGTCATATTTAGAGCTTAAATGACATTTACGCTCCCAACTTTGAACTAAAGAACCTAAGGACTCATTTTATTCTTATTACATGATTAATATACATAGTATTAACTTTCTAAAACTCATTCCAAACTATTTATGCACGTTTAAGGCTCATTGGATCGTTATAGGTCATATTTTGAGCTAAAATGACATTTACGCTCCTAACTTTGAACTAAAAAACCTATGGACTCATTTGATTCTTATTAAATGATTAATATGCATATTTTGAACTTTCTAAAACTAATTCCAAACTATTTATGCACATTTAAGGCTCATTGGATCGTTATAGGTCATATTTAGAGCTAAAACGATATTTCCGTTCCCAACTTTGAACTAAAGAACCTAAGGACTCATTTGATTCTTATTACATGATTATATGCATAGTTTTAACTTTCTAAAACTCATTCCAATCTATGTATGCACATTTAAGGCTCATTGGGTCGTTATTAGTCATATTTAGAGCTAAAATGACATTTCCGCTCCCAACTTTGAACTAAAGAACCTAAGGACTTATTTGATTCTTATTACATGATTAATATGCATTGTTTAACTTTCTACAACTCATTCTAATCTGTGTATGCACATTTAAGGCTCATTTGGTCGTTATAGGTCATATTTAGAGCTAAAATGACATTTACGCTCCCAACTTTGAAATAAAGAACCTATGGACTCATTTTATTCTTATTACATGATTAATATGCATAGTTTGAACTTTCTTAAACTCATTCAAATATATTTATGCACATTTAAGGCTCATTGCGATCGTTATAGGTCATATTTAGGCTAAAATGACATTTCCTTACTCTTGACTCGTATTCTAGACTATTAGGACATTGTCATTAGTTGCTTGAATGTTAAAATGCGATATTTAATTTGCATTTAATCTAATGCTTAATTGAAATTTTTGTTTTTGTAAAGGTCTATACTCTGAGGAATGCGCCTTATGCTAGTGAGGAAATTGATGTGGTACGTGAGCAATGGGCTAAGTTTTTTACCAGCAAATATTTATTATTGGCCTGAGCGCGCTTGATCGAGTTGGTTTAGATGTTATAGAACAATATTTTATAATAAAATGTATGCGTACGTTGAAATTCGAACATATATATAAATGTACGTGCACTTTGGTTTCATGTATACAAAACAACAATTATTGTTTTTATATTTGTTATACAGGTTGCGGTATTCTATTATTGTTGTGACAGGTTTCTATATTTGGTGCAAGGCACTCTAGGTATACCTAACCACAATTAAAATTTTCCCGCCAAAAGTGCTTTTTTGCAGCGTACATATATATGTGTACGCTGTAACAAGGGTGTAAAATTTGGCAAAATTTCAGACTTGTTGCAGCATACAAATAGATGTACCCTGCAACAGGTGGGGTCTATTGCACCGTACATGAATTTGTACCCTGCAACAAGTCAAGATTTTGGTCAAAATTTTGACACTTGTTGCAGCGTACATGCATATGTACGCTGTAAAAAAGTACTTTTTGCAGCGAACATTGTATGCTGCAACAAGTCTAGACTTGTTGCAGGCCCCCCAGTTGCAGCATACGATGTACGCTGCAATAGGGGTCTAAAAGCCCGCTGCAACAAGGGTTTTTTCTACTAGTGTGGGGTTCGATCTTGAAATTCTCGACCGTAATAGAAGGCATGATTTCCTTGGGAAGCATAGACAGACTTGGTTTAGAATAGTCTGTAAGCCTTGGCACAAGTGGGGGTGGTGGTGGTGGTGCTTGGTCACCCATCTCTGAATCTGTATGGAATAGATTGCTAATCAGATAGTCGGATTCAGAGTCAGAATAGTCCCTCAACTGTTCAACGAATCTACGCCGTCTACGAAAGGTCCGTTCAGGATCGAACGAAGTCAGATCGCTGGTATGGACAGTCCTGGGCATAAACAAGTAAAACCTAGAAAACAGTCGTGAGATCCGATCTCAAGGAACGGCAGTCCCTTGAGAAGTAACAAACAATAATCTAGAAAAACAATTAATAACAGAAAATAAAACCGAATCCCCGGCAATGGCGCCAAAATTTGACAGGCTTAAGTCGTATCACCTAATAAAAAATAACCTAAGTCCACTAGCTAGGTAGCAAGGGAAGTCAGGATCGAATCCAAAGGGAAACAGGCGTTCTTTCTACTATCAATTAATTAATCTAGACTATTGGGAACAGGAATTGGTTGGTGGTTTGTATGATAAAACTACGAACGATAATTAAGCGAGTAAGAATCAATATATTAAGGAATCTAGGGCATAGGTTCACCAACAAATAACAATCCAGGACAATGAACAATCACGATAATCAACAAAGTAATTAATTAGACTAGCATGCTCTCTCGAATCGATATTAATCATAGACTTAGAATTAACGGGCTCTCGCTACGTATTAACTCTAATTCCACCTATTGACACAAGCCTAAACATCAAATTGCATCTCTCGAATCTTAATTTGATATTGCATAACTACCACAATTAAACCTGCGCAAATCTAATTGTATAGTGAAATAAACCAATCAATAGGAATCAATTACAATGCCAACAATCATGATTATTCAATATCCCTTCATATTATTCATGGATCCCCAAACCCTAGAAATTAGACTACTCAAGCACATTAACAATAAACAAGGAAATTCGCATGATTGACAACATAATTAGAGCTAAACAAAGAATTTAAATAGTGAACAATACCTTAATTGAAGAACAATGGAAATAGAAATCTTGAATTTTTATTGAAATTGAAAACTAAGTGTTTGCATAAATTTAGAGAGAAATTAACTAAGGAAAATAAAACTAAGGGTTTCAATACTAGAATAAGATGTCCACTAAAAATAATGAAGCCTAGTATTTATAATTTGCCCATAAAAATAAAGAAAAACCGGAAGAAAACCGCGGAAAAAGGGCCCTGGGTTGTCGTCGCCCGGTCGGGCAGCCTTCCGCCCGTCGGGCGACCAGCTCGTAACCCGCCCGTCGGGCACAGGTCTGCCCGCCAGGCGGAGGGAGACATTCTGAAAATCATCGGCACGCGCCCGGTCGGGCAGCTCCCGCCCGTCGGGCAGACGTTCGCCCGTCGGGCAGCCATTCGCCCGCCGGGCGCGCGTACAAACTGCACGATCCTCTATCTTTAAAACGCTATATCTCCTTCGTTATTCGTTGGAATTAGGTGAGTGACCACTCGTTGGAAAGCTATTGAAGTCTAGAATCCAACCCAATTGAAATCACTTCATTTAGAGTTGTAGAACGTAAGTTATGATCAAAAGAGTAGACGAGTGTCGGTTTTCTAGTTCTTTCACTATCCGCTTTGCTCAAAAACTCTTCCAACTCAATGTGTGTGCTCTCGAAAGTACATAATCTCTTGTATTGATTCAAATGAGTAGAAAATGTACAAAAACATGCTAATTCCTACAATGATGAACCTGAAACTACAAACACACTACAAGGAGCACATTAGTACTAAAAATCGCTCCGAAGAGCTCATTTGAGATCAAAAAGTACTAAGGGACGGGGGTAAAAACACTATAAAATATGAACATATCACCTAGCCCTGCAAGATGAAGGATTCGATCCAACCCAACCAATCATCCCGTCACCCACTACGGAGGAGGAAGCCAAGCACGGATGGTACACATCATTTCAATGGATCAACTCAAGAGGGATCGAGTTCAAGATGACCACTGGAGAAGGACCAAAATTCTTCGAGAACCAACCGAAAGTATGAGTTCAAGTCTAGGGTAGCTAGCATATAATGAAGGAAATAATGCCCTTGGTCCAAGTTTGCATTTAATGCTAAGTCTAATAAATGCGGTTCAATATTAATTAACAAGTAAATAATTCAGTGAGATCAATTGACCTGAATGCCTAGCTAGAGGCTACTTCAGTTCAAGTGGAATTAATAATATTAATCCACAACTTACTCTTGACTGAACCCGTAGGGTCACACAAATAGTGCGTGAATGAATCAAGTATTTAGGTGAATATAATATTCAGTAAATACTCTATTTATTGACATTCGGAAAATGATGGATATTGGTTCCAGTGGGAGCTGAAATTATCAAAAAGGCAAAGAAAGAATATTTGCCGGAAATGAAGATATTGCCGGAAACGGAAATATGGTTCATAACGGAAATATAAATGTTATCGAAGTCGAAGATATTTCCAGAAATGGAAATACAGTTAGTTTAGGAAAATATTAATGGAAATAGAAATATTGCCGGAATCAGAATTATTGCGGGAAACAGAAATATTACCGGAATAGAAAATATTGTCGAAATCAGAAAATATTGTCGGAGTCGGAAAATATTATAAAAAACGTGAATACTGTTCGAGTCGGAAATAAATTTCGGAATCGGAAGCACGGCGAGAGATTGCTCGACGAGCAAGCCCGCAAGGCACGAGGCCTAGCGCAAGCGCCAAGCCCAACGCCCAGAAGGCCTGCGCGCGCGAGCAATAGTGATGGGCCAGCAGCGCCATAGCGTGGGCTGCAAAGCCTTGCGTGGGCGGCAAGCAACAAGCAGCAGCAGCGGGGGCCTCAAGCCACACATGATGCAACGAGCACCAAACCCGCATGTGCTTGTCATTGGCTTGGACGCTAAGTCTACTTGCGTGACAAGTAGCTTGGGTCTTAAGCTAACCGTTTTCCTAATCCTACGCAAACTAGAATTTTAGGATAAATATAATACTAATAGTGTTTGATTATATCTGAATTCCTAAGAGTTTAAGATTAACTAGAATCCTAATTCTAATGGATTTAATAAATCCAATCTTAGTAGGATATGACTACTCTATTTCCTCTGATCCATGATCACAAATAAATATACAACACACATTGAATTCTAACCGAATTTAATAATTTTCTTATCACTTATTGTGAGTCCCCGAGTGCACATAAAACCTTAGATTATATCCAAGTTGTAACAGCCCTGATTTTAAGCAATTCTTAATATGATATTAAGAGTAATTTTCGTCTTAAACGTGTAATTAGAATTTCTCCTAAACCCATTTTGAGATTAAGATCTTGAAATTTTATTAAACTGGTGAATGAATTTGAGATTTTTTTTTATATTTTGTATTTAAGTTAGTATTCGAATTGATTTTCGAGTTTACCCTCGAGATAATTTATGGAATAAAAAATTCGTTTGAAGATTTGAGATTTTGTACTCCGAAGTAAATTGTTTAAACTCAAGGATTAATTATGAAATTAAAAATTCTATTTTAATGAATTATATTTTGTTCAAGTATTTTGCCTAAAAAAGAAAATCATTGTTAAGTTAGTTGAAGAGAATTATATTTAAATAATTAAGATTATTATACTTGAGCTTGTTTGTAAAAATCTGAGTGTTTAGATGATTTTCTTATTGTTAAATGAATAATGAACCTTCTCCTCTCCTCTCAATCTCCTTCACCTTCCTTCTCTCTCCTCACCGACACTCCCTCTCCCCACCTTCGACACCCTCCTCTCTCTGTCCTGAGCCGCGCACCACCAGCGCCTCCACCGTACTCCGTTCTCCCTCGTCAATGCTTCTGATGATGTGTGTTGTTTGTTTGTTGATTTGTTTCTGCCACCTTCCTTGCTCTACCTCCCTCTCGTGCTCTGGGTCGCCGCCGCCACCGACGGTGACGTTTCGGGATCTCCATGCTTGCTACACTACTTGATTGGTAATCTCTTAAATTCTTATCACTAATTTATTGAATTCAAGTAAAACCCCCAAATTGAAGAAAACCCTAACTTTCTCTTTTTTTGGGTTTCTCTCTCTTCTTGTTCGGTGCACCACTTCCTCCGCCGGAGTCGTGATTTGGTGGTGGTGATGCCCACCCTGTACGTGGTGGTTGTTAGTCGTCTGATGTTGTTGCTCTTCTCCCTCTCTCCACTTGCTCTTCCCTGTCATCTCTCTGGCTCTCCGCCAGGCTCTCCCACCACTGTGGCGGTGCGGCGTAGCTGGTCTTGCTGCTTCTTGGTATTATTATTGGTCACTTTGTTGTTGTTGATGTGGAAGCTCATGTTGCTAATTCTGCCTTCTATATTCCTTAAGGGTATAAGTCAATCCAAACTTTATTCTATCTACTTTTCAGTTCATCCATTTCCACAAAGTTATGAGAATTTAATTTGTTATTGATTATTAACTTTATTCTATCTACTTTTCATATGAAAGATTTGGGAGTGTTAAAATATTTTTTGGGGCTAGAGGTAGCTCGAAGTCATGAGGGAATTTATCTTTGCCAGAGAAAATATGCATTGGAAATAATTGAAGAAACGGGTTTATTAGGGGCAAAACCGACAGAATTTCCAATGGAGCAACATCACAAACTGGCATTAGCGACCGGTGCGCTACTTGAAGACCCATAACCCTATCGAAGACTTGTAGGGAGATTGATTTACTTATCAGTGACTAGACATGATCTTGCCTATTCAGTACACATCTTATCTCAATTTATGCAACAACCTCGTGAAGAGCATTGGGAAGCAGTCTTGCGGGTTGTGAGATATTTAAAGAAAAAACCTGGCCAAGGAATTTACTTCTGTCCGATAGTGCTTTGGTCTTGGAGGGATGGTGTGATTCTGATTGGGCTAGTTGTCCACTTACAAGACGTTCTTTAACAGGGTGGTTGGTGTTGCTTGGTCTTTCGCCAATCTCTTGGAAAACTAAGAAACAACCAACCGTTTCTTGTTCTTCTGTTGAGGCGGAATACCGATCTATGGCAGCAACTACATGTGAGCTAAAATGGCTTAAACAATTGCTCGGTGATTTAGGAGTTTGCCATCCCAAAGGGATGCGGTTATTTTGTGATAGTCAATCTGCTTTGCATATTGCTCAGAATCCGGTGTTCAATGAACGGACAAAACATATATTGAAGCCGACTGTCATTTTGTTCGTGATGTAGTGACTGAAGGAATTATTTCCCCTTCGTATGTTCCTACGACAATACAACTAGCGGATATTTTCACAAAAGCCTTGGGAAAAACACAGTTTGAGTTCCTCCTTCACAAGTTGGGCATTCAAGACCTTCACGCTCCAACTTGAGGGGGGTATTGAGATATTATTATTATTATTGCTAGTAATGTAAAAAGATATGTTAGTCAACTTAGGAGTTATGATAATTGTTAATATAGCTTATACATACATAACTTCTGTCATAGTAGAGTAGTAATAAGGGATATTACATTAGCATTAATTTGTGTCTGAAACTCTGCTTGCTTGTAACGTTTATGTTACATTAGAATTTGTATAAATAGTGGGTTGATAAATGAGAAAGAACACACACTTTTGAGGAGAATTAACATTAATATATAGTGGTTGTTTCCTTTGAAATATTTGTTGATTTCTAATTGTCCAGCAGAGACTAGAAAGAAGACGCCAGATGCCATATCACATGCACATTAACCTTGAACTTTTGGAGGCAGTTCATCTAACTTGTGCCATGCTACTGGAGGTCCCCCACATGGCAGCCAATACCGTGGATGCAAAGCGTAAAGTCTATAAGCAAGACATTCAGAAGATTGCTTGA

mRNA sequence

ATGCTTAAAGCTTATGTGTTTGCAATGTTCAATGAGGATGACAAACCTGGGCCAAATTTTGAGAGGAATTTTGGGCTTTGGAAACCTGATGGCAGCATCTCGTATGATGTGGGTTTTCCTGCATTGAAGTCAACTGCTTTAGCTATATCACCCTTCTCCATAAAGGATTTACTTAAGAAAAGATCCAATAATCCAATTGTTATCTTTGTTTTGTGTCTATTCGGCCGAGGAACACTTCCTCTATTAGCATATGATCAGCTTCCAATTTTTGTCATTTTTTCTGCTGTAGTGGTAACTGTCAACGATTATCTTACTCGTCGTGATGCTGAGTGGATGAGCAGTGTTCATCATTTCCTTGGTCTATCAGTTGGTCTCATTCAGAAGGGAATGAAGGCTGAGGAGAGGAGATCCAACTATAGATGTGATATAACTTATACCAACAATTCACAGAGACTAGAAAGAAGACGCCAGATGCCATATCACATGCACATTAACCTTGAACTTTTGGAGGCAGTTCATCTAACTTGTGCCATGCTACTGGAGGTCCCCCACATGGCAGCCAATACCGTGGATGCAAAGCGTAAAGTCTATAAGCAAGACATTCAGAAGATTGCTTGA

Coding sequence (CDS)

ATGCTTAAAGCTTATGTGTTTGCAATGTTCAATGAGGATGACAAACCTGGGCCAAATTTTGAGAGGAATTTTGGGCTTTGGAAACCTGATGGCAGCATCTCGTATGATGTGGGTTTTCCTGCATTGAAGTCAACTGCTTTAGCTATATCACCCTTCTCCATAAAGGATTTACTTAAGAAAAGATCCAATAATCCAATTGTTATCTTTGTTTTGTGTCTATTCGGCCGAGGAACACTTCCTCTATTAGCATATGATCAGCTTCCAATTTTTGTCATTTTTTCTGCTGTAGTGGTAACTGTCAACGATTATCTTACTCGTCGTGATGCTGAGTGGATGAGCAGTGTTCATCATTTCCTTGGTCTATCAGTTGGTCTCATTCAGAAGGGAATGAAGGCTGAGGAGAGGAGATCCAACTATAGATGTGATATAACTTATACCAACAATTCACAGAGACTAGAAAGAAGACGCCAGATGCCATATCACATGCACATTAACCTTGAACTTTTGGAGGCAGTTCATCTAACTTGTGCCATGCTACTGGAGGTCCCCCACATGGCAGCCAATACCGTGGATGCAAAGCGTAAAGTCTATAAGCAAGACATTCAGAAGATTGCTTGA

Protein sequence

MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTALAISPFSIKDLLKKRSNNPIVIFVLCLFGRGTLPLLAYDQLPIFVIFSAVVVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSQRLERRRQMPYHMHINLELLEAVHLTCAMLLEVPHMAANTVDAKRKVYKQDIQKIA
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameType
Spo18691Spo18691gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameType
Spo18691.1Spo18691.1-proteinpolypeptide


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

Feature NameUnique NameType
Spo18691.1.exon.1Spo18691.1.exon.1exon
Spo18691.1.exon.2Spo18691.1.exon.2exon
Spo18691.1.exon.3Spo18691.1.exon.3exon
Spo18691.1.exon.4Spo18691.1.exon.4exon


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

Feature NameUnique NameType
Spo18691.1.CDS.1Spo18691.1.CDS.1CDS
Spo18691.1.CDS.2Spo18691.1.CDS.2CDS
Spo18691.1.CDS.3Spo18691.1.CDS.3CDS
Spo18691.1.CDS.4Spo18691.1.CDS.4CDS


Homology
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BLAST of Spo18691.1 vs. NCBI nr
Match: gi|902218223|gb|KNA17973.1| (hypothetical protein SOVF_075040 [Spinacia oleracea])

HSP 1 Score: 117.9 bits (294), Expect = 2.100e-23
Identity = 54/57 (94.74%), Postives = 56/57 (98.25%), Query Frame = 1 

		  

Query: 1   MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTALAISPFSIKDL 58
           MLKAYVFAMFNEDDKPGPN ERNFGLWKPDGSISYDVGFPALKS+ALAISPFSIKD+
Sbjct: 317 MLKAYVFAMFNEDDKPGPNSERNFGLWKPDGSISYDVGFPALKSSALAISPFSIKDI 373
[Close]
BLAST of Spo18691.1 vs. NCBI nr
Match: gi|731353233|ref|XP_010687954.1| (PREDICTED: glucan endo-1,3-beta-glucosidase 14 isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 112.8 bits (281), Expect = 6.900e-22
Identity = 54/74 (72.97%), Postives = 61/74 (82.43%), Query Frame = 1 

		  

Query: 1   MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTALAISPFSIKDL-LK 60
           MLKAYVFAMFNE DKPGPN ERNFGLWKPDGSISYDVGFPALKS+A+A SPFS+KD+ ++
Sbjct: 310 MLKAYVFAMFNEKDKPGPNSERNFGLWKPDGSISYDVGFPALKSSAVATSPFSMKDIRVQ 369

Query: 61  KRSNNPIVIFVLCL 74
            R      IF  C+
Sbjct: 370 GRLTPYFTIFTTCM 383
[Close]
BLAST of Spo18691.1 vs. NCBI nr
Match: gi|902234934|gb|KNA23657.1| (hypothetical protein SOVF_022930 [Spinacia oleracea])

HSP 1 Score: 110.5 bits (275), Expect = 3.400e-21
Identity = 51/54 (94.44%), Postives = 52/54 (96.30%), Query Frame = 1 

		  

Query: 97  VVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSQ 151
           VVTVNDYL RRDAEWM SVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNS+
Sbjct: 196 VVTVNDYLARRDAEWMGSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSE 249
[Close]
BLAST of Spo18691.1 vs. NCBI nr
Match: gi|731353235|ref|XP_010687955.1| (PREDICTED: glucan endo-1,3-beta-glucosidase 14 isoform X2 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 110.2 bits (274), Expect = 4.500e-21
Identity = 50/56 (89.29%), Postives = 53/56 (94.64%), Query Frame = 1 

		  

Query: 1   MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTALAISPFSIKD 57
           MLKAYVFAMFNE DKPGPN ERNFGLWKPDGSISYDVGFPALKS+A+A SPFS+KD
Sbjct: 310 MLKAYVFAMFNEKDKPGPNSERNFGLWKPDGSISYDVGFPALKSSAVATSPFSMKD 365
[Close]
BLAST of Spo18691.1 vs. NCBI nr
Match: gi|902231811|gb|KNA22413.1| (hypothetical protein SOVF_034340 [Spinacia oleracea])

HSP 1 Score: 110.2 bits (274), Expect = 4.500e-21
Identity = 51/55 (92.73%), Postives = 53/55 (96.36%), Query Frame = 1 

		  

Query: 1   MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTALAISPFSIK 56
           MLKA VFAMFNEDDKPGPN ERNFGLWKPDGSISYDVGFPALKS+A+AISPFSIK
Sbjct: 152 MLKASVFAMFNEDDKPGPNSERNFGLWKPDGSISYDVGFPALKSSAIAISPFSIK 206
[Close]
BLAST of Spo18691.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RER4_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_075040 PE=3 SV=1)

HSP 1 Score: 117.9 bits (294), Expect = 1.500e-23
Identity = 54/57 (94.74%), Postives = 56/57 (98.25%), Query Frame = 1 

		  

Query: 1   MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTALAISPFSIKDL 58
           MLKAYVFAMFNEDDKPGPN ERNFGLWKPDGSISYDVGFPALKS+ALAISPFSIKD+
Sbjct: 317 MLKAYVFAMFNEDDKPGPNSERNFGLWKPDGSISYDVGFPALKSSALAISPFSIKDI 373
[Close]
BLAST of Spo18691.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BN88_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_8g194130 PE=3 SV=1)

HSP 1 Score: 112.8 bits (281), Expect = 4.800e-22
Identity = 54/74 (72.97%), Postives = 61/74 (82.43%), Query Frame = 1 

		  

Query: 1   MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTALAISPFSIKDL-LK 60
           MLKAYVFAMFNE DKPGPN ERNFGLWKPDGSISYDVGFPALKS+A+A SPFS+KD+ ++
Sbjct: 310 MLKAYVFAMFNEKDKPGPNSERNFGLWKPDGSISYDVGFPALKSSAVATSPFSMKDIRVQ 369

Query: 61  KRSNNPIVIFVLCL 74
            R      IF  C+
Sbjct: 370 GRLTPYFTIFTTCM 383
[Close]
BLAST of Spo18691.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RXV0_SPIOL (Protein translocase subunit SecA OS=Spinacia oleracea GN=SOVF_022930 PE=3 SV=1)

HSP 1 Score: 110.5 bits (275), Expect = 2.400e-21
Identity = 51/54 (94.44%), Postives = 52/54 (96.30%), Query Frame = 1 

		  

Query: 97  VVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSQ 151
           VVTVNDYL RRDAEWM SVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNS+
Sbjct: 196 VVTVNDYLARRDAEWMGSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSE 249
[Close]
BLAST of Spo18691.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RSH2_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_034340 PE=3 SV=1)

HSP 1 Score: 110.2 bits (274), Expect = 3.100e-21
Identity = 51/55 (92.73%), Postives = 53/55 (96.36%), Query Frame = 1 

		  

Query: 1   MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTALAISPFSIK 56
           MLKA VFAMFNEDDKPGPN ERNFGLWKPDGSISYDVGFPALKS+A+AISPFSIK
Sbjct: 152 MLKASVFAMFNEDDKPGPNSERNFGLWKPDGSISYDVGFPALKSSAIAISPFSIK 206
[Close]
BLAST of Spo18691.1 vs. UniProtKB/TrEMBL
Match: A0A0J8EIK0_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_8g194130 PE=3 SV=1)

HSP 1 Score: 110.2 bits (274), Expect = 3.100e-21
Identity = 50/56 (89.29%), Postives = 53/56 (94.64%), Query Frame = 1 

		  

Query: 1   MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTALAISPFSIKD 57
           MLKAYVFAMFNE DKPGPN ERNFGLWKPDGSISYDVGFPALKS+A+A SPFS+KD
Sbjct: 310 MLKAYVFAMFNEKDKPGPNSERNFGLWKPDGSISYDVGFPALKSSAVATSPFSMKD 365
[Close]
BLAST of Spo18691.1 vs. ExPASy Swiss-Prot
Match: SECA2_ARATH (Protein translocase subunit SECA2, chloroplastic OS=Arabidopsis thaliana GN=SECA2 PE=2 SV=1)

HSP 1 Score: 97.1 bits (240), Expect = 2.500e-19
Identity = 44/54 (81.48%), Postives = 48/54 (88.89%), Query Frame = 1 

		  

Query: 97  VVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSQ 151
           VVTVNDYL +RDAEWM  VH FLGLSVGLIQ+GMKAEER+ NY CDITYTNNS+
Sbjct: 193 VVTVNDYLAQRDAEWMGRVHRFLGLSVGLIQRGMKAEERKFNYSCDITYTNNSE 246
[Close]
BLAST of Spo18691.1 vs. ExPASy Swiss-Prot
Match: SECA_SYNP6 (Protein translocase subunit SecA OS=Synechococcus sp. (strain ATCC 27144 / PCC 6301 / SAUG 1402/1) GN=secA PE=3 SV=1)

HSP 1 Score: 92.8 bits (229), Expect = 4.600e-18
Identity = 43/56 (76.79%), Postives = 45/56 (80.36%), Query Frame = 1 

		  

Query: 95  AVVVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSQ 151
           A VVTVNDYL RRDAEWM  VH FLGLSVGLIQ+GM  EERR NY CDITY  NS+
Sbjct: 130 AHVVTVNDYLARRDAEWMGQVHRFLGLSVGLIQQGMSPEERRRNYNCDITYATNSE 185
[Close]
BLAST of Spo18691.1 vs. ExPASy Swiss-Prot
Match: SECA_SYNE7 (Protein translocase subunit SecA OS=Synechococcus elongatus (strain PCC 7942) GN=secA PE=3 SV=1)

HSP 1 Score: 92.8 bits (229), Expect = 4.600e-18
Identity = 43/56 (76.79%), Postives = 45/56 (80.36%), Query Frame = 1 

		  

Query: 95  AVVVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSQ 151
           A VVTVNDYL RRDAEWM  VH FLGLSVGLIQ+GM  EERR NY CDITY  NS+
Sbjct: 130 AHVVTVNDYLARRDAEWMGQVHRFLGLSVGLIQQGMSPEERRRNYNCDITYATNSE 185
[Close]
BLAST of Spo18691.1 vs. ExPASy Swiss-Prot
Match: SECA_MICAN (Protein translocase subunit SecA OS=Microcystis aeruginosa (strain NIES-843) GN=secA PE=3 SV=1)

HSP 1 Score: 92.4 bits (228), Expect = 6.000e-18
Identity = 42/54 (77.78%), Postives = 44/54 (81.48%), Query Frame = 1 

		  

Query: 97  VVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSQ 151
           VVTVNDYL RRDAEWM  VH FLGLSVGLIQ GM  EER+ NY CDITYT NS+
Sbjct: 131 VVTVNDYLARRDAEWMGQVHRFLGLSVGLIQAGMSPEERKKNYACDITYTTNSE 184
[Close]
BLAST of Spo18691.1 vs. ExPASy Swiss-Prot
Match: SECA_CYAP8 (Protein translocase subunit SecA OS=Cyanothece sp. (strain PCC 8801) GN=secA PE=3 SV=1)

HSP 1 Score: 91.7 bits (226), Expect = 1.000e-17
Identity = 42/54 (77.78%), Postives = 44/54 (81.48%), Query Frame = 1 

		  

Query: 97  VVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSQ 151
           VVTVNDYL RRDAEWM  VH FLGLSVGLIQ GM  EER+ NY CDITYT NS+
Sbjct: 131 VVTVNDYLARRDAEWMGQVHRFLGLSVGLIQGGMNPEERKKNYGCDITYTTNSE 184
[Close]
BLAST of Spo18691.1 vs. TAIR (Arabidopsis)
Match: AT1G21650.3 (Preprotein translocase SecA family protein)

HSP 1 Score: 97.1 bits (240), Expect = 1.400e-20
Identity = 44/54 (81.48%), Postives = 48/54 (88.89%), Query Frame = 1 

		  

Query: 97  VVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYTNNSQ 151
           VVTVNDYL +RDAEWM  VH FLGLSVGLIQ+GMKAEER+ NY CDITYTNNS+
Sbjct: 940 VVTVNDYLAQRDAEWMGRVHRFLGLSVGLIQRGMKAEERKFNYSCDITYTNNSE 993
[Close]
BLAST of Spo18691.1 vs. TAIR (Arabidopsis)
Match: AT3G56150.1 (eukaryotic translation initiation factor 3C)

HSP 1 Score: 85.1 bits (209), Expect = 5.400e-17
Identity = 40/59 (67.80%), Postives = 51/59 (86.44%), Query Frame = 1 

		  

Query: 146 TNNSQRLERRRQMPYHMHINLELLEAVHLTCAMLLEVPHMAANTVDAKRKVYKQDIQKI 205
           T   +R+ERRRQMPYHMH+NLELLEAVHL CAMLLEVP+MAAN+ DAKR+V  ++ +++
Sbjct: 590 TPEQERMERRRQMPYHMHLNLELLEAVHLICAMLLEVPNMAANSHDAKRRVISKNFRRL 648
[Close]
BLAST of Spo18691.1 vs. TAIR (Arabidopsis)
Match: AT3G22860.1 (eukaryotic translation initiation factor 3 subunit C2)

HSP 1 Score: 75.5 bits (184), Expect = 4.300e-14
Identity = 37/59 (62.71%), Postives = 48/59 (81.36%), Query Frame = 1 

		  

Query: 146 TNNSQRLERRRQMPYHMHINLELLEAVHLTCAMLLEVPHMAANTVDAKRKVYKQDIQKI 205
           T     +ERR Q+PYHM+INLELLEAV+LTCAMLLEVP+MAAN+ D+K K   ++IQ++
Sbjct: 548 TTEQMLMERRTQIPYHMNINLELLEAVYLTCAMLLEVPNMAANSHDSKHKPISKNIQRL 606
[Close]
BLAST of Spo18691.1 vs. TAIR (Arabidopsis)
Match: AT4G01800.2 (Albino or Glassy Yellow 1)

HSP 1 Score: 75.1 bits (183), Expect = 5.600e-14
Identity = 33/50 (66.00%), Postives = 38/50 (76.00%), Query Frame = 1 

		  

Query: 97  VVTVNDYLTRRDAEWMSSVHHFLGLSVGLIQKGMKAEERRSNYRCDITYT 147
           VVTVNDYL RRD EW+  V  FLGL VGLIQ+ M  E+R+ NY CDITY+
Sbjct: 203 VVTVNDYLARRDCEWVGQVPRFLGLKVGLIQQNMTPEQRKENYLCDITYS 252
[Close]
BLAST of Spo18691.1 vs. TAIR (Arabidopsis)
Match: AT3G15800.1 (Glycosyl hydrolase superfamily protein)

HSP 1 Score: 72.4 bits (176), Expect = 3.600e-13
Identity = 29/46 (63.04%), Postives = 40/46 (86.96%), Query Frame = 1 

		  

Query: 1   MLKAYVFAMFNEDDKPGPNFERNFGLWKPDGSISYDVGFPALKSTA 47
           +++AYVFA+FNE+ KPGP  ERNFGL+KPDG+I+YD+G   LKS++
Sbjct: 325 VVRAYVFALFNENSKPGPTSERNFGLFKPDGTIAYDIGLTGLKSSS 370
The following BLAST results are available for this feature:
BLAST of Spo18691.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902218223|gb|KNA17973.1|2.1e-2394.7hypothetical protein SOVF_0750... [more]
gi|731353233|ref|XP_010687954.1|6.9e-2272.9PREDICTED: glucan endo-1,3-bet... [more]
gi|902234934|gb|KNA23657.1|3.4e-2194.4hypothetical protein SOVF_0229... [more]
gi|731353235|ref|XP_010687955.1|4.5e-2189.2PREDICTED: glucan endo-1,3-bet... [more]
gi|902231811|gb|KNA22413.1|4.5e-2192.7hypothetical protein SOVF_0343... [more]
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BLAST of Spo18691.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9RER4_SPIOL1.5e-2394.7Uncharacterized protein OS=Spi... [more]
A0A0J8BN88_BETVU4.8e-2272.9Uncharacterized protein OS=Bet... [more]
A0A0K9RXV0_SPIOL2.4e-2194.4Protein translocase subunit Se... [more]
A0A0K9RSH2_SPIOL3.1e-2192.7Uncharacterized protein OS=Spi... [more]
A0A0J8EIK0_BETVU3.1e-2189.2Uncharacterized protein OS=Bet... [more]
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BLAST of Spo18691.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
SECA2_ARATH2.5e-1981.4Protein translocase subunit SE... [more]
SECA_SYNP64.6e-1876.7Protein translocase subunit Se... [more]
SECA_SYNE74.6e-1876.7Protein translocase subunit Se... [more]
SECA_MICAN6.0e-1877.7Protein translocase subunit Se... [more]
SECA_CYAP81.0e-1777.7Protein translocase subunit Se... [more]
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BLAST of Spo18691.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 5
Match NameE-valueIdentityDescription
AT1G21650.31.4e-2081.4Preprotein translocase SecA fa... [more]
AT3G56150.15.4e-1767.8eukaryotic translation initiat... [more]
AT3G22860.14.3e-1462.7eukaryotic translation initiat... [more]
AT4G01800.25.6e-1466.0Albino or Glassy Yellow 1[more]
AT3G15800.13.6e-1363.0Glycosyl hydrolase superfamily... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000490Glycoside hydrolase family 17PFAMPF00332Glyco_hydro_17coord: 3..39
score: 2.
IPR008905Eukaryotic translation initiation factor 3 subunit C, N-terminal domainPFAMPF05470eIF-3c_Ncoord: 145..192
score: 7.1
IPR011115SecA DEAD-like, N-terminalPFAMPF07517SecA_DEADcoord: 96..149
score: 2.3
IPR011115SecA DEAD-like, N-terminalSMARTSM00957SecA_DEAD_2coord: 20..205
score: 5.
IPR013781Glycoside hydrolase, catalytic domainGENE3D3.20.20.80coord: 3..39
score: 2.9
IPR014018SecA motor DEADPROFILEPS51196SECA_MOTOR_DEADcoord: 1..205
score: 11
IPR017853Glycoside hydrolase superfamilyunknownSSF51445(Trans)glycosidasescoord: 3..38
score: 5.
IPR027417P-loop containing nucleoside triphosphate hydrolaseGENE3D3.40.50.300coord: 95..150
score: 4.6
IPR027417P-loop containing nucleoside triphosphate hydrolaseunknownSSF52540P-loop containing nucleoside triphosphate hydrolasescoord: 94..153
score: 2.58
NoneNo IPR availablePANTHERPTHR30612SECA INNER MEMBRANE COMPONENT OF SEC PROTEIN SECRETION SYSTEMcoord: 97..150
score: 3.7
NoneNo IPR availablePANTHERPTHR30612:SF5PROTEIN TRANSLOCASE SUBUNIT SECA2, CHLOROPLASTICcoord: 97..150
score: 3.7

GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0005975 carbohydrate metabolic process
biological_process GO:0017038 protein import
biological_process GO:0006413 translational initiation
biological_process GO:0006605 protein targeting
biological_process GO:0006446 regulation of translational initiation
cellular_component GO:0005852 eukaryotic translation initiation factor 3 complex
cellular_component GO:0016020 membrane
cellular_component GO:0009536 plastid
cellular_component GO:0005840 ribosome
molecular_function GO:0005524 ATP binding
molecular_function GO:0004553 hydrolase activity, hydrolyzing O-glycosyl compounds
molecular_function GO:0003743 translation initiation factor activity
molecular_function GO:0031369 translation initiation factor binding