Gene list
Applied filters:
COG category: Intracellular trafficking and secretion
Organism: Synechococcus sp. WH 8102, WH8102
Number of genes found: 37
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Synechococcus sp. WH 8102, WH8102 >SYNW1627 Possible peptidase S26 family protein TTGTTCTCTCCCCTAGCAGCAGCAGGTCTTCAGGATCTGCTGCTGTTTTT TTGTGGCCGTCGGCAGCTGTTGAAAGTCCAGGGGGAGTCCATGCTTCCGC ACCTGGGCCCCGAAGACCGAATCCTGGTGAACCAGCGGCGCCGTCCCCAA CCCGGTGAAGTTGTCGTGGCATGGCATCCCAGCAAACCGGGGGTTCGTCT GATCAAACGGATGCATGGGATGGATGCCAACGGCATGCACCTCCTGGGTG ACAACCCTTCAGCAAGCACCGACAGCCGTCAGCTGGGGCCCATCCCCTCG GGGTTGCTGATTGGTGTGGCTACGTCCTGTCTCAGAAGATCGCCGCCGAC GTCTTCTGCAACCAAATGGCACCCGTGA >SYNW1079 putative lipoprotein signal peptidase ATGACGGGCTCAATCCTGCGACGAGCCCCTCTGTTGGGGGTCGCTGGCCT GGTGGTCCTGGTGGATCAGGCGACAAAACTGCTGGCCGCATCCCAGCTGG CGGATGGACGCATCGTTCAACTGCTGCCCGGATTGATCAATGGCCAGCTG GTGCACAACACCGGAGCAGCCTTCAGTCTGTTCCGAGGGTCGGTCCAATG GCTTGGATTGCTGAGTCTGGCGGTGACGACAGGTCTGTTGATCTGGGTGG TGAGGCATCGCACGCCACCGTTCTGGCAGGGGATGGCGGTGGCGTTCCTG CTGGGGGGCACCCTGGGAAACGGCATTGATCGCTGGCGACTCGGGCATGT GATCGACTTTCTCGCCCTTGTGCCGATCAACTTCCCGATCTTCAATCCAG CTGATATCGCCATCAACCTGGCGGTCCTCTGTTTTCTTGTTGATCTCTGG AGCAGCAGGACGTCATCACGCCATGGCTGA >SYNW1818 conserved hypothetical protein ATGAAGGCCGGCGAGTTGTCCTTGGGTCAGTCACTGGATCTTCCAGCCCT CGATCGGGTCGACACCCTGGCGCAGGAACTTGCTCTGTTGCAGGACAAGG GCAAACGGCGGATCGCCATTCTTGGCAGCCGGCATGTTCCCGTTGTGGCC ATTCACCTTGTACAGCTAGTGGCCCGCTCGTTGGTGCAAGAAGGACACTC GCTGATCACGTCCGGTTCACAGGGTGTTAACGCAGCTGTGATCCGGGGTT GTTTGGATGTGGATGCATCTCAACTGACTGTGCTGTTGCCCCAGAGCCTG GATCGGCAGCCCACGGAAATCCGCGACCTTCTCGACCGAGTGCTGCATCT GGTCGAGAAGCCGGAACAGGACGATCTGCCATTGCCGATGGCCAGCAGCC TCTGCAACCAGGAAATTATCAATCGCTGTGATCAACTGATCTGCCTTGCC TTTCATGACAGTGAAACTCTGCTGTCGAGCGCCAGAACGGCGGAAGACAT GGGAAAAGTGGTGAGTCTTCTGTATTTCGATTGA >SYNW2107 hypothetical TTGTGCGACAACATGGCTCAAGATCCGAAGCATCTAGTACAACGGCAACC CCACTATTGCATTATCGACGAAGTCGACTCAATTCTGATCGGCGAGGCCA GAACTCCATTAATCATTTCCGGAAAAGTGGAGAAGCCAAAGCAAAAGTTC TCACTAGCTGCATTCATTTCTACAAAGCTTGAGCATGGTCAAGACAGTGA CAATGACGAATTCGAAGCCTTTGGAGATATGGCCAAACCATCAGTGCACT GTTAG >SYNW2488 conserved hypothetical ATGAGCTTTTTTGGATTAGGTTTTCCTGAGATACTAATTATATGCCTTAT TTTTTTATTAGTCTTAGGGCCTAATAAATTGCCCAAAGTAGGAAAATATT TGGCTAAATATTTGGGCGGTTTTAGATCCGCCTCTGATGAATTTAAGAGA GAAATTGATGTAGTTGTCTTGGAGGACAAAGATCCTAAAGAAGATACCCT TTAA >SYNW2187 putative RND family outer membrane efflux protein GTGCGTCGGTTCACCGCAACTGTTGTCCTGACTGCTGGTGTTCTGGCGGC AGCTCCAACTCCTGGATTTAGTCAGGACGAACCGACATCCTCCACCTCAG CGTTGGTGGATCAAACCACCCTTCCAAACGCGCTCGATTTGAAGGGAGAG CGTCCTCAATCGGATTCATCGGTCATCCCTGCTGCTGCTACCGAGATGCC GGCTGAGCTCCGGGATCTTGGGACTCCCCCCAGCCTTGCTCTCCCTGACA GTCCTGATCAGGTTCGAATTCACGAGCTCCGTCCGCTGACGTTGGATGAA GCTCTGACGTTGGCCGAGGTCAACAGCCCATCTCTGAAGGCCGCTGCTAG CCAGGTTGATCAGGCCAAGTCGTCATTGCGCGCAGCGATTTCAGCGTGGT ACCCCACGGTTGATCTGTCAGCTAACGGTCTTCCGAGTTATCTGAAGTCA TACAACTATCGAAATCCAGATTTCGTCCCCGGCATCGCTGGTGAAAATGA AACTTACGATCGCGAAAAGCGTGCTGATGTCAGCCTGAGTGTCCGCTGGG ACATCATTGACCCTGCACGTGTCCCTGAGATCGCATCACAACGTGACGCC TACGAGCAATCTCGAGATGCATATTTGATTGCCCTGCGGGACCTGCGTCT CCAAACCGCTTCTTCATATTTCCAACTGCAGGAGGCTGATGAAGGGGTTC GGATTGGACAGGCATCGGTTCGAGCGTCTCTGGTGAGCCTCCGAGATGCC AGAGCCCGCTTCAACGCGGGTGTCAACACCAAGCTGGAGGTGCTCGAAGC TGAGACGCAGTTGGCTCGAGACCGCAACCTGCTCACAGATCGTCTCGCAT CACAGGATCTTGCCCGTCGCGGCTTGGCCCGTGAACTTGCACTGCCTCAG GACATCACCCCAACAGCGGCTACACCGTCAGCCCCCCTGGGATTGTGGGA GCCCTCTTTACAAGAGAGCATCGTCGCCGCCTACAACTATCGAGAAGAAC TTGATCAGTTGATTCTTGATATCTCAATTGACAACAGCAGAGCTAATTCT TCCTTGGCTGCAGTCCAGCCGGTACTCAGTTTCGTCAACACCACAACCAG TTTCCGCAGCGAAGGACAGTCCGGTGTGAGCTCGCTCGGAGACATCGACA TGGACGATTACACCTGGGGTGCCCAGAACACCACCGCTTTAACGGCAACC TGGCGACTCTTTGATGGTGGACGGGCCAGGGCTGAGTACCGCCGTTTCAA GCGAGCCGCCGAGGAGAGCGCCTACAACTTTGCGTCGACACGTGATGGCA TCCGGTTTGAGGTTGAGCAGAGCTTCATCAACCTGCGCTCAGCCATCCAG AACATCGAGACCACATCGAGTGAAGTCTTGTCCTCCCGAGAGTCACTGCG GTTGTCTCAACTGCGGGTGCAGGCGGGTGTCAGCACACAGCGGGAAGTCG TAGACAACCAGCGCGATCTCACCAACGCTGAGATCCGCTATGCCCGCGCG ATACGCGAATACAACACAAGCTTGGCTCAACTGCAGCGTCGCACGGGTCT TGATGCATTGATTGCCTGCCCTGCCAACACACTCCCTGCGCAAAAGCCGG AAGCTGAGGGCATGGTGATTCCGATTGAACCCACACCCCTGAAAACTGCT TGCCAGATGGGTGCCGTCGCAGGTCAGACTGAAGCAATCCCCTAG >SYNW1839 protein secretion component, Tat family GTGACCCACTCCGGGCCGAGACCCGACTCAGCAGCCTCGAGGCTTCTAGC CTGGCCATTAGAAAGGGCTGACGCGTCGGCCAGATCAGCCATCCCCTCCG TGCCCGACAGCTCCGACGGTCCAGTTCTCAAGCCCCCGCCACCGATCCGC ATCAGCGGTGGCACCGACCCGAGCGCATTGCCCAACGAGGTGGAGATGCC TCTGGTGGATCACCTTGAGGAACTGCGCCAGCGCGTGCTGCGCAGCCTGC TGGCGGTGGTCGTTTCAGCCCTGGTCTGCCTGTTGGCGGTGAAGCCGTTG GTGCGACTGCTGGAGGTTCCGGCCCAGGGAATTCACTTCCTGCAGTTGGC CCCCGGTGAATTCCTGTTCGTGTCGCTGAAGGTAGCCGGCTACGCCGGCC TCACGCTTGCCCTTCCCTACGTGCTGTTTCAGCTGCTGGCCTTTGTGCTC CCTGGACTAACGATTCGGGAACGTCGGCTTATCGCACCCGCGGTTGCCGG ATCTGCAGTGTTGTTTCTGGCGGGGATTGCTTTTGCCGGGTGGGCCCTGG TCCCTGCAGCCCTGCGCTTTCTGGTGAGCTACGGCGCCGATGTGGTCGAG CCGCTCTGGTCGATCGAGCGTTATCTGGATTTCGTTCTGTTGCTGATGCT GGCCACAGGCCTGGCCTTTCAGTTGCCGGTGCTGCAGCTGTTGCTGGGCG TGTTGGGGCTGGTGCGCTGGCGCACGATGCTGGGGGCCTGGCGTTGGGTG GTGCTGGGCTCAGCCCTCGCTGGGGCCGTGCTGACCCCCTCAACCGACCC AATCACGATGCTGTTGTTGGCGGGCGCCATCACAGCCTTGTTCCTGATCG GCGTGGGGCTGGTGGCATTCACCGAGAGCCTCAGACCAGAAACTCCCTGA >SYNW1573 hypothetical ATGGCACCTGACTCCTACTGCGCGGGAGATGTACGAAGACTCCCTGCTTC GGCACACGCAGGACTGGATCCGACTCAAAAAACAAGCAGACCAACAAGCA GAAAAATGACCCACAACCCAATGGGTCGCGGGCCACTCCCTGCCAAAGAT GTGGTCAATTTAGGCGACCCTCTGCCTACAAAGCAGTGCGTCACAGCACT GAAACCCACTGCAGTACCTGAAGAAAATCTGCCCGACTGGGCTCAATGTG CGCCAAAGAGTGCGCCGAACAGTGTTTACAACGCAGGCACTGATGTCACT GATGTCACTGACGGTACGGATGGCACTGGCAAACGGCTCACCATTGATGC AGCTCAAGCCCATTGGCATCTGGACCTGCTTGGCAGGGATGAACGTGACG TTCACATCAGAGCCATCCCGCACAAGGGCAAACGCGGTTTCGCCATCAAT GGCAACTTCGCCATGGACCTCGAGCGATTCCAAGATCTGAACAACCAGGG CTACGGCCTGTACCTTCAGCCAAACATCGGCGGCACCTTGAAAGATGAGG TCACGCTGTGCACCTCACTGTTCTGGGAATACGACGACAGACCACGGTCT TAA >SYNW0957 conserved hypothetical protein GTGACAACCTCCACAGGACAACTCGAAGCAGATGCAAGAAGCAGAAGCGT ACCTGTACCTTCGGTAAGCTTGGGCCTTGGCAATGACCTTGATCCAAAAT TCGGTCGGTGGATCATCACCGGGGGGATTGCTGGCTTTTTGATCTGGGCG GTGAACTTTCCAGACGCAATGCCAGGGCATGCCCTTTTTCATCAGCGTGG ACCAACCCAAGTTGCAACACTCATATTGGGCGGAATGCTGGGGTGGTTCT TATTTAACAAATTACGCATTTTGCAAAAAGCACAGAAAGATTATTTAGCA TTTGATCTAGAAATACCAAGTTTAGTAAGGCAAGGTGATTTAGAGGCTAT AAAACTTAAATCTGAGAATTCTGGATCTCTCGTCGGTAAACGACTTCTAC ACCTATTGGATGTATGGGAATCAACAGGATCAGCGTTTCAGCTGGAACGA GCTGCCGATGGAGATGTTGATCTTTACGAATTATCCATGAGTAGTAGTTT TAGTTTTCCAAAGCTATTATTATGGGCAATTCCACTGACTGGATTTATAG GAACTGTTATTGGAATGTCCCAAGCTGTTGGTTCATTTGATGCCGTTCTT AGTAACGCAGACAACGTTGATGGTCTAAAAGATGGCTTGGTTCAAGTTAC TGGGGGACTTGGTACAGCGTTCGACACAACATTCCTAGCACTGGTAATAT CAGTATTTTTGGCATTCCCACTCACACTTTGTGAAAAGATTGAAGATAGA TTACTGAGCCAAATTGACGGAGTTGTGAGAGATGGAGTCTTATCACTGAG TCCTCTGGGTAGCGGTGAAATAGCGTCACAGTCTGGAGAAGGGACTGGAG GTGGTGCTGGCGGTGGAACATCAGAGAAAACTCCAGAGAAACCCACACCA AAAGAGATTTTTGGGGACGACATTGCAGGGTTGATAAGCGATGCGTTCGA AAAACATCTACCAGATCCATCAGTACTGGTAGAACCAGCCCAGGTTTATG CAGAAAAATTAACGGAAGCAACGATAGAAAAACTAACACCACTTACAACA ATTGTCAGAGATTCTGTAGAAGGAGTGAGTGAAGCACGCCTAAGCTTACA GGAACAGACTGACATCATAAGAAATGCAATGAATTTGCTTGCCGGTGAAC TAAGCGACTTGTTAGCTGAAAATAGGATCGGTATAGATCAAAAAGCTCAA TTACGATCGTTGATTGAATTGAAAGAATCCATTGACCTGCTGAATAAGAA CATGAGAAGAGAAAGGAATGGATTTGGCATAGGTATACTTATGGACAAAA TTAGGTCAAGATAA >SYNW0787 putative type 4 prepilin peptidase ATGACCCTGCTCATCGTTGCCCTGTTCGGGGCCTGCGTTGGCAGCTTCAC CAACGTGGTGGTGTGGCGCCTGCCCCGGCAGGAATCGGTGGTGGTTCCCG GCAGCCATTGCCCTCGCTGCGGCCATGCCATCCGCTGGCACGACAATCTG CCGGTGATCGGCTGGCTGCTTCTCGGGGGGCGATGCCGTGATTGTGGTGC CGGCATCAGCTGGCGCTACCCGGCAGTCGAATTGGCAAGTGCCCTGCTCT GGCTCAGTGCCCTCTCGGTTCAAGCCGGTGGTGGTCTGTCGGAACCCTGG CGGCCCTGGGCCGGTCTGGTGCTGGTCGCTCTGTTGCTGCCTCTGGTCTT GATCGACATCGACCACCTCTGGCTGCCGGAACCGCTGTGCCGATGGGGGA TGGTGCTGGGCCTTCTGTTCAGTGCAGGCGCTGGATGGACTGTTCTGGGC GATCACCTTGTTGCGGCAGCGCTGGCGTTGGTGCTGCTCGAGGGGCTGAG CGGGATGGCCGAGCGGATTCTTGGGCAGCCGGCTCTCGGTTTGGGGGACG CCAAGCTGGCGGCCCTGGGTGGTGCCTGGCTGGGAGCTGCAGGAATCGCC GTCGCGATGGCTCTGGGCACCCTGGTGGGAGCCGTCGTCGGCAGCGTGGG TCGGGTCTCCGGGCGGTTGCAGCCTCGTCAGGCCTTTGCCTTTGGTCCGT TCATCGCCTTGGGGATCTGGCTGGTCTGGCTCAGGGGTGCTGACTGGTGG TGGGAGCAATGGCAGCGGCTGCTGGGTTTTTAA >SYNW0953 hypothetical ATGGATACAAGTGGCTACGTGTACCCACCAATGGATGATCTCCTGAAGCG CCAGAACGGAGGTGGGCAGGGCGGTTTCGACCCCAATAGCTCTGATGGCG GTGACCTCAACGGTGGTGACGGTCTCCATCCGAGGCCGGGGGAATCGGAT GTCGGCAGTGGTTTGGAGCTCGACAGGAGTCTGCAGCGTGTGGCGGCTCA CGAGGCTTGGCTGAACGAGCAGAGCCAGCTGCCGGTTGAAAACTGGCTGC AGATCCGTGGTGGCAAATCAATAGCCCTTGAAAATTTTGGCGTAAACAAT AATACAACGAACGAATTCACAAGAGATTTTGAGAAAAGTCTGATAGTTGT CGATCAGCGCTCAATTGATTTGGAAGATTACAGTCGAAACTTGCCACCTG AAACTGATATCTTAGTTCTCAATCCGAACACCAGCGGTGCAAATCAAATC AGAGAATTTCTAATTGGTGATAATGCTGCCGACTACAGCAATATATCCAT AATAGGTTGCAGGGATGATTTTCATAATGCATGCCTTGGTTCAGACGTGT TATCAGTCGAAGACTTGTCTAAACAGATTTATTTGTTTCAGCAAGAGAAT TTAATTGATACTTCTGTAAACCTCAGGTTATTCACCGCAGAAAATCTAGT AGTAAATGTTACACAATCTCCTTCTCAGTCGGCGAGCACTGAACTATTAA GTAGAGCTATTAATATAATTTCAAGCTCATTTGATAGCGGCCGCTTTCAG GAATCTTTAAATCATGCATATTCAGCTTCAAAACATTCATATGTATTAGA TAGAGCCTATCAATTAATTAATGGTACAAGTGCACCATCTATTGAATTGG TTGACTTTGGAAAAGCTGAAATAAAAGGAGCTTACCTAAGTGGTCAAGAT AGGATTTTGGTCGATTCCAGTCTTCGCAATGCTAATACTTTGCTAGACAG GGTTTTGATTGAGGAAATTGGTCACTGGCTAGATGAATCTCATGGCGCCG ATAGCAAAGGTGATGAAGGTGATATCTTTGCAACATCGTTATTAGGCGGA AATCCTACATCCTCATCTCGTATTGATAATGTCAAACGTCAGATATTGTC TCTTAATGGTCATTTTTATTATGCTGAATTTGCTAACTTTGGTGTTGACA CACTTAGCTCTTCCTCGGAAGTGCAAAGTGCTGGTTCAAGCATTATCCTT GCCCCAGAGTCTGGATATTCATTTAGAGATGTAATTTCAGACCATAGTGT TAGTGGAGCGAATGTTGCTTCGCAATTTAGTGTTTTTGTAAATGGCGGAG CCTCGATATCTCCAACCGGGGCTTCGTTTAGTAGTGGGTCACTTCTTTTG ACTGGTATTTCCCCAGTCATCGAACAAAATGACTACGTTACGATTTCATA CTCTCCTTCTGGTACATCAACATTTAATTTAGTTGATAGCTCAAATCCTG GTTCAGATACTGTCCCAGCATTTTCTGACTTGCCGATTGACAACAATTCA ACAAAGGATATAACAGCTGGTTATGTTGACTTTGGTTCTAGTACTACAGC AGTTGCGACCAATGGAGCAACAATCGTACTGAAGTTTAACGAAGCGTTAG CAGACATTACCAACGATGCAAATACCAGAAATCAGTTTGCAGTACTGACT AACGGAGCAGCAAATGCTGTAACCGGAATAGCACTTGGTGGAAGTAATAA GGAAGTGACGTTGACGCTGACGAATACGGTAGAGGACGGCGATGAAGTCA CTGTTGCCTACACGAAGGATACTGGCAATAGTGTTCAGCTTGAGGACCGC CATACAGATGCAACTGATATCGACAACTTTAGTGCGACTTCTATTACCAA TAATTCAACCAAGGATTTAACAGCTGGGACCGTTGACTTTGGTTCTAGTA CTACAGCGGTTGCGACCAATGGAGCAACAATCGTACTGAAGTTTACTGAG GCGCTGGCAGACATTACCAATGATGCAAATACCAGAAATCAGTTTGCAGT ACTGACTAATGGAGCAGCAAATGCTGTAACCGGAATAGCACTTGGCGGAA GTAATAAGGAAGTGACATTGACGCTAACGAATACGGTAGAGGACGGCGAT GAAGTCACTGTTGCCTACACGAAGGATACTGGCAATAGTGTTCAGCTTGA GGACCGCCATACAGATGCGACTGATATCGACAACTTTAGTGCGACTTCTG TTACCAATAATTCGACCAAGGATATTACTGGTGCGGTTATTGATTTCGGA GCATCTACAACAGCAGTTGCTACGAATGGTGCCACATTAGTACTGACATT CCCTGAGGAATTGGCTGACATCAGTGATGGAGCGGATGTGCGTGCACAAT TTGCCGTTTTAACGAATGGAGCTGCTAATGCTGTTACTGGTGTATCGCTA GGAGGAAGTAATAAGCAAGTCACCTTGACTTTGACGAATGTCGTTGAAGA TGAAGATGAGGTGACGGTTGCTTATACGGCAAATGGTGCTAATGCGTTGA AGGATCGACACGCAGACGCGACGAATATTGCTAATTGGAATGCGACTTCA ATTACAAACAATTCAACAAAGGATACAACAGCTGGTTATGTTGACTTTGG TTCTAGTACTACAGCAGTTGCGACCAATGGAGCAACAATCGTACTGAAGT TTAACGAAGCGTTAGCAGACATTACCAACGATGCAAATACCAGAAATCAG TTTGCAGTACTGACTAACGGAGCAGCAAATGCTGTAACCGGAATAGCACT TGGTGGAAGTAATAAGGAAGTGACGTTGACGCTGACGAATACGGTAGAGG ACGGCGATGAAGTCACTGTTGCCTACACGAAGGATACTGGCAATAGTGTT CAGCTTGAGGACCGCCATACAGATGCAACTGATATCGACAACTTTAGTGC GACTTCTATTACCAATAATTCAACCAAGGATTTAACAGCTGGAACCGTTG ACTTTGGTTCTAGTACTACAGCGGTTGCGACCAATGGAGCAACAATTGTA CTGAAGTTTACTGAGGCGCTGGCAGACATTACCAATGATGCAAATACCAG AAATCAGTTTGCAGTACTGACTAATGGAGCAGCAAATGCTGTAACTGGAA TAGCACTTGGCGGAAGTAATAAGGAAGTGACATTGACGCTAACGAATACG GTAGAGGACGGCGATGAAGTCACTGTTGCCTACACGAAGGATACTGGCAA TAGTGTTCAGCTTGAGGACCGCCATACAGATGCGACTGATATCGACAACT TTAGTGCGACTTCTGTTACCAACAATTCGACCAAGGATATTACTGGTGCG GTTATTGATTTCGGAGCATCTACAACAGCAGTTGCTACGAATGGTGCCAC ATTAGTACTGACATTCCCTGAGGAATTGGCTGACATCAGTGATGGAGCGG ATGTGCGTGCACAATTTGCCGTTTTAACGAATGGAGCTGCTAATGCTGTT ACTGGTGTATCGCTAGGAGGAAGTAATAAGCAAGTCACCTTGACTTTGAC GAATGTCGTTGAAGATGAAGATGAGGTGACGGTTGCTTATACGGCAAATG GTGCTAATGCGTTGAAGGATCGACACGCAGACGCGACGAATATTGCTAAT TGGAATGCGACTTCAATTACAAACAATTCAACAAAGGATACAACAGCTGG TTATGTTGACTTTGGTTCTAGTACTACAGCAGTTGCGACCAATGGAGCAA CAATCGTACTGAAGTTTAACGAAGCGTTAGCAGACATTACCAACGATGCA AATACCAGAAATCAGTTTGCAGTACTGACTAACGGAGCAGCAAATGCTGT AACCGGAATAGCACTTGGTGGAAGTAATAAGGAAGTGACGTTGACGCTGA CGAATACGGTAGAGGACGGCGATGAAGTCACTGTTGCCTACACGAAGGAT ACTGGCAATAGTGTTCAGCTTGAGGACCGCCATACAGATGCAACTGATAT CGACAACTTTAGTGCGACTTCTATTACCAATAATTCAACCAAGGATTTAA CAGCTGGGACCGTTGACTTTGGTTCTAGTACTACAGCGGTTGCGACCAAT GGAGCAACAATCGTACTGAAGTTTACTGAGGCGCTGGCAGACATTACCAA TGATGCAAATACCAGAAATCAGTTTGCAGTACTGACTAATGGAGCAGCAA ATGCTGTAACCGGAATAGCACTTGGCGGAAGTAATAAGGAAGTGACATTG ACGCTAACGAATACGGTAGAGGACGGCGATGAAGTCACTGTTGCCTACAC GAAGGATACTGGCAATAGTGTTCAGCTTGAGGACCGCCATACAGATGCGA CTGATATCGACAACTTTAGTGCGACTTCTGTTACCAATAATTCGACCAAG GATATTACTGGTGCGGTTATTGATTTCGGAGCATCTACAACAGCAGTTGC TACGAATGGTGCCACATTAGTACTGACATTCCCTGAGGAATTGGCTGACA TCAGTGATGGAGCGGATGTGCGTGCACAATTTGCCGTTTTAACGAATGGA GCTGCTAATGCTGTTACTGGTGTATCGCTAGGAGGAAGTAATAAGCAAGT CACCTTGACTTTGACGAATGTCGTTGAAGATGAAGATGAGGTGACGGTTG CTTATACGGCAAATGGTGCTAATGCGTTGAAGGATCGACACGCAGACGCG ACGAATATTGCTAATTGGAATGCGACTTCAATTACAAACAATTCAACAAA GGATACAACAGCTGGTTATGTTGACTTTGGTTCTAGTACTACAGCAGTTG CGACCAATGGAGCAACAATCGTACTGAAGTTTAACGAAGCGTTAGCAGAC ATTACCAACGATGCAAATACCAGAAATCAGTTTGCAGTACTGACTAACGG AGCAGCAAATGCTGTAACCGGAATAGCACTTGGTGGAAGTAATAAGGAAG TGACGTTGACGCTGACGAATACGGTAGAGGACGGCGATGAAGTCACTGTT GCCTACACGAAGGATACTGGCAATAGTGTTCAGCTTGAGGACCGCCATAC AGATGCGACTGATATCGACAACTTTAGTGCGACTTCTGTTACCAACAATT CAACCAAGGATTTAACAGCTGGAACCGTTGACTTTGGTTCTAGTACTACA GCGGTTGCGACCAATGGAGCAACAATTGTACTGAAGTTTACTGAGGCACT GGCAGACATTACCAATGATGCAAATACCAGAAATCAGTTTGCAGTACTGA CTAATGGAACAGCAAATGCTGTAACCGGAATAGCACTTGGCGGAAGTAAT AAGGAAGTGACGTTGACGTTAACGAATACGGTAGAGGACGGCGATGAAGT CACTGTTGCCTACACGAAGGATACTGTCAATAGCGTTCAGCTTGAGGACC GCCATACAGATGCGACTGATATCGACAACTTTAGTGCAACTGCTGTTACC AATAATTCGACCAAGGATATTACTGGTGCCGTCGTCGATTGGGCGGCTGC AACTACCGCAGTAGCTACCGATGGTGCCACATTAGTACTGACATTCCCTG AGGAATTGGCTGACATCAGTGATGGAGCGGATGTGCGTGCACAATTTGCC GTTTTAACGAATGGAGCTGCTAATGCTGTTACTGGTGTATCGCTAGGAGG AAGTAATAAGCAAGTCACCTTGACTTTGACGAATGTCGTTGAAGATGAAG ATGAGGTGACGGTTGCTTATACGGCAAATGGTGCTAATGCGTTGAAGGAT CGACACGCAGACGCGACGAATATTGCTAATTTTAATGCTATTAGCATAAC CAATAATTCAACCAAGGATTTAACAGCTGGAACCGTTGACTTTGGTTCTA GTACTACAGCTGTTGCGACCAATGGAGCAACAATTGTACTGAAGTTTAAT GAAGCGTTGGCTGACATTACCAATAATGCCAATACCAGAAGTCAGTTTGC TGTTCTTGTTAATGGCGCTACTAATAACGTTACTTCAATTTCCCTTGGCG ATTCTAATACGGCGATTACGTTGACTTTGGCGACTGCTGTTGAGGACGGC GATGAAGTCACTGTTGCCTACACGAAGGATACTGGCAATAGTGTTCAGCT TGAGGACCGCCACACAGATGCAACTGATATCGACAACTTTAGTGCGACTG CTATCACTAATAACTCAACGCAGACACTATCAGCCCCAAATCCTCTATTT GGATCAACTTCTACAGCTGTAGCCTCTGCTGGTAATTTGTTGGTATTAAA GTTTGCTGGGCAGCTTGCAGATGTGACTAACGATGCAAATACTCGTAATC AATTTTCTGTTACCACCAATGGCGTTGCTAACACAGTTACAGGTATTTCG TTGGGTGGCAGTAATACTGAGATTACTCTTACACTAACTCAAGTTATTGA GGATAATGACGAGGTTACTCTTTCATATACCAAGGATTCTGTTAATAATG TAGAACTGGCTGGCCGAACAGCTGGCTCAGCACAAGTGAGCGATTTTCTA AGTACTGCTATCACCAACAATTCAACAAAGGATACAACAGCTGGTTATGT TGACTTTGGTTCTAGTACTACAGCAGTTGCGACCAATGGAGCAACAATCG TACTGAAGTTTAACGAAGCGTTAGCAGACATTACCAACGATGCAAATACC AGAAATCAGTTTGCAGTACTGACTAACGGAGCAGCAAATGCTGTAACCGG AATAGCACTTGGTGGAAGTAATAAGGAAGTGACGTTGACGCTGACGAATA CGGTAGAGGACGGCGATGAAGTCACTGTTGCCTACACGAAGGATACTGGC AATAGTGTTCAGCTTGAGGACCGCCATACAGATGCAACTGATATCGACAA CTTTAGTGCGACTTCTATTACCAATAATTCAACCAAGGATTTAACAGCTG GGACCGTTGACTTTGGTTCTAGTACTACAGCGGTTGCGACCAATGGAGCA ACAATCGTACTGAAGTTTACTGAGGCGCTGGCAGACATTACCAATGATGC AAATACCAGAAATCAGTTTGCAGTACTGACTAATGGAGCAGCAAATGCTG TAACCGGAATAGCACTTGGCGGAAGTAATAAGGAAGTGACATTGACGCTA ACGAATACGGTAGAGGACGGCGATGAAGTCACTGTTGCCTACACGAAGGA TACTGGCAATAGTGTTCAGCTTGAGGACCGCCATACAGATGCGACTGATA TCGACAACTTTAGTGCGACTTCTGTTACCAATAATTCGACCAAGGATATT ACTGGTGCGGTTATTGATTTCGGAGCATCTACAACAGCAGTTGCTACGAA TGGTGCCACATTAGTACTGACATTCCCTGAGGAATTGGCTGACATCAGTG ATGGAGCGGATGTGCGTGCACAATTTGCCGTTTTAACGAATGGAGCTGCT AATGCTGTTACTGGTGTATCGCTAGGAGGAAGTAATAAGCAAGTCACCTT GACTTTGACGAATGTCGTTGAAGATGAAGATGAGGTGACGGTTGCTTATA CGGCAAATGGTGCTAATGCGTTGAAGGATCGACACGCAGACGCGACGAAT ATTGCTAATTGGAATGCGACTTCAATTACAAACAATTCAACAAAGGATAC AACAGCTGGTTATGTTGACTTTGGTTCTAGTACTACAGCAGTTGCGACCA ATGGAGCAACAATCGTACTGAAGTTTAACGAAGCGTTAGCAGACATTACC AACGATGCAAATACCAGAAATCAGTTTGCAGTACTGACTAACGGAGCAGC AAATGCTGTAACCGGAATAGCACTTGGTGGAAGTAATAAGGAAGTGACGT TGACGCTGACGAATACGGTAGAGGACGGCGATGAAGTCACTGTTGCCTAC ACGAAGGATACTGGCAATAGTGTTCAGCTTGAGGACCGCCATACAGATGC AACTGATATCGACAACTTTAGTGCGACTTCTATTACCAATAATTCAACCA AGGATTTAACAGCTGGAACCGTTGACTTTGGTTCTAGTACTACAGCGGTT GCGACCAATGGAGCAACAATCGTACTGAAGTTTACTGAGGCGCTGGCAGA CATTACCAATGATGCAAATACCAGAAATCAGTTTGCAGTACTGACTAATG GAGCAGCAAATGCTGTAACCGGAATAGCACTTGGCGGAAGTAATAAGGAA GTGACATTGACGCTAACGAATACGGTAGAGGACGGCGATGAAGTCACTGT TGCCTACACGAAGGATACTGGCAATAGTGTTCAGCTTGAGGACCGCCATA CAGATGCGACTGATATCGACAACTTTAGTGCGACTTCTGTTACCAACAAT TCGACCAAGGATATTACTGGTGCGGTTATTGATTTCGGAGCATCTACAAC AGCAGTTGCTACGAATGGTGCCACATTAGTACTGACATTCCCTGAGGAAT TGGCTGACATCAGTGATGGAGCGGATGTGCGTGCACAATTTGCCGTTTTA ACGAATGGAGCTGCTAATGCTGTTACTGGTGTATCGCTAGGAGGAAGTAA TAAGCAAGTCACCTTGACTTTGACGAATGTCGTTGAAGATGAAGATGAGG TGACGGTTGCTTATACGGCAAATGGTGCTAATGCGTTGAAGGATCGACAC GCAGACGCGACGAATATTGCTAATTGGAATGCGACTTCAATTACAAACAA TTCAACAAAGGATACAACAGCTGGTTATGTTGACTTTGGTTCTAGTACTA CAGCAGTTGCGACCAATGGAGCAACAATCGTACTGAAGTTTAACGAAGCG TTAGCAGACATTACCAACGATGCAAATACCAGAAATCAGTTTGCAGTACT GACTAACGGAGCAGCAAATGCTGTAACCGGAATAGCACTTGGTGGAAGTA ATAAGGAAGTGACGTTGACGCTGACGAATACGGTAGAGGACGGCGATGAA GTCACTGTTGCCTACACGAAGGATACTGGCAATAGTGTTCAGCTTGAGGA CCGCCATACAGATGCAACTGATATCGACAACTTTAGTGCGACTTCTATTA CCAATAATTCAACCAAGGATTTAACAGCTGGGACCGTTGACTTTGGTTCT AGTACTACAGCGGTTGCGACCAATGGAGCAACAATCGTACTGAAGTTTAC TGAGGCGCTGGCAGACATTACCAATGATGCAAATACCAGAAATCAGTTTG CAGTACTGACTAATGGAGCAGCAAATGCTGTAACCGGAATAGCACTTGGC GGAAGTAATAAGGAAGTGACATTGACGCTAACGAATACGGTAGAGGACGG CGATGAAGTCACTGTTGCCTACACGAAGGATACTGGCAATAGTGTTCAGC TTGAGGACCGCCATACAGATGCGACTGATATCGACAACTTTAGTGCGACT TCTGTTACCAATAATTCGACCAAGGATATTACTGGTGCGGTTATTGATTT CGGAGCATCTACAACAGCAGTTGCTACGAATGGTGCCACATTAGTACTGA CATTCCCTGAGGAATTGGCTGACATCAGTGATGGAGCGGATGTGCGTGCA CAATTTGCCGTTTTAACGAATGGAGCTGCTAATGCTGTTACTGGTGTATC GCTAGGAGGAAGTAATAAGCAAGTCACCTTGACTTTGACGAATGTCGTTG AAGATGAAGATGAGGTGACGGTTGCTTATACGGCAAATGGTGCTAATGCG TTGAAGGATCGACACGCAGACGCGACGAATATTGCTAATTGGAATGCGAC TTCAATTACAAACAATTCAACAAAGGATACAACAGCTGGTTATGTTGACT TTGGTTCTAGTACTACAGCAGTTGCGACCAATGGAGCAACAATCGTACTG AAGTTTAACGAAGCGTTAGCAGACATTACCAACGATGCAAATACCAGAAA TCAGTTTGCAGTACTGACTAACGGAGCAGCAAATGCTGTAACCGGAATAG CACTTGGTGGAAGTAATAAGGAAGTGACGTTGACGCTGACGAATACGGTA GAGGACGGCGATGAAGTCACTGTTGCCTACACGAAGGATACTGGCAATAG TGTTCAGCTTGAGGACCGCCATACAGATGCAACTGATATCGACAACTTTA GTGCGACTTCTATTACCAATAATTCAACCAAGGATTTAACAGCTGGGACC GTTGACTTTGGTTCTAGTACTACAGCGGTTGCGACCAATGGAGCAACAAT CGTACTGAAGTTTACTGAGGCGCTGGCAGACATTACCAATGACGCAAATA CCAGAAATCAGTTTGCAGTACTGACTAATGGAGCAGCAAATGCTGTAACC GGAATAGCACTTGGCGGAAGTAATAAGGAAGTGACATTGACGCTAACGAA TACGGTAGAGGACGGCGATGAAGTCACTGTTGCCTACACGAAGGATACTG GCAATAGTGTTCAGCTTGAGGACCGCCATACAGATGCGACTGATATCGAC AACTTTAGTGCGACTTCTGTTACCAATAATTCGACCAAGGATATTACTGG TGCGGTTATTGATTTCGGAGCATCTACAACAGCAGTTGCTACGAATGGTG CCACATTAGTACTGACATTCCCTGAGGAATTGGCTGACATCAGTGATGGA GCGGATGTGCGTGCACAATTTGCCGTTTTAACGAATGGAGCTGCTAATGC TGTTACTGGTGTATCGCTAGGAGGAAGTAATAAGCAAGTCACCTTGACTT TGACGAATGTCGTTGAAGATGAAGATGAGGTGACGGTTGCTTATACGGCA AATGGTGCTAATGCGTTGAAGGATCGACACGCAGACGCGACGAATATTGC TAATTGGAATGCGACTTCAATTACAAACAATTCAACAAAGGATACAACAG CTGGTTATGTTGACTTTGGTTCTAGTACTACAGCAGTTGCGACCAATGGA GCAACAATCGTACTGAAGTTTAACGAAGCGTTAGCAGACATTACCAACGA TGCAAATACCAGAAATCAGTTTGCAGTACTGACTAACGGAGCAGCAAATG CTGTAACCGGAATAGCACTTGGTGGAAGTAATAAGGAAGTGACGTTGACG CTGACGAATACGGTAGAGGACGGCGATGAAGTCACTGTTGCCTACACGAA GGATACTGGCAATAGTGTTCAGCTTGAGGACCGCCATACAGATGCAACTG ATATCGACAACTTTAGTGCGACTTCTATTACCAATAATTCAACCAAGGAT TTAACAGCTGGGACCGTTGATCTTCGCTCTAGTACTACAGCGGTTGCGAC CAATGGAGCAACAATCGTCCTGAAGTTTACTGAGGCGCTGGCAGACATTA CCAATGATGCAAATACCAGAAATCAATTTGCTGTTACTGTTGACGGCTCA ACAAATACTGTTACAGGTATAGCACTTGGAGGAAGTAATCAAGAAGTTAC TTTAACACTTACCAATGCTATTAAGGATGGAGCTGAGGTTTTTGTTGCCT ACACGAAGGATACTGTCAATAGCGTTCAGCTTGAGGACCGCCATACAGAT GCTTCCGATATTTTAGATTTTACTTATTCCATCAATAATTCATCTACCGT TGACAGTACCATTCCTGTAGCTGTCGCTGATACTTCTTCAGTTGAAGTTG GAGGTTCTGTTGTCTTCGATGGTACTTCGGGTAATCAACCGATATTAATT ACCAATGATACTGATAATGTTGGTGTTACTGGTATTGGAGCAGTTGACGG GGTTTCATTTACTTCACTTACAAATTCTGACCATGGGACTTATTCCGGTG CTGCTGGGTATAAAAAAGTTGTTGGCACATTTGGTACTCTCTACATTAAG TCGAATGGTGTCGCTGCCTATATACACACGGGTACAAGGGCCACTGATAC TGATGTTTTTATTTATACGGCAACCGATCTCCAGGGGAATGAGTCAATTC CAATTAAGTTGACAATTAATGCACAAGATACTACAGCCCCGTCTAAATCT GATACCATTACTGAAAGTGTTAATGAAGGTTCAACATCTTCGAATCTTCA GCTTTTAAGTATTTTTTCTGACAATTCTTCTACTTTTAGTGTCACGAATA TAAAGGTTGGCTCTGGTTCGACAGTTGTTCTGCCTTCTGCAGAGACAACC GGCCAATATATTGGGTTCTCTAAGGTTACTTCCACTCAAGGTGATCTTTA TCTCAAGGCTGATGGAACAGCTTTCTATGTGCATGGTGGATCGGACATTG TAGGAACTGGCACCACTGATGTGTTTACATATACTGTTAATGATGGAACT AACCAAACCACTAATACAATTACGATTAACCTCGTTGACACTACTGTTGT TCCTCCTACCAACAGCTCATCGTCAACAAATAGTGCTAGCTCTATCAATC TTGTAATGTCGGAGGCTATTAAAAGTAATGTCACTGCCCTTCAGTCTATC TCGGACTTTTCCAGTATCGGTCCATTCTTTTCATTACAAATTGGCAATCA GACTCTTGCCTATGGAACTGGATCCGGCACATTCTCTATGGACAAAGTCA ACAGCACAACACTTACATTTATTGTAAATACCGAGTCTGATTATATTCAA AATGTACATGAATTGGTACAACTTGTTTATAATCCAACAGGGGCTAATAC TCATCATTTAAAGGATTTGGACGGCAATTTTGCTTCTGGTTTCACGCAAC TAGTTACCAATCAATTTGTTGCACCATCTGTTTCCAGTGCAACGACGACC AGCTCGAATGTCGTGACAATGGTACTGTCTGAGAATGCATTGAGCAACAG TGCCAATCTCTCAGCCATTACTAATTTTGCCGATCTTGGTGCTCTATTCT CTGTAAAAGTAGGCAGCCAGACGTTGAGTTATGGAGCTAGCGGTGCAGGC ACATTTAGCCTCGGTAAGGATGGATCCAATAACAACAAGTTAGTCTTTAC GATCAATACAGAAGCTGACTACCTGCAAAACGATCAAGAGGTTGTACAGA TTATCTATAACGCTGATCCCAGCTCTACGACACATAACCTAGTTGATTCT GACGGGAACCAGACAACAGATTTCACATTTACTGCGGCTAATAGCTTCTT AGCACCATCTGTTTCCAGTGCAACGACGACCAGCTCGAATGTCGTGACAA TGGTACTGTCTGAGAATGCATTGAGCAACAGTGCCAATCTCTCAGCCATT ACTAATTTTGCCGATCTTGGTGCTCTATTCTCTGTCAAAGTAGGCAGCCA GACGTTGAGTTATGGAGCTAGCGGTGCAGGCACATTTAGCCTCGGTAAGG ATGGATCCAATAACAACAAGTTAGTCTTTACGATCAATACAGAAGCTGAC TATCTGCAAAGCGATCAAGAGGTTGTTCAGATTATCTATAACGCTGATCC CAGCTCGACGACACATAACCTAGTTGATTCTGACGGGAACCAGACAACAG ATTTTACATTTACTGCGGCTAATAGCTTCTTAGCACCATCTGTTTCCAGT GCAACGACGACCAGCTCGAATGTCGTGACAATGGTACTGTCTGAGAATGC ATTGAGCAACAGTGCCAATCTCTCAGCCATTACTGACTTTGCCAATCTTG GTGCTCTATTCTCTGTCAAAGTAGGCAGCCAGACGTTGAGTTATGGAGCT AGCGGTGCAGGCACATTTAGCCTCGAGAAGGATGGATCCAATAACAACAA GTTAGTCTTTACGATCAATACAGAAGCTGATTATCTGCAAAACGATCAAG AGGTTGTTGAAATTATCTATAACGCTGATCCCAGCTCGACGACGCATAAT TTAGTTGATTCTGACGGGAACCAAACAACAGATTTCACATTTACTGCGGC TAATAGCTTCTTAGCACCATCTGTTTCCAGTGCAACGACGACCAGCTCGA ATGTCGTGACAATGGTACTGTCTGAGAATGCATTGAGCAACAGTGCCAAT CTCTCAGCCATTACTAATTTCGCCAATCTTGGTGCTCTATTCTCTGTCAA AGTAGGCAGCCAGACGTTGACTTATGGAGCTAGCGGTGCAGGCACATTTA GCCTCGGTAAGGATGGATCCAATAACAACAAGTTAGTCTTTACGATCAAT ACAGAAGCTGATTATCTGCAAAACGATCAAGAGATTGTTGAAATTATCTA TAACGCTGATCCCAGCTCGACGACGCATAATTTAGTTGATTCTGACGGGA ACCAAACAACAGATTTCACATTTACTGCGGCTAATAGCTTCTTAGCACCA TCTGTTTCCAGTGCAACGACGACCAGCTCGAATGTCGTGACAATGGTACT GTCTGAGAATGCATTGAGTAACAGTGCCAATCTCTCAGCCATTACTAATT TTGCCAATCTTGGTGCTCTATTCTCTGTCAAGGTAGGTAGCCAGACGTTG AGTTATGGAGCTAGCGGTGCAGGCACATTTAGCCTCGGTAAGGATGGATC CAATAACAACAAGTTAGTCTTTACGATCAATACAGAAGCTGACTATCTGC AAAACGATCAAGAGGTTGTTCAGATTATCTATAACGCTGATCCCAGCTCG ACGACACATAATTTAGTTGATTCTGACGGGAACCAGACAACAGATTTCGC ATTTACTGCGGCTAATAGCTTCTTAGCACCATCTGTTTCCAGTGCAACGA CGACCAGCTCGAATGTCGTGACAATGGTACTGTCTGAGAATGCATTGAGC AACAGTGCCAATCTCTCAGCCATTACTAATTTTGCCGATCTTGGTGCTCT ATTCTCTGTAAAAGTAGGCAGCCAGACGTTGAGTTATGGAGCTAGCGGTG CAGGCACATTTAGCCTCGGTAAGGATGGATCCAATAACAACAAGTTAGTC TTTACGATCAATACAGAAGCTGACTACCTGCAAAACGATCAAGAGGTGGT TCAGATTATCTATAACGCTGATCCCAGCTCGACGACACATAACCTAGTTG ATTCTGATGCGAACCAGACAACAGATTTCACATTTACTGCGGCTAATAGC TTCTTAGCACCATCTGTTTCCAGTGCAACGACGACCAGCTCGAATGTCGT GACAATGGTACTGTCTGAGAATGCATTGAGCAACAGTGCCAATCTCTCAG CCATTACTAATTTTGCCGATCTTGGTGCTCTATTCTCTGTAAAAGTAGGC AGCCAGACGTTGAGTTATGGAGCTAGCGGTGCAGGCACATTTAGCCTCGG TAAGGATGGATCCAATAACAACAAGTTAGTCTTTACGATCAATACAGAAG CTGACTACCTGCAAAACGATCAAGAGGTTGTACAGATTATCTATAACGCT GATCCCAGCTCTACGACACATAACCTAGTTGATTCTGACGGGAACCAGAC AACAGATTTCACATTTACTGCGGCTAATAGCTTCTTAGCACCATCTGTTT CCAGTGCAACGACGACCAGCTCGAATGTCGTGACAATGGTACTGTCTGAG AATGCATTGAGCAACAGTGCCAATCTCTCAGCCATTACTAATTTTGCCGA TCTTGGTGCTCTATTCTCTGTCAAAGTAGGCAGCCAGACGTTGAGTTATG GAGCTAGCGGTGCAGGCACATTTAGCCTCGGTAAGGATGGATCCAATAAC AACAAGTTAGTCTTTACGATCAATACAGAAGCTGACTACCTGCAAAACGA TCAAGAGGTTGTTCAGATTATCTATAACGCTGATCCCAGCTCGACGACAC ATAACCTAGTTGATTCTGACGGGAACCAGACAACAGATTTTACATTTACT GCGGCTAATAGCTTCTTAGCACCATTTGTTTCCAGTGCAACGACGACCAG TTCGAATGTCGTGACAATGGTACTGTCTGAGAACTCATTGAGCAACAGTG CCAATCTCTCAGCCATTACTAACTTTGCCGATCTTGGTGCTCTATTCTCT GTCAAAGTAGGCAGCCAGACGTTGAGTTATGGAGCTAGCGGTGCAGGCAC ATTTAGCCTCGAGAAGGATGGATCCAATAACAACAAGTTAGTCTTTACGA TCAATACAGAAGCTGATTATCTGCAAAACGATCAAGAGGTTGTTCAGATT ATCTATAATGCTGATTCCAGCTCTACGACACATAACCTAGTTGATTCTGA CGGGAACCAGACAATAGATTTTACATTTACTGCGACTAATAGCTTCTTAG CATCGTCTGTATCAAGTGCAACGACCACCAGCTCGAATGTCGTGACGATG GTGCTGTCTGAGAACTCATTGAGCAACAGTGCCAATCTCTCAGCCATTAC TAATTTCGCCAATCTTGGTGCTCTATTCTCTGTCAAAGTAGGCAGCCAGA CGTTGACTTATGGAGCTAGCGGTGCAGGCACATTTAGCCTCGGTAAGGAT GGATCCAATAACAACAAGTTAGTCTTTACGATCAATACAGAAGCTGATTA TCTGCAAAACGATCAAGAGATTGTTGAAATTATCTATAACGCTGATCCCA GCTCGACGACGCATAATTTAGTTGATTCTGACGGGAACCAAACAACAGAT TTCACATTTACTGCGACTAATAGCTTCCTAGCACCATCTGTTTCCAGTGC AACGACCACCAGCTCGAATGTCGTGACGATGGTACTGTCTGAGAATGCAT TGAGCAACAGTGCCAATCTCTCAGCCATTACTAACTTTGCCAATCTTGGT GCTCTATTCTCTGTCAAAGTAGGCAGCCAGACGTTGAGTTATGGAGCTAG CGGTGCAGGCACATTTAGCCTCGGTAAGGATGGATCCAATAACAACAAGT TAGTCTTTACGATCAATACAGAAGCTGATTATCTGCAAAACGATCAAGAG GTTGTTCAGATTATCTATAACGCTGATCCCAGCTCGACGACACATAACCT AGTTGATTCTGATGCGAACCAGACAACAGATTTTACATTTACTGCGACTA ATAGCTTCCTAGCACCATCTGTTTCCAGTGCAACGACCACCAGCTCGAAT GTCGTGACAATGGTATTGTCTGAGAATGCATTGAGCAACAGTGCCAATCT CTCAGACATTACTAACTTTGCCAATCTTGGTGCTCTATTCTCTGTAAAAG TAGGCAGCCAGACGTTGAGTTATGGAGCTAGCGGTGCAGGCACATTTAGC CTCGGTAAGGATGGATCCAATAACAACAAGTTAGTCTTTACGATCAATAC AGAAGCTGATTATCTGCAAAACGATCAAGAGATTGTTGAAATTATCTATA ACGCTGATCCCAGCTCGACGACGCATAATTTAGTTGATTCTGACGGGAAC CAAACAACAGATTTCACATTTACTGCGGCTAATAGCTTCTTAGCACCATC TGTTTCCAGTGCAACGACGACCAGCTCGAATGTCGTGACAATGGTACTGT CTGAGAATGCATTGAGTAACAGTGCCAATCTCTCAGCCATTACTAATTTT GCCAATCTTGGTGCTCTATTCTCTGTCAAGGTAGGTAGCCAGACGTTGAG TTATGCAGCTAGCGGTGCAGGCACATTTAGCCTCGGTAAGGATGGATCCA ATAACAACAAGTTAGTCTTTACGATCAATACAGAAGCTGACTATCTGCAA AACGATCAAGAGGTTGTTCAGATTATCTATAACGCTGATCCCAGCTCGAC GACACATAATTTAGTTGATTCTGACGGGAACCAGACAACAGATTTCGCAT TTACTGCGGCTAATAGCTTCTTAGCACCATCTGTTTCCAGTGCAACGACG ACCAGCTCGAATGTCGTGACAATGGTACTGTCTGAGAATGCATTGAGCAA CAGTGCCAATCTCTCAGCCATTACTAATTTTGCCGATCTTGGTGCTCTAT TCTCTGTCAAAGTAGGCAGCCAGACGTTGACTTATGGAGCTAGCGGTGCA GGCACATTTAGCCTCGGTAAGGATGGATCCAATAACAACAAGTTAGTCTT TACGATCAATACAGAAGCTGATTATCTGCAAAACGATCAAGAGGTTGTTC AGATTATCTATAACGCTGATCCCAGCTCGACGACACATAACCTAGTTGAT TCTGATGCTAATCAGACAACAGATTTTACATTTACTGCGACTAATAGCTT CTTAGCACCATCTGTTTCCAGTGCAACGACGACCAGCTCGAATGTCGTGA CAATGGTACTGTCTGAGAATGCATTGAGCAACAGTGCCAATCTCTCAGCC ATTACTAATTTTGCCGATCTTGGTGCTCTATTCTCTGTAAAAGTAGGCAG CCAGACGTTGAGTTATGGAGCTAGCGGTGCAGGCACATTTAGCCTCGGTA AGGATGGATCCAATAACAACAAGTTAGTCTTTACGATCAATACAGAAGCT GATTATCTGCAAAACGATCAAGAGGTTGTTCAGATTATCTATAACGCTGA TCCCAGCTCGACGACACATAACCTAGTTGATTCTGATGCTAATCAGACAA CAGATTTTACATTTACTGCGACTAATAGCTTCCTAGCACCATCTGTTTCC AGTGCAACGACGACCAGCTCGAATGTCGTGACAATGGTACTGTCTGAGAA TGCATTGAGCAACAGTGCCAATCTCTCAGCCATTACTAACTTTGCCAATC TTGGTGCTCTATTCTCTGTCAAAGTAGGCAGCCAGACGTTGAGTTATGGA GCTAGCGGTGCAGGCACATTTAGCCTCGGTAAGGATGGATCCAATAACAA CAAGTTAGTCTTTACGATCAATACAGAAGCTGATTATCTGCAAAACGATC AAGAGGTTGTTCAGATTATCTATAACGCTGATCCCAGCTCGACGACACAT AACCTAGTTGATTCTGATGCTAATCAGACAACAGATTTTACATTTACTGC GACTAATAGCTTCCTAGCACCATCTGTTTCCAGTGCAACGACGACCAGCT CGAATGTCGTGACGATGGTACTGTCTGAGAACTCATTGAGCAACAGTGCC AATCTCTCAGACATTACTAACTTTGCCAATCTTGGTGCTCTATTCTCCGT CAAAGTAGGCAGCCAGACGTTGAGTTATGGAGCTAGCGGTGCAGGCACAT TTAGCCTCGGTAAGGATGGATCCAATAACAACAAGTTAGTCTTTACGATC AATACAGAAGCTGATTATCTGCAAAACGATCAAGAGGTTGTTCAGATTAT CTATAACGCTGATCCCAGCTCGACAACGCATAATTTAATTGATTCTGACG GGAACCAGACAACAGATTTTACATTTACTGCGGCTAACAGCTTCTTAGCA CCATCTGTTCAATCACTTACAACTCCGACTAACAGTTCAGTTAAGCTGAT ATTGACGGAAAATGCGCTTTCCAATTCTACTAATATCTCCTCTATTACTA ACTTTGCTAGTCTTGGTGGTCTATTCACTCTCAAAATTGGCTCACAATCC TTATCTTATGGTACTGGTGCTGGCACATTTAGCTTGACCAAGGATGGCTC TAATAATAATATATTGATATTTACCATCAACACTCAGGCAGACTATATAC AAAATGTTGAAGAATCTGTTCAGCTTTTATATAATGCAGACTCTAGTTCC ACCACACATAATCTGATTGATTCTGACGGTAATCATACTTCCGACTTTAA TCTCGCGGCTTCTGTTTCTTTCCAAGCAGCACCTTCAGGTCAAATCGTAA TTTCTGATATTCTAGAAAATTCAACGCTTTCACTTTCCTCTACCGATATT CTTTCACTTATCTCTGATCCTAATAATGACACCTTAAATACTTCTTCCAT CACCTCTCTCTCTATTGCAGCTACAAGTAATGCAACTGTAGCCTTAGGTT CTTCAACACTCACTGGTCCTGTGAGTGATACATGGACATTCTCACCTGGC GACTTCTTTGGTGAGGTTCAGCTCACCGCTGTCGTTAATGACGGCAATAG TGGTGGTGCATTATCAACAACATTTACTTCCACCTTTAATGTTTTACCAG TAAATGATGCACCAGTTCAGTCATCCTCTGCTACTTTGTCGTCTGTTGCA AGAGGGCAGAATAAAGACATTACACTTTCTGATTTACTTGGTAATATTAC TGATACTGAGACCACACAGCTGAGTGGTACTTTAACCTCCGATCTATCTA TTGTTGGAAACTCTGTATCGACCAATAAGGGTACTATTACTTACGACAGT GTGAATACTAAGTGGGTTTACAATTCAACTTCTACCAATTCAGCTGGAGA CTCAATCACAGATAGTGGGAGTGTCACTTTATCATATGTCGTCACAGACG GCACTAACCAGGTATCAGCATCAGCAACCTTTACTGTTGATGATACTAAT GCTGCACCTACTGGCTATATAGAGTTCTCTGATATTTTAGAAAATTCTAT TTTAAAGTTTACTTCTGCTGATATACTTAACAGGATTTCTGACCCTAATG CCGACACTCTAAATTATGCTTCAATTACTAGCCTTACTATTGTAGACAAC TCTAATAACTCATCTATACCCAATGGTTCACTTCTCCGTCAGGATGATAC ATCCAATAACTTATCGAATTTTACTTTTTCACCTGCTGAATTTACTGGTG TTGCTAAGATTTCTGCAGTTGTCGAAGATGGCAATGGTGGGTCTACTACG TTTACGACTACGTTTAATGTTCTTTCCGTTAATGATGATGCACGCTTCAA TTCCTCTGATAGTGTCTCTCCTACCCTTTTATCAGCTTCGTTATCCTCAG CTGATTCTAAGTCTATAAGTTTATATTTCTCGGAGTCTCTTGATAATTCT ATTGTTATTGAAAATAATACATTTGTTGTTAAGGATTCCAATAATGCTAC ACTTTCTTACACTGTTACTAGAGACACTACTGATTATTCCTCCAACGACT CTGTTATAACTCTTGTACTTGATTCAGCGATTTCTGATACTAATAATTTA ACTGTTTCATATTCTGGATCATCAATTGTAGACGCCTCTAGTGCAAACTC GTATGCTGGTAATGCTTTGTCTGCATTTAGCAATCAGGTCGTTTCTAATA CACGTGTTAATAGTCCTTTAATTATAAGTGGAAGTCTTGGGCTTGATGGT AAGACTTTAACACTTAACTCCAGCAAGGCCCTTGATTCAACTGACGTTAT TTCTTCATCTACATTTACTGTCCAATCCTCAACAGACGGTTCTAACTGGG TGACTGTTCCATATTCTGTTGATGGCGATTCTTCAGACTATATTAACACT GCTTCTTCTATTGTATTGAAACTAGATGATGCCCTGATGTATTCACATCA GGTGCGCGTTAGCTACGCTTCAACAACTATAGAGGATTCTTCTCAAACTT ACGATCTTGCCACGTTTAGTAATTTCTCTATACAAAACCGTTCTAGTGTC TTCACTCTTGAATCCCTTGCCTCGACCAATTCAGTTATTTACGAAGACCT TGGTTTTGATGGTACGCCAACAACAGCACAAATAATTTCTCTTGCTGCGG AAGGTACTGTTAATCCAGATTCAGTTGTTGTTGGTAATTACTATACCATT GAGTCTGTTGGTAGTACTGATTGGACTGCGATTGGTGCTTCCGCTAATGC TGCTGGTACCACGTTTAAAGCCACGAATACTGGCACTGGCAATGGTACAG CTTCTACTAATTATTTAATTCTAGATTCTGAGATACTTGGCAAGTATTAT GATGTTGAGAGCTCAGCTCTTTCGCTTTATAACGTCGTAGCTGACAATGG TACCTTTAAACGCAATGATGCTAATACAGGCTGGTTCTATCGACCTGTGG TTAACTATTCAGGTCAAGTAGTTGTTTCATTTGATGTTTTTGATGGTACT TCTTTTACCCCTGGTAGTGCCACGTTAGATGTTCAATCGATTAATGACAT ACCTGTCAGGATTGCTGGTAATGTTTCAGGTATCATTATTCCTGAAGGGG CTTCAACCGATACGTCACCTCCAACGCTTGCTCATGCTTCTGTAAATGGT TCATCTGTTTTACTCCACTTCTCTGAGGCTCTAGATACTTCTACGGTAGT CAACTCCAGTATGTTTGACATTAAAGTTGGCGGGAATGAGGTAACTTATA CTGTTAATGGTAGTACTGCTGATTATTCCAAATCAAATACAACTCTGTCT CTTACACTTTCAAGTGCTGTTTCGGCTACCGATGTTGTAACCATTGATTT TCCCTCTTATACTCGCATAACAAGTCTTGGTACAACGACGAACTGGACTA ATCATGGTGCTGTCCAAACCGCAGCTGGCAATTTTGTTGTGGGTCGCGAA TACATTATTAACACAGCAGGTGATACTTCGTTTACGGGTATTGGGGCTAC TAACAATAATGTTGGTACTGTGTTTATTGCAACTGGTGCCGGTAGTGGTT CAGGCAATGCATTAGAGACAAACTTCGTAGCTACATCTTCGATAACTGGT GATGGTGTCTCTGTTGATAATGTGCTCAAGGACACTGCTTTCTCGGCAAA TAAACTAGTTGCATTTAGTGGAAGTTCAATTTCTAATATTACTGGGACTG ATACTACAGTTCCGGTTCTTACCAGTGCTTTACTTGCTCCTGATGGTAAG TCTGTCAAACTAGTCTTCTCAGAGCCTTTAGATACATCTGTTTCATTAAA TAATTCTACCTTTAACGTCAAAATGTCTGCTGATGGTGTTAATTACTCCG CTCACTCATATTCTATTGATGCAACCAGTGCTGCTTATTCTGATGGTGAT TCAACTATCAGCTTAACCTTTGCCACCGCTGTCGACTATCAAGCCCTCCT TACCCTTGATTACCAAGGCACCAACATAAAGGATACTTCTGGTAATGCCT TGGCCACAATCGCGACTGCTTCACCGATGTCTATAAAGAACAATGTTCGT GTTTCTTTGGGTCTATCTGCGCTTTCCTATCTACCTGGTCTTGGTGATGA TGAATCTATCAATTCTTCCACTATTCAAACGCTTACTTACAAGATTACAG CTTTACCCTCTTCTTTAGTTGGCCAACTGCAGTTGATCGATGGTACTCCA GTAGTCCTTAATGACACCTATAGTATTGATCAGCTCAGGCAACTTCAATT TGAATCTTTCTCTGGTGCAAATGGTACTACTTCCTTTACTATTAATATAG CTGATTCCGCCGGTTCCTCTATTAATGAGGTGATTCCAATCGGTACGTCT TTTGTCAACGACGGTCCAATCCAGACTGGCCCTGCTTTTGTATTTAGCGC TGTTCAAGAGGATAATACGTTAGATATTACAAAGGCTCAGTTGCTGACAG GTTATGTTGATGAGGAGGGCAACCCAATGTTTGTTAATGGTTTGTCAGCC TCAAACGGCACACTTAGTCAATCTGGTGACACATGGACGTTCACTCCAAT AGAGCATTTTGTCGGCACCGTTGACCTAATGTATGTTATTAATGACAGTA ATGGTGGCGGAATACTTGCAACCAACTCTTTTCAAATTACAGAGGTTAAT GATGCACCTGTTCGTGATGATGGTTCAAGCTTTAATACTTTAACAGTACT TGAAGATGGTCCAGTCTCCTCGATGAATCTTCCATCGACACTTTCGTACT CAACTGGTGGTGAGGGTCGTTCTACTGGTGAAACCTCTCAGTCCCTCACC TATACAGTTACTTCTTTACCTGTCACTGGCGGTGGTGCCTCTGCTGGCAC TATATATAAAGATAACGGTACATCTGTCGCTGCCGGTAGTTTTGTTAGTG GTACAAAGTATTATATTTCAGCTTCGGGTACTACTGATTTTACTCAAATC GGTGCTGCTAATAACAATGTCGGTACTAGCTTTACAGCAACAGGAGCCGG TGCCGGCACTGGTGAAGCAGTAGCTATAACAACAGTTGACTTATCCAATC CTTCACTAACTCTTACCGAACTAAAAGGTCTTAAATTTCAACCTGCTGCA AATATAGTTGGTACTTTTACTCTGGGCTTCACTGTTTCTGATGATGGCCC TAATACCAACGACGGAAATGTAAAGACCGATAAAAATAGTCTTACTCAAT CTGTTGGGATTTCAATTCTTAATTTTAATGATACCCCTGTTTTACCAACC CCATCTATTGCTTTCACATCGAATGGAACAGAGGACACTGCTTTTACATT TACAGAAGCAGATTTTCTAGCTGGTGTGACAGACCCTGATCTTGATTCCA ACGCTAATCCCACCAATCCCTTTGGTGATGTGTTATCAATATCTAATCTT TCCGCTTCGAATGGTACATTAATTGGCCCCGTGAATGGGGTTTATACGTT CACACCGAGTGCTAACTTTAACAGTGATCTTGGTGGTGTTGTTACTTTTA ATTATTTGATTAATGATGGCCAAGGTGGCTCCATCGCTAATACTATTACA AGGACTATTGATCCCGGCAACGACTCCCCTGTTGCTACTTTTAATACTGC ACAGTTTGCCTCTGAGAATGGAGGTACTCTTACAGGCCAGTTAACTGCTA CCGATATTGAACTTTCTCGAGGTGACAATGCTGGTAAAACCCTCACTTAC ACTCAGACGAATACTGTTGCTGGCTTTGCTCTCGCTGTTGATGGCTCCGG TTCATTTACATTTGATACTGCTGATACTACCTATCGTTACTTAGCACTTA ACGAAACACTTACGCTTACTATTAACTATCAGGTTACAGACGAGGTTCTT GGTACTAATTTTGGTAGTTTAACAGCTCAGGACCTCGCAAACACTAAAGG TTCTTTCACGATCACTCTGACTGGTTCGAATGACGATCCTTATGCAGTAG GCGGTGCCTTGGCTGCTCTTACGCCGGGAACGGAAGATACGACGTCTACC TTCACCATTGCAGACTTGACTCAAGGCTATGCTGATTATGATACCTCTGA TGTTTTAACTGTTCAATCACCTACTGCCTATAAGGTTGTTGACGGTGTGA CCACTGACGAGATTGTTGGCTCCTTTACTCCTAACCTTGTCAATAATATT CTGCAAAGCTATACCTACCAGCCATCTGCCAATTTTACCGGTAATTTAGA AGTCAAATATGTTGTCTCTGATAGTAAGGGGCCCGGTATCGCAGGTTCGT CAACTCTTGTCATCAACGCGGTGAATGACACGCCTGTACCGACGTTTGCC TTCAACCAGTCCGCATCGGAGGCTGGTGCTGTCGTGACTGGTCAATTAAC TGCGGACGATACTGAAATTACTACAGGCGAACAAGCAGCTACTTCCCTTA CTTATTCATTAGTTGGAGATGCTATTGCAGGTCTCACCATTGCCGCCGAT GGACAATTCACCTTTGATCCTACGAATGCTGCGTATGAGTATTTGGCGAA CGGTGAAGAGCAGGTAATTACGGTTAATTACCGAGTCACGGACCCTGGCA ATTTGTTTGCTGATAAGTCATTTACTATTACTATTAATGGTACAAATGAC AATGTTGTTGTTGATTTGAACGCAATCGCGACTCTTGCTGCAGCAACAGA AGATACTGCTTTCGTTGTCAGTATTGATCAGCTTTTACAGGGCTTCAGTG ATGTAGATACCTCAGATGTTTTGGTCGTTCAGGGTCTGACCGCATTTAAG GCTAATGCTGCTGGCACTGCTCTCGATGAAGTTGCAGGTACTCTCACTCG TGTTGAGACCAATGGTGTGCTTACTGGATATCAATTCACGCCAGTCGCCA ACTACAACGGTAATGTTGCACTGAAGTACACTGTTGTTGACGGCAATGGT TCTGATATCGCTGGCTCACTTGTTCTCAACGTGAATGCAGTTAATGATAT TCCTGTCCCGTCCTTTGGTATCAATCAGGTTACATACGAGGCCGATACAT TGGTTACCGGCCAATTAACTGCTGATGATATTGAGATTGGTACTGGTGAG CAACTTGCAACATCTCTGATTTATACGTTATCCGGAAATGCAATTCCTGG CTTTGCTATTGCCAACGATGGGGCTTTCACCTTTGATCCCACGAATCCTG CGTATGAGTACTTGGCTGCTGGTGAAGAGCAGGTGATTACGGTCAATTAC CGTGTAACTGATGCCGGCGGATTGTTTGCTGAAAAGAACTTTACCTTCAC CGTTAAGGGTACGAACGACGATCCTGTCGTTGACTTGGGTGCCATCGCGG CCCTTGCAGCTGCAACTGAGGATACGCCTTACACTGTGAGTGTTGATCAG CTTTTACAAGGCTTTAGTGATGTTGATACTTCAGATGTTTTGGTCGTACA AGGCCTCACGGCGTTTAAGGCCGATGCTGCTGGAAATGCACTTGATGACG GTGCTGGCACTATTTCTCGCGTAGAGGTCAATGGTGTTCTTACTGGGTAT CAATTTACTCCTCTTGATAATTACAATGGTAATGTAATACTTAAATATAC CGTCGCTGATGGTAATGGCCCTGGAAGAGCTGGATCCTTGCCCCTTATTG TTAATGCTGTCAATGATCTGCCTGTTCCCACCTATGATACAAATTTGGTT AATACAGAAGGTAACGAATTAGTCACTGGCCAGTTAACCGCAGTTGACAA CGAGATTATTACTGGCGAGCAACTTCCAACTTCACTGACTTATACACTGT CTGGCAATGCAATACCGGGACTGACTATTGCTGCAGATGGGGCGTTTACC TTTAATCCTCAGGATGCTGCTTATGACTATTTGGCATTTGGTGAGGAGCA GATAATTAATGTTAACTATAGAGTAACTGATGCTGGAGCTTTGTTTGCTG AGAAGACCTTTACCATTACTGTTAAGGGTACAAATGATGATCCCGTTGTT GATGTTAACCAAACTGTAGCACTAGCTGCTGCCACCGAAGATACCGAGTA CTTAATTACAACCGCTGATCTTCTCGCGGGTTATAGCGATGTTGATACAA CAGATGTTTTGACTGTTGAATCACTCGTTGTATACAAAGCTGATAATGCT GGACTTCCTACTACCGAGTTAGGAGGTTCCGTGACGCCTGTTGTTGTGAA TGGTGTTACAACTGGTTATAATCTTCTGCCTGCTGATGATTATTTTGGTG ATGTTGTTGTCACCTATATTGTCTCGGATGGCAATGGGCCTGGAGTACCT GCTACCTCGACTATTACTGTCAACCCTGTAGTTGACGTTCCTCGTGTAGG TAATCTAGGTGAAAAGGGATTGAATTTAGGTCAAACACCTGAGGATACTC CTACTACCTTCACCACTGCTGATTTGTTAGCAGGCTTTACTGATCCCGAT GGCTTCGAATTGACGATTAAGCCTGATTCTGTGACAAACGCCTATTCCAC GATTACTTTGGAAGGTGATACCTATACCTTTACACCTAATCTAAATTTCT CCGGTTCGACTCAAATTGATTTTACAGTTGTCGATGCTGCTGGTAATGAG GTTCCATTTTCAAAATTTATCGATGTTATTGAAGTTAATGATCCGCCTTC GATCACTCTTGATCGCGATGCATTGGATTCCGATTATAAGTCTAAGACAT ATTTGATTCCGTTTGAGCAGATTTTCGCTGTTGTTCCAGCTAATCCAGTG GTTGAGCTTATTGATCCTGATTTATCTATTACAACTCAAGTCGTTGGTGA TTCACTGAGTATTGAAATTCCTGCTGCCTATACTGAGGACGTCTCATTTA TGTTTGGTGATACCGTTGTTGATCCAAACTCTTTATTTACGTTAGACGTA CTTAGACCTTTACAGGTTTCTGACCGTAATGTTGTAGCTGGTTTTGAACG CTTCTTTGCCTTATCTGATTTTGGATTCGGTGATGTTGAAGGTTTGCCTT TACAGTCTGTTCTGATTCAGGTGCCTGATACATCTCTTGGTACTATTCGT GTTGGTTCGGGTAACTTTGACACCGACACTGAGAATGTGATTCAGCTCAC CCCACTCGCTTCTAGTGATTTCAACCAATCAAATGTTTTTGAGGTTACAC GGGAACAAATTGAGACCGGTAGTGTTTATTTTGTTGCCAATCCTTCTCCA CTAAATGCTGGCAAGTCTGCTGATCTTGAATTCATAGTAAAAGATGAGAG TGGTGATCTGTCAACACTCCCAGGTCTGCTTAGAATTACTATACAAGAGG CACCAGAATCTGTCCAAGATTTTATTGCTAATTCAACTTACGAACCTATT TTCGATGCCGAGCTTGGACTTAATCGTTTTGACTCTGTTGACACCATAAT CTCTTCTATAGGTATAACTCGTGACGAAGCCTTGTCTGTTATACGTTCTA CTTTGCCTATTCGCACTGCGGCCAATAGCTTTGATGCCAGTGTAGAGACT CCTTTCAGTTATGTAACCCAAAATGAGGTTGAATATCGGTGGGATATTGG AGCATTTGACATCTTTGAATATGATTTCACCAGTAACACGCAAACCCTGG TTCTCGACTTCGCTTCTTTAACAATTGATTCCGACCTATACCAACATTTT GCCGACCTCTATACCTATTCATTAGCTAATGATCTTGATAATGCTTATTT GGCTAGTAAACTTGTTGAGTTAATTCCTGGTTCTAATGACCGGCTCAATA AGATTGAAGATGCATTTTCTCTTTCTAATTACGATGATATATATAGCTAT TTGACCGCTTCTGGCAGGAACGGACCTGAGCTACTTGATATTACTACTGA TAATACCCAGAAGCAGTTTGTTCGTTTGTACTCTGCTATTGCTTCTTCAC CTATTCTTTCTAATACCTTTAATGAAGGTCGTGATCTACTTGTCCAGAGT GTTCTGGATCTTATTAATCCCCCTTCTCCATTACCCAACCGACTTGTTGA TAATCTGAACGATCTTTTTACTGAGAAGACTAGTTCTTTAGCCTCTTCTT TTGTTCTGCCCTCTGGTATTGCATTGTCTCCTGAAGGTTTAGATAGATTA AACCGAGTTACAAATTTGGTAGGTACGGGTGGTTCTTCTGACTTGTTAGC AGCCTCTGAATTTTCTACTAATACCCCTCAGCTATTAAATACTCTTAGTG ACCAAAATATTATCTCTGATACAGGGTCTCTTTTGAATAATTTTGGGCAG CCTGTATTGAGTGACGGTGAACCGCTTATTATCTCTGACTACCAATCATT GGTTAGTTCTTTTGTTGATACAAATCTCACTACATTTTCCGACGACTTCC TTGAGAATGATTCTATCTCGGGCGAATTAGCGCGTAACATTGTCCTCAAT GAGATTTCTGAACGAGTTGTTCAGGCTGCTGATTCATCTACGGTACCGGA AGTTATTAGTTCTACTCTAAATAATCTACTTGCTGCTGCCTTGCAGTTAG ATCCTGTTGCTGAGGACGCTAAAACTGAGTCGAATCGTCTTCTTAAGATG GCTCTGAGTGTTGATTCTTTGGTTGAGCAGCGTCCCCTTTATGAAGTAGA CGAGGCCACAGGTCAGCCCAAAACTGTTTTTGACCCGAGATCGAATACTG ATGTGTTTGTTGTTAATGAGGAAAATCAGGCCTTTTATAATGCTGCACTT GAGCAGCAAGATGTTTTACAGGCAGATTATGTTGGTCTTACCTTAGAGCA GTGGAAGGATATTGATAACCAACCTAATTCTGCTAAAGTTAAAGCTGACC GTATTAACGCTGTTAAGATAGGAATCTCTTATGCTGATTATCTTAATTTT GCGAACTTAAATCCTCTTGACTCTGAGGTTTGGTCTATTTATCCTTTTGT TGGTTACGTTGAGGCAGGTACATTTGATTCTGATGACTTCTTAGTTGTTG ATAATCTCTTTGTTGACCCACAGGCAGCTCTCAATAATCTTATCTCAAGT GGGATTAACAAAGGTGTCAGCTTTGATGACTTCTCAAGTCTTCTCTTTAA TCAGCCAATTTACACACCAAGTACAGTATCGTCTGATTCTGGTGCTGAGA TTACACGTGCAGATGCTATTACATATGCCTCTACTGATCCATCCAGTGCT CTTTATATTGCCGCAATGGACTCTAATTTCCAGGAGGGTAATGTTATTAA GGCATATAAGACTACCAACCCCAACCCTTACAAATTTACTATTGAGGATT TTGATGACGCTAATTTACTTACCGATGGCCTTCAAGTTAGTTATCTTGTA AACTATACATATGGTGATTTAGCTGTCGGTGATTCTGGTTATACCTTTAA TGTTGCTTCTGGTTATTCACCAGATCTTGTTGGTCATGACTTAGATGAGT TTAATTTGGCCTTGAAATATGTTTCCGAATATGACTTATTAAGCTACGGT GCCACTCCTGTTGAGTCAAGTAATGATTTACCTGTTGAACCTGGTCAGCA AGTCTTTACATGGGAGTCTAACCCAGAAAATATAATTGATAAGTACGGAC AGCAAAGTGCGCCACTTTATGATCTAGATGGACGTGTCATTACAAAAGCT GGTTGGTATGACTTCACTCTTCGTCCAACAACTGAGACTGAATTTGATCC CGAATTAGAGGAGCAGGTGCCAGTTTGGCGTGACGGTGCTCGCTTTATTT ATGCGGATTATTATACTGTTGACGTCGGTAACTTCTTAACCGACAATGAT CCTGCAAACGACGAACTATTAATACCAGCCAATAGCTGGTATGTACCTTC TCAATCTGACTTACTTGAAGAGGAAGAGGGTGTTCTACCGGAAGGTGTCG CTTTTAGGCGTATTGTTGGTTTAGAGCTAAACTTTACAGACAACGCATTC GGAGATAAAGACCCAGGCATTGGTCGAGTTGTTGACCCCTTTGGTACTGG TGCAAAGTCTAACTCTTCATCGCTGTTTACTTCTAACTTTACTTCAGACA ATCTTTTCAACGAGGAACCACCTGATCCTAAATTTATTCTTAAAAGAAAT GAGAAAAAAGTATTAAAGACTGCGGTAGTTTTAGATGAGACAAAAAAAGC TGTTGATCTCGAAGCAGTCGTTTTAGACGAGACTCAAAAGGCTGTTGATC TTGATGCTGTTTTGTTAGAGGACGATCAGGTAGCGGTCTCTCGTGATCTT CTTGTCACTGATGAATTGTTTACTTCTGATGTTGACATGACAAATCTCCG CCTTGTTGATGAGAATGCTGTGATTCTTGCCCTCAATGAAAAGACTGTCG ATATTGATGCGGTCATACTTGAGGACGATCAGATTGCTATTTCTCGTGAT ATTTTGGTTACTGACGAGTTATTTACATCTGATGTCGACCTAACTAATCT TCGTCTCGTCGATGAAGATGCTGTTGTTCTTGAACCCACTCAGAAGGCAG TTGATATCGACGATGTTGTTTTATTAGACAATCAGATAGCAGTTGATGAT GATGCTGTTATCCTAGATCCAACCGAAAAAGCTGTAGATATTAATGCAAT CATTCTTCTGGATGATCAGGTTGCTTTCAATATTGATGATGTTCCTGTCT CTCTTGATGGATTAAAACTTGTTCCTGATGATGCTGTTGTTCTGGATCCT AACCAGCAAGCAGTTGATGTCAACACGGAGATTCTTCAGCCTGATCAGAA GGCTGTACCGCTTGATGCGCCAGAAGTTGCCAATGACGCATCAGGTTCTG GTAAGTACAAGCAACCACCTTCTGATATTAAGCAATCCGGTTCCGGTGTA GATGCTCCTGGTATCAGTGATATTGCGGCACTCAAGTTTGGTGAGGATGC TCCTGGTACTGGTAACGGAGACGGTAATGGCCAGGGGGCTGGAAGTTCAA ACAGCTCAGGTTCAGGTGTTGGTGTATCAATGAATGAACAAGCCACTCAA TTCCCTGAGGGAGAGGGTGATGGTGATAGCGACTCTGTAGAACAACGAGG TCAGGGAGCGCCTGGACAGGGTGATGGTGAAGGCGGAGAAGCAGCACTTG GTGATGACCAAACTCCCACAACACAGCGTAAGCGTGGTCTTATGTTGCAG CCTATTGTTGAATCAGAAAGTGTGGATGAAGATGCTAAATCTTCCTCGAA CCTTTTGAAAAATTTAAGCGAAGGCTCAATAATGGGTACAAATCTCCTTG ACGCACTAACACTTGGTGGAGGAATTCTTTACGCTCTTTATGCTCCTCAG GCTGTTAAACCTATCAAACGTACTTTTGGCTCTCTTTTGGGCAGACTAAC AGGACGTAGTACTTCTATTCCAGAGCGAAAAGTAGCTACTGTGTTTGCTA TGAAGCTTCCTGATGGAACACAGCGACTTATTGCTGCCAAAGTTACAACC CAGTCAATTGATATAATTGCTCAGCAGGACATGCCTTCTGGTATGAGTGT TACGCAAGCTGGTAACCAGGAGCAAGTTGATTTTGCCTTTAACCAATTGT TGGATAAAATAACGAATGAATCTTTTGATTTGATGCTTGTTGGACCTCGT CTCCGTAATCAAATATCTCTTGTTGCCAAGCTTGCCTCAGATTCCCTTAT CCTTGATACTTCTTCAATTGAGCAGAAACTTAAATCATGTTCTCAAGATG AGGTTAAGTCATTACAACAATGGCTTGATCGTCCCAGCTCCACTCCTCCT GAGTCCAATCCTGTCAAGGATCTATTGAGTGTACGTCAAAGTGATTATTC GAAGAGTTTAATGACTCAGCAGGCTTCTATGGCCAGTCTTGTAGAGCTGA GTGTTGCATTATCTTGGAAGGACTGA >SYNW0270 conserved hypothetical protein ATGAATGTTTTCGGCGTCGGCCTCCCCGAAATGGCGGTGATCGGCGCCGT TGCATTACTTGTGTTCGGTCCCAAGCGTTTGCCTGAGCTTGGCCGAACAC TTGGAAAAACACTGAAGGGCTTTCAATCGGCCTCGAAGGAATTCGAGCGG GAAATCAACAAAGCCATGGCAGAGCCGGAACAGCTGCCTTCTTCTGATGT GGAAGCATCCAACGCGAAACCTTCCAACGACTGA >SYNW0331 conserved hypothetical protein ATGACGCCGACCGCCTCGCTGCTGCTGCTCTCCCTCCTGTTGCTGAGCTG CAGTGGTCCGCGGCCGACACCACTGCCCGATTTCAACGGTCTGCTGCGTC AGAACGCCAGCAGCCGACGCGACCCCGCCCTGGCGCAACGCTGGCTGGCC AGCCTGACCCTGCGGGGTGGCCGGGAACGGGTGGACCTGGTGGATCTGGG GTCACGGCAACCGGTGCCATTACCGGGGCTCAACCGCGCTGATGCCCAGC CGATCAGCGTCAGCGTCAGTGCTGATGGCACGCGCCTGGCGGTGGTGCAG CAGCGGGACGAACGCACCGAACTGGTGCTGTATCGCCGCAATGTGGGCAC GGTGCAACGGCTGCCGCTGGAGCCACCTGGGGTGCCTCGTGCCGTAAGCC TCAATGCTGATGGGCGACGGTTGGCGGTACAGGTGAGCCGCGGCGGACGC TGGGAGGTGGACCTGATCCGCCTGCCCTGA >SYNW1890 Putative inner membrane protein; similar to 60 kDa inner membrane protein family GTGATCGGGTACATCTCCGACAACCTGCTGATCCCGATCCTGGATTTCTT CTACGGATTGGTTCCCAGTTACGGCCTGGCGATCGTGGCCCTCACGATCG TCATCCGCGTCGCCCTCTATCCCCTCAGCGCCGGATCGATCCGCAGCGCT CGGCGCATGCGCATTGCCCAGCCTGTAATCCAGAAGCGCCAGGCTGAAAT CAAAAGCCGCTACGCCAACAACCTGCAGAAGCAGCAGGAGGAACTGGGCA AGGTGATGAAGGAGTTCGGTAGTCCTCTGGCGGGATGTCTGCCGTTGTTG GTTCAGATGCCGATCCTCTTTGCCCTGTTTGCCACCCTGCGGGGATCACC GTTTGCGGATGTTCCCTACACGATCAATCTGAAGGTTCTGCCTGCTGATC AAATCGCTGCTGTGGAGCCCAAGCCTTTCAACAGCGCCAGCCATTCCATC TTCATTGCTGAAACCGATCACGTTCCCGTGATCGCCAGCCTCCCCCGCGG CACAAAGCTCGGTGTTGGAGACAGCGCCACGGTCAACCTCCACACCAAAG ACGGCAGGGGTTTCGATGACGTGCTCACCGCTGTGGACAACCCTTCAAGA TTTGCCCCCACCTGGTCGATCACCAAGGGGGATGACGTGGTGAATGTCAG CGATGACGGCACCATCACCGCCCTTACCGCCGGTGACGCCACTGTGGAAG CCAAAATTCCTGGGTTAGCGGCCCGCAGCGGTTTCCTGTTCATCAAGGCC CTTGGTCAGGTTGGCTTCTACGCCGACGGAGACATCAACTGGGATATCGC CATTCTTGTTGGTGGTTTCGGACTCACTCTGTTCCTATCCCAGCTGTTGT CGGGGATGGGCATGCCGGCCAACCCACAGCAGGCCACTGCCAACAAGATC ACCCCTGTGATGATCACGGGAATGTTCCTGTTCTTCCCTCTTCCCGCCGG CGTTCTGCTTTACATGGTGATCGCCAACATCTTCCAGGCGTTGCAGACCT TCCTGCTCACCCGTGAAGCGCTACCGGAGAACCTCCAGAAAATCCTTGAC CAACAGATGACCCAGCAGACGGTGCCCGTCACAGCGACGTCGGCTGGCGG TGGCGATGCCCGCCTTCCCTTTGAACCCAAAGGCGGCAAATGA >SYNW0332 conserved hypothetical protein GTGGAACGAGCGGCAACCGGTTGGATCGACCGCAGCCAGGAGGATCCCGC CCTCAGTGGCGACGGGCGCCTGCTGGCGGTGATCAGCCAGATCCAGGGTC GTCCGACGGTGCAACTGCGCGGAGAGGACGGCAGCATCCGGCCGGTGCCG CAATTGCGGCGCCATCAGCCCCATAGCTCACCGTCCCTGAGCTGGAACGG CCGTTACCTGGCCTTGATCACCCAACGGGGCAAACGGCGTCTGGCGGTGG TGCTGGACCGCCTCAATGGCCGGCTGCATCCCCTTCCCCTGCCCGGTGGA CGGGATCCCGTGCGCCTGAGCCTGGCGCCGGATGCCCGCCGGCTGGCCCT GCAGGTGGCCGACCAGGGCCAGTGGCGGGTGGAACTGCTCGATCTCAGCG AACTGCTGGAGCCGGATCGTGCAGCCGGCCAGGCCCTCACCACGCCGCCA TTGGAGAGCTCCCGATGA >SYNW1691 hypothetical ATGAATCCTCCAACCAAATATACTTTTCCTCCAGATTTTGAAAGCTTCAT CGCCTGGCTTGGTCGACAAACTGCCGAAGATCAGAACTATCTAATCAAGC TGGCTTTTGAGAATCAGCAATTGCGAAATCTTGAGCGGACCTTCGCATCG TTGCGACTTGACCAAAGGCAAGACATATTCCAGAGACTTGGTCTAGCAGA TCACCTAATTAAGCAAATTCCTGCTTCTGGATCAGGCTCCCTCTCAAAAG GCGTTGCAAATGCCCAGGTTGAATCGCAAGGCGCTGCAGATGCTCCAAAA GTTGCATCACAGCTTTCTGCTTCCGCAAGAGCGGATAAATCCTCAGGAGC TACAAAAAATATCGGACCTGTTGTAGCTTTTTTGGCATTGATTGGTGTCA TTGGAGTTTTGACATTGAACTCAGGTTCGAACATTATTTCTGGCCTGATG CTGACTAGGAATAAGTCTTCAGTTCCCAATGAAGCCTCCCCTGTTAACCA ACCGCCGGAGCAGATCGCCGAAGTCGAAGCACCTGTCGTTGAAGTCAAGG ATCAAGTTGCTGAGCAAGTCACTCTTCGTTCCAAGGGGCCAAGCTGGGTA ACCCTTAGGCGTAATGGGAAGGTTGAGTTTGATGGCAACCTTGAGGGTGA AAAAGTTGTCGATCGGCCTGTCGAAATTGAGATCTATGCGGGTCGTCCAG ATTTGGTTGAAGTGATCACTGATGGTCTACCCCCACGGAGGTTGGGAACG ATTGATGACATCAAGTGGCTTCCATTAATGCCCTGA >SYNW1301 clpP1, ATP-dependent Clp protease proteolytic subunit 1 ATGATTCCAATCGTGATCGAGGAGTCAGGTCGTGGTGAAAGGGCTTTTGA CATCTATTCGCGCTTGCTGCGCGAGCGCATCATTTTTCTGGGAGAAGCCG TCACCAGTGATTCGGCTAATCGCATCGTTGCTCAGATGCTCTTCTTAGAG GCAGAGGACCCCGAAAAGGATATCTATCTCTACATCAATTCACCCGGCGG TTCCGTTTACGACGGCCTTGGTATCTTTGACACCATGCAGCACATCAAGC CTGATGTGCACACTGTTTGCGTCGGATTGGCGGCGAGTATGGGTGCTTTT CTTCTCTGTGCCGGAACCAAAGGTAAGCGCAGCAGCCTTCAACACTCGAG GATCATGATCCATCAACCCCTTGGCGGCGCTCGCGGTCAGGCCAGTGATA TCAGGATTCAGGCGGACGAAATTCTTTATCTCAAGGAACGGCTGAACCAA GAACTGTCTGATCGCACCGGCCAACCACTGGATCGAATTCAACAGGACAC GGATCGAGACTTTTTCATGTCTCCCGGAGAAGCCGTTGAGTATGGCCTGA TTGATTCCGTTATCGATAAGCGTCCAATTCAGGCTGTGGAATGA >SYNW0064 clpP2, ATP-dependent Clp protease proteolytic subunit 2 GTGATCGACGCCCGCAGCCATCACCCGATCCAGAACCGCTGGCGGGCTGA GATGCCCATCTCTGCCCCAGGCCCGTTGCCGACCGTGGTGGAACAGTCCG GTCGTGGAGACCGCGCCTTCGACATCTACTCAAGGCTGCTCAGGGAACGG ATCATCTTTCTCGGCACCGGCGTGGATGACGCCGTTGCCGATGCCCTTGT GGCCCAGATGCTGTTCCTCGAAGCCGAGGACCCCGAGAAGGACATTCAGA TCTACATCAACTCCCCGGGGGGTTCGGTGACGGCGGGCCTGGCCATCTAC GACACGATGCAGCAGGTGGCCCCTGATGTGGTGACCATCTGCTACGGCCT GGCAGCGAGCATGGGTGCCTTCCTGCTGTCTGGAGGCTGCAAAGGCAAGC GCCTGGCTCTGCCCAACGCCCGGATCATGATCCACCAACCCCTTGGCGGC GCCCAGGGCCAGGCCGTTGATATCGAGATCCAGGCCAAGGAGATCCTCTT CCTCAAGGAAACGCTCAATGGTCTGATGGCCGACCACACCGGTCAGCCCC TGGACAAGATCGCTGAAGACACCGATCGCGACTACTTCCTTTCCCCGGCA GAAGCGGTTCAATACGGCCTGATCGATCGGGTGGTGGACAGCTCCGGGGG CGAAGGAATCGTTACGGAGGGCTGA >SYNW1649 clpP3, ATP-dependent Clp protease proteolytic subunit 3 ATGCCGATCGGTACTCCCAGCGTTCCCTACCGCCTCCCTGGCAGCCAGAT GGAGCGCTGGGTTGACATCTACACCCGTTTGGGGGTGGAGCGGATCCTGT TCCTCGGTTCCGAAGTTAATGACGGCATCGCCAACAGCCTTGTGGCCCAG ATGCTGTATCTCGATTCGGAAGACAGCAGCAAGCCGATCTACCTGTACAT CAACTCTCCAGGCGGCTCAGTCACAGCCGGCCTGGCCATCTACGACACCA TCCAATATGTGAAGAGCGAGGTGGTGACCATCTGCGTAGGCCTAGCCGCC TCCATGGGCGCATTCCTTCTGGCAGCTGGCACCAAAGGCAAACGGGTCGC CTTGCCCCACAGCCGGATCATGATCCACCAGCCCCTGGGGGGCACCAGTC GCCGTCAGGCCAGCGACATCGAGATCGAGGCCCGCGAAATCCTGCGGATG AAGGAGATGCTCAACCGCTCCCTCTCCGACATGAGCGGCCAGAGCTTTGA CAAGATTGAGAAGGATACGGACCGCGATTACTTCCTCAGTGCCGAGGAAG CCAAGGACTACGGCCTGATCGATCGGGTGATCTCCCACCCCAACGAAGCC TGA >SYNW1648 clpP4, ATP-dependent Clp protease proteolytic subunit 4 ATGACGACATCAGCTCCCTATTACGGCGACAGCGCTGTGATGCGGACTCC TCCCCCAGACCTTCCATCGCTGCTGCTCAAAGAGCGGATTGTGTACCTGG GGCTACCCCTCTTCTCTGACGACGACGCCAAGCGTCAGATGGGCATCGAC GTGACCGAGCTGATCATTGCTCAGCTTCTGTTTCTGGAATTCGACAATCC TGAGAAACCCATTTATTTCTATATCAACTCCACCGGCACCAGCTGGTACT CAGGTGACGCCATCGGCTTCGAAACTGAAGCCTTCGCCATCTGCGACACC CTTCGCTATGTCAAGCCGCCGGTGCACACCATTTGCATCGGTCAGGCCAT GGGCACCGCAGCCGTGATTCTTTCCGCTGGCACTAAGGGACAGCGTGCAG CACTGCCCCATTCCTCGATCGTTCTGCATCAGCCCCGCAGCGGTGCTCAG GGTCAGGCAACGGATATTCAGATCCGTGCGAAAGAGGTTCTGCACAACAA GCAGGCCATGCTTGAAATTCTCTCCACCAACACCGGGCGTTCAGTTGAGG AGTTGAGCAAGGATTCCGACCGGATGAGCTACCTGACCCCAGCTCAAGCG GTGGAATACGGCTTGATCGACCGCGTGCTGAGCAGCCGCAAGGAGCTGCC GAACAGCCCCGCCGTCTGA >SYNW1618 ffh, signal recognition particle protein (SRP54) ATGTTCGACGAGCTGTCAGCCCGGTTTGAGGATGCGGTCAAAGGGCTGAA AGGCCAGGACAAGATCAGCGACACCAACGTTGAAGTCGCGCTGAAAGATG TGCGTCGTGCCCTGCTGGAAGCCGACGTAAGCCTTCCGGTGGTCAAGGAC TTTGTTGCCGATGTGCGCGAGAAGGCCGTCGGTGCCGAGGTGGTGCGTGG TGTCAGTCCGGATCAGAAGTTCATCCAGGTGGTGCACGAGCAGCTGGTGG AGGTCATGGGGGGCGATAACGCCCCTCTGGCCAAAGCGGCTGAGGCGCCA ACGGTGGTGTTGATGGCAGGTCTGCAGGGTGCGGGTAAAACCACGGCCAC AGCCAAGCTGGGCCTGCACCTCAAGGATCAGGGGCGTCGTGCCCTGATGG TGGGTGCCGACGTTTACCGACCGGCAGCCATTGAGCAGCTGAAGACCCTC GGGGGTCAGATCGGGGTCGAGGTGTTCAGCCTGGGAACGGAGGCCAAGCC GGAGGAGATTGCGGCGGCTGGTCTGGCCAAGGCGAAGGAGGAGGGCTTCG ACACCTTGCTGGTGGACACCGCCGGTCGCCTTCAGATCGACACCGAGATG ATGGAGGAGATGGTGCGGATCCGCACCGCCGTGCAGCCCGACGAGGTGCT GCTGGTGGTGGATTCGATGATCGGCCAGGAGGCTGCTGAGCTCACCCGTG CCTTCCACGATCAGGTGGGCATCACTGGTGCGGTGCTGACCAAGCTGGAT GGTGATTCCCGCGGGGGTGCCGCCCTCTCAATCCGCAAGGTGAGCGGTCA GCCGATCAAGTTCATCGGCACCGGCGAGAAGGTGGAGGCGCTCCAGCCCT TCCATCCCGAACGGATGGCCAGCCGCATCCTCGGCATGGGCGATGTGCTG ACGCTGGTGGAGAAGGCCCAGAAGGAGGTTGAGCTCGCCGATGTCGAGAA GATGCAGAAAAAGCTGCAGGAGGCGACGTTCGATTTCTCGGACTTCGTGC AGCAGATGCGTCTGATCAAGCGGATGGGGTCGCTCGGGGGCTTGATGAAG ATGATCCCGGGCATGAACAAGCTCGACGACGGGATACTCAAGCAGGGGGA GCAGCAGTTGAAACGGATCGAAGCGATGATCGGTTCGATGACACCGAAGG AACGGGAAAACCCCGATCTGCTGGCCGGTCAGCCGTCCCGTCGTCGCCGC ATCGCCGCTGGCAGTGGTCATCAACCGGCCGATGTGGACAAGGTGCTGGC GGACTTTCAGAAGATGCGTGGCTTCATGCAGCAGATGAGTCGTGGTGGAA TGCCGGGAATGGGCGGTATGCCTGGCATGGGAGGAATGCCGGGAATGGGA GGAATGCCTGGCATGGGCGGTATGCCGGGTGGCGGTGGGCGGCCCCCCGG TCGCGGCGGTTCTCCAAAGCGCCAGAAGCCAGCTAAAAAGCGTCGCGGTT TCGGAGATCTTTAG >SYNW0011 ftsY, signal recognition particle docking protein FtsY ATGGTTTTCGACTGGTTCAAACGCGGTGGCGGCGAACAGCCGCAGCCAAC ACCAACGCCTTCTCCTGAGCCGACGCCGGAACCGACAGCTGAATCGGTGG CGACTTCACCTGAAGATGAAGCGATGGCCTGGGCCCGCGAGGCCTTTGCC CGTCTCAAAGCGCAACAGGCTCAGGCCTCAGAGGACCAGCCATCTCCGAC ATCAACACCTCTTCCGATCCCCTCACCGCAGCCAGAACCACCGCAGCCAG AACCACCGCTGCCAACGCCTGCACCAGAGCCGCTTCCAACTCCCGCACCC AGTCAGGGACTGTCTCTGCTTGAACAGGCTGCGGCTCAGCGGCAGCAACG GCAGCAGGATCAGGACGCCAGAGCTCTTGAACCGGAGCCGACTCCGACTC CGACCCCAGCTCAGACAGCTGCGGTCTCGGATGAACCCACCCTTGGTGAT TTCGATGATGACTTCACCTGGTCAGCGGAGGTGCTGGCCGCCCAGGGACG TCGTGTTGATGACATCTCCCTGGAGGAGATCGACTGGTTGGGTCGACTTC GCCGTGGCCTGGAGAAAACCCGGCAGGGGTTTGTCAGTGGTCTGCTCGAG AACCTGGGTGACGATCCCCTTACCCCCGAGGTCCTCGATGATCTCGAAAC GCTTCTGCTCCGCGCTGATGCCGGGGTTCAGGCGACGGATCAGGTTCTTG ATGCTCTGCGTCAACGCATGAACGTGGAGGTGGTGGATCCTGCCGAAGGC ATCCGTTTCCTCAAGGAGCAGCTTCGCGGTTTGTTGGATGCACCGATTGC TGCCAGTGGTGCTCAGTTGATTGCTCCTGAACGGGATCGGCTCAACATCT GGTTGATGGTCGGTGTGAATGGCGTCGGCAAGACCACGACCCTTGGCAAG TTGGCCAACCTTGCGGTGCGCAGTGGTTATTCAGCTTTGATCGCAGCAGC TGACACCTTTCGTGCCGCTGCCGTTCAGCAGGTTCAGGTCTGGGGAAAGC GCAGTGATGTGCCAGTGGTTTCCAATCCCAGCAGCAACGCTGATCCAGCG GCTGTGGTGTTCGATGCCATTGGTGCTGCCCGTTCACGGGGAACTGACTT ACTGCTTGTGGATACCGCAGGTCGCTTGCAGACCAAACACAACCTGATGG AGGAATTGCAGAAGGTTCGCAAGATCATTGATCGATTGGCGCCGGAGGCC AAGGTCGAATCGCTGTTGATCCTCGATGCCAGCCAGGGGCAGAACGGCCT TCGTCAGGCGATGGCGTTTGCCAAAGCCGCTGGTCTCACGGGTGTGGTGA TCACCAAACTTGATGGCACGGCTCGAGGGGGTGTTGCGCTGGCGGTGTCC TCGGAAGCTGGACTGCCGATTCGCTTCATCGGGGCTGGTGAAGGCATTCG GGATCTTCGACCCTTCAACAGCTACGAATTCGTTGAAGCGTTGCTGGCCG GACGCTGA >SYNW2336 gspD, possible general (type II) secretion pathway protein D precursor TTGAATAACGATAAAAGCATCGACTCCAGTTTTTCGGCGCGTATGGGTGA CGTCTTTCTCGTTAGTCAGAGTGGAAAAGCGCACATGAACTTTGGTCAGA ATATGCCCAGTTCTGCAGATGCTACGGGTGTCTATGATGGCTCCAACCCA ATGCAGCCAGGTGTCTTGCCTGGTGATTCGGGGGTTCCTGCTCAGATTGT TAATCCTTCTTTTATTCCCTTGGCTGAGAGTGCGGAAGTCGTTGAGGATA GAGATGAATCTGGAAAGATAACTGGTTATACTGTTTTGAAAAAACCGCTT CTTGTTAATGGTCAAGAGGTGTATGTGCCGGATGCTAACCCCAATTCGCA GCAGCAGTTGGTCCCTGTATACGACAAGTATGGCAGGGAAAAGCTTGTTC CAAAGAGAGAGTTAAATTCTTACAAAGATGACTCTTTTTATTCCTATGTG GAGGCCATGATTCAGTCTTCCAGTGCCAAAACATTGGCCCAGCCCACATT GTTGGTGCAGGAAGGGGAGACCGCCATGGTTGAAACAGGTCAGAGTGTGA TTACAGGAGTGAGTGCTACGGAAACAGCCAATGGTTCAACACAGTTTCAG AACACCCGCGAAAATGCTGGCCTCACCGTTGATCTTTCGGTGAGCAAAAT TGATGACAATGGATTCATCAGTCTTGAGCTTAAGCCTGAAATATCTGTGC CGATTCCTGCCGGAACGCAGGAAGGTGTCGGAATCTTCAACATTCAGGCT CGGAAATTGGAGTCTGGAAGCATCCGCCTGCGGGACGGACAGTCGTTGAT TCTCACGGGTGTGATTACCGATTCGGACCGTCAGCAGGTGCGTAAGTGGC CGATTCTTGGCGACATGCCACTGATTGGGCAGCTGTTCCGCCAGTCCTCG TCGTCTCGTGAAAAGAACGAATTGGTGATCATCGTCACGCCGACCATTCT TGATGATGAGCAGGGCGGTCGCTTCGGTTACGGCTATCAACCGGGCACGC CGGCGGGGCGTCAGCTGGTTCAGTCCGAGGTCTGA >SYNW0022 gspE1,pilB1, General secretion pathway protein E ATGACGCTTACCCAGTCTGTTCCTGCCGCCCGTAGCGCCGCCCAGAAACG TCTGGAGCTCGAGCTGTTGCTTAAACAGCCGGTACCCGACCCCGAACAGT TACAGCGATCCCTGCCGCTGCTCCATGCCCTTCACGACATCAGCCCTGAC CACTGGCGCAGCCTGCAGGCCCTGCCGATCACAGTTAATGAGCACCAACT GGACATCGCCATCCCCAGCCAATGGGGCGAAGCGGAATGGCAGGCCCTGA TCGATCAACTGCCGCAGAACGAACGAACCATCCGTCTACATCCAACGCTT CATGAGGATCTGATCGATGCTCTAACGACAGAGTCATCCGAACAACCAAC ACCGTCAGCAGCTGATCAAGCTCCTCCTGAAACCCCAGCTGCAACAACCG ATCAGAAAAACGAAAGCAACTCAGACAACCAGGGCAGCGTTGAGGAAGAC GCCTCGTCCTTCCTCGAAGGGTTCAGTGCCGAGGGCGTGCTGGAGGCCGC GGACGACGAGGACGCAGCCCTAGCTGCAGATGGAATTGACCTGGAATCGA GCCTTCAGTACGCCGAAGCGTCACCGGTGGTGGCACTGGTGGATCGAATC CTGCTGCAGGCCATGTCTGTGGGGGCCTCTGACATCCACGTTGAACCGCA GCAAAAGGGTCTCCGGCTGCGTTATCGACAGGACGGCGTGCTCCAGCAGT ACGTGGAGCCGCTCCCCGGCCGGCTGATCCCAGCGGTGACCTCCCGCTTC AAAATCCTGGCCGACTTGGACATCGCAGAGCGGCGCCAGGCTCAGGACGG GAGGATTCGCCGCCGCTATCGGGAGCGGGTCGTGGATTTCAGGGTGAACA CCCTGCCTAGCCGTTTCGGCGAAAAGATATGTCTGCGTTTGCTGGACAGC AGCGCCACGCAACTGGGCCTGGACAAGTTGATCTCCAATCCCATCACTCT CGAACTGGTGCGGGATCTGGGGGCTAAACCCTTCGGCATGATCCTGGTCA CGGGTCCCACCGGATCAGGTAATTCCACCACCCTATATTCGCTGCTGGCG GAACGCAACGACCCCGGAATCAATATCTCCACAGTGGAGGATCCGATCGA ATACACGCTGCCGGGCATCACCCAGTGCCAGGTGAATCGCGAAAAGGGGT TCGACTTCGCCACCGCTCTCAGGGCATTCATGCGCCAGGACCCAGATGTC TTACTCGTTGGAGAAACCCGCGATCTGGAGACAGCCAAAACCGCAATCGA GGCTGCTCTCACCGGACATCTGGTGCTGAGCACCTTGCATGCCAATGACG CACCGAGCACCATCGCCAGACTGGATGAAATGGGAGTGGAACCCTTCATG GTCTCCGCCGCCCTGATCGGCATCGTGTCCCAACGTCTGATGCGTCGGGT CTGCACCAGCTGCCGCGAGGCCTACCGACCAGATGAGCGAGAACTGGGTC GATTCGGGCTGATGACAGGTGCTGAGAGCGCAATGACTTTTTTTAAAGCT CATCACCATGACGGCACCGGCACGCCATGTCCAAAATGCAAAGGAAGTGG TTACAAGGGACGGGTCGGGGTTTACGAAGTGCTGCGCATGAATGAAGACC TAGCCGCTGCGGTCTCATCAGGCGCATCCACCGATGTCATCCGTCAACTC GCCCTTGAATCAGGCATGGTGACCCTCCTTGGTTACAGCCTGGATCTGGT GCGACAGGGTCACACAACCCTCGAGGAAGTTGGGCGCATGATCCTCACCG ACTCGGGCCTGGAATCCGAGCGCAGAGCAAAAGCTCTGAGCACAATGACG TGTAAAGGCTGCGGAGCTGGTCTCCAGGAGACCTGGCTCGAGTGTCCTTA TTGCTTAACCCAACGGAACTGA >SYNW1765 lepB, Signal peptidase I TTGGCAAGCGATCGTTCAAAGACAAACGCGGGAAATCAACATCCCTTCTG GGATTTCTGGGGGCCAATTCTTTTCATGTTCGCCCTGTATCTGGGCATTC GTCAGGTCTTGGTTGAAGCTCGATACATCCCCTCAGGGTCGATGCTGCCT GGCCTTCAGATCCAGGATCGGCTGCTGGTGGAGAAGCTCACTTACCGATC ACGCCCCCCGAAGCGTGGAGAGATCGTCGTCTTCAACTCCCCCTATGCCT TTGACCCGGCCTTGAAGACGCCGGTGCGTCCTTCAGCGGTGCGCTGTGCC CTGGTCAACCTTCCCTTGCTCGGCCTGATCCCTGGACTGGGCAATCCCGC TTGCGACGCCTACATCAAGCGGGTGATCGCCATTGGCGGCGATCGAGTTG AGGTCAGCCCCAGTGGAGCGGTCACCCTCAACGGACAGCGCATCGAGGAG CCTTATGTGGGTCAGGCCTGCCTGGTCAATCAGCAGGGAATGAGTCCCTG TCGAACACTCAACGTCACCGTTCCCAAGGGCTCGGTGCTCGTGTTGGGTG ACAACCGCCGCAACAGTTGGGACGGACGTTTCTGGCCAGGTGGGGCTTTC CTGCCGGAGCAGGAGATCATCGGCCGGGCCGTGTTCCGCTTCTGGCCCTT CAACCGTTTCGGTCTTCTCAACGACTGA >SYNW0996 lepB, leader peptidase I ATGACGCCCCCATCCACCACACCCCCCGCCCAGGAGAGCTCCAAAGGGTT CTGGCGGAACCTGATCATTTGGGCACTGCTGGCGCTGTTACTGCGCTGGG TGGTGGTGGAACCGCGCTGGATCCCATCAGGGTCGATGCTGCCCACCCTG CAGCTGCAGGACCGGATCCTGGTGGAGAAGATCCGACCTCGGCTGACCCG ACGCCTGCACAGGCACCTGCAGCGCGGGGATGTGGTGGTGTTTGCACCGC CTCAGCAGCTGGTGGCCGCTGGATACGACCCCAACGCAGCCTTGATCAAA CGGGTGGTGGGCTTGCCCGGTGATCAGTTGATGGTGGAGAACGGCGTTCT GCGCCGCAATGGTGAGCAGATCAAAGAGCCCTGGATCAGCGAAGCCATGG ACTACGCCATGGCACCAATTCAGGTACCCGAGGATCAGCTGTGGGTGATG GGTGACAACCGCAACGCCAGCCTGGATTCCCATCTGTGGGGACCGTTGCC TGAGCGCAACGTGATCGGAACAGCGATCTGGCGCTATTGGCCGTTGCAGC AGTTCGGTCCCTTACGGATCCCCGCCCCTGCTGATGGCAGTTAA >SYNW0018 pilC, pili biogenesis protein TTGCTTTCGATCGATCTCAACAAGGCTTTTGAACAGGCTCCAGGAGTGAA AGAAAAAGCCGTGTTCGCTAGCAAGCTCGCTGCTCTGGTGGATGCAGGCG TGCCAATTGTGCGAAGCCTGGATCTGATGGCAAGCCAGCAGAAGTTGCCG ATGTTCAAACGGGCCCTGACCAAAGTGAGCCTGGATGTAAACAAGGGCAT TGCCCTCGGCAACGCAATCCGCCAATGGCCCAAGGTCTTCGATGAACTCA GCATCGCCATGGTGGAAGCCGGCGAAGCCGGTGGCGTCTTGGATGAAGCC CTCAAACGTCTCGCCAAACTTTTGGAAGACAACGCCAAGCTCCAGAACCA GATCAAAGGGGCATTGGGTTATCCCGTCGCCGTTCTAGTGATCGCGATCC TGGTGTTTCTTGGAATGACGATTTTCCTGATTCCTACCTTCGCCGGAATC TTTGAAGATCTGGGAGCAGAACTACCAGCCTTCACCCAATTACTCGTCGA TCTGAGTGAGCTGCTGAGATCACCAATGGCTCTCTACATCGTTGGAGTTC TGCTGCTCGTGATCTGGCTCTTCGCTCGCTACTACGCCACCCACAACGGT CGTCGGGTCATCGACCGGTTGATCCTCAAGCTGCCGCTGTTCGGCGAGCT GATTCTGATGACCGCCACAGCCCAGTTCTGTCGAATCTTCAGCTCACTGA CCCGCGCCGGTGTCCCGATCCTGATGTCGATGGAAATCTCCAGCCAAACC GCTGGCAACTCGATCATTTCCGATGCGATCCTCGCGTCAAGGGAAATGGT TCAGGAGGGTGTGCTACTCAGCACAGCCTTGATTCGTCAGAAGGTTCTTC CCGATATGGCGCTCAACATGTTGGCCATCGGCGAAGAAACCGGCGAAATG GACAAAATGCTGAGCAAGGTTGCTGATTTTTACGAAGACGAAGTGGGCGC CATGGTGAAGGCACTCACTTCAATGCTGGAGCCCGCGATGATCGTTGTGG TGGGAGGCATTGTCGGGTCGATCCTGTTGGCGATGTACCTGCCGATGTTC ACGGTGTTCGATCAGATCCAGTGA >SYNW1831 pilT2A, homologous to N-terminus of PilT2 protein GTGGCCCAGCCGGTCTTCCCCCCCAGCTTCCCGCCGCGGCCGAGGACGAC ATCGCCAACGCCCGCCGCACCTCCGGCAGCTCCCGCGCCCGTCGCTGCAC CAGCGCCCGCTGGATCGCCAACGTCCACATCCCATGGCGCTCCCAACCTG GAGGCCATCGTCAAAATCGCCCACGAGGAGGGACACTCCGACGTTCATCT GGGCGTCGGCGAAGTGCCGCGGTACCGGGCCCGCGGGGAGATGCAGAGCA CCGAATGGCCCGCCACCGACCTCTCCACCTTTCAGGGGTGGCTGCACGAG ATCCTGTCCCCTCAGCAGATCGATGCCTTCTTCCGCGAGAAGGAGTTCGA CGGCTCCCATGCGTTCCCCTTCGTGTGCATCCGAATCAACCTGCTCGACT CTCTGCGGGGCCCTGCGATGGTGCTGCGCCTGATCCCGCAGACCATCCTC ACGATGGAGCAGCTCAAGCTGCCTGAGGTGCTGACCGAACTGGCCGGTCG CCCCAAGGGTCTGATCCTGGTGACAGGCCCCACCGGTTCCGGCAAAAGCA CCACCCTCGCCGCGATGATCGACTGGATCAATCGCAATGAAACCCGCCAC ATCCTCACGATTGAGGACCCTGTGGAATTCGTGCATTAA >SYNW1832 pilT2B, homologous to C-terminus of pilT2 protein GTGGGGATGCACACCCTCAAGTTCCACAACGCTCTGCGTGCCGCCCTGAG GGAAGACCCTGATGTGATCCTCGTCGGGGAGATCCGCGACCAGGAAACCC TCTCCACCGCCCTGGAAGCCGCCCAGACGGGTCACCTTGTTTTCGGCACC CTTCACACCAATTCAGCGGTGAAAACCGTTGAGCGGGTTCTTGGGATGTT TCCACCCGAAGAGCAGGACAGTGTGCGGCGTTCTATGTCGGAATCACTCC TGGGGGTGATCGCCCAGGGACTGATCCGCACCACCGACGGGAAACGGGCC GCCTTCCACGACATCCTCGTCAACACGGACGCCTGCAAGGACTACATCCA ACGCGGTGCCCTGGATGAGGTGGAAGAAATCATGGAGCGCAGCAGTTTCG ATGGCATGGTGACCACCAATCAATCCCTGCAGGCCCTCATCGAAGCTGGC CGTGTGGAGCCCGACAAAGCGGTTGCCGTCAGTCTCAAACCCAATGAGCT GGCCCAGGCCCTGCGGGGAAGGAGTTGA >SYNW2022 rpcB, R-phycocyanin II beta chain ATGTTCGACGCCTTCACCAAGGTTGTCGCCCAGGCCGATGCCCGGGGACA ATTCATCAGCACCAGCGAGATCGATGCCCTCGCTGCCATGGTTTCCGACA GCAACAAGCGTCTGGATGCCGTGAATCGCATCTCCAGCAACGCTTCCACC ATCGTTGCTTCGGCTGCCCGTCAGCTGTTCGCTCAGCAGCCTTCACTGAT CGCCCCCGGCGGCAACGCTTACACCTCCCGTCGCATGGCTGCTTGCCTGC GCGACATGGAGATCATTCTTCGCTACGTCACCTACTCCGCATTCACCGGC GACGCTTCCGTGATGGAAGACCGCTGCCTGAACGGCCTGCGTGAGACCTA CCTGGCCCTCGGCACTCCCGGTGCTTCCGTTGCCGCCGGCGTGAACCTGA TGAAGGACACTGCCCTGGCCATCGTCAACGACAAAGCTGGTATTTCCGCT GGCGACTGCGCTTCCCTGAGCAGCGAAATCGGCACCTACTTCGACCGCGC CGCCGCCTCCGTCGCCTGA >SYNW0086 secA, preprotein translocase SecA subunit ATGCTCAAGCTCCTGCTGGGTGACCCCAATGCCCGCAAGCTGAAGCGCTA CCAGCCGATTGTGTCCGACATCAATCTGCTGGAGGAGGACATATTCCCTC TTTCGGATGATGCCCTGCGGGACAAGACGGCAGCCTTCCAGGAGCAGCTG GCGAGTGCGGGCAGCCTCGAGAATCAGCGGCCGATCCTCGATGAGATCCT GCCGGAGGCCTTTGCAGTGGTGCGTGAGGCCGGTAAGCGTGTGCTCGGTA TGCGCCACTTCGATGTTCAATTGATCGGCGGCATGGTGCTGCATGAGGGT CAGATCGCTGAAATGAAAACTGGGGAAGGCAAGACCCTGGTGGCCACGTT GCCCAGCTACCTCAACGCCCTCACTGGTCGTGGTGTGCATGTGGTCACCG TCAACGACTACCTCGCCCGTCGTGATGCGGAATGGATGGGGCAGGTGCAT CGCTTCCTCGGTCTCTCTGTGGGCTTGATCCAGCAGGACATGCGTCCTGA GGAAAGGCGCCGCAACTACAACTGCGACATCACCTACGCCACTAACTCCG AGTTGGGCTTCGACTACCTGCGGGACAACATGGCCGCAGACATCAGCGAA GTCGTTCAACGGGAGTTTCAATACTGCGTGATCGACGAGGTTGACTCGAT CCTGATCGATGAAGCCCGCACGCCGTTGATCATTTCCGGCCAGGTGCAGC GGCCCCAGGAGAAATACCAGCAGGCGGCCCAGGTTGCGCAGGCGCTCACT AGGGCTGCGGAGATGGGGAAAGACGGCATTGATCCGGAAGGCGACTACGA GGTCGACGAGAAGCAGCGCAGCTGCACCCTCACCGATGAGGGCTTCGCCA AGGCTGAGCAGATGCTGGGGGTGCAGGATCTGTTTGATCCCCAGGACCCC TGGGCCCACTACATCACCAATGCCCTCAAGGCCAAGGATCTGTTCGTTAA GGACGTTAATTACATCGTTCGTGATGGCGAAGCCGTGATCGTTGATGAGT TCACCGGTCGTGTGATGCCCGGCCGTCGCTGGAGCGATGGCCAACACCAG GCGATTGAAGCCAAGGAAGCGCTGCCGATTCAGGCTGAAACCCAAACCCT TGCGTCCATCACCTACCAGAATTTCTTCCTGCTCTACCCGCGCCTGGCAG GGATGACCGGCACGGCCAAAACGGAAGAGGTGGAGTTCGAGAAGACCTAC AAGCTCGAAACCACCATCGTCCCCACCAACCGGGTCCGCGCCCGCCAGGA CTGGCCCGACCAGGTCTACAAAACAGAAACCGCCAAGTGGCGGGCTGTGG CCAACGAAACCGTTGATATTCACAAGAACGGCAGGCCCGTGTTGGTGGGC ACCACCTCCGTTGAAAAGAGCGAACTGCTTAGTGCCCTGCTGGCTGAGCA AGAGATTCCCCACAACCTGCTCAACGCCAAGCCGGAGAACGTTGAGCGGG AATCGGAAATCGTGGCTCAGGCCGGTCGCGCCGGGGCGGTCACCATCGCC ACCAACATGGCGGGTCGTGGTACCGACATCATTCTTGGTGGCAACAGCGA TTACATGGCTCGGCTCAAGCTGCGCGAGGTGTTGCTGGGTCGATTGGTGA AACCCGAGGAGAATCACAAACCACCCGTTCCCTTGCAGCGCAACGCCGCG GCAGGCTTTTCAGAGGCGCCAACCGCGTCGGCGACCCCCAGTCGCGACAG CCTCTACCCCTGTGTTCTCACGGACGACACCGATCAGACTCTGGCTCAGC TGGCTCGGGATCTGGTGAAGGCCTGGGGCGATCGGGCCTTGACCTTGATC GAGCTGGAGGAACGCATTGCCACGGCAGCCGAGAAGGCTCCCACCGATGA CCCCAACATTCAGGCCCTGCGTGCGGCCACCGCTCGAGTTAAGGGTGAGT TCGATGCAGTGGTCAAGCAGGAAGAGCAGCGGGTTCGCGAAGCCGGTGGG TTGCATGTGATCGGCACCGAGCGGCACGAATCTCGCCGGGTCGACAACCA GTTGCGTGGCCGTGCCGGCCGCCAGGGTGATCCGGGCTCCACACGCTTTT TCCTCTCCCTCGGCGACAACCTGCTGCGGATCTTCGGGGGTGACCGGGTG GCCGGGTTGATGAATGCCTTCCGGGTGGAAGAGGATATGCCGATCGAATC CGGCATGCTCACCCGTTCGTTGGAAGGCGCTCAGAAGAAGGTGGAAACCT ATTACTACGACATCCGTAAACAGGTGTTCGAATACGACGAGGTGATGAAC AATCAGCGCCGCGCCGTGTATTCCGAACGCCGCCGTGTGTTGGATGGCCG TGCCCTTAAAAAACAGGTGATTGGTTACGGCGAACGCACGATGAATGAGA TCGTGGAGGCCTATGTGAACCCCGATCTGCCGCCGGAGGAGTGGGATACG GCGCAGTTGGTCGCCAAGGTGAAGGAGTTTGTTTATCTCTTGGAGGATCT CACCCCCGAGCAGGTGCAGGGCCTAGGGATGGACGAACTCAAAGCATTCC TGCAGGAACAGCTGCGCAATGCCTACGACATCAAGGAGGGTCAGGTGGAG CAGCAGCGCCCTGGTTTGATGCGAGAAGCGGAACGCTTTTTCATCCTTCA ACAGATCGATACCCTCTGGCGCGAACACCTCCAGGCCATGGATGCCCTCA GGGAATCCGTCGGTTTGCGTGGTTATGGTCAGAAGGATCCACTGATCGAA TATAAAAACGAGGGCTACGACATGTTCCTCGAAATGATGACGAACATGCG GCGGAATGTGATCTACTCCATGTTTATGTTCCAACCTGCCGCTCCTCAAC AGAGTCAGGTCTGA >SYNW1056 secD, preprotein translocase subunit ATGGCGCGTTATCAGGGTTGGTTCGCCTTTGTTCTTGCCCTGGCCATTGC GGCGGGGATGTTTCTGATCCGGACTCCGCTGCAGCTTGGGCTCGATCTGC GCGGGGGTAGTCAACTCACGGTGCAGGTGCAACCGGCAGGGGACGTGAAG GTTGTTGGCGATCGCGAAATGGAAGCCGTCAAGGCGGTGCTGGATCGGCG CGTGAATGGTTTGGGGGTGGCCGAATCCACCCTTCAGACCGTCGGCACCG ATCAGCTGGTGTTGCAGCTCCCCGGTGAACAGGACCCCACAGCGGCAGCA CGCGTCCTTGGCGATACGGCTCTGCTGGAGTTCCGTGCCCAGCGGGAGGG AACTGAAGCTGAGTTTCGAAGCTTGCGACAGCTTCAATCCCAGGCCCGGG CCATCCTCCAGTTGCGAAAAGACCAACGCCGTCGTGGGGAGACACCGGAT GAGCTCAACCTGGAGGATCTCAAGGAGGTGCAGGAGTCGCTGGGGTTGAA CGCTGATGGTGCCAGTGACGACGAGTTGCTTCAGGCCCTCTTGGATCAAG CGGACGACGAACTGCTGACGCTGTTGGACCCTGCACAACTGACGGGCAAG CAATTGGTAACGGCCGGTCGCCAGCCACTGCAGAACAACCCCAACAGCTG GGAGGTGACGCTGAATTTCGATGCCGAGGGAGCGGAGGCGTTCGCCGATT TGACCCAATCGATCGCGGGTTCCGATCGACTGCTGGCCATCACGCTGGAC AACAAATTGATCAGTGCGGCCAGTGTGGGGCCCCAGTTCAAGAGCGCTGG TATCTCCGGCGGCGCTGCAACCATCAGTGGAAATTTCGACGCTGAGACGG CCCGTGAACTGGAGGTGAAACTGCGTGGAGGCTCCCTTCCCCTTCCCGTT GAGGTGGTGGAAGTGCGCACGATCGGACCGACACTCGGTGCTGAAAACAT CCGGCGGAGCTTGATGGCTGCTTTGTCCGGTCTCGCCCTGGTGGCGGTGT TCATGGTGGTGGCTTACCGGTTGCCGGGGGCTGTGGCCGTGGCGGCCCTG AGCCTGTACGCCCTGTTCAACCTGTCGGTGTACGCCCTGATCCCCGTAAC GCTCACCCTGCCTGGGATTGCTGGATTCATCCTGTCCATCGGCATGGCGG TGGATGCCAATGTGCTGATCTTTGAGCGAATCAAGGACGAGTTGCGTCGC GGCAACACCTTGATCCGCTCGATCGACACCGGTTTCTCCGAAGCCTTCAG TTCCATCCTTGATGGTCACCTCACCACGTTGATCAGCTGCGCGGCACTGT TCTTTCTCGGCACCGGCCTGGTGAAGGGATTTGCTGCAACCCTCGGCATC GGTGTGTTGCTGAGTCTGTTCACCGCGCTCACCTGCACACGCACGCTGCT GCGCTTCCTGATGAGCTACGCCGGCCTGCGTCGACCCACGTATTTCATTG CCCAGGGCCAACGTCCCTCCACGACCGCCTGA >SYNW2345 secE, putative preprotein translocase, SecE subunit GTGACCAGCCCGATCTCCGAGGACACCTCTAAGAAGAGTCCTGACACCAA GCCTGCAGAACCTGCCGCACCCCGCGGTTTTCTGCCTGCCACGGTCGACG AACTCAAGCTTGTGGTCTGGCCCAGCCGTCAGCAGCTGTTCAGCGAATCG ATCGCTGTGATCCTGATGGTGAGCTTGTCGGCCGCCGGCATTGCCGCGGT CAGTCGCTTCTTCGGATGGGCGTCATCCCAGGTGTTCCGCTGA >SYNW1057 secF, preprotein translocase subunit ATGGCCATGTCCACGCCCAACACCACTGTGGTTCTGCGCCTGCAATTGAG CGCCTCACGCGTTCGGGTCTGGTTGGTCTCGGGGCTCACGCTGCTGGTGG CCTTGGTCGGGCTGATCAGCTGCTGGCTGAATCCAGACATTGCTGCACCG CTGCGTCCGGGGCTCGATTTCACCGGGGGAACGCAGATCCAGTTGGAGCG CGACTGCGGAGAGAGCTGCAGGGATCTGAAGTCCATTGCTGTCTCCAACC CGGTTCAGTCGTTGACACTGCCGGCCGAGGAGGACGACCCTGTCCCCAAT CTCCGTTCGGCGCGGGTGCAATTGCTCGACGGAGGCCAGTCGCTGGTGCT GCGTGTGCCCACGCTGTCGGCTGCTCAGGGTCAGGCCCTGATTGCTGCTG TTGAACAGATTGCCGGCCCCTTTGTGGCCGGTGGACAGTCCGTCGACACA ATCGGTCCGAGCCTGGGGCGTCAGTTGCTGCGCAGCACGCTGATCTCGCT TGTGGTGGCGTTCAGCGGAATCGCCCTTTACATCTCCTTCCGCTACGACG GCCGCTACGCCTTCCTGGCGCTAGTGGCTCTCGCCCACGACGTTCTCATT GTCGCCGGCGTCTTCGCCTGGCTGGGGCTGTTGATGCAGCTTGAAGTCGA CAGCCTTTTTGCAGTGGCTCTCCTCACCATTGCCGGTTATTCCGTGAACG ACACGGTGGTGGTGTTCGATCGGATTCGGGAGCGTGCCCGTGATGGTGCA GGCCTGGGGCTGTCCGAACAGGTGGATCAGGCGGTGTCGGCAACCCTCAC CCGCACCTTTTACACCAGCGGGACAACATTGCTGCCACTTCTGGCCCTGA TCTTCTTCGGTGGCGCCACCCTTTACTGGTTTGCCATCGCTCTGGCCTTG GGGGTGGTGGTGGGCAGCTGGTCCAGCATTGCGCTGGCTCCTTCGTTGCT CACGCTGTGGGAGCCCCGTGCCGAAGTCTGA >SYNW2085 secY, preprotein translocase SecY subunit ATGCTCGTCAGTCGGGGCCGCAATCCCAACGCCGCCGAAGTCATCAGCCA GCTGATCGGCAACTCGGGCCTGCGCAATCGAGTGCTCACCACCCTGAGCC TGTTGCTTCTGGTGCGTCTCGGCATCTACATCCCCATCCCAGGGATCGAC CGCGAGGCCTTTGCCAGCTTCATCGAGCAGGGCGGCTCCCTGCTGGGTTT CCTCGACATCTTCACCGGCGGGGGCATCTCGACCCTCGGCGTGTTCGCGC TTGGAATCCTGCCGTTCATCAACGCCTCGATCATCCTGCAGCTCCTGACG GCATCCCTGCCACAGCTGGAGGATCTGCAGAAGAACGAGGGGGAAGCCGG TCGGCGCAAGATTGCCCAGATCACGCGCTACGTCGCCCTGGGCTGGGGCC TGATCCAAAGCGTCGTCTTCGCCATGATCCTGCGCCAGTACGCCCTGGAA GGGATCAGCGAGGTGGTGTTCGTGGTCCAGACCGCGCTGTGTCTGGTCAC CGGATCAATGGTGGTGATGTGGCTGAGCGAGGTGATCACCGAACGGGGCA TCGGCCAGGGGGCATCGCTGGTGATCTTCCTGAACATTGTGGGAACGCTG CCCCGCACCCTTGGCGCCACGATCGAGGCGGCCCAGACCGGTGACCGCAA CACCGTTCTGGGCATCGTCGTTCTGGTGCTGGTCTTCCTCGTCACCATCG TCGGCATCATCTTTGTGCAGGAGGGTGCACGGCGCATCCCCATCGTCAGT GCCAAACGTCAGGTCGGGGGTGCCGGTGTCGGGGTTCTGCCCACCCGTCA GAGCTATCTGCCGTTGAAGCTCAATGCCGGCGGCGTCATGCCGATCATTT TCGCTTCAGCGGTGATCTTCCTCCCGGTCACGATTGCCAACTTCACCAAT AACGAGTGGTTGATCCGGGGAGCCAGCCTGCTGAATCCTGGCGCCGCCAA CCCATGGCCCTATGCCCTGGCCTTCTTTGCTCTGATCCTCGGATTCGCCT ACTTCTACGCATCACTGACCGTGAACCCAACCGATATCGCCTCCAATTTG AAAAAGGGCGGCGTTGCGATCCCGGGGGTGCGTCCTGGCAGTGCCACCGC CACCTATCTCTCCGGAGTTCAGAACCGGCTCACCCTCCTGGGCGGCCTGT TCTTGGGAAGCGTCGCGATCATCCCCGCAGCGGTGGAGCGCGCCACCAAT GTGCAGACCTTCCAGGGCCTGGGTGCCACCTCACTGCTGATCCTTGTGGG TGTGGCCATCGACACAGCCAAACAGGTGCAGACCTACGTGATCTCCCAGC GCTACGAAGGCCTGGTGCGTCAGTGA >SYNW1977 smf, putative DNA processing protein (Smf family) ATGCGCGGATGGTGGTGGGCTTGGAGTGGATGCCCGGGCATCGGGTCTTC GCGGATGGCTGCGCTGCAGGTCGCTGCCGTTGAGCATGGTGTGGGCCTCG ATGACTGCTGGGCATGGTCCAGGGAACGCCTCGCTCAGGTGCTGTCCTGG CCTGATCCACTGCTCGACAAGGTTGAGCGTTACCGGCGGCTGCACGGCAG CAGCCCCCAGCTCAAGATCCCGAGCAATGTTCTGACCCCCCTGGATCAGA TCTGGCCCCAGGGTTTGAACAAGCTGGATCGGCCCCCACTGGTGCTCCAT CAGCAGGGTCGTGCGGATGTTCTTGCTTGGCTGGGTCAGCGCCGCGCTGT GGCCGTGGTCGGAACCCGTGCTGCCTCGGACCATGGCCTCCGCATGGCAG AACATCTCGGCAGTGTTCTGGCTGGAGCCGGCTGGCCAGTGGTCAGTGGT CTGGCGGAGGGGATCGATGCGGCGGCTCACCGCGGTTGTCTGGCGGCTGA TGGCGTTCCCGTCGCTGTGCTGGGAACACCGCTGGATCGTGTGTATCCGC GGCATCACCAAGCACTGCAAGAAGAGGTCGCTCGCAACGGTTTGTTGTTG AGCGAGCGCCAGCCTGGGGAGTCTGTTCAGCGAGGTCACTTTGCTGCCAG GAACCGCCTGTTGGTCAGTCTTTCCTGCGCTTTGGTGGTGGTGGAGTGTC CGGATCGCAGCGGTGCTTTGATCTCAGCGCGCCTCGCCGCAGAGCAACAG TGTCCTGTCTGGGTTGTCCCCGGTGATGCGGGGCGCTGGTCCAGTCGTGG CAGCAACAGGCTTCTGCAGAACGCGGCTGCGCCCTTACTGTCTCCAAAGG AGCTGGTGGAGCATCTCGGCCCTGGGCCTTTCCACAGGGCCAATGCCACG GCCCCTGCTCTTGTGAAGGCTCTGGGGGCGGGAGCCTCGATCGAGCAGCT TCAACAGACCCTCAAGCTGCCGGCTGGTCGCCTGGCCAGTGATCTGCTCG AGCTGGAATTGGCAGGGCAGGTGGTGTGTGAGTCTGGATTTCTCTGGAAG CCCTGTCGGCCGTGA >SYNW1884 sppA, signal peptide peptidase SppA (protease IV) ATGATCTGGCCCTGGCGCCGTAAATCCCGCCGCCGCATGGCGCGGATCGT GGTGGATGGACCGATCACCGGCAGCACCCGTCAGCGGGTGCTCAAGGCAA TCCGTGACGTGGAGGAGCGTGAATTCCCTGCCCTGCTTCTGCGCATCGAC AGCCCCGGCGGAACGGTTGGCGACAGCCAGGAGATCCATGCAGCACTGCT GCGTCTGCGGGAAAAAGGGTGCCGAGTGGTGGCCAGTTTTGGGAATATCT CGGCCTCCGGTGGCGTCTACATCGGCGTGGCGGCCGAATCGATCGTGGCC AACCCCGGCACGATCACCGGATCGATCGGAGTCATCCTCCGCGGCAATGA CCTTTCCAAGGTTTTCGAACGGATCGGCATCCGTTTCGACACCGTCAAAA GCGGCGTTTACAAGGACATTCTTTCTCCGGACCGCCCCCTCAGCCCTGAG GAGCGCGCGCTGCTGCAGGAGCTGATCGACAGCAGCTATGGCCAGTTTGT TCGCGTTGTGGCGGAAGGGCGATCGCTGACGGAAGAGACGGTCCGCGGAT TTGCCGATGGCCGCGTCTTCAGCGGTGAACAGGCGAAAACATTGGGTTTG GTCGATGAACTTGGCGATGAAGACCATGCCCGGCGCCTCGCCGCCCGTCT GGCGGACCTGGACGAGACGACCACACGTCCGGTCACCTTGGGGAAGCCCC GTAAAAAGTTGATGAATCTGCTGCCGGGTTCTCAGCTGATCGCTCTGCTG CAGCAGCGCCTCAGCCTCGAGCTCATGGGCAGTGGTCAGGTGCTTTGGCT GTACCGGCCATGA