CsaV3_3G019080 (gene) Cucumber (Chinese Long) v3

Overview
NameCsaV3_3G019080
Typegene
OrganismCucumis sativus (Cucumber (Chinese Long) v3)
DescriptionDNA-directed RNA polymerase subunit alpha
Locationchr3 : 14749078 .. 14778381 (+)
Genome Viewer
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.
ATGAAGAATGATAATGTAGACAAGATGATGATGAGAGATGCTCATAGGAATTTGGAGGTTAGTTGAATTTCTCTATTTCTTTTTCTATTGTTTCTTATGACTAACATAATATCCATCACTTACAACAATATCACCCAAAAATTAGGGTTCAAAATCTTTCATATATTTGATTCAATACATGGATATATAAAGTTACGTCTAGAAAAACTATCTAATTCTGTAATACATAACCAAGAAGTAAGATAAACAAAATAAAAAAAAGAAATTATATTGTTACTAAAATCTAGGAAATTAATAAATAAAAATTAATCTTCATGAAGATTTGTCCCTGATATCGTGGACCATTCATTATTTTTCACATTCTTGGTCATTTTTTTTACGTCTTCTTCAAGATTTTTTTAATCTCCTTTTACATATTTTTAAACTACTTATCTTCACCATTTTTAGCAAAATTATTCGAAGTTACTTTATCTTCCTCATATTCAAGAATATCAAGATAATTTAAATATCATTTTGACATTATGTAAACGATCCGATCGTTTATCATTGTCAACACGATCATTTACTATGATCAACACGATTTTAAATTTGAAACTCTTTTCCTATCGTTTAAAAAAGAACTATACAATTGAATTGATATGATCTAAGCGATTGTGTACTAATATCTAAATGATCTTGTACCCAATATCATGTACCAAGAATAATTTAAATTTGGTACAAGATTGTGTATGAAGATCACTTAAAATTTGTATAAGATCGTGTACTAATATCTAAACGAACTTGTACCCAAGGTCGTGTATCACAATCATTTAGTTTTTGGTACAAGATCATGTACGTACTGTCGTGACGTGATCGCTACGCGGAGCGGTCGACCTCCCCGTTTATTTAATTTTAATAAATAGTTTTGGAGTCGCCACCAACCATATTAGGGTGTGATTGGTCACCAAAAAAAAAAATGGTCTGCGTAGATTCAGAGATTTAAGTTCGGGAGTCAGTTGTGTGTAGGGAAGGTGTTAGCACCCTACAACACCCAAAAAAATGGTTACCCAATTTTATCTTTTAAATTAAATTATAGAGGTTCACAAAATAAAGTTTTTATTTAGGTTTTGTTTAAATGTCTCATGTTTATCAATTCATATCGAAGAAAGTAAAACCTAAGCATGAATTGATGATTATGAGTTGCATAGGAGCCATTAGAAAAATTAAGTTTATTTTTGTTTTAAAAGATTTTTATTCACCTTAAGAATATTAAGATACCAAAACTTGATATTTTAATCTCTATCATAGGTGTTTAATGAGAAATTTCATGTATCTAGAATGAAAATACTACTCAGTCTCATTTAAAATATGAAATGTGTTTATTTAAAAATAATCTATTAATTAAATTTCAAACGGAAAAATTTCATGTATTCATGGATTTTAAATTATAAAATCCATAAAAAACAATACTTTTTCTCCGATTTACATTTTTATATTTAAATTGAAAAATGAATAATAACAATGACAAAACATTATGAAATTTGAAAAATACTTAAAGGGTAATATGTTGAGATAAAATAAATGCATAAAAAAAATACATGATAACGTAAGCAATACGCAAAATGTACAAGATAATTAATTAATACAGCACATGCAAGATAATTAATTAATGCAGAATGATGCAAAATAATTAATTAATTCAAAACATGTAAAATAATTAATTAATTCAAAAGGATGCAAAATAATTAATTAATTCAAAACGATGCAAAATGATTAATTAATACAAAAAGGTGAAAAATAATTAATTAATGCAGAAATAGGCAAATTAATTAATTAATTCAGAAATATGCAAAATAATTAATTAATTCAGAAATATGCAAAATAATTAATTATGCTAGACCAGAGTAATAAATAATTACTTGAGGATGTCAAATGGGTGAAATAATAATTAATTGCAGAGTGTCAAAGTAGGTTTAATGCAAGATGCCAATAAATAATCACAGTAGCCAATGGATGTCAAATAGTTTTAGTGATTAATTAATTAATACAGAATACAAATAATTTGAATAAGTAATTGACATAAGAGACCAAATGAGTGTCAAAATAATTAACGATATGCAAATAATTAGCTCACAATGGAGGATGTCAAAAATTAAAACTGTCAAATACATTGTGCTAATTAATTAACCATGCATAATTAAAAGAGTATGCCAAATGAATAGTTATTTTCAAATGCATAATTAACATATATGCCAAATGGATAATTATTAAACCAAGATACCAAATAGATACACACAATTAACACAGAATGTAAAATGGGTGCTTAGATAATTAAAAAGATAGCAAATAATTAAATCAGTATGCCAAATGAATGTCAAATAAGTGTTAAATAATTAAGACATCAATCAAATAATTAACACATCATTTAATTAATTAACCAAATGAAATAATTAACATAGCACCCAAATGGATGTCAAATAATTAATCAAGAACACACTTATTAATTAAGGCAGTAGCCAAATAGATGCAAAACAACTAATTAATCAGCTCAACAATCAAATAGTCAAAATGGGTGTCAAATTAATTAGCATGCAGAACTCAGCAATCAAAATACTCCAATGGCCAAATGGATGTCAAATAATTAACGAGGATGCAGAAAATTAACATAGACCAAATAATTAACATAGCATTGACGGTATGCTAATTAATTAACCAAATAATTAATGCCAAATCAGATAATTAACTCACAACAGCCAAATAATTAAACGGATGCAGAACTCATCCATCAAAATAGTCAAATGGCCAAATAGATGTGCAGAAATAAGTGTAATCAGATGCAAAACACTAATTAATTAGGACAGCAATCAAAGAGTCAAATGGGTGCCAAATAATTCAAATGATGCAAATAATTAAAAGATGTGAAATGAGTGCCCAATGATTAACACACCAGCTAATTAATGAGTGCCAAATGATTAACACCAGCTAATTAATGAGTGCCAAATGATTAACACATCAGCTAATTAATGAGTGATTTAAATGAATAATTAAGACAGCACCCAGATGGGTGCCAAATAATTACTGGGTGCCAAATAATTAAGCCAGTATCATCAAACATGAATAATAAAAAAAAACTTACAAGGTCTGCCTTAAATGCAAAATGTTCTGGGTTGATCCTCCTCACCTCTTCCAAAAAAAAATAATCTTTTACGTGTCCCTCTTCTCTACCAAATAATTCTCCAGCAAAAAAAATTCTCCCCCCATTTTGAATCTTCTCCTTCTCTTTTTATAGGGAAATGTCTCCTTTTTTAGATAGAAGTGAAGTGGGTTTAGATAGTGAAATGGAGTACAGAGAAATGTGGAAGAGTGGGAGAACGTGAGAGATTGGGGAAGAAGGTGGAAGAAGAGAAATGTGGAAGAGTGGGAGAACGTGAGAGATTGGAGAAGAAGGTGGAAGAGTGGGAGAACGTGAGAAAGTGGGAGGATTGTGACTCAAGAAAACAAGGGATGGTTGAGAAAAATAGGGAGAAGAAAAAAAAAACCTTTACTTTTAAATTTAATTTTAAATATGTTTTTATTTTTGTTTTTGTTTTAAAACATAAATTTAAAAATTAAGATTTAAATTTAAATTCAAATTCAAATTCTTTTAAAAAAGTAATAAATAAATTAATGAAAAAAATAAAAGGCAGGACAAAATACGGTATCTACACGTACCAAACTTAGTACCAAGACCATTTCGATCTTGACAAGATCGTTTAGCTATTGGTACAAGATCGTCTAAAGAAAGACTACACGCACAAATGTAATCAATTAATCGTATTGACTGAAATATTTTACTGGTGTGTTACAATTTTTTAAAAGAACTTAAATTAAACCATTAAATATTTTTCCCTTCTAATAGTTGAAAGAGGAAATATTTCTAATAGTTCAATAAGAAAATATGCGTCATAGAATTGCACTTGCAAAGTTTGAAAGAAGTATTTAGTTTGCTAAACTTAATTTTATATTTATTTTTCATTAAATCTTTCTCAACCATTTTTATTTTGCCATTCATATATTTTCATGTATTCTTTTTTCTTTATGGAGCTTTTATATATATATATATATAGGAGTTGTTTTTGTTCGATTTATTAAAGAAAATTTGAGAAAAAAATCTTGATTTGAACTTTTGTTGTTAAAAATTAATATTTATCGCTATATTACTAACTTTGGGTCAATAATATATGGTTCCAAATTACTCTTTGTACACTCAGAAGTGTTTTCAATTTTCATTTTTCTAAAAAGTGATTTGGTTTATTTGCCAAACACATGCCTACCTTAGTAGAAAAAGTGATTTTGTTGAAGCCAAAATCATTGTAAGGGTGTCCTTGGAAGTAATAATTAGGATAGTAATTTAGAAAAAGAGATTTAATTACTATTGATTTTGTTTAACAAATCAAATTTAGGTTTAATATAAAATTATTTTTATATATTTAGAATTGATTTTCAATTATTATATTTAGCTTTCAAAGTTAATTAGAGTTATTCAAAATTGTATTTTTTATTTCAGATAATTATTTTGTTAAATAATTATGTTAAATGTCTATTTATCACGCCTCAGTCCATAATTCGTAGCATGATCGAAATTCAAATTCGACAGACATTCTCTTACGGCCGTGCCCTCTACGATCTGACTACGTCATACTCATTTGTCTTAAATGCTCTAAAGAGTGAAAATTATTACTACAAGCCAACATGGGTTCTTTCAGCATGTTTTATTTCCGCTCACATGTGTTCTAGAAAAATTCCTAACAGGTCACCCTATATATAATTATTCTTAACTTTTGAGTTTTTATGAGTGAACCACTTGAAAGGAAGATGCACTTGGTTAATATAGGTAATAACTTCAATTATTTTAAGCCTTTCTTATCATGTTTTTATATCATCAAGATTTCTGTTATTCGAATATGATCTCTGTTCATTTATGCTTTCTTCTAAATCTTGGAGCGTTACACTATTTCTATTTATATTATTATTAAATTCTTATATGTGTAGTTTATTCTTAATATACATGAGGTGAATATGTTTATAATAGACCTTAAAAGAAAATTCAAAACATATATAAGTTATGACAAACTCATATCTTGTTCTAATATTTAGAATTAAGAAAATGAATCTAAAAATAGCTAACCAACCATGTTTTATACAAAAACTAGGTTATCAATTTTATCTCATACATCTCAAATATTAAGTGATTTTGATGAGAAAAAGAAAAAAATTTTACCATTTCAAAATCACACTCAAAGACGCCTAATTGTTATTATGAGGTGTCTATCCGTTGACACACTTTCCTTAATTCAACTTTTCATCTTTTAAAAATTTTGCTTGATGTCTTACCTCAATTTAGCTCTTAGACTATCTCCAAATTACTTTGTCTAATATTTATAATTTAAAAATCAATAAAATTTATAATGTCAATCATTTTTATTTCACCCTACCAAATTTGGCAGCCATATCACATGACATATTTAAGATAGGAAAATGGCCTACCATAACCTTTTGAGAATATAATATAATAATTCTAGCAATTTGTTTTAAAAATTTACAAGTATGACAAAATTTTCACTCGTAATTATTTCTAAACTACCATTCAATGACTTATTTATCTTCATCTTTTTAATGTCCTACTCATTATTTATTTATTCTTCCACTTTTTAAGGCCCTAATTATTTTTTTATTTTTATACTAAAAAAATTATTTATTCTTTCGGTCTTAATCTTAATTTTAAAATATCAATAGTACAATAATTGTAATATAAAATATAATACGATTGTTGATCAGAGTAATTTAATTTCATTTGTGATTTTTTTTACTTTCTTCGATGTGTATTTTGAGTTAAATATGATTCCAAATAATTTTGTTTTATTTTTTTACATTAATTTTTTGGTTTTATTTTGTCTCAGTTTCGTATATCAGTGTTGTGATATACTTATATTATATGTATTAGTTGGTTAATATACTTATTATGTGATTTTCGTTTTTTTCAAATTTTATGCAATTCATTAGAGTATTATTAATTATATGAATGATGTAACTCAGTATATCATTATCAAGTATATCAACAATATATTGTTAAAACATATCAGTAAAATGAATCATTATCAAGTTTATAAGTGTATATCAATTGTATAAGTGGGACTTCAAGCATATCAAGTGCATTTAATCAATCAATTGTATAAGTGAAGAATACTAAATGTATCTGCAGTATATCAGGTGTATCAAACATATATTAGTAGTGTTTCAGGTGTGTGTCAAAAGAGTATCAGGTGTATCAATCAAATGTATCGTGTATATCAAGAAGTATATAGGTGTATCAAAGGGTGTGTTAGGTGTATCGGATGTGTATAAGGTGTATCAAACTTATATTAGTAATGATGGTATTTGTGACATTTTACCTCTTGATGTGTCGGCTGGGCTTCGTTTTCCATTTTCGCAAATAATAAAATGTATGTGCTATGAACTTAATTATTATAACCTATTTTACTATTTTTTGCAAGTGACTCTTCAATATAATCAAATAAAGCATATATATTATTTTACCAATTATCTATTGCATTGCTTTCATATTTTACATTGTACACGTTAATTACTAGTATTTATAAATACAACAAAATATGAATGTGTGATTTTTGAAATGAAAAACAAAAAATCTATTTATAGAAAAAGCTATTGGACGTATGCAATCAATATATAATTATTGATGATGAGGCAACCGGATATTGTACTTAAAAAAATAGAAAAGAAGAATTATTGATGTGATTCATGGAAGCATGTTGGACAACTCATCCTTTCACCTAATCAATTTCGGTGGCCCTATATGGACCATAATAACTTTCATCCAAAATAATTGATGTAAATACATGCATAAATGTGAAGAATACAATTCTTCTTTTTCTTTTCTTTTTTTACTATTTTAAATATATAAACACATTATGAACTAAAATATTCATCTAATATTAGATAATTTGGATAGACTATTATCTGTGTCCATATTTTCACGATATATTACAAATAAAATAGCTACTTTTATTAACATTTTCACAAGTTTTATTATCTCACATAATTTGGTTTTTGTTTTCGTAAGGTCCATTCATAACAAATTCATTCTTTTTATGTGGAATAAATGAAAATTAATGTTCAAAACATTTTTCACCAATTTGTCTTAAGAGACAATATGAATTATTGTCATGGATGCTTTTTTTTGTTGTTTGTATTCTTCTATAATTTTCTTTTACAAAATTGAAATTTACTTGTACTTTTTCAATTATCTATTTTATATACAGTTATTCCTACATTGTAAAGGGAATATAACTGTTAGTTTGGTTATGAATTTAACCTATATTCCAAAACGCAATATTATCAAGTTTTGAAATTTGTGTTTAAATTTTTTAAAGATTTATGAAGTTATTAGACACAAAAAAATAAATATGTAAAGTCCTGTTTTTTTTTTCTTGTGTTATGGAATGTATATTTTGTTGTAGATAAAAACAAACAAAAATATATATTGATAACTATACAGTCTGTACTTCATAATAAAACTTGTGGTCACAAATTTAAAATATGAAGACATTATTGTTTTGAGAAAAGAAAATAGAAATTCTAGAACGATCTCCCAATTATTTAGTCTACAGTCTCACCATCTTTTGGGGTCACGATATGTATTAATGAGACTCAATCTCTTGGCCGAATTTATTTATTTATTAAAATATAAGATCCCATTTGATTTGATGTGATGATGTGTTTATTAATAATAGTTTTTTATGATATTAAAAAAATTGATCTTATGAGATCTCTTACACAATTTAGAAATGAAATCTATGAATTGTTTAAAGGGAAAGTCAAATGCGATATAATAATAACAATACAAAGGGATAATTTAAAATTACTTAATGGCATGTATTATGATCACATTCATAACGATCCAAATAAAATAAATGCTTTGGTATTAGACTTTGTTTTTAGTTATTAAATACTTTTGAATATATGATAACTAAGTAAGATTTTTTTAAAAAAAATTAAGAAGTCATTATCTACCCCTCAATACTTTTAATCAATTAATTTGGATGAAAACACTTTTAAATAAGGATTTTTTTAAAAAAATAACAAAACATTAAAATATTTATATTCTATTAAATAGTTTAAAAAACGCAAAAAAACTCACGGGCCTACAATGAAAAATACAAAAAATGTCTCGTGATTATTTGGCATCCAAAATGCGTAATATATTTGAAAAACGATTGTTTAAATTTGACTATTTTTTGTTATGCGATCGTTTAGATTTGACTACCAAAGTTTAAACGATTTTTTTTTAAAATTTTTGGTACACAATCATTTATATTTGACTATTTTTTGTACGCAATCATTTATATTTGACTATTTTTGGTACATGATCATTTATATTTAGTACACAATTGTTTAGATTTGATCATTTAAATTTGACTATCTAAATCTAAACGACTTTTTTTAAGATTATTTGTTACAAAATTGTTTGGATTTGATTTTCTTTTTTGTAGACGATCCAAATCTAAATGACATTTTTTAAAATTTTTTTATATTTGGTAGACGAATTTAAACAACTAACCGTTTGGAAAAAAAATTAGTTCTTTTATATTTGGTACAGGTCTTGAACCAAATAATAGTTTGAAAAAAATAAAAGAAAAATGGTAGAAGAAGAAAGAAAATGGCAGAAGAAGAAAGAAAAATGGCAGAAGAAGAGAAGAAAAATGACAGAAGAAGAGAAGAAAGACGATGAAGAGAAAAAAATCGCATAAGAGAAATAGAAGAAAAACGATGAAAAGGAAGGAAAAATATGAAATATTTTAAAAGAATGACCAACTTAATGAGTTTTTTTTCATTTTGTTACAGGAGCTATAAATATTTTGACTTTTTTGTTATATTTATGAAAATATAATAATTTTTTTTTGTTATATTTGATTATCCCTTAGATTTAGGTAGCCAAATTTAAACAATCAAATCTAAACAATCGTGTACCAAATCTAAACGACTGTGTACTAAATTTTTTTTAAATAAAATCGTTGAGATTTGACTTTCCAGATTCAAACTATCAAATCTAAACGATCGTGTATCAAATTTAAATGTTATTCTACCAAAAAAGTTTTAAAAAAGTTTGTTTAGAGTTGATTATCCAAATTTAAACGATTAAATCTAAATGACTTTCTACCAAAAAATTTTTTTAAAAATTGTTTAGATTTGACTATCAAAATTTAAACTATCAAATCTAAACGATATTGTACCAAAAAATCTTGAAAAAAAAATCATTTAGATTTGACTACCCAAATTTAAAGAATCAAATCTAAATGCCCGTGTACCAAAAATAGTCAAATCTAAACGATCGTGTACAAAAAATTCTTGAAAAAAAATAGTTTATATTTGGGTACCCAAATCCCAAATCGAAACGATGGTGTACGGCAGAATAGCCAAATCTAAACGATCGTTTACCGAATATATGACACGCACTGGGTGCCAATTAAATGATAAGTCATCTTTGTATTTTCCATGGTGAGGCTGTGGGCTTTCTTCATTTTTGAAAATTTTCTATAGAGTGTAAATATTTTAGCGTTTGTTATTTTTTTTAAAGGATCATTTTTTAAAAAAGATATTGCTATATTTTATAAATAGTTTCAATTTTTTTTTCTATTGTTAATTTTCATAAATATAACAAAACACCAAAATAGTTATGACATGGGTAACAAATAAAAAATCATATGATATTATCATAAATTTCAGGTTTGCCCTTGAATAATGCAGATCATTTTTCACTTCTTTTTCTGCTTCTTCTTTGCAATTTATTTCATCCCCTCTTCATATTATTAACTTCTTCAGATTATTACTTCTTCTTCATTATACAATATTATGGTTATTTATGTAAATATTTACCAATTTCTTCATTTTCTCTTTAGAAATTTTTTCTTCATCATTTCTCATCTCTTTTTTTTCTTCTTGGTACAAGATCTAAATGATATTGGTATAAAATCTAAACGATCAGTTGTCTATTCTAGATAGATAAAGATAGACCATTATCACTAATAGATCGTTTAGACTGGATACAATATCGTTTAGACGGTACAAGGGTACAAGATAGTTTAGGCTGGGTACAAGCATATAAGAACGTTTAGACTAGGTAGAAGGGTACAAAAATCGTTTAGACTTGGTACAAGGGTACGAGATTATTTAGGCTTGCTACAAGATTATTTAGGCTTGCTACGAGATCGTTTAGACTTCCTACAAAATTGTTTAGACTTGCTACAAGATTGTTTAGACTTACTACGAGATCATTGCTCCAAGATCGTAGCTATGAGATTGTTTACTCTACAAGAAATCAGAGAATTCTTGACGCCACAGATCATCAGCAAAAATAGCAAAGCGTATTAACTAAGATTTTTCCAACATCGAATTCTCCATTGGGTAGAACGTCGGGAGTACTATGTTGGGGCAACTTTTATTGACGCGCTAAAGGGACGATGTCGACATCCTCTTTATTCTCGACGTAGTCCATGCCGATGTGTAGACGACGTCGGTAGTGGAATAAGTCTGACGCCACCTCCGCATATCGGGGAAAGGGCAATCCCGATGACACATCGAGAGAAGTTTTCCTCGACGTCATCTCTGTGCATTGGGGGAAACACATGATCCCGACGTAGTTTATACCTCGAGATAAATTTATTTTTTATTATTTTATTATTATTATTATTTGAGTATTGTTTTTGGTTCCACTTCAGAAGGCAATAAACAAAATTTACAACAAATTATTAAAATTAAAAATTTATAATTTATAAAACAAAATACAAAATCTGTATAACAAAAATTACAATTAAGCTATTCAAATTGTTCAAAACAATTACATTAATTAAAATAAAAAACTACACTTATATTCTAAAACATAGTTGCAGATGCCCAAAGAAAGAATGTCAAACCTACATATCACATAAAAGTACAGTTAGATATATATCACTGATAAGAAACTAAACAAATTAAATGTTGAAAAATATGTACCCCAAATGTTCATGGTCCCCTCTGTGCCCGACTCATTTTCTTAATCATCTTCCCCATCTCTTCAACTTGTCCTGCATAAATTTCTCCTATTTTTTCAATAGTCTCTTCCATTTGTTGGTCACGGTCTACCATTTGTTGTCACACTCCTCCTCCCTTATTTGTTGTTCTTCAATGAATCGGTTAGCATTTTCAAGGCTAGCTTTTAGTTCGCTAGCCTCTCTATTGTACATCCCTTGGTCATAGGAGGAGGAAGAAGTGGAAGCAGAACTCTTTGGAGACTTGGGATTGGGGCCCCAACCAAGATCTTTTGAAAGCCTTTTTTGAAAATTTGGAAGAAACAATTTTTTAAAAAAAGATAAAGAGAAAATATGGCTGAAACAAATTTTAGAATAAAAGGAAAAATAATAACACTTTCGATATTTGAAACAAATTTTAAAATAAAAGGAAAAATAATAACACTTTCGATATTAGCCAACTAATGGACCACATCGTACTTCTTTTTCAAAAAATAGCCAACTGTTTTCTTTCGATATTAGCCACGCTTTTTAAACCGAACAACATGAATCTGGAACAGTTTGTTTTGGTTTACGGTTCGAACATACTCATACTAGTAACATATTGTTGATCCATAAGTTCATTTTACATAATTATATGTTAGAAGTACGTAAATATTTATATTAATGTATGCATTTAAGGTATACTAGCATTACAGTGCTAAAATTAGATCATGAGGTTCGTAGGCGCTACCCTGAAATGGATAATCAAAACATTCGCACTATACTAGCTGTCTTCACATCCACCCATAATCAGTTAATACTGCTATTAGATCCACTAATGAATGACAATAAGTGGGTGACCCATATACCGTACGTATTTAGGCATCAAATTAGACAGCTTTCATACTTCCGTATGATACACTCCTCCGACCTCGTTTTTCGTGAAAGTACCAGAACGAACAGACGAACTTTACGAGAACACTTCCAGAATTTGTATCTCGAAAGATGAACAAGTGTAGACACTAGGTGTCGAAAGGTTGTTGTCCTTAATTGCGAAGTTCTATACTATTTATAAGTGATTTCTTCTAGATATACCTCACCTAATCATACTTAGTCATATGGATCCCAAGAGGTGACTATATGTGGTGTATAATGACTTCGAGAGAAGCACGCCTTAATCATAACCATGGTTGAGTAAGTTATATTGTATCAAGGTTACCACATTACTTAATCACATGATAATACATAGACATTCCTTCACTCACTTCTCGGATACAAGTTAGTTCACATCTCCATTTCACCATCTTATTCCCCCTTTACAGACTCTATAGGACTAGTTTAGTAATTTATCTTAGTCTCGCATTCTTTACATTTCTTATTCTTTAATTATTTTATACAACATAGAAGATGTGTAATTCCTAGAACTAATGTCTTGAATCAATTTCCTGTTTTCGACCCTAGATCATCGAGGTAAATCTATTGTTTCACTTGCACTTGGACAAGTAGTAGGAAAACTTGTACTCAATGAGAACTTAGTTACTATGCATATCGCATGTAGTGAACATGCTTAGTGACGTATCATCTAGACCAAAATATAAACTCAACACACTTCACATACTGAGACTGAGTGAATTAAGTGATCACTCAATGAATCCCCAACCACAAGTGTAATAAAAAGTTTTCATAAACTTACTAGTTATACTAGCGTGCGTTTCTCGGAACAACTCGACACGATCTATCAGACGACCACGTTCTTCAGTGAGCTCGTGTTGTCGTTGAAGGAACAACTTGGATCCACTCCTGTGGTTGTAAGGTTCCTTTGCTTTAGCAGTTTTGTTGACCCTTATTGCTCCTACATTCAAACAATGATCAAAACGTTACATCCAAACAACAAAAATGAAGCAATGTTAAATGAAATTAAAGTAGACGATATAAATAACCTGAAGTTATTGAGTCCTGCAATTATCACAACGAAAGTCCTAATCTTGCATGAGATTCACCAATCTCGACTGTGGGTTTGCGCGTGCTTCTTCAGAGTCATTGTAATGCTTGCAATGTCGATGGTTGTCTCCTTTGAATTTTTTCCACTTGCTGAGCATTCGATGCTCAACAAAATAAGTAAATGCTTGATCTTCAAAATCGAGCCGAACCATTGCGACAAAAGAATAATACATAAGAATTAGTCTTCTACATATGTAGGTTCAACATATATTTTAAATAAATTACAAACTTACCTGTAGGCCGCCCTTGACAACCTCGACGTACTCTGAAAGTACATAGGCCCACTTGAGATTCTGGATCGAAAACTTATCTCGGGTTAACACATCGATCATGCAAATGAAACAAACGACATGTGGCGAGATAGACTTGTCCCCTCCTTGGGGGATTGAAAAGAGGATCTTCCCATTTTGTTGTACACACCTTTCCAACTCCAAGTTCTGGGATTCCTAACGTCTCCTCGGAATGGGAGTGGGTTGAGGGGAATATATGAAAAATACACACTATCATATTCAGAAACTTAATTACTGATTCAAGTGTTTATGTAACGAGACTAACCTGAAGTGTCACCCACTAAAGACAATCCTCCCGCATTATCTAGTAGGTCAAAGTTTAGGAAAATATCTGCTTCATGAATACCACTCGGAAATGACATAATTCCTGTAGACATAAAAATCAACAAGCTTTAAACAAATGTAAGTATCACAAACTAAATATATAAAAGAATGACTAATGCGTATACGTGAAGAAGACAATTTTATTCATCATCGCTTGATCCACTTTAAGGTGATGATAATTGTTCACCACCATCGTCTATGAAGTCGTCCACGACATGAAGCACATCCGTCCACGACATGATGTTGTGTCATCGAACTGGGTTAACAATGTTATGTCTTCCTACTATCTCTACTTATTGTTCTTATTGCTGTTTCTGTTGTTGTTAATTGTGGGTTCATCTGAATTCACTACTGTCGATTCTTTCACAGTTTTGTCAAAATTATTGATTTCTCTTCCTCTAATTTTTAAAACCCTTGTGCCCATAGGGGAATAACTAATCCTGCTCTTCGTTTTCTCATACAAATTGCTCTCCTTTATCAGCTTGTCTCATTCTCCTCTATCTCACTGTCTCAATCTCCTCTATCTCATTGTCAAGGGTCCTGGATGCGTAACTGCTCAAGACATCATCTTACCACCTTCGGTGGAAATCGTTGATAATACACAGCATATAGCTAACCTAATGGAACCAATTAATTTGTGTATTGAATTAAAGATCGAGAGGAATCGCGGATATCATATACAAACGCCAAATAATTTTCAAGACGCAAGTTATCCTATGGATGCTATATTCATGCCTGTTCGAAATGTTAATCATAGTATACATTCTTATGTAAATGGGAATGAAAAACAAGAGATACTTTTTCTCGAAATATGGACCAATGGAAGTTTAACTCCTAAAGAACCACTTCATAATTTTAGCATAGTTTTACTTGCTAGAGTGAAGATAAGAAGAACGAAAAAAAAAAAAAAAAAACAAGAAAAAAGAACAAATTTAAGCGCCGAGCAAAAGAACAGAAAGAGAGAAGAAAAGGAAATACTTTTATAAACGTAAAGATATAATTTTGCAATAAAATCCTAAACCCTAAACCCTAAACCATCATAAGAATTTCTTATATTTGTATTTTGCAATAAGTTATCTTTTATTTTTCTTTTAAAAAAAAGGATCCCTCTTAAAATAGTTATGTTTAATCTTTTTTATATTATATTTCTACTGTAACACGGAAATACCCAATAATAATACTAAGATGTTTATTGAAATAAACTCTAATCTAGCTTTTTTCCCCGTAAAGAAACATTATACTTTTAACAGTATTTTTATACTAAAATATAATAAAAGAAACATTTTTTAAAATAGCAAAATAAATTAAATTATTTACAAGCTATAGCAAAATTTTGGATTCTATCACTGTAGCATATCAATGACTATCGGTGATAGAATTTGTTATAGCTTGTAAATATTTTATAAAATATATTATTTTTAACAATTCTCCAAAATAAAAACTATATTTAGTTAACGACTTGTTTGTTTTCTTCTATTATGTTCGTAATAAAATCTTGAATATTAGTATCTCAAAAATTTTAAAATTCGTTTGACATTAATTTTTTTAATAGCTTATAAAATTTTTATACTAAAATATGTACTGTAAAACATAGTTAATTAATTAATAAATATTTACACTTAGTTTTAATTAATTATCAAATATAATTTGAATTATTGTTTAGATTTAATAAACTTCCGCTAATACTTTTATAATTTAAAGATAGAATGTAGTTCAAATGGGAAAAGTTAATTGTTTATATGTAGAAGAGCTCTCGTTGATTGTAATTTGAAGAACTTTCTTTCATCCACTCGAATGAATCGTTCAAATTAAGGTCCTACATGTAGTTAAGCGTGCTTGTTGGATGATCTATAAATTGTTCTAAAAAGTATGTAAGAATGAACAAATCAAGCTGAAAGCCTCCAAGTTTGTTTGTGCATGGGAATAGATCTTATATACTCTGATTTATTTCGTACCTTTAGCTCAATGAAAAAATGGGTCAGATTCTACAGGACCAAACCTATGGGCCTATGGGACTTAAGGAATGATCGAAGGGAATAAAAAAAGAAAAAAAAGGAGAGGGAAAAATAAATAAATAAAAATGACGTAGAAGAGCCCAGATGAAACAATTAATTTAAGATAAGTAAATGGTACGACCGAATCGTAGAAATATCAAGGTCATCAAATATCTAATCTAAATTTCGACAATAAATTTAGGGCAATTAGAATTATAATAACACTGTATAGTTGAACCCAAAACGAAAAAAAGGTGAGAGATATATGCATGAAAGGTAGTTTTTGTTTGGTTAAGAAATGCAAATATTTTTGGCATATTAATTCATTAAAATGAAAAGGAAAGAAGCCATGATTTTATTTTCCTTTGTATTGATTGAGCATGAAACTACAAATATAAAATTGAAGACAATTTTAATTTATTTTATTTTCCTTTATTTTCCTTTGTAGATATTCAAAAATATTTTAATGACTATGTTTATTTTTTAGGATTTTTACTCAAAAATGTTTTAAATTTACATAAAATTTCAATAATGTGACTATTTATTAGTTTAAAGCTCATTTGATATAATTTGAACCTATATAACAATATTTTTTTTTATTAATTTGAATTTCTTTTTAATTATTTAATACAACTTATATTGTTTTTTATATATTATTTATCTCATAATTTATTATTTGTTTTTATAAAATAAACATTAAGTTAAAGTCAAACGTGAGTATCTTGTTAACAATAATAAGAATTAATATAACAAAAAAAAAATATAAATGGTTATCTACTTATTTTAATTATATAATGCAAATGAAGATATACATGAATGAATAGAATAAAAAAGACAAAAATGTAAAATGGGAGGGTTGGAAATCTGAAAAACTCATTTCATCGAAAACTATCCGTCCTCGCTCAGGTATTCTAGGATAGTTAATAATCTTTCTAGTTTATGGTGGAACATTTTACAATATTACAAAACAATCAAGTTAAGCCAAATATCGATTCGAAACCTCACATGCCAGTGAAATAAACCACCCCTAAAAAGTTCTATTAAAGTTTTTAAAAAAATTTATTTTTACCTTTGTTCATTTGGTTGCGGACATATTCTTCTAATTTTTTTTTTATTGAAGTGATATAGGATGAAATATGAAAGAAGTTAATTGTAAACTGAATTAAATTAGAATATAAAAACAAAATTAAAAAAAAAATCTAATTAAATAATGATTAAAAGGAACATTTAGAATTTAAAATGAGATGGGAAAATTTTTGAATGAATATTGGATTAAAAATATAAATAGTGTCATATCATAACATGACGTGTTGGACACACCCTAATATGTACATTAAATGTTGAGATATTGTAAAATATAGATTAAAAATTGACATATCATCATAAACTTAAATAATATTTGTGTCTCCAAATTCTTATTTACACCTTTTCAACCCATTTGTTTTTTCTCTTAAATGTTTCTATTTAAAAAAGTGGGAAGAGTTGATAAAAAAATCTAAAAAAGATAAGCAGTGATATAAGGAAAATGACATGTCATTAGCAGTGATATGAAAAAAGCATGGGTATATATATATATATATATATAATTTCTTAAATAATTATAAACATACACCAAAATGATTTCTATCGATATTTAACTTTGGCTATTTAAAATATTATTTTTTAGAAAAAAAGATGACAATATAAAGTTATTGTATGGTTCATCAAAAAAAAAAAAAATCCAATAATTTGCATATGCATTATTCACAAATTGGACGGATCTATTAAGGGACTAGGGGCACATGCCCTCTTTACATTTCAAATTTTTGTATTTTAATATTAACTTTGAAGTGTTAATTAATTACAATATATTTTAAATAATGTTTTAATTGTAATGTATTTTGTATTTTGGTATAGTGGCCGTGCTTCCCTTCTAAAAACCTAGGAATTTGAGTACAAATCTCATCTATTACAATTTTTTTTTAATAGTGTCCCCCTATATAGGATACGCCACTACTTACTATTTACTATTGTACTATTTCTATCCATATTCTTTAAAGAAAAAAAAAAATCTTTGAAGTTATGGCATATATTTTGGGTTTCGGTCTCCATTATGTTAAACTATACACACAAAAATTCAAAACATATCCTCTAGTCTATATTTATAATGTGTATTTTTCTCTTTAAAAACTCTCATTAAGAGAAAAAAAAACTAAACTCTACGACCTAATTTATATATTCTAGTGCATTTGTTGATTTATATTGTGTATCTTTGTCTATAAACAAAATATGTATACGATGGGTTTTTTGTTATTGCAATTATTATCATCTTTTTTCATTTTAAATGCAGAGTTTAGAGAAGAGGAGAACACCAATATTGTTTTCGTTATCTTTTAGTCAAATGCATAATGTTTGGGATAGAAGTGTTGAAAACAATTTAATTCAAGTTTTCTACTTTATAAAAACATGATAATTATAATACATAGGTGAGAGATCTCCCCCTGGAACTTTAAAACTAATAATATAAACTTTGTGGAATTGAGCAATGCCCTTTGTGCATATTAAGGAAGATTTGATAGAAAGCAACCGAAACTGTTAATCAACGACCAACCTAATGGAGAAGGAAAATCCAAGAGAGATTGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGCAAGAGCATGCAGCTATCCCTTTCCTATGCCATTCCCCATTTATTACACATTATGTCAAAATTATTTATGAGAATTCAAAAATGAAAAAAAAAAAGAAGAATAAAAGTGTTGCAATCTGCAATACTATCATTATTTTTCATGTGTAGAGAATTGTTTTATCCCTAAATTATTTAACTCAAGAAAAAACTATATAAAATAATGTTTAACATCCCCTTTATTGATTAATTTCTAGATATGTAACTTCATGTTATCTATTATAATTACGAGAGCTTATTAAACTCTAAAATGGGCACTAGGTCAAAAATGATACTTTATTTGTTAAATAAGCCTCCTCATCTCCTTGTAAATAAGTTTTGAGATACGTTTGTTTTGAGAGTTGTTCGGTTGTTTGGAGAATTGAAGCTATGTGACAGTTTGAGAAAGTTTTGGGAATCAAACTATAACTTAGACATTTTTTTTAATTTAATAAAAGAAAAGAAAAAGATAATTTAGTTTAAAGAAAAAGGAATTTTTTATGTGTTGTGTACGTGGGAGGACACTTTTTTTGGTATGCACCCTCGCTTAATGGGTTTGGTTTGCCCTGTTTTGAAACTTTTTAAAGTTAATAGTTCTTTTAATACAATAATTTATTTTGAATAAGATACTAGAGGAAAGGATGAGTGATGCATCGAGACATCTCAACTAAATTGACATTCTTTTAGCATTCTCATCAAAATTTTAAATGAAAATTTTGAGTTAGCAAATGTTTGTTATTATTTTATTCTAAACATGCATTCTCACATTGCTAGTAATGTGAAATTCTCTTTTATAAACTCATATATTCATTCATGGGTTTGGGCCTTAAGAGCAACCAAGTTTTGGAAGGGAAGAAGAGATAGACAAAAGTAGGTTTGCTGATATCTCCACACACGCAATCGAGCGTGGCAAGGAGAGAAATAAAATAACATTATAATGTATTTTTGCTAAAATTATCTTTAATATTCAAAATCATTTTTTATGTTATAAATGTTTGTGTAAATTACATTTTCAAAAATGAAATCGTTTCAAATTGAACGAAAAATTAGTTAGCGATTTTTATTTGATCATTAATTTTGTGGCCGTTGGAAAAGCTCCTCGCTCACTATATATATGAACCTCATTTCTCTTCTAAAAATACAAAACAACAACGATTTCTTTCTCTCAAAAGTCTCTCGTTTTTAGTATACCAAGCAGTAGAGTGTATATTTGAGTGTTGAGATTTCAATTAGTTTCCGTGCAAAAATAATTGAAGAACATGGTTGTTTCATTCTGGGGACGATGGAGCAACACAAACATGTTTGCACAAAAGAGCATAGTTGCAAAATGTTTTTAAAAAAAGTGAGATCCATGACTTAGCCATTTTCTAACATGTTTATGTTTTGTAGTAGCTGTTTTGACTAGGCGTTTTGACCGCTACGCAAGTTGATCATTTGGCGAGTTGATCGTTAGGCGTTCTGATCAGTAGGTGATTTGACAAGTACTCGAGCTGACCAATGAAGGTGTACTATTCAGGCGAGATAACAATTCACTTGGCGAAATACAAGACACATTAGCATACCAATTGTCTAGGCGTCCAGTTTTGAAGTTAAGGCTTCCACAACATACTACTCCTTTTAGGCGAATTGCAACAACAATTTTAAGACATTTCATTCTACTGCGATGGTCGGACCATTCCAAGATGATTTGATGTCCTTTGACCTGAATCGTTCTTTTCACTTTGAAGGAGAGCAAATAGATGGAAGCAAAAGATGTTCTTTCTCACACTGAAGAAAGTTACAGCCACATGTTCCATTGAAAAACCAAAGGTTCTAGAAACCAACCCAAATGAAGAGCAAATCAACCGTCTTACTGTGTGGACAGAGACAAACTTTATCATTAAGATTTTAATTCTCAATGGTCTGACTTATGAATTATACGATTATTATAGTACCATGTCACCCGTGAAAGAAGTATGAGACACGTTACAAAAGAAATATGACAATGAGGAAGCTGGATTCAAGAAGTATGCGGTAAGCTGATACCTACGGTATCAAATAACTGATGATAGATCCATGGAGGCTCAATCACACGAGATTCAAAAGATTCTACATAAAATTATTAGTGAAGGTATGCCACTTGATGATCAATTTTAATTTATTAATATTGATAAGCTACCTCCACTGTGGAAGGATTTCAAAAACACTTTAAGGCACAAAACAAAGGAGTTCTCGCTGGAAAGTCTCTTCATGTGTTTAAGGATGGAGAAGGGGGCTAGAAGACATGACAAAAAAGAAGAGGTGAATGTAGTTCCCAAAAAGCCGTCTATCGCAGTTCTAAAACCAGACCTGAAGTCGAAAGGAAACAAAATGAAAGTTCATAACAGAGGACCCAACAAACAAAAGAACTCCCAGTCTAGAAGTACGATACAAATTATTTGTTATAGCTACAATAAAGTTGGGCATATAGCTAGAAATTGTAGAAAAGGGAATCGTCCTGCTGCACAGATGAACCTGGTTGAAGAGGATTTAGTAGCTATGATCACAGAAGTAAATGTGATCGAGGAGTCTAAAGGTTGGTCGCTAGACACTGGTGTATCTTGCCACGCCTGTCACGATATTAGCTTATTTAGAAAATATAATGAGACTGAGGATAAGAATATCCTTCTAGGAGATCATCACACAATTAAGGTGGCCGACATTGAAGAAGTAGAACTGAAATTCACATCTAGCAAGACGCTTGTGCTTAAAGAAGTTCTACACACTTTTGAAATTCGAACAAATCTAGTCTCAAGATATCTCCTCAACAAAGTCAGCTTCACGCAAACAATATGATCATATCTCTTTACTTTAACAAAAAATAATGTATTTCTGGAAAAGAGTTATGCAAATGATAGCATGTTTAAGTTGAAATTGGAAATGAATAAGAAAATGTTTTCTGCTTACATGTTGTCTACTTTTAATGTTTGGCATGCTAGACTTTATCATGTTAATAAAAGATTAATTAGCAACATAAGTAAGTTGAATTTGATTGTGAAGTTATCTTTTCATGAATTTGAAAAATGCACATGTTGTAGTAAAGCTAAGATAATAAAGACTTTCCATAAATCTGTAACTAGGGTAACCGAACCTCCAGAGTTAATTCATTATGATTTATGTGAATTTGATGGCATATTAACTAGAAATAGTAAAAGGTAATTTATAACCTTTATAGATGATTGTTCCGACTACGCTTTTATTTATCTACTTAAAAATAAAAGTGATGTCTTATAAATTTATAAGTTGTTTACAATTGAGATCAATAATCAGTTTAACAAAATAATTAAGAGATTTCGTAGTGATAGAGGAACTGAATATACTTCAGTTGTTTTTAATGAGTTTTATAACTCAAAATGAATAATACACGAAACAACTGCACCTTACTCTCCTAAAATGAATGGAAAAACTGAAAGGCAGAACAGAACTCTAACTAAGTTAGTAGTTGCTATCTTGCTTGATTCAGAAGTAGCACCATCTTGGTGGAGTTGAAATAATTAAAATAGTGAATTATGTTCTTAATATGATTCCTAAATCAAATAGTAAAACTTCACCGTACGAAGTCCTTAAGAATAAAACATCAAACTTGTCCTATCATAGAACATGGGGATGCCTAGCCTATGTAAGAATACCAGGTCCTAAGAGAAGAAAACTAGCTAGTAGAGTCTATGAATGAGTCTTTATAGGATACGCTGAAAATAGTAAAGCCTATAGATTCTATGACTTAGAAAATAAGGTAAACATAGAATAAAACGATGTAAATTTTTTCTTGGATAGATTTCCTTTTAAATCTAGAAATAGTGGGGGGTTATTAAATAGTCAAACTAGTGGGGGCTCAAGTTGAAATAATCTACCTTCAATTAGGATCCAAACCCAGGATAAAGAAGTAGATCTTGAACCTAGAAGAAGCAAGAGAGCAAGAGCCATAAAAGACTTTGGAGAAGACTTCGAAATGTACAACGTAGAAGATCCAAAAGATCTAACAAAAGCCTTATCCTCAGTAGATGCCACCTTATGGCAAAAAGTTATTATTGATGAAATGGAATCTCTTGAATCTAATAGGACTTAGCACCTAGTTGACCTACCTCCTGGCTGCAAAGTAATAGGATGTAAATGGGTTTTGAGGAAAAAACTCAAACATGGTGGATCGGTAGATAAGTATAAAACTAGACTAGTAGCAAAGATTTTAGAGTGTTGATTTGTATAGGTGCACTAAACAATCTCTTATTACATCACATGGACGCTAAAAATGTCTTTCTAAATGGTGATTTAGAAGAAGAGATCTATATAGAACAACTTGAAGGTTTCATAGTTCATGGTCAAGAATCTAAGTTTGTAAATTAGATAAATTCCTCTATGGCATAAAACAAGCTCCTAAGCAATGACACGAAAAGTTTGACAACCTAATCATGTCCAAAAGAATCAAAGTAAATGAGAGACAAATATATCTACTATAAAATCGAAGATAGGTTATGTATTATCATTTGTTTATACATAGATGACATGTTAACCTTTGTGTCAAACTTGCATGTCATAAACTATGTAAAATCAATGTTGAGTGCAAACTTTGACATGAAAGACGTAGGAGAAGCTAATGTAACCCTATGCATCAAAATTACTAGAATTGAAAATTAAGTCTTCTTTGATCAATCTCATTACATAGAAAAGTTTCTAAAGAAGTACAACTTTTTTTAAAGCAAACCAGCTTGTACACCTTATGATTCTAGTATTAAGTTGTCCAAAAGAATTAGTGACAATGTCAATCAATTCAAATATGCTAGCACTATAGAAAGTCTGAGATATATTGCTAACTGCACTAGACTAGATACTTATGTTGTAGGTTTACTAGCAGACCTAGCCTAGAACACTAAAATATTGTAGAAAGAGTAATGAGATATATATATTAAGAAAACCCAAAACCTAGGATTACATTATCAAAGGGTCTCAGTTGTATTTGAAGATTACAATGATGCTGATTGGAATTGCTTCTTAAGTGACTCAGTAACTATATTTTAATTATAGCGAGAGAAGCTCTTGCTTGGAAATCCAAGAAACATACCATCTTAGCTTAGTCAACATAAGAGACAAAAATGATTACATTAGCTACTACTAGTGAACAAGCAAGCTGGCTTCGAAGCTTGCTATCAGAGACTCCCAAATGAGAAAGGCCGGTACCAGCCATACTAATCTATTGTGATAGTATTGCATCTATTGAGTTCAGAATTGTTATTAAAAAAGGTAAGAGACGACAGATACGTCATAAGCACTATACCATTAGATAATTTCTCACTACTATTTCAGTGATAGTGGATTATGTATGGTTTGATGACAACATAGTTGATCCTTTGAAGAAAGGACTAGCAAGAGAGAAGGTTTTTAAAACCTCAGAAAGAATATGACTCAAGTCTATCGTACACTGAATTGTTTGTGAGGTAAACCCAACTTTAAAAACTAGAGAGCCTAAGAAACAAGTTCAAGGGGTAATATAATCACAAGTAATATGACGATAATCATGCTAAAATAATTACGGAGTTCCATTTTTATAATTGAGTGATTACATGATATCCTGAAGCATGTGACAAGGCTGAACTTTTTTCTCAATGAATTCTATACGATATCAAGAAGTGTACCTAGCTACAAGAGTACTCTTGGTAGATTCACCTTTGTGGATGTGAAAGTGAGAGTCATTTCCTATGAATTTTTAGGCAAAGTCTCTAGAGTGTCCACTAAACTGGGCTATACGTACAAGGCCTTAAAGCACGAACAATTTTTAGAACTTCACTCAAAATAATTTTGTGTGTGCAATTTTATTATAAGTAAAGTTCAAAACAATGAGTTACTTAACAATACTCTAAACTATTGTTACTACGTAAAGTTTCAAGTCATTAGACATCTTCATCCCTTATTTTTTCTCCCAGTTTTTAAGGCTCTAATCATTCTTTCTCTTACGAAAAAAATAATTTATTTCTTCAACAAAGTACTTACTACGTGTATCTATAGTACACCATGTTTATCAAAGCATATCAAATTTTTGAATGTACCAATGAAACATAATAAGTTTATTAGCAGTCTATCAAGAAGAATAAAGTGTATCAAGTGTATCAAATGTATATAAGTAACAAGGGCATTTGTGACATTTTACATCATTGTATATGTGGGCTAGTGATAACATGCATAAATGACCGTTATTATAGTCATTTTTATTAGAATAATGAGGTTAAAACGCATAAAGAGATTATCATAATGCATGACTTATGTTGTATACGCATAAATATTTAGAAATATAGCTTACATAAATGTCATTCTTGTTTTACGCGGTTATCATGTTTAAACATAGGACAAGTGGAAAAACAAGAAATGAGCAACTCATACATGACATCTCGCACAAAGGCTTTGCGATGGATCTCGCTTGGTGATTAACAACTCTAGACGAGGAATCAAAACATTAGGAATGCTCACAAGAAGACAAGAATGGTAGTTGGAGTGATGTGACCTCACAGGGCCAAATGACAGCACTGACGCACTCGGAAGAATAGAATCTTTCCACCTAAAAGCAGTCTATACAAGCACTTCATCTTCACTAAGAGAAGGGGGGCCTAAATAGGCCAAAGTCAGTCTGTATAGAGAGAGAGAGCTCGAGTGAGCTATCGGGAGAATATGCAGTCGTGTGAAGAAAAAAATCATTTTTGTTGATTCCCTAACTTGTAATAGCAATCCACTTTCTATTCTTCCCATTTTTGTTGTTTTACCTCATATTATATATATTCTTTATAAACCTATACTCACATCCTTTGATAATTTTATATAAATATAGTGGTTCAATCCATTATCTGTCCTCTTCTGCAAGTCAACGTGTTATCAATTGTTTGAGTAAATAATAGTTCATGATAAGAAGAGTTGCTTATACATTTTAATGTGTTAATTGTGCTTTTGTCAATGCTTGGCTAGCATAAGTTGCTAACTACCCAAGAGGAAAAGTAGCTAGAACTTAATTAGCACGTGTGAAGAGGGACGTTGTCTCTCCACGAGAGTATTTGTAACATTTGGGTTTCGAAAGGAGGGCAAATGTGGGCAGTGACTATCGAGTAGTAGTAGTCCTTCATTACGAAATGCTATAAGATACATAAGTGGTTTCTTCTAGACATAGCTCGCCTAGCCATATTTGGTCATATAGATCTCTGAAGAGCAGTCATATGTGGCATATATGCATTTGAGAGAAGCATATCTTAATCACAAGTGTGTCTTAGCAAGTTATGTCGCGTCAAGGTTATCTCCCTACTTATCCAAATGATATCACGCAGACATTCCTACCCTATATATTTTTCCTAGTGCAAGTTAAATGTGTTTTATCTTTCTCTCCACGCCACCTTGTAGACTTTCGTTGTGTAATTAGCTAATTCTTACATTTTTTATTATTTAATTCTTCCAACTTGCCTAAATGAAGAGTGGACCTTAAAACTAACATCTAAAAATAATTCCTTGTGTTCGACCCTGGATCATCTAGGTAAACCTATTGTTTTGTTTACACTTGGACAAGCAGTAGAAAAACTTGTACTCAATGATGACTTAAGAATTACGCGATAAAATGATATATTATTGTGAGCCTTTCTCATGACTATGATCATGCCCTATGACTCATTGCCTACCATGAAAACATGCAATACAAAGAATTACAATGAGCGCATTACATGTGATGACTTGACCCTGTAACGTATTGTAGTTGAATTAAACAGAATTGAAACCATTAAGTTCATGCACAAAATAGACAAGCAGCTGGATTTTGTTTTTTCTATTGTTGCAAACAATAAATGTGTATGCTATAAACTTAATTATTATAACTTGTTTTGCCTTTTGTGCAAGTGCCCCTAATTAATTATGTATGCAAGTGCCCCTTAATTATTTAACTACATACATATATAAAACTAACCATATATAATTCCTTAAAAATCAACCATTTTAATTTAAATCACCTATCATACAACTTAAATTAATCCTCAATAATACCAAAAATCCAAATCTTTTAATTAATTAAATATGCATTCAACAAATGTTTAATTAATTCTAATTTCCACGAAAAAAACCATTCTCATTTAATTAAATAAAATTAACACCTAACAATTTTATCATAATTAAATAGAAATTAAGATAATTAAATACAAAATTACCTTAATGTTTTGGGGTCACATACATAAAAAAAAACGATAAAATGCTAAATAAACATTAAATAAATTAACATAGGAAATAAATAATAAATAAATAAACACCAATATGTATAAATAAATAAAAGGGAGACTCATAAGACAATAAAAAAAAATAAATGTAAGAAGAAAAATAGAGAAATAAGAAGAACAATAACTTAAAAAAGAAAATAAGTCCAAAACATCAAACTTCTTTTGTTGCTTGGACCAAAGTACCTACCATACACCTCCAACTAAGTTAGAGTTTTTTCTTGTGTGTTGGATTCTTGATATTGTAGGAAGTTTTTGGAGAAATATGGAGATTTAGTGGGTGTTGTTAGAAGATAAAACAAAATGGATGTTGTAGATCTTTTGATTTTTTTTTCTAACAAGAGATGAAGACTAAGCGAAGTAGTGGCTACGGAGGCTAGTGAACAAAGAAGAGGGGATGTGAACGTTGTAAAAATCTCTCTGGCTTTTTTTTTTTTTTTTTGTGGCTTTTTGTTTTTGTTGGGTCCTTCCCATTATGATTATTGAAGTATTTAGAGTAATTTTAGGATATTATTATGATATTATTCTGCCAATTCTTTCTTTAAGTGTATTCCTCGTTTAGTATATTTAGGCTTTACCTTTTCTAAATAATCAATGAAATAGATAATTATTTTCAAGAAAACAACATGGTATAAAAGCTTTCGGTTTCTTTTGTCTCATTGAATCTAGCTTCCACATCGTCGTTTGATGTCTGCCTTCATTGATCATTCGTCGATGGAGGTAGAGCCATCCCCCATTAGTCGTCATCGCCCCTTAGATTTGTAAATTCACCACCGTGCAACACCTTAGTTCCCTTTGCCGCACAAATATGCCGCCATCCAAACCCCAGAAACCCCATTCATCTTCTTCGTTTTCACCACCATCCACCCCAATTTATTTTTCATTCAGTTGCGCTCAACCTCTAAGCTCTGATCAATTCGATTATTGTTTTGTTCACCTTCAGATTTCAAATCCGTTTAGTTCAACTCCAACCTACTCTGATTTGGTTTCCGACTTTGGTTCCGATTTGCTCCACTATCGACCAGTTTTGGTTAAGATTTGTCTCGCACAACTTTGGTTTCCATCTACTCTATCCCACAAATCCAATCTCGTTTCAAGATTTTTTTAGCTCGTCTCTTTTCGATTCTGATTCATATACCCCGTATCCAGTCTATCTTCCCCTCATGCCTTACTTTGCGTTCCACCATCTCTCTATCAAGCCCAGGAGTTCTTGTTTCGTTCTCTGTAAATTCTGTTATAGATCTCTATACGAGGATTTATGTTTCTATCCTAGAAGTTCTTCGTGGGTTTGTTTTAGCCTAGAAGTTCTTTGTGTTTGTTCTTTGTGGGTCTCTGATCTACTGATTTGTTTCTTTTCTTAGCAAACTCAAGTTTGTGATTTGAACCTTGAGTTTGAGGGAGGGTATTGGAGTATTTAAGTATTTTTAGAAGATATTATTCTAATATTATTCTATCAATTCTTTCCTTAAGTGTATTCCTCATTGGTATATTTAGGCATGTATACATTTGCTAAATGATCAATGAAAAAGATAATTATTTTCAAGTAAACAACAATGATGGAGAAAAGATTATTTATAATAAGAAAAGATTCTTCAATTAAGGTAAAAATTAAGGCTTTTCTTTTAAAAATATAACAAACCAGCAAAATATTTATAATATGTAGAAAAAATTTTGAAAATGAAAAAAGCCCACAGACACATAATGAAAAATACAAAAAATACCTCAGTCAATACGTGATTAACCAGCCACACGTGCGTGTGTAATTATTCTTCTAAACGGTCATGATACATGATCATGTATGAAATGATACAAGATCGCGTAGTTCATGATACACAATTGTTAATTAGTTCATGATAAATGATGGTTTTGAAAAATCATAGTAAACGATTGTGTAAATCATGATACATGATCGTGTGTAGTTTATGATACACTATCAAGTAGTTCGTGATCACCAAAAATTGTTTGAAAAAGCCCTAGTAAATGATCATGTAGCTCATGATACACGATTGTGTAGTTTAATGATACACGATCGTGTAGTTCTTGATACACAATCGTATAGTTCATGATAAACGATGGTTTTGAAAAGTCATATGGTAAACGATCATGTAGTTCATTTCTGTCCACGAAACATTGAAAAAAATAATACAAGATTGATGATTGATCGAAAATAAAAAAAATAATAATAAAAGTATAATGAAAAAGAATAATAATAATTGTAGAACAATGATCATGATTTCAAAAAATATAAAAAGAAAAATTATAAAAAAAGAAAAGAAAAGAAGAACATCCGTCGTGACTGCTGCTGTAAACAAGATGGAAAGGAAAAAGAAAGAAGTTGGAGGTGCTCAAAATTCAAAAGCACCAAGGGAAAGACAGGAAGATTTGAAAAAAATGACTGATTTCGTAGACTTTTTAATTTTTTTTTATACTAAACGTAAATATTTTGAGATTTTGTTACCGTTCAAAAAAAATTTAAACTAACCATTACTGAATTAATTTTAAATAAGATCAAACAAAAATAGTCAGCTAGACAGTATGTAGGTTAAAAAAGAACTCAATTAAACACACAATTTTAGAAATAGTTTGATTTTAATTTTATATAACAAGTTATAAAACTAAAAAAGAAACACCAAACACACACATTATATATTTAATATGAGTGATAAAATGTGAGAAAATAAATATTTCTAGTATCGTCACGTTAATGTTTATTTTTCAAGGAAAGAAATATCTTGATCAAGAGAGAATTATACACATAA

mRNA sequence

ATGAAGAATGATAATGTAGACAAGATGATGATGAGAGATGCTCATAGGAATTTGGAGATAATTTGGATAGACTATTATCTCTTGTCTCATTCTCCTCTATCTCACTGTCTCAATCTCCTCTATCTCATTGTCAAGGGTCCTGGATGCGTAACTGCTCAAGACATCATCTTACCACCTTCGGTGGAAATCGTTGATAATACACAGCATATAGCTAACCTAATGGAACCAATTAATTTGTGTATTGAATTAAAGATCGAGAGGAATCGCGGATATCATATACAAACGCCAAATAATTTTCAAGACGCAAGTTATCCTATGGATGCTATATTCATGCCTGTTCGAAATGAAAGAAATATCTTGATCAAGAGAGAATTATACACATAA

Coding sequence (CDS)

ATGAAGAATGATAATGTAGACAAGATGATGATGAGAGATGCTCATAGGAATTTGGAGATAATTTGGATAGACTATTATCTCTTGTCTCATTCTCCTCTATCTCACTGTCTCAATCTCCTCTATCTCATTGTCAAGGGTCCTGGATGCGTAACTGCTCAAGACATCATCTTACCACCTTCGGTGGAAATCGTTGATAATACACAGCATATAGCTAACCTAATGGAACCAATTAATTTGTGTATTGAATTAAAGATCGAGAGGAATCGCGGATATCATATACAAACGCCAAATAATTTTCAAGACGCAAGTTATCCTATGGATGCTATATTCATGCCTGTTCGAAATGAAAGAAATATCTTGATCAAGAGAGAATTATACACATAA

Protein sequence

MKNDNVDKMMMRDAHRNLEIIWIDYYLLSHSPLSHCLNLLYLIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQDASYPMDAIFMPVRNERNILIKRELYT
Homology
[Close]
BLAST of CsaV3_3G019080 vs. NCBI nr
Match: YP_009346515.1 (RNA polymerase alpha subunit (chloroplast) [Cucumis x hytivus] >AOW71126.1 RNA polymerase alpha subunit (chloroplast) [Cucumis x hytivus])

HSP 1 Score: 153.7 bits (387), Expect = 4.3e-34
Identity = 72/74 (97.30%), Postives = 73/74 (98.65%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYPMDAIFMPVRN
Sbjct: 168 ASYPMDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. NCBI nr
Match: YP_247632.1 (RNA polymerase alpha subunit [Cucumis sativus] >YP_009004075.1 RNA polymerase alpha subunit [Cucumis hystrix] >Q4VZK3.1 RecName: Full=DNA-directed RNA polymerase subunit alpha; Short=PEP; AltName: Full=Plastid-encoded RNA polymerase subunit alpha; Short=RNA polymerase subunit alpha >CAJ00791.1 RNA polymerase alpha chain (chloroplast) [Cucumis sativus] >AAZ94682.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus] >ABI97448.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus] >ABI98777.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus] >AHJ61417.1 RNA polymerase alpha subunit (plastid) [Cucumis hystrix] >ALF03334.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus var. hardwickii] >ANF28409.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus var. hardwickii] >ARQ16110.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus] >ARQ16193.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus] >ARQ16276.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus] >ARQ16359.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus] >ASY97476.1 RNA polymerase alpha subunit (chloroplast) [Cucumis sativus var. hardwickii] >AVE15363.1 RpoA (chloroplast) [Cucumis sativus var. sativus])

HSP 1 Score: 153.7 bits (387), Expect = 4.3e-34
Identity = 72/74 (97.30%), Postives = 73/74 (98.65%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYPMDAIFMPVRN
Sbjct: 168 ASYPMDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. NCBI nr
Match: YP_004841815.1 (RNA polymerase alpha subunit [Cucumis melo subsp. melo] >AEM76924.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo subsp. melo] >ASY96344.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo subsp. agrestis] >ASY96431.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo subsp. agrestis] >ASY96518.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo subsp. agrestis] >ASY96605.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. conomon] >ASY96692.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. makuwa] >ASY96779.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. momordica] >ASY96866.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. dudaim] >ASY96953.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. cantalupo] >ASY97040.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. cantalupo] >ASY97127.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. inodorus] >ASY97214.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. cantalupo] >ASY97301.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. flexuosus] >ASY97388.1 RNA polymerase alpha subunit (chloroplast) [Cucumis melo var. flexuosus])

HSP 1 Score: 149.8 bits (377), Expect = 6.2e-33
Identity = 70/74 (94.59%), Postives = 71/74 (95.95%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANL EPIN CIELKIERNRGYHIQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLTEPINFCIELKIERNRGYHIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYPMDAIFMPVRN
Sbjct: 168 ASYPMDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. NCBI nr
Match: YP_009456178.1 (RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM88699.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM89344.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM89521.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM89581.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM90171.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM90230.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM90348.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM90407.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM90525.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM90643.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM91289.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AUJ21943.1 RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria])

HSP 1 Score: 146.7 bits (369), Expect = 5.2e-32
Identity = 69/74 (93.24%), Postives = 71/74 (95.95%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANL EPINLCIELKIERNRGY IQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLTEPINLCIELKIERNRGYRIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYP+DAIFMPVRN
Sbjct: 168 ASYPIDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. NCBI nr
Match: AHM88758.1 (RNA polymerase alpha subunit, partial (chloroplast) [Lagenaria siceraria])

HSP 1 Score: 146.7 bits (369), Expect = 5.2e-32
Identity = 69/74 (93.24%), Postives = 71/74 (95.95%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANL EPINLCIELKIERNRGY IQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLTEPINLCIELKIERNRGYRIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYP+DAIFMPVRN
Sbjct: 168 ASYPIDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. TAIR10
Match: ATCG00740.1 (RNA polymerase subunit alpha)

HSP 1 Score: 119.8 bits (299), Expect = 1.2e-27
Identity = 53/74 (71.62%), Postives = 65/74 (87.84%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + V+GPG +TA+DIILPP+VEI+DNTQHIA L EPI+LCIELKIERNRGY ++  NNF+D
Sbjct: 108 ICVQGPGYITARDIILPPAVEIIDNTQHIATLTEPIDLCIELKIERNRGYSLKMSNNFED 167

Query: 102 ASYPMDAIFMPVRN 116
            SYP+DA+FMPV N
Sbjct: 168 RSYPIDAVFMPVEN 181

[Close]
BLAST of CsaV3_3G019080 vs. Swiss-Prot
Match: sp|Q4VZK3|RPOA_CUCSA (DNA-directed RNA polymerase subunit alpha OS=Cucumis sativus OX=3659 GN=rpoA PE=3 SV=1)

HSP 1 Score: 153.7 bits (387), Expect = 1.4e-36
Identity = 72/74 (97.30%), Postives = 73/74 (98.65%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYPMDAIFMPVRN
Sbjct: 168 ASYPMDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. Swiss-Prot
Match: sp|Q9MTJ3|RPOA_OENEH (DNA-directed RNA polymerase subunit alpha OS=Oenothera elata subsp. hookeri OX=85636 GN=rpoA PE=3 SV=2)

HSP 1 Score: 137.9 bits (346), Expect = 8.0e-32
Identity = 61/74 (82.43%), Postives = 71/74 (95.95%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDI+LPPSVEI+DNTQHIA+LMEPI+LCI L+IERNRGYHI++PNNFQD
Sbjct: 108 ICVKGPGCVTAQDILLPPSVEIIDNTQHIASLMEPIHLCIGLQIERNRGYHIKSPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
            SYP+DA+FMPVRN
Sbjct: 168 GSYPIDAVFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. Swiss-Prot
Match: sp|Q49KW6|RPOA_EUCGG (DNA-directed RNA polymerase subunit alpha OS=Eucalyptus globulus subsp. globulus OX=71271 GN=rpoA PE=3 SV=1)

HSP 1 Score: 134.4 bits (337), Expect = 8.8e-31
Identity = 62/74 (83.78%), Postives = 68/74 (91.89%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILP SVEIVDNTQ+IANL EPINLCI L+IERNRGYHI+TP NFQD
Sbjct: 108 ICVKGPGCVTAQDIILPTSVEIVDNTQYIANLTEPINLCIGLQIERNRGYHIKTPKNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
            SYP+DA+FMPVRN
Sbjct: 168 GSYPIDAVFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. Swiss-Prot
Match: sp|Q09WY5|RPOA_MORIN (DNA-directed RNA polymerase subunit alpha OS=Morus indica OX=248361 GN=rpoA PE=3 SV=1)

HSP 1 Score: 133.3 bits (334), Expect = 2.0e-30
Identity = 62/74 (83.78%), Postives = 68/74 (91.89%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPG VTAQDIILPPSVEIVDNTQHIANL EPI LCIEL+IERNRGY I+TPNNFQ+
Sbjct: 108 ICVKGPGYVTAQDIILPPSVEIVDNTQHIANLTEPITLCIELQIERNRGYRIKTPNNFQN 167

Query: 102 ASYPMDAIFMPVRN 116
            SYP+DA+FMPVRN
Sbjct: 168 GSYPIDAVFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. Swiss-Prot
Match: sp|Q2PMQ3|RPOA_SOYBN (DNA-directed RNA polymerase subunit alpha OS=Glycine max OX=3847 GN=rpoA PE=3 SV=1)

HSP 1 Score: 128.6 bits (322), Expect = 4.8e-29
Identity = 60/71 (84.51%), Postives = 64/71 (90.14%), Query Frame = 0 

Query: 45  KGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQDASY 104
           KGPG VTAQDIILPPSVEIVDNTQHIAN+ EP+NLCIELKIERNRGY I+T  NFQD SY
Sbjct: 111 KGPGYVTAQDIILPPSVEIVDNTQHIANVTEPVNLCIELKIERNRGYRIKTLKNFQDGSY 170

Query: 105 PMDAIFMPVRN 116
           P+DA FMPVRN
Sbjct: 171 PIDATFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. TrEMBL
Match: tr|A0A218KG62|A0A218KG62_CUCSA (DNA-directed RNA polymerase subunit alpha OS=Cucumis sativus var. hardwickii OX=319220 GN=rpoA PE=3 SV=1)

HSP 1 Score: 153.7 bits (387), Expect = 2.8e-34
Identity = 72/74 (97.30%), Postives = 73/74 (98.65%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYPMDAIFMPVRN
Sbjct: 168 ASYPMDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. TrEMBL
Match: tr|A0A1X9Q1P4|A0A1X9Q1P4_CUCSA (DNA-directed RNA polymerase subunit alpha OS=Cucumis sativus OX=3659 GN=rpoA PE=3 SV=1)

HSP 1 Score: 153.7 bits (387), Expect = 2.8e-34
Identity = 72/74 (97.30%), Postives = 73/74 (98.65%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYPMDAIFMPVRN
Sbjct: 168 ASYPMDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. TrEMBL
Match: tr|A0A1P8C7R7|A0A1P8C7R7_9ROSI (DNA-directed RNA polymerase subunit alpha OS=Cucumis x hytivus OX=442738 GN=rpoA PE=3 SV=1)

HSP 1 Score: 153.7 bits (387), Expect = 2.8e-34
Identity = 72/74 (97.30%), Postives = 73/74 (98.65%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYPMDAIFMPVRN
Sbjct: 168 ASYPMDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. TrEMBL
Match: tr|W8E706|W8E706_9ROSI (DNA-directed RNA polymerase subunit alpha OS=Cucumis hystrix OX=396994 GN=rpoA PE=3 SV=1)

HSP 1 Score: 153.7 bits (387), Expect = 2.8e-34
Identity = 72/74 (97.30%), Postives = 73/74 (98.65%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYPMDAIFMPVRN
Sbjct: 168 ASYPMDAIFMPVRN 181

[Close]
BLAST of CsaV3_3G019080 vs. TrEMBL
Match: tr|A0A249RXS6|A0A249RXS6_CUCME (DNA-directed RNA polymerase subunit alpha OS=Cucumis melo subsp. agrestis OX=217619 GN=rpoA PE=3 SV=1)

HSP 1 Score: 149.8 bits (377), Expect = 4.1e-33
Identity = 70/74 (94.59%), Postives = 71/74 (95.95%), Query Frame = 0 

Query: 42  LIVKGPGCVTAQDIILPPSVEIVDNTQHIANLMEPINLCIELKIERNRGYHIQTPNNFQD 101
           + VKGPGCVTAQDIILPPSVEIVDNTQHIANL EPIN CIELKIERNRGYHIQTPNNFQD
Sbjct: 108 ICVKGPGCVTAQDIILPPSVEIVDNTQHIANLTEPINFCIELKIERNRGYHIQTPNNFQD 167

Query: 102 ASYPMDAIFMPVRN 116
           ASYPMDAIFMPVRN
Sbjct: 168 ASYPMDAIFMPVRN 181

The following BLAST results are available for this feature:
BLAST of CsaV3_3G019080 vs. NCBI nr
Match NameE-valueIdentityDescription
YP_009346515.14.3e-3497.30RNA polymerase alpha subunit (chloroplast) [Cucumis x hytivus] >AOW71126.1 RNA p... [more]
YP_247632.14.3e-3497.30RNA polymerase alpha subunit [Cucumis sativus] >YP_009004075.1 RNA polymerase al... [more]
YP_004841815.16.2e-3394.59RNA polymerase alpha subunit [Cucumis melo subsp. melo] >AEM76924.1 RNA polymera... [more]
YP_009456178.15.2e-3293.24RNA polymerase alpha subunit (chloroplast) [Lagenaria siceraria] >AHM88699.1 RNA... [more]
AHM88758.15.2e-3293.24RNA polymerase alpha subunit, partial (chloroplast) [Lagenaria siceraria][more]
BLAST of CsaV3_3G019080 vs. TAIR10
Match NameE-valueIdentityDescription
ATCG00740.11.2e-2771.62RNA polymerase subunit alpha[more]
BLAST of CsaV3_3G019080 vs. Swiss-Prot
Match NameE-valueIdentityDescription
sp|Q4VZK3|RPOA_CUCSA1.4e-3697.30DNA-directed RNA polymerase subunit alpha OS=Cucumis sativus OX=3659 GN=rpoA PE=... [more]
sp|Q9MTJ3|RPOA_OENEH8.0e-3282.43DNA-directed RNA polymerase subunit alpha OS=Oenothera elata subsp. hookeri OX=8... [more]
sp|Q49KW6|RPOA_EUCGG8.8e-3183.78DNA-directed RNA polymerase subunit alpha OS=Eucalyptus globulus subsp. globulus... [more]
sp|Q09WY5|RPOA_MORIN2.0e-3083.78DNA-directed RNA polymerase subunit alpha OS=Morus indica OX=248361 GN=rpoA PE=3... [more]
sp|Q2PMQ3|RPOA_SOYBN4.8e-2984.51DNA-directed RNA polymerase subunit alpha OS=Glycine max OX=3847 GN=rpoA PE=3 SV... [more]
BLAST of CsaV3_3G019080 vs. TrEMBL
Match NameE-valueIdentityDescription
tr|A0A218KG62|A0A218KG62_CUCSA2.8e-3497.30DNA-directed RNA polymerase subunit alpha OS=Cucumis sativus var. hardwickii OX=... [more]
tr|A0A1X9Q1P4|A0A1X9Q1P4_CUCSA2.8e-3497.30DNA-directed RNA polymerase subunit alpha OS=Cucumis sativus OX=3659 GN=rpoA PE=... [more]
tr|A0A1P8C7R7|A0A1P8C7R7_9ROSI2.8e-3497.30DNA-directed RNA polymerase subunit alpha OS=Cucumis x hytivus OX=442738 GN=rpoA... [more]
tr|W8E706|W8E706_9ROSI2.8e-3497.30DNA-directed RNA polymerase subunit alpha OS=Cucumis hystrix OX=396994 GN=rpoA P... [more]
tr|A0A249RXS6|A0A249RXS6_CUCME4.1e-3394.59DNA-directed RNA polymerase subunit alpha OS=Cucumis melo subsp. agrestis OX=217... [more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: Molecular Function
TermDefinition
GO:0003677DNA binding
GO:0003899DNA-directed RNA polymerase activity
GO:0046983protein dimerization activity
Vocabulary: Biological Process
TermDefinition
GO:0006351transcription, DNA-templated
Vocabulary: INTERPRO
TermDefinition
IPR011773DNA-dir_RpoA
IPR011262DNA-dir_RNA_pol_insert
IPR036643RNApol_insert_sf
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006144 purine nucleobase metabolic process
biological_process GO:0006206 pyrimidine nucleobase metabolic process
biological_process GO:0006351 transcription, DNA-templated
cellular_component GO:0005730 nucleolus
cellular_component GO:0009507 chloroplast
molecular_function GO:0003677 DNA binding
molecular_function GO:0003899 DNA-directed RNA polymerase activity
molecular_function GO:0046983 protein dimerization activity
Relationships

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

Feature NameUnique NameType
CsaV3_3G019080.1CsaV3_3G019080.1mRNA


InterPro
Analysis Name: InterPro Annotations of cucumber chineselong genome (v3)
Date Performed: 2019-03-04
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR036643DNA-directed RNA polymerase, insert domain superfamilyGENE3DG3DSA:2.170.120.12coord: 13..110
e-value: 2.9E-15
score: 58.3
IPR036643DNA-directed RNA polymerase, insert domain superfamilySUPERFAMILYSSF56553Insert subdomain of RNA polymerase alpha subunitcoord: 17..111
IPR011262DNA-directed RNA polymerase, insert domainPFAMPF01000RNA_pol_A_baccoord: 35..92
e-value: 4.8E-9
score: 36.5
IPR011773DNA-directed RNA polymerase, alpha subunitPANTHERPTHR32108FAMILY NOT NAMEDcoord: 33..115

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
CsaV3_3G019080CsGy3G018860Cucumber (Gy14) v2cgybcucB117
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
CsaV3_3G019080Silver-seed gourdcarcucB0070
CsaV3_3G019080Silver-seed gourdcarcucB0071
CsaV3_3G019080Silver-seed gourdcarcucB0687
CsaV3_3G019080Cucumber (Gy14) v1cgycucB006
CsaV3_3G019080Cucurbita maxima (Rimu)cmacucB0373
CsaV3_3G019080Cucurbita maxima (Rimu)cmacucB0829
CsaV3_3G019080Cucurbita moschata (Rifu)cmocucB0370
CsaV3_3G019080Cucurbita moschata (Rifu)cmocucB0814
CsaV3_3G019080Cucurbita pepo (Zucchini)cpecucB0247
CsaV3_3G019080Cucurbita pepo (Zucchini)cpecucB0484
CsaV3_3G019080Wild cucumber (PI 183967)cpicucB144
CsaV3_3G019080Bottle gourd (USVL1VR-Ls)cuclsiB230
CsaV3_3G019080Melon (DHL92) v3.5.1cucmeB247
CsaV3_3G019080Melon (DHL92) v3.6.1cucmedB246
CsaV3_3G019080Watermelon (Charleston Gray)cucwcgB238
CsaV3_3G019080Watermelon (97103) v1cucwmB252
CsaV3_3G019080Watermelon (97103) v2cucwmbB217
CsaV3_3G019080Wax gourdcucwgoB287