CmaCh19G003450 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh19G003450
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
Description50S ribosomal protein L14, chloroplastic
LocationCma_Chr19: 3622556 .. 3658167 (+)
RNA-Seq ExpressionCmaCh19G003450
SyntenyCmaCh19G003450
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAGATACATAGCACGATTACCTTGGTCAATCAAAGAGCTACAGAACGAACCCGCAAGTCGGCCTAACCTAAGACAAGAGCGGATAGGTGAAGGAGGGGCTAGTAAACAACGATATGCTCATATTGGTGACGTTATTGTTGCTGTAATCAAGAAAGTCGTCCCAAATACACCTCTAGAAAGATCAGAAGTGATCAGAGCTGTAATTGTACGTACTTGTAAAGAACTCAAACGAGAAAATGGTATGATAATACGATATGATGACAATGCTGCAGTTGTTATTGATCAAGAAGGAAATCCAAAAGGAACTCAAATTTTTTGTGTGATTTCCCGAGAATTGAGACAGTTAAATTTCACTAAAATAATTTCATTAGCACCTGAAGTATTATAA

Coding sequence (CDS)

ATGAGATACATAGCACGATTACCTTGGTCAATCAAAGAGCTACAGAACGAACCCGCAAGTCGGCCTAACCTAAGACAAGAGCGGATAGGTGAAGGAGGGGCTAGTAAACAACGATATGCTCATATTGGTGACGTTATTGTTGCTGTAATCAAGAAAGTCGTCCCAAATACACCTCTAGAAAGATCAGAAGTGATCAGAGCTGTAATTGTACGTACTTGTAAAGAACTCAAACGAGAAAATGGTATGATAATACGATATGATGACAATGCTGCAGTTGTTATTGATCAAGAAGGAAATCCAAAAGGAACTCAAATTTTTTGTGTGATTTCCCGAGAATTGAGACAGTTAAATTTCACTAAAATAATTTCATTAGCACCTGAAGTATTATAA

Protein sequence

MRYIARLPWSIKELQNEPASRPNLRQERIGEGGASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAVVIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL
Homology
[Close]
BLAST of CmaCh19G003450 vs. ExPASy Swiss-Prot
Match: Q8WKP4 (50S ribosomal protein L14, chloroplastic OS=Cucumis sativus OX=3659 GN=rpl14 PE=2 SV=1)

HSP 1 Score: 176.4 bits (446), Expect = 2.1e-43
Identity = 90/97 (92.78%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. ExPASy Swiss-Prot
Match: B1A971 (50S ribosomal protein L14, chloroplastic OS=Carica papaya OX=3649 GN=rpl14 PE=3 SV=1)

HSP 1 Score: 171.8 bits (434), Expect = 5.1e-42
Identity = 87/97 (89.69%), Postives = 91/97 (93.81%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIK+ VPNTPLERSEVIRAVIVRTCKELKR NGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKEAVPNTPLERSEVIRAVIVRTCKELKRNNGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I RELRQLNFTKI+SLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIPRELRQLNFTKIVSLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. ExPASy Swiss-Prot
Match: Q49KW2 (50S ribosomal protein L14, chloroplastic OS=Eucalyptus globulus subsp. globulus OX=71271 GN=rpl14 PE=3 SV=1)

HSP 1 Score: 171.4 bits (433), Expect = 6.7e-42
Identity = 84/97 (86.60%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGD+IVAVIK+ +PNTPLERSEVIRAVIVRTCKELKR+NGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDIIVAVIKEALPNTPLERSEVIRAVIVRTCKELKRDNGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT++F  I+RELRQLNFTKI+SLAPEVL
Sbjct: 86  VIDQEGNPKGTRVFGAIARELRQLNFTKIVSLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. ExPASy Swiss-Prot
Match: A0A372 (50S ribosomal protein L14, chloroplastic OS=Coffea arabica OX=13443 GN=rpl14 PE=3 SV=1)

HSP 1 Score: 170.6 bits (431), Expect = 1.1e-41
Identity = 85/97 (87.63%), Postives = 92/97 (94.85%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIK+ VPN PLERSEV+RAVIVRTCKELKR+NGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKEAVPNMPLERSEVVRAVIVRTCKELKRDNGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKI+SLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIVSLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. ExPASy Swiss-Prot
Match: B5LMQ9 (50S ribosomal protein L14, chloroplastic OS=Cicer arietinum OX=3827 GN=rpl14 PE=3 SV=1)

HSP 1 Score: 170.2 bits (430), Expect = 1.5e-41
Identity = 83/97 (85.57%), Postives = 92/97 (94.85%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYA+IGD+IVAVIKK VPNTP ERSEVIRAVIVRTCKELKR NG+II+YDDNAAV
Sbjct: 26  GASNRRYAYIGDIIVAVIKKAVPNTPFERSEVIRAVIVRTCKELKRSNGIIIKYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VID+EGNPKGT+IFC I+RELRQLNFTKI+SLAPEVL
Sbjct: 86  VIDKEGNPKGTRIFCAIARELRQLNFTKIVSLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. ExPASy TrEMBL
Match: A0A6H0EVA2 (50S ribosomal protein L14, chloroplastic OS=Linnaeosicyos amara OX=386243 GN=rpl14 PE=3 SV=1)

HSP 1 Score: 177.9 bits (450), Expect = 2.6e-41
Identity = 91/97 (93.81%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS QRYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNQRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. ExPASy TrEMBL
Match: A0A218KG78 (50S ribosomal protein L14, chloroplastic OS=Cucumis sativus var. hardwickii OX=319220 GN=rpl14 PE=3 SV=1)

HSP 1 Score: 176.4 bits (446), Expect = 7.6e-41
Identity = 90/97 (92.78%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. ExPASy TrEMBL
Match: G3ETT4 (50S ribosomal protein L14, chloroplastic OS=Cucumis melo subsp. melo OX=412675 GN=rpl14 PE=3 SV=1)

HSP 1 Score: 176.4 bits (446), Expect = 7.6e-41
Identity = 90/97 (92.78%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. ExPASy TrEMBL
Match: A0A1X9Q175 (50S ribosomal protein L14, chloroplastic OS=Cucumis sativus OX=3659 GN=rpl14 PE=3 SV=1)

HSP 1 Score: 176.4 bits (446), Expect = 7.6e-41
Identity = 90/97 (92.78%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. ExPASy TrEMBL
Match: A0A1S4EU43 (50S ribosomal protein L14, chloroplastic OS=Cucumis melo OX=3656 GN=rpl14 PE=3 SV=1)

HSP 1 Score: 176.4 bits (446), Expect = 7.6e-41
Identity = 90/97 (92.78%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. NCBI nr
Match: YP_009752194.1 (ribosomal protein L14 [Linnaeosicyos amara] >QIT05604.1 ribosomal protein L14 [Linnaeosicyos amara])

HSP 1 Score: 177.9 bits (450), Expect = 5.4e-41
Identity = 91/97 (93.81%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS QRYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNQRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. NCBI nr
Match: YP_004841820.1 (ribosomal protein L14 [Cucumis melo subsp. melo] >YP_009004079.1 ribosomal protein L14 [Cucumis hystrix] >YP_009236315.1 ribosomal protein L14 [Gynostemma pentaphyllum] >YP_009317422.1 ribosomal protein L14 [Coccinia grandis] >YP_009326026.1 ribosomal protein L14 [Citrullus lanatus] >YP_009346518.1 ribosomal protein L14 [Cucumis x hytivus] >YP_009348068.1 ribosomal protein L14 [Citrullus mucosospermus] >YP_009420831.1 ribosomal protein L14 [Citrullus colocynthis] >YP_009431593.1 ribosomal protein L14 [Citrullus amarus] >YP_009431679.1 ribosomal protein L14 [Citrullus rehmii] >YP_009439927.1 ribosomal protein L14 [Gynostemma caulopterum] >YP_009440193.1 ribosomal protein L14 [Gynostemma longipes] >YP_009440280.1 ribosomal protein L14 [Gynostemma burmanicum (nom. inval.)] >YP_009440367.1 ribosomal protein L14 [Gynostemma pubescens] >YP_009447487.1 ribosomal protein L14 [Cucurbita maxima] >YP_009447572.1 ribosomal protein L14 [Cucurbita moschata] >YP_009456097.1 ribosomal protein L14 [Momordica charantia] >YP_009456182.1 ribosomal protein L14 [Lagenaria siceraria] >YP_009468897.1 ribosomal protein L14 [Gynostemma compressum] >YP_009505116.1 ribosomal protein L14 [Cucurbita pepo] >YP_009560872.1 ribosomal protein L14 [Trichosanthes kirilowii] >YP_009674427.1 ribosomal protein L14 [Siraitia grosvenorii] >YP_009738238.1 ribosomal protein L14 [Siraitia siamensis] >YP_009751521.1 ribosomal protein L14 [Thladiantha dubia] >YP_009751774.1 ribosomal protein L14 [Herpetospermum pedunculosum] >YP_009751942.1 ribosomal protein L14 [Cyclanthera pedata] >YP_009752026.1 ribosomal protein L14 [Cionosicys macranthus] >YP_009752111.1 ribosomal protein L14 [Dendrosicyos socotranus] >YP_009752448.1 ribosomal protein L14 [Trichosanthes tricuspidata] >YP_009752702.1 ribosomal protein L14 [Ampelosycios humblotii] >YP_009752871.1 ribosomal protein L14 [Baijiania yunnanensis] >YP_009753125.1 ribosomal protein L14 [Corallocarpus boehmii] >YP_009753294.1 ribosomal protein L14 [Nothoalsomitra suberosa] >YP_009753741.1 ribosomal protein L14 [Trichosanthes nervifolia] >YP_009860110.1 ribosomal protein L14 [Cucumis melo subsp. agrestis] >YP_010131130.1 ribosomal protein L14 [Benincasa hispida] >YP_247636.1 ribosomal protein L14 [Cucumis sativus] >Q8WKP4.1 RecName: Full=50S ribosomal protein L14, chloroplastic [Cucumis sativus] >ALF03338.1 ribosomal protein L14 [Cucumis sativus var. hardwickii] >ALO21762.1 ribosomal protein L14 [Cucurbita argyrosperma] >ALO21801.1 ribosomal protein L14 [Cucurbita argyrosperma var. palmeri] >ALO21880.1 ribosomal protein L14 [Cucurbita argyrosperma subsp. sororia] >ALO21905.1 ribosomal protein L14 [Cucurbita cordata] >ALO22006.1 ribosomal protein L14 [Cucurbita digitata] >ALO22056.1 ribosomal protein L14 [Cucurbita ecuadorensis] >ALO22120.1 ribosomal protein L14 [Cucurbita ficifolia] >ALO22189.1 ribosomal protein L14 [Cucurbita foetidissima] >ALO22249.1 ribosomal protein L14 [Cucurbita lundelliana] >ALO22308.1 ribosomal protein L14 [Cucurbita maxima subsp. andreana] >ALO22423.1 ribosomal protein L14 [Cucurbita okeechobeensis] >ALO22491.1 ribosomal protein L14 [Cucurbita okeechobeensis subsp. martinezii] >ALO22559.1 ribosomal protein L14 [Cucurbita pepo subsp. fraterna] >ALO22613.1 ribosomal protein L14 [Cucurbita pepo subsp. ovifera] >ALO22687.1 ribosomal protein L14 [Cucurbita pepo var. ozarkana] >ALO22737.1 ribosomal protein L14 [Cucurbita pepo subsp. pepo] >ALO22845.1 ribosomal protein L14 [Cucurbita pepo var. texana] >ALO22889.1 ribosomal protein L14 [Cucurbita pedatifolia] >APW82499.1 ribosomal protein L14 [Citrullus lanatus subsp. vulgaris] >ASY96610.1 ribosomal protein L14 [Cucumis melo var. conomon] >ASY96697.1 ribosomal protein L14 [Cucumis melo var. makuwa] >ASY96784.1 ribosomal protein L14 [Cucumis melo var. momordica] >ASY96871.1 ribosomal protein L14 [Cucumis melo var. dudaim] >ASY96958.1 ribosomal protein L14 [Cucumis melo var. cantalupo] >ASY97132.1 ribosomal protein L14 [Cucumis melo var. inodorus] >ASY97306.1 ribosomal protein L14 [Cucumis melo var. flexuosus] >AVE15368.1 ribosomal protein L14 [Cucumis sativus var. sativus] >QIT04086.1 ribosomal protein L14 [Luffa aegyptiaca] >QJF46421.1 ribosomal protein L14 [Cucumis melo] >QKX48511.1 ribosomal protein L14 [Luffa acutangula] >QNM38567.1 ribosomal protein L14 [Lagenaria siceraria var. microcarpa] >QZL38630.1 ribosomal protein L14 [Citrullus naudinianus] >QZL38718.1 ribosomal protein L14 [Citrullus ecirrhosus])

HSP 1 Score: 176.4 bits (446), Expect = 1.6e-40
Identity = 90/97 (92.78%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. NCBI nr
Match: YP_009753040.1 (ribosomal protein L14 [Gerrardanthus macrorhizus] >QIT06112.1 ribosomal protein L14 [Gerrardanthus macrorhizus])

HSP 1 Score: 176.0 bits (445), Expect = 2.1e-40
Identity = 89/97 (91.75%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPE+L
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEIL 122

[Close]
BLAST of CmaCh19G003450 vs. NCBI nr
Match: YP_009945452.1 (ribosomal protein L14 [Sechium edule] >QIT04169.1 ribosomal protein L14 [Sechium edule] >QOE55982.1 ribosomal protein L14 [Sechium edule])

HSP 1 Score: 176.0 bits (445), Expect = 2.1e-40
Identity = 89/97 (91.75%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGD+IVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDIIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  VIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. NCBI nr
Match: YP_009430663.1 (ribosomal protein L14 [Gynostemma cardiospermum] >YP_010015175.1 ribosomal protein L14 [Gynostemma yixingense] >ART65099.1 ribosomal protein L14 [Gynostemma cardiospermum] >QOI14300.1 ribosomal protein L14 [Gynostemma yixingense])

HSP 1 Score: 176.0 bits (445), Expect = 2.1e-40
Identity = 89/97 (91.75%), Postives = 93/97 (95.88%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIKK VPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKKAVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           +IDQEGNPKGT+IF  I+RELRQLNFTKIISLAPEVL
Sbjct: 86  IIDQEGNPKGTRIFGAIARELRQLNFTKIISLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. TAIR 10
Match: ATCG00780.1 (ribosomal protein L14 )

HSP 1 Score: 168.7 bits (426), Expect = 3.1e-42
Identity = 84/97 (86.60%), Postives = 90/97 (92.78%), Query Frame = 0 

Query: 33  GASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNAAV 92
           GAS +RYAHIGDVIVAVIK+ +PNTPLERSEVIRAVIVRTCKELKR NG IIRYDDNAAV
Sbjct: 26  GASNRRYAHIGDVIVAVIKEAIPNTPLERSEVIRAVIVRTCKELKRNNGTIIRYDDNAAV 85

Query: 93  VIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
           VIDQEGNPKGT++F  I RELRQLNFTKI+SLAPEVL
Sbjct: 86  VIDQEGNPKGTRVFGAIPRELRQLNFTKIVSLAPEVL 122

[Close]
BLAST of CmaCh19G003450 vs. TAIR 10
Match: AT5G46160.1 (Ribosomal protein L14p/L23e family protein )

HSP 1 Score: 66.2 bits (160), Expect = 2.1e-11
Identity = 40/125 (32.00%), Postives = 66/125 (52.80%), Query Frame = 0 

Query: 11  IKELQNEPASRPNLRQERIGEGGASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIV 70
           +K + N  A +    Q   G+ G      A +GD IVA +K+ +PN  +++  V+  V+V
Sbjct: 54  LKVVDNSGAKKVMCIQALKGKKG------ARLGDTIVASVKEAMPNGKVKKGAVVYGVVV 113

Query: 71  RTCKELKRENGMIIRYDDNAAVVIDQ-------EGNPKGTQIFCVISRELRQLNFTKIIS 129
           R   +  R +G  +R+DDNA V++D        +  P GT++F  +  ELR+    KI++
Sbjct: 114 RAAMQRGRVDGSEVRFDDNAVVLVDSKDKNTKTDRQPIGTRVFGPVPHELRKKKHLKILA 172

[Close]
BLAST of CmaCh19G003450 vs. TAIR 10
Match: AT5G46160.2 (Ribosomal protein L14p/L23e family protein )

HSP 1 Score: 66.2 bits (160), Expect = 2.1e-11
Identity = 40/125 (32.00%), Postives = 66/125 (52.80%), Query Frame = 0 

Query: 11  IKELQNEPASRPNLRQERIGEGGASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIV 70
           +K + N  A +    Q   G+ G      A +GD IVA +K+ +PN  +++  V+  V+V
Sbjct: 53  LKVVDNSGAKKVMCIQALKGKKG------ARLGDTIVASVKEAMPNGKVKKGAVVYGVVV 112

Query: 71  RTCKELKRENGMIIRYDDNAAVVIDQ-------EGNPKGTQIFCVISRELRQLNFTKIIS 129
           R   +  R +G  +R+DDNA V++D        +  P GT++F  +  ELR+    KI++
Sbjct: 113 RAAMQRGRVDGSEVRFDDNAVVLVDSKDKNTKTDRQPIGTRVFGPVPHELRKKKHLKILA 171

[Close]
BLAST of CmaCh19G003450 vs. TAIR 10
Match: AT1G04480.1 (Ribosomal protein L14p/L23e family protein )

HSP 1 Score: 53.9 bits (128), Expect = 1.1e-07
Identity = 32/99 (32.32%), Postives = 60/99 (60.61%), Query Frame = 0 

Query: 31  EGGASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNA 90
           +G  ++   A +GD+++A +KK  P+    R +V+ AVIVR  K  +R++G+ + ++DNA
Sbjct: 46  KGRLNRLPSACVGDMVMATVKKGKPDL---RKKVLPAVIVRQRKPWRRKDGVFMYFEDNA 105

Query: 91  AVVIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
            V+++ +G  KG+ I   I +E   L + +I S A  ++
Sbjct: 106 GVIVNPKGEMKGSAITGPIGKECADL-WPRIASAANAIV 140

[Close]
BLAST of CmaCh19G003450 vs. TAIR 10
Match: AT2G33370.1 (Ribosomal protein L14p/L23e family protein )

HSP 1 Score: 53.9 bits (128), Expect = 1.1e-07
Identity = 32/99 (32.32%), Postives = 60/99 (60.61%), Query Frame = 0 

Query: 31  EGGASKQRYAHIGDVIVAVIKKVVPNTPLERSEVIRAVIVRTCKELKRENGMIIRYDDNA 90
           +G  ++   A +GD+++A +KK  P+    R +V+ AVIVR  K  +R++G+ + ++DNA
Sbjct: 46  KGRLNRLPSACVGDMVMATVKKGKPDL---RKKVLPAVIVRQRKPWRRKDGVFMYFEDNA 105

Query: 91  AVVIDQEGNPKGTQIFCVISRELRQLNFTKIISLAPEVL 130
            V+++ +G  KG+ I   I +E   L + +I S A  ++
Sbjct: 106 GVIVNPKGEMKGSAITGPIGKECADL-WPRIASAANAIV 140

The following BLAST results are available for this feature:
BLAST of CmaCh19G003450 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8WKP42.1e-4392.7850S ribosomal protein L14, chloroplastic OS=Cucumis sativus OX=3659 GN=rpl14 PE=... [more]
B1A9715.1e-4289.6950S ribosomal protein L14, chloroplastic OS=Carica papaya OX=3649 GN=rpl14 PE=3 ... [more]
Q49KW26.7e-4286.6050S ribosomal protein L14, chloroplastic OS=Eucalyptus globulus subsp. globulus ... [more]
A0A3721.1e-4187.6350S ribosomal protein L14, chloroplastic OS=Coffea arabica OX=13443 GN=rpl14 PE=... [more]
B5LMQ91.5e-4185.5750S ribosomal protein L14, chloroplastic OS=Cicer arietinum OX=3827 GN=rpl14 PE=... [more]
BLAST of CmaCh19G003450 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6H0EVA22.6e-4193.8150S ribosomal protein L14, chloroplastic OS=Linnaeosicyos amara OX=386243 GN=rpl... [more]
A0A218KG787.6e-4192.7850S ribosomal protein L14, chloroplastic OS=Cucumis sativus var. hardwickii OX=3... [more]
G3ETT47.6e-4192.7850S ribosomal protein L14, chloroplastic OS=Cucumis melo subsp. melo OX=412675 G... [more]
A0A1X9Q1757.6e-4192.7850S ribosomal protein L14, chloroplastic OS=Cucumis sativus OX=3659 GN=rpl14 PE=... [more]
A0A1S4EU437.6e-4192.7850S ribosomal protein L14, chloroplastic OS=Cucumis melo OX=3656 GN=rpl14 PE=3 S... [more]
BLAST of CmaCh19G003450 vs. NCBI nr
Match NameE-valueIdentityDescription
YP_009752194.15.4e-4193.81ribosomal protein L14 [Linnaeosicyos amara] >QIT05604.1 ribosomal protein L14 [L... [more]
YP_004841820.11.6e-4092.78ribosomal protein L14 [Cucumis melo subsp. melo] >YP_009004079.1 ribosomal prote... [more]
YP_009753040.12.1e-4091.75ribosomal protein L14 [Gerrardanthus macrorhizus] >QIT06112.1 ribosomal protein ... [more]
YP_009945452.12.1e-4091.75ribosomal protein L14 [Sechium edule] >QIT04169.1 ribosomal protein L14 [Sechium... [more]
YP_009430663.12.1e-4091.75ribosomal protein L14 [Gynostemma cardiospermum] >YP_010015175.1 ribosomal prote... [more]
BLAST of CmaCh19G003450 vs. TAIR 10
Match NameE-valueIdentityDescription
ATCG00780.13.1e-4286.60ribosomal protein L14 [more]
AT5G46160.12.1e-1132.00Ribosomal protein L14p/L23e family protein [more]
AT5G46160.22.1e-1132.00Ribosomal protein L14p/L23e family protein [more]
AT1G04480.11.1e-0732.32Ribosomal protein L14p/L23e family protein [more]
AT2G33370.11.1e-0732.32Ribosomal protein L14p/L23e family protein [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000218Ribosomal protein L14PSMARTSM01374Ribosomal_L14_2coord: 23..129
e-value: 3.2E-40
score: 149.6
IPR000218Ribosomal protein L14PPFAMPF00238Ribosomal_L14coord: 31..129
e-value: 2.7E-34
score: 117.8
IPR000218Ribosomal protein L14PPANTHERPTHR1176150S/60S RIBOSOMAL PROTEIN L14/L23coord: 33..129
IPR000218Ribosomal protein L14PHAMAPMF_01367Ribosomal_L14coord: 3..129
score: 15.606832
IPR005745Ribosomal protein L14P, bacterial-typeTIGRFAMTIGR01067TIGR01067coord: 33..129
e-value: 7.1E-36
score: 120.8
IPR036853Ribosomal protein L14 superfamilyGENE3D2.40.150.20Ribosomal protein L14coord: 24..129
e-value: 2.5E-37
score: 129.7
IPR036853Ribosomal protein L14 superfamilySUPERFAMILY50193Ribosomal protein L14coord: 32..129
NoneNo IPR availablePANTHERPTHR11761:SF37RIBOSOMAL PROTEIN L14B/L23E-RELATEDcoord: 33..129
IPR019972Ribosomal protein L14P, conserved sitePROSITEPS00049RIBOSOMAL_L14coord: 67..93

Relationships

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

Feature NameUnique NameType
CmaCh19G003450.1CmaCh19G003450.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006412 translation
cellular_component GO:0009507 chloroplast
cellular_component GO:0015934 large ribosomal subunit
cellular_component GO:0005840 ribosome
molecular_function GO:0019843 rRNA binding
molecular_function GO:0003735 structural constituent of ribosome