Submission Results
Sequence Name: Not Available
GenBank Accession Number: 828958913 open_in_new
GenInfo (GI) Number: 0000000000 open_in_new
Download Results: 828958913.PHASTER.zip
gi|00000000|ref|CP011634.1| Klebsiella oxytoca strain CAV1374 plasmid pCAV1374-228, complete 227680, gc%: 53.83%
Download summary as .txt file: summary.txt file_download
Total: 1 prophage regions have been identified, of which 0 regions are intact, 1 regions are incomplete, and 0 regions are questionable.
| Region | Region Length | Completeness | Score | # Total Proteins | Region Position | Most Common Phage | GC % | Details |
|---|---|---|---|---|---|---|---|---|
| 1 | 36Kb | incomplete | 30 | 21 | 169906-205931 info_outline | PHAGE_Salmon_SJ46_NC_031129(4) | 54.64% | Show info_outline |
Region DNA
>1 169906-205931 AGGGCTTCCAGCCGGTTCAGCGCCTCGACTGCGCGCGGATAGCCGATCCAGCGGTCGGCGCGAAGGCGCT GGATGCGCTCGTCCGCCGGAAGACGGGCCAAGCCCTGGGCCGCCGGCAGCAGGTGGGACAGGTCGATGAT GGGATATTCGTCCACGGCTACCACTCCTCAATCTGGTCGAACGGTTTGGCGGGTGGCAAGTTGTCTGCCT GCGGGTCGGCAATATCCGTATCCGGCGGAACGGGCTTGTCCGGCCGAGCTGATGTCTTGAGGTGCTGGCG GCGATCCGCGTCACGCCGCGCCTTGCGTGTGGCCTTCTGCGCGCTGGTCACAATCTCACGCATCTGGCCG ATCATGCGGAACAGCGCCGACTCATCCACCTGTTCGCGCCCTTGCTGCCGCAGTTTCGCCAGCGCCTGCC GTTGTTCCCAGAGGGTGACAGCCGGATGCGACAAGGTACGGTAGGGAATTTCCAGGTAATGCTGTCCCTC CGGTTCCAGGACCCAGATACGGCTGATGTCGCGCGGATCGCGCCGGATCAGAAAGGACGGCCAGCGTTCA CGCCGCGCAATCCACGGCTTGAGCGCATCGGCGTAGTAGTGGATGTGGTCGATGACAAAGCCGGTGCGGG TCAGCGTGCGCCGGAGGATCGGCAGAAAATCGACCAGGAACGAAGTAGCGCGTGTGACGACGGCCGGTAC GCCGACACGCGCCACGGCCTCGGCCCAGCGCGCGGCCGGCGGTTGGAGCAGGCCGTTGTGCACCGAACCG TGGTAGGTGCCGACCGCCAATGTGAGCCAGCGCTCTAGCTCGCGCAGCGTCAGGGCGGCCTTGTTTTCGG AATCGTAGTCGCCGCGCTGGTCAGGGTTGGAGAAGGTCGTTCCCGGCAGTTCGTCGTGAATCATCTGCAT CGCCGTGCCGATGATCCGTTCCACGATGCCGCCATAGTGCGGCTGTCCCAGCGGGCGATAGTCCAGCCGG ATGCCATGCTGCTCGCAACCCCGGCGCAGGGCCTCGCTCTTGAACTCGGCCGCGTTGTCTAGGTAGAGCA GCAAGGGCTTGCCGCTCATCTGCCAATCCATTTCCACGTTCAGTCCTTCCAGCCAAGGGCGCTTGTCGCA GGCGACATGCACGAGGCACAGGCCAACCGAAACGGCAGACGGCGCTTCCAGCGTGACGACCATGCCGAGC ACGCAGCGGGTGAACACGTCGATGGCGAGGGTCAGGTACGGGCGGCCAATAGGTTGCCGGTCGCGGTCAT CGACCACGATCAGGTCGATGACCGTATGGTCTATCTGCACCTGCTCCAGCGGCGCGGTCACGGCAGGAGG CTCGCCGCCCACACCTTGTAGGTCACGAGCGGCATCCTGGCCTTCCCGCCGGCGGATGACCTTGCGCGGG TCAAGGCTAGCGATCCGTAAGGCCACGGTATTGCGCGCCGGCACTCGCAGTTTTTGAGCCTTGCACACCT GAGTGACTTCGCGGTGAAAGGCCGCTAGGCTGCGCTTCTGCTTGGTCAGGAACCGCTTTTGCAGTAGCTC GTGGATGACGCGCTCGACCGGTTCCGGCAAGCGCCCCTTACCTTTACCTCCACCGGACTGGCCGGGCACC AGATCCGTCACGAGGCCGCTGCCTTGCCGGGCACGCCGGATCAGAACGTATACCTGGCGCCGAGACAAGC CCAGCGCCTGAGCCGCCATATCGGCCGCTTCGTGCCCGACCGTCTCCGACTGCGCCAACGGACTGATGAT CTCCGCACGACGGCGCGCACGCTCCCAAGCCTCATCAGGCAGAGTGGCCACGCCTTGTTCTGGAATCCGT GGGGTGTCCGTCGCCATGCTCACCTCGCTTTGGTGCACACGAGTATTGAGCATAGTCGAGATTGGTGCAG ATCACTTCTGATATTGAACTGTCAGGAGCTGGCTGCACAACAGCCATTACGCCCAATCAACTGGTGCAGT CGTCTTCTGAAAATGACATCCATGCCCAGCCCGTGCGCGAGCTGGATCACCGCCCGCACGATAGTTTGGT CACGGGCATCATCCGGGAGCCTGGCGACAAAGGATTGGTCGATTTTCAATGTGGTGATGGGGCAGCATTT CAGATGTTGCAGGCAGGAATAGCCGGTGCCGAAGTCGTCGGCGGCGAAGCGCACGCCGATGGCGCGCAAG GCGTCGAAACTGGCGAACAGGGCTGGATTGCCGAATGCGACCGATTCGGTCAGTTCGATCTCCAGAAGCT CGGCGGGCAGGGCCATATCGGCCAGCACCCGCTTTACCTCGTCGTCGAACGTTGGCCCAACCTGGCTGGC GGACACATTGATGGCAAGACGGAACGGTTGCCATGCCGGTCCTTGCCACTTGTGCATCTGGCGACAGGCC TCGCCCAGCACCCACGCGCCTATTTCCGGCATCAGGCCGAACGACTCGGCCAGCGGCAGGAACTGGCCGG GCGGCAACAGGCCAAGCCTCGGATGCCGCCAGCGCATCAACGCTTCCGCGCCAGCGATCCGGTGATCGCG CAGATCGACCAGCGGCTGGTAATGCAGGTCAAGCTGTCCGCGCGCCGCCGCCTGCGCCAACTCGGCCGCC GTCCATCCGGCGGGCTGCGAACTCGTCATGATCCGCCCCGGAAGGCGCGCAGCAGCCGCGTTACGGCCAG AACGAACAAGCCGGTCAGCGCGAGCGCGGCAACACCCCAATGCTCGCCAAGGAAGGCACCGGCGGTCGTC CCGGCCAGCACGGCGGCGAGAATCGGCAGATGGCAGGGGCAGGTCAACACGGCCAGCGCACCCCACAGGT AGCCGGAAACGGGTTGGCGCGTCTCGGGCGGCAGTTTGTCAGGGGCGTTCACGGCAATGCCTCCTCGTGC GCCCGCTCGGCTGGCATGGAGGCCAGTTGCGCGTCCAGATGGGCCAACGCCGCGCGCCGCCGCTCGACCA ACTGGCGCAGCACGGCAAGCTGCGCTGCGGCTTGTGCGCCGTCCGCTGCGTCGAGCGCACGGCACAGCCG CGCCAGGGCATCCAGGCCGATACCCGCCTCGAAGGCCGCGCGCACGAAGCACAGCCGTTGCAAGGCCGCA TCGTCGAACACGCCGTAGCCGCCCGTGGTGCAGGCCACCGGCCGTAACAAGCCGCGCACCAGGTAGTCGC GCACGATATGTACGCTCACCCCAGCGTTATGGGCCAGTTGCGATACCGTGTAGGCGCTCATCGCACACCT CCTTGTCCTCACCCGGCGCAGCAGGAAAGCTGCTTCACATCCTTGTTGAAGGTCTGCGCCGCGAGCTTCA ACCCTTCGACCATCGTCAGGTAGGGGAACAACTGGTCGGCCAGTTCCTGCACCGTCATCCGGTTGCGAAT CGCCAGTGCGGCCGTCTGGATCAGTTCGCCCGCTTCCGGGGCCACTGCCTGCACGCCGATCAGTCGTCCG CTGCCTTCTTCAACCACCAGTTTGATGAAGCCGCGCGTGTCGAAGTTGGCGAGCGCGCGCGGCACGTTGT CCAGCGTTAGCGTGCGACTATCAGTTTTGATGCCGTCATGGTGCGCTTCCGCCTCGCTGTAGCCTACGGT CGCCACTTGCGGGTCGGTGAACACCACGGCCGGCATCGCGGTCAGGTTCAGGGCCGCGTCACCGCCGGTC ATGTTGATCGCGGCGCGAGTGCCGGCCGCTGCCGCCACATAGACGAACTGCGGCTGGTCGGTGCAGTCGC CTGCGGCGTAGATGTGTTCCACGCTTGTACGCATGCCGGGGTCGATGACGATAGCGCCTTGCGGGGTGAG CGTGACGCCCGTCGCATCCAGTGCCAGCTTGCGTGTGTTGGGCGCGCGGCCGGTGGCGACCAGCAGCTTG TCGGCGCGCAGTTCGCCGTGCGCCGTGGTGAGCACGAATTCGCCGTCCCCTTCACCATTGATATACGCGA CCTGGCTGGCTTGCGTGTGCTCCAGCACCTCGATGCCCTCGGCACGGAAAGCGGCTGTCACCGCCTCGCC GATGGCCGGGTCTTCACGGAAGAACAAGGTATTGCGCGCCAGGGCCGTGACCTTGCTGCCCAGCCGGGCA AAGGCTTGCGCCAGCTCCAGCGCCACCACCGACGAGCCGATTACGGCAAGGCGTTCGGGAATGGTGTCGC TCGCCAGGGCCTCGGTGGAAGTCCAGTAGGGTGACTCTTTCAAGCCCGGAATCGGCGGGACCGCCGGGCT GGCACCCGTGGCGACCAGGCAGCGGTCGAACATCACGACGCGCTCGCCACCCTCGTTCAAACTAACGATA AGGCTCTGGTCGTCCTTGAAACGCGCTTCACCGTGCAGAACGGTGATGGCTGAATTGCCGTCCAGGATGC CTTCGTACTTGGCATGACGGAGTTCTTCGACACGGGCCTGCTGCTGGGCCAGCAGCCGCTCGCGCAAGAT CGTCGGCGGTGTGGGTGGCATGCCGCCGTCGAATGGGCTTTCCCGGCGCAGATGGGCGATGTGGGCGGCG CGGATCATGATCTTGGACGGCACACAACCGACGTTGACGCAGGTGCCGCCGATGGTGCCGCGCTCAATCA GCGTGACCTGCGCGCCTTGCTCGACGGCCTTCAGTGCTGCCGCCATCGCGGCTCCACCGCTACCAATGAC GACGACCTGCAACGGGCGTTCGTTGCCACTGGGCTTATCAGCGGCCCCTATCCAGCCGCGCATCTTGTCG AGCAGGCCGGCGCGGTTGTCCGTCGGTGGCGCATCGGCAAGCGTTGCCTCGTAGCCCAGTCCGGCCACGG CGGTAGTCAGCGCATCCGATGACGTGCCCGCCTCAATGGCGAGTTGCGCTGTGCCCTTCGGATAGGACAC CAGCGCCGATTGCACGCCGGGCACTTTCTCCAAGGCTTCCTTGACGTGAGCCGCGCACGAGTCGCAGGTC ATCCCGGTGATTTTCAGGGTGGTCATGTATTTTTCCTTTTCTGTGGTGGCTACGGCTGTTGCCGTCAGCC ACGTTGTTCTGGCAATTCACAGCTGTCCGGCCCGCAGCGGCGATGTGCTGGCGAGATGAAATCCCAGACC GACACCCCAACCATCAAGGCCAGGCCGACATAGAGCAGTCCACCGCTCTGCCAGCCGTAAGCCCGCATTA AAAACACCGCTGCCAGCACCAAGATCGGGCCTATCGTGCCGAGCGCCGTGCGTCGCCACTGTCGATGATT GAGCCAAGCGATAGCATTGGCGAGTAACGCGATGCCGGCGAACATCGGCAGCAGGATGCCAATGAATAGC CCCTCGTACTGGCTCAAGAAGCCCAGTCCGATGGCCGCGCCAAAGCTGGCGATGGCAGGAAAACAGGCGG CGCAGCCCATCGCGGAAACGACGCTGCCGAGCGCGCCGGTTTTGCCAGCGATGCGCGTGATGAGTCCCAT GTGTCGCTCCCGAGTTCGGTTAACGGATCAGCGTTTGAGGCTGGACGGATAGCCCGCGTCCTCGGTCGCC TTGGTCAACTTCTGGACGTTGGTCTTGGCATCGTCGAAGGTGACGACGGCCTGGCGCTTGTCGAAACTTA CGTCGGTCTTGCTCACGCCCTCAACCTTGGAAAGCGCGTGCTTGACAGTGATCGGGCAAGAGGCGCAGGT CATGCCAGGCACGGACAGCGTGACGGTCTGGGTGGCGGCCCACACGGGGGCAACAACGGCAGCGAGGGCG AGGGCGGCAAACAGTTTTTTCATGATGAACTCCTGTGATTAATAGAAAAATGGCATGACGTAGGGAAATC CGAGCGAGACCAGGACCAGCGCGGCCACGATCCAGAAAATGAGCTTGTAAGTAGCTCGCACTTGGGGAAT CGCGCAGACCTCACCCGGTTTGCAGGCTTGCGCCGGGCGGTAGATGCGCCGCCAGGCGAAAAACAGCGCG ACCAGCGCTGCGCCGATGAAGATCGGGCGATAGGGTTCCAGCACCGTCAGGTTGCCGATCCATGCCCCGC TGAACCCCAAGGCGATCAAAACCAGCGGCCCCAGGCAGCAGGCCGACGCAAGAATGGCGGCCAGCCCACC GGCGAAGAGCGCGCCGCGCCCGTTTTGTGGTTCAGACTTTTGTGGTTCAGACATACGCTTGTCCTTTCAA ATTTGGTTTGGATAGCTTAAGCTTACTTCCGTAGTTATGTACGGAGTCAAGCGATATGCAAATTAATTTT GAGAATCTGACCATTGGCGTTTTTGCCAAGGCGGCCGGGGTCAATGTGGAGACCATCCGGTTCTACCAGC GCAAGGGCCTGCTGCCGGAGCCAGACAAGCCCTATGGCAGCATTCGCCGCTATGGCGAGGCGGATGTAAC ACGAGTGCGGTTCGTGAAATCGGCCCAGCGGCTGGGCTTTAGCCTGGACGAAATCGCCGAGCTACTGCGG CTGGAGGATGGCACCCATTGCGAGGAAGCCAGCGGCCTGGCCGAGCACAAGCTCAAGGATGTGCGCGAGA AGATGGCCGACTTGGCACGCATGGAGGCCGTGCTGTCTGAACTGGTGTGCGCCTGCCATGCGCGGAAAGG GAACGTTTCCTGCCCGCTGATTGCGTCACTGCAAGACGGAACGAAGCTCGCTGCATCGGCGCGGGGGAGT CACGGGGTGACTACGCCTTAGCGTGCTTTATTTTCCGAATTCTGAGACGACCCCTTGTTTACGTTCGGAC TGGTAGCTGCGGAACCGTTCGCGCACAAACCGCCAGGCTTTCGCTATCAGCTCGTCCATCTCCAGCGGCT TCAGCCTCTGCTTCTGGCGCTGCTGATTTTCCCACTCCACGCGGCTGCGACGCGCAGCCAGCACCGCCAC GTCAGAGACGTCGAGCGCGGAGAACAGTGCAGGCGTGAAGGTGATATCGGTCGGGATGTTGCAGCCAATC TGCGGGTCATATTCGGTCTGGTACGTAATCAGCCCCAGCTCCGCCATAAACTTCAGCGCCCGCGTGGCGC GGGTGATGGACAGATTGCCGGTTTTCGATTCCGTGGCCAGACCGCACTCGATGGCCAGATTGGTGATGGA GCGCTGCACACGGTTGGCCAGCGGGTCATAGTGGAAGCACAGTCCCTGCAGCAGCGCATCAATGGCACGC CGGCGCAGCAGCGGGGGCATACGATGGCGCTTACCCAGCGAACGCACGAACGCCACATGGACGGAAAAAT CAAAACGGGACGTGAAGCCTTCGGCTTTCGCCATCAGCTTACGACAGAACGGCAGCGTTTTCTTGCCTTC ACGCGGCGTGAACACCGGATTCGGGTTTTTGACCTGCCGGTAATGGGTGAACAGGGTCTGAACGTCAGTC ACACCTTCCCGCACTTATGTTGCACGGAAGGAGCAAATGGCACAGAAACAGGTATTGCAGTTTTCTGAGC ATAAAACTATACTCCCTGCATAGAGCAACAGCTTCTATACAGTTTAAGTAGGCCCCGTTAATCTTCTCCT CGTCGCCAAACTAGATGAAGATTATCGGGGTTTTTGCTTTTCTGGTCCCAGGTTGATACCTCTCAGAACC AGTTCCCTGCCACCTTACGGCGTGGCCAGCCATCAAAATTCTTTATACGAACAGGAATTTAGCATTCAAA GACAGTTCGATCAAGGAATGTGACTACTCACCTAACAATTCTCGTTTTATGAGCAGCTCTATCGCTTCTG CCTGAGTTAACCCATTCTCCTGACAAAATGCGTCCAGTTTATCTTTGTGAGAATTCTGGATGAACACATT TACAGGTTTATGAGTCTCCCTTTTACGGGATACCGAACGCATTTTCCTCTCACTTACACTAAGAGGCGTA CCCTTTCGGTAAGCTCGTTTCGATGAGGAAGTTACTGCATTATCGATCTGCGACATCTCTGCCTCCTCAA GGATCAAACTTGGATCGTTTGCAGAGAATACTACAGATTCCTGAAATCAGCGACTTACTTTATGAACGTA ACCCGCGTTGGCGCACGGTTTACGTCCGGGGATCGTTTAAAGCGGTATCAGTACGTCTGTTTCCAGTCCG TTCCCTGCGACCAGCGGGACGACCAGTGCTGCAGATAACGCCCGGCAACAGCAGGGTCATCCCACACGAC AAGCACGTTCTCTGAATTGGCGCGATCGGCAGCGCGGGAAAAATTGAACGAACCGACCTCCGTATTGCGG CCATCGGCGATGATCACTTTGTCGTGCAGGATTTTGTATGCATCCACCGTCCGGACAGGAATGCCCGCGC TGACCAGCAGATTCATGGCTGCCCGGCTGGCCTTGTTGCGTTCACCGGTATTGGCTTTGTGGTCCAGAAC GACCTTCACATCCACGCCCCGCTGTCTGGCTCTGACCAGCGCGCCGGCCACATCCGGAGACGTGAAGGAA TAGCCCATCAGCCGGATTTCCTGTTGTGCGGTCGTAATGGTTTTCAGAACCAGCTGCAGGCCCGTTCCTT CCGGGGAAAACCCGGTCTCGATGTTCGCGGCATAAACGGCCGGAATGGGTGCGCACAGGCTCAGGCTGAC CAGTCCGGGCAGACACCATCTGAGGAGAGTACGATTTACTTTCACAGTATTTCCTTCACTGGATGAATTC AGAAACGCCGGGGGCGGGGGAAACTGGTTTTTCCCCGCCTCCGGCGTTGGACAACGACGCCCTGCGGAGG CGTCAGGCTTTTGTGGTATGACGGAACCAGTAGCACTCCGGCCCCTCCTCCCGTGGATGTACTGAACCAA GAAACCAGCCCTTACCGGGCGGAGGAACCAGCTCCCATGCTGAAGCGTCAGACGGGCCATCATCCCATCC GGCACAGAATGCCTCTGTAGCCTCGTCACGCATACTCATCACGAAGCACTCCAGCTTCTGGACGCGCAAC CACCACATCAGCTGTGGCGTGGTCTGGCAGCAACTCCGGATTAACGCCGGGTGTGTCCAGTAGCCCCGCG CATCGCGATCAACCTCTACGGGCACAATCATTTTTCGTCCTCCCGGCGTTCAGTATGCGCTGTCGGTAAA GCTGTGTCGGATGCAGATATTTCGTCGGTTTCAGCTTCACGGTATTTCAGAAACTCACTGACTCGCCTGA CCAGTTTCTCTGAGTCCCGGTCGCGCAGCAGCGGGATACCCGCCTGCCTCAGAACCTCTTCCAGCAGGAT GTCGCGCCTGATACGCTGTTTTTTAAGATGTGAGGCGTCATCGGGGTCTGACGCTCAGTGGAACGAAAAC TCACGTTAAGGGATTTTGGTCATGAGATTATCAAAAAGGATCTTCACCTAGATCCTTTTAAATTAAAAAT GAAGTTTTAAATCAATCTAAAGTATATATGAGTAAACTTGGTCTGACAGTTACCAATGCTTAATCAGTGA GGCACCTATCTCAGCGATCTGTCTATTTCGTTCATCCATAGTTGCCTGACTCCCCGTCGTGTAGATAACT ACGATACGGGAGGGCTTACCATCTGGCCCCAGTGCTGCAATGATACCGCGAGACCCACGCTCACCGGCTC CAGATTTATCAGCAATAAACCAGCCAGCCGGAAGGGCCGAGCGCAGAAGTGGTCCTGCAACTTTATCCGC CTCCATCCAGTCTATTAATTGTTGCCGGGAAGCTAGAGTAAGTAGTTCGCCAGTTAATAGTTTGCGCAAC GTTGTTGCCATTGCTGCAGGCATCGTGGTGTCACGCTCGTCGTTTGGTATGGCTTCATTCAGCTCCGGTT CCCAACGATCAAGGCGAGTTACATGATCCCCCATGTTGTGCAAAAAAGCGGTTAGCTCCTTCGGTCCTCC GATCGTTGTCAGAAGTAAGTTGGCAGCAGTGTTATCACTCATGGTTATGGCAGCACTGCATAATTCTCTT ACTGTCATGCCATCCGTAAGATGCTTTTCTGTGACTGGTGAGTACTCAACCAAGTCATTCTGAGAATAGT GTATGCGGCGACCGAGTTGCTCTTGCCCGGCGTCAACACGGGATAATACCGCACCACATAGCAGAACTTT AAAAGTGCTCATCATTGGAAAACGTTCTTCGGGGCGAAAACTCTCAAGGATCTTACCGCTGTTGAGATCC AGTTCGATGTAACCCACTCGTGCACCCAACTGATCTTCAGCATCTTTTACTTTCACCAGCGTTTCTGGGT GAGCAAAAACAGGAAGGCAAAATGCCGCAAAAAAGGGAATAAGGGCGACACGAAAATGTTGAATACTCAT ACTCTTCCTTTTTCAATATTATTGAAGCATTTACCAGGGTTATTGTCTCATGAGCGGATACATATTTGAA TGTATTTAGAAAAATAAACAAATAGGGGTTCCGCGCACATTTCCCCGAAAAGTGCCACCTGACGTCTAAG AAACCATTATTATCATGACATTAACCTATAAAAATAGGCGTATCACGAGGCCCTTTCGTCTTCAAGAATT TTATAAACCGTGGAGCGGGCAATACTGAGCTGATGAGCAATTTCCGTTGCACCAGTGCCCTTCTGATGAA GCGTCAGCACGACGTTCCTGTCCACGGTACGCCTGCGGCCAAATTTGATTCCTTTCAGCTTTGCTTCCTG TCGGCCCTCATTCGTGCGTTCTAGGATCCTCCGGCGTTCAGCCTGTGCCACAGCCGACAGGATGGTGACC ACCATTTGCCCCATATCACCGTCGGTACTGATCCCGTCATCAATGAACCGGACTGCCACGCCCTGAGCGT CAAATTCCTTTATCAGTTGGATCATATCGGCAGTGTCGCGGCCAAGACGGTCGAGCTTCTTAACCAGAAT GACATCACCTTCCTCCACCTTCATCCTCAGCAAATCCAGCCCTTCCCGGTCTGTTGAACTGCCGGATGCC TTATCGGTAAATATACGGTTTGCTTTCACACCTGCGTCTTTGAGTGCTCTGACCTGAAGATCAAGAGACT GCTGACTGGTTGAGACCCGAGCGTAACCAAAAAGTCGCATAAAAATGTACCTTAAATCGAATATCGGACA ACTCATGTCTATTATTACAAATTTACGATTTAATAGACATATTAATGTAACAGTTTTACGATGTCCGATA ATTTATAACATTTCGTACGGTTGGAAAAATGTTACTAAATGCCCGTCAGGCAGGGAGGCCGATATGCCCG TTGACTTTCTGACCACTGAGCAGACTGAAAGCTATGGCAGATTCACCGGTGAACCGGATGAGCTTCAGCT GGCACGATATTTTCACCTTGATGAAGCAGACAAGGAATTTATCGGAAAAAGCAGAGGTGATCACAACCGT CTGGGCATTGCCCTGCAAATTGGATGTGTCCGTTTTCTGGGCACCTTCCTCACCGATATGAATCATATTC CTTCCGGCGTCCGGCATTTTACCGCCAGACAGCTCGGGATTCGTGATATCACCGTTCTTGCAGAATACGG TCAGAGGGAAAATACCCGCCGTGAGCATGCAGCGCTGATACGTCAGCACTATCAGTATCGTGAATTTGCC TGGCCCTGGACATTTCGCCTTACCCGTCTTTTATATACCCGGAGCTGGATAAGCAACGAACGTCCTGGCC TGCTTTTCGATCTGGCGACAGGGTGGCTTATGCAACATCGTATTATTCTCCCCGGAGCCACTACGCTGAC CCGGTTGATTTCAGAGGTAAGGGAAAAGGCGACGTTGCGCCTGTGGAACAAACTGGCACTGATACCGTCA GCCGAACAGCGTTCACAGCTGGAGATGCTGCTGGGGCCAACTGATTGCAGCCGCCTGTCTTTACTGGAAT CACTGAAAAAGGGCCCTGTGACCATCAGTGGTCCGGCGTTTAATGAAGCAATTGAACGCTGGAAAACTCT GAACGATTTTGGCCTGCATGCTGAAAACCTGAGTACACTCCCGGCTGTGCGCCTGAAAAATCTCGCACGT TATGCTGGTATGACTTCGGTGTTCAATATTGCCAGGATGTCACCGCAGAAAAGGATGGCGGTTCTGGTTG CCTTTGTCCTTGCATGGGAAACGCTGGCGCTGGATGATGCATTGGACGTTCTGGACGCCATGCTGGCCGT TATCATCCGTGACGCCAGAAAGATTGGGCAGAAAAAACGGCTCCGCTCGCTGAAGGATCTGGATAAATCT GCATTGGCGCTCGCCAGCGCATGTTCGTACCTGCTGAAAGAAGAAACACCGGACGAATCGATTCGTGCTG AGGTGTTCAGCTACATCCCAAGGCAAAAGCTGGCTGAAATCATCACGCTTGTCCGTGAAATTGCCCGGCC CTCAGACGATAATTTTCATGAAGAAATGGTGGAGCAGTACGGGCGCGTTCGTCGTTTCCTGCCCCATCTG CTGAATACCGTTAAATTTTCATCCGCACCTGCCGGGGTTACCACTCTGAATGCCTGTGACTACCTCAGCC GGGAGTTCAGCTCACGGCGGCAGTTTTTTGACGACGCACCAACGGAAATTATCAGTCGGTCATGGAAACG GCTGGTGATTAACAAGGAAAAACATATCACCCGCAGGGGATACACGCTCTGCTTTCTCAGTAAACTGCAG GATAGTCTGAGGCGGAGGGATGTCTACGTTACCGGCAGTAACCGGTGGGGAGATCCTCGTGCAAGATTAC TACAGGGTGCTGACTGGCAGGCAAACCGGATTAAGGTTTATCGTTCTTTGGGGCACCCGACAGACCCGCA GGAAGCAATAAAATCTCTGGGTCATCAGCTTGATAGTCGTTACAGACAGGTTGCTGCACGTCTTTGCGAA AATGAGGCTGTCGAACTCGATGTTTCTGGCCCGAAGCCCCGGTTGACAATTTCTCCCCTCGCCAGTCTTG ATGAGCCGGACAGTCTGAAACGACTGAGCAAAATGATCAGTGATCTACTCCCTCCGGTGGATTTAACGGA GTTGCTGCTCGAAATTAACGCCCATACCGGATTTGCTGATGAGTTTTTCCATGCTAGTGAAGCCAGTGCC AGAGTTGATGATCTGCCCGTCAGCATCAGCGCCGTGCTGATGGCTGAAGCCTGCAATATCGGTCTGGAAC CACTGATCAGATCAAATGTTCCTGCACTGACCCGACACCGGCTGAACTGGACAAAAGCGAACTATCTGCG GGCTGAAACTATCACCAGCGCTAATGCCAGACTGGTTGATTTTCAGGCAACGCTGCCACTGGCACAGATA TGGGGTGGAGGAGAAGTGGCATCTGCAGATGGAATGCGCTTTGTTACGCCAGTCAGAACAATCAATGCCG GACCGAACCGCAAATACTTTGGTAATAACAGAGGGATCACCTGGTACAACTTTGTGTCCGATCAGTATTC CGGCTTTCATGGCATCGTTATACCGGGGACGCTGAGGGACTCTATCTTTGTGCTGGAAGGTCTTCTGGAA CAGGAGACCGGGCTGAATCCAACCGAAATTATGACCGATACAGCAGGTGCCAGCGAACTTGTCTTTGGCC TTTTCTGGCTGCTGGGATACCAGTTTTCTCCACGCCTGGCTGATGCCGGTGCTTCGGTTTTCTGGCGAAT GGACCATGATGCCGACTATGGCGTGCTGAATGATATTGCCAGAGGGCAATCAGATCCCCGAAAAATAGTC CTTCAGTGGGACGAAATGATCCGGACCGCTGGCTCCCTGAAGCTGGGCAAAGTACAGGTTTCAGTGCTGG TCCGTTCATTGCTGAAAAGTGAACGTCCTTCCGGACTGACTCAGGCAATCATTGAAGTGGGGCGCATCAA CAAAACGCTGTATCTGCTTAATTATATTGATGATGAAGATTACCGCCGGCGCATTCTGACCCAGCTTAAT CGGGGAGAAAGTCGCCATGCCGTTGCCAGAGCCATCTGTCACGGTCAAAAAGGTGAGATAAGAAAACGAT ATACCGACGGTCAGGAAGATCAACTGGGCACACTGGGGCTGGTCACTAACGCCGTCGTGTTATGGAACAC TATTTATATGCAGGCAGCCCTGGATCATCTCCGGGCGCAGGGTGAAACACTGAATGATGAAGATATCGCA CGCCTCTCCCCGCTTTGCCACGGACATATCAATATGCTCGGCCATTATTCCTTCACGCTGGCAGAACTGG TGACCAAAGGACATCTGAGACCATTAAAAGAGGCGTCAGAGGCAGAAAACGTTGCTTAACGTGAGTTTTC GTTCCACTGAGCGTCAGACCCCGATATAGAACCAACTGTTTTTTTCGGCACCTCATGGCCACTAAGGTCT CCATGACCAAACGACTGTTATTGCCTTGTCATTACCTCGCTCAGGTTTGCGCTCACCGACCCTCATGTTA TAATTCCATAATATTGTGTGTTAACCGTATTTTTCAGAGATAGTTCACATTATGCTGGATTTATCGTTTG CAAAGCCTGACGAGATGGTTTCTCTCTTGTGCGACCGACTGCGTAAAGAACGAATCAATCAGCAGATGAC CCAGTCAGAACTGGCCAAAAGGGCGGGCATTGGGGTGAATACGTTGTCAAATCTGGAGTCGGGTAAAAAT ACTGGTTTTGAGAATATTATCCGTGTAGCCATGGTCCTGGGACGAACTGCCGAACTGGAAGGACTGTTCA AACCCAGACTTGAAAGCCTCGAAGATCTCCGCCGCTATGAGTCCACCTTAACCCGAAAACGCATCAGAAG TAAGGGAGGCCATAATGAATAGCATTGAGGTTTTTTATGAAGGCTGGGGAGAACGCTGGCTCTGGGGTAC CCTGGTCAGTACGACTGCGTTGACGGGACGACCCGTTATTGTTTTTGAATATAGTCCTGCCGCCCGTGAG AAAGGACTGGAACTGGCACGTTATACGCTGCCGCTTTCTGGTCCTAGTCTCCGGAGAGAGTTTCCACAGC ACCAACTGGGGCTCCCTGGACCTGTCTATGATTCACTACCTGACGGGTGGGGAATGTTACTTATGGACAG ACTGTTCCGTAAACGCGGACTGAGCAGCGCAAGAATTGGTCCGCTTGAACGTCTCACGTACATCGGCAGC AATGCCATGGGCGCGATGTCATATATGCCGGCATCACCGGACGTCTTATCTGTCCAGGACAATATCCCGA TTAGTCAGTTGGCAGCAGAGGTCCATGAAGTTCTGAAGGGGGAAGGGGGCGAGTTTCTCAACCGACTCCT GCTTATGGGGGGATCACCCCAGGGAGCGAGGCCAAAAGCCCTTCTATACCGGCACTCCGGGACAGGTGAG TTTACAACAGTACCTGCTCTGGGGCATGAACCATGGCTAATAAAATTTCCGGCAAGGCAGGAACATCCTG AAGTTTGTGCCGTAGAAATGATTTACGCACAGTGTCTGAGAGAGTGCGGGATTGACACTCCTGAGACGGA ATATTTTGAATTGCCTGGCGAGCAGGCTGCGTTTGCAACCAGGAGATTTGACAGAGAACGGGGAATGAAA GTCCCTATGCAAAGTCTTGCTGCTTTTACTGGTGCAAATTATCAGGTTCCGGGTTCAATGGACTATGCCA GTTTTCTTCGGGCGACACAGCTTTGTACAAATGATGTCCGTGAAAAAAAACGCGCATTCGAACGAGTTGT ATTTAACGTCATATTTAATAACAGAGATGATCATCCCAAAAACTTTGCCTACCTGATGTCAGCAAACGGG AACTGGTCGCTTGCACCTGCCTTTGACATTACATTCTGTGACGGTCCTGGTGGATACCACCAGATGGATG TCATGGGAGAGGCACTTACTATAGAACATAAGCATCTGATGACGTTGGGGATCCGGGAAGCTGAGCTGGA CGAAAACCAGGTGAATGAAGTTATCGACCGGATAGCCAGTGTGGCAACGACATTTTCGGAGAAATGTCAT GAGCACCTTCCAGGAAAGGTTACCAGGGATACCATGAGTTATATCCAGACTCGCATCGATGAAAACATTA GTAGTATCAAATCCTGAACCGTTACTCCATCCACGGTAAACGGCGGGGCTTTTGCATCTCAGGCCACCGC CGCCTTCAGTCATTTCACAGAACAGCATCGATGGCTCCCCACATTCAATTCTCTTTGCGGAATGACATAT CCACTCTTAACTGCAAGAGACCAGACTGGCTAACTGACAATCGGGGCCTGTCCAGGCTGCAAGTATTCTT TTAAAAACCCTTTAACTGCATTCTTTTAAACTAAGTACCTGTTCATGTTCAGTTATGAGGATAATTATTA GTTACAACATTCATAAAGGGATTTCATTCCTCCCCCTGAAAGCCCGCTGCCTTTTCTCAACCCCGAGCCC CTCCCAGGCAATAATTCAATCCCGCGCACAGCTGCAACCGCAGACCCCATCCCACCACTGAAAAGCGCCG CCGCCCCCGGCCTTAGGCCGGGGAACAACATCGCTTTTAATGATGAGTGTTGTAACTACTCTTCTTCATC GCTGTGGGTGGGGTCGGTTCCGGCTGAGGGCGAAATGACACCCTAAGCTTTCGGTTCCTTGGGCCAAAGA TATTCGCCAGTCAGTAGAATGTGCGCCCAGCCCAATGGGGATATGTGGGGAAGAAATTCAGGGGGAACAT CCAACCCTTCGTTCCGCCGCTCCGTGACGGCATGACCAAGATGGACGGTATTCCAGTAAATGATCACCGC AGTCAATAAATTGAGCCCAGCGATTCGGTAGTGCTGCCCCTCTGTCGTGCGATCGCGAATTTCCCCCTGC CTCCCGATACGGAGCGCATTTTTGAGCGCATGGTGGGCCTCTCCCTTGTTAAGACCGATCTGAGCACGCC GCTGCATGTCCGTATCCAGGATCCACTCAATAATGAAAAGGGTCCGTTCAATACGACCAACTTCACGAAG CGCAACTGCAAGGTTGTTTTGTCGTGGGTAAGAAGCGAGCTTGCGCAGGAGTTGGCTGGGCCTGATTTTG CCAGCGGTCATCGTCGCGGCACAACGGAAAATATCAGGCCAGTTCGCAACGATAAGATCCTCCCGGGCTT TTCCACCTACCAACTTGCGTAACTCCCTGGGGGTCGTATCGGGATTAAATACGTACAACCGCTTCGATGG CAGATCCCTGATTCGCAGAACGAGATTGTAGCCGAGCAGGCTACTGGCTCCGAACAAATGGTCGGTGAAT CCTGCTGTATCGGCATACTGTTCGCGAACATGGCGACCGACCTCGTTCATCAGTAGTCCATCGAGAATAT ACGGTGCCTCGCTCACGGTCGCCGGGATCGACTGACAAGCGAATGGCGCGAACTGGTCGCTTACGTGAGT ATACGCTTTGAGGCCGGGAACAGAACCATATTTGGCATTGACCATGTTCATGACTTCGCCATGCCGCGCT GTCGGGAAAAACTGACCATCGCTCGATGCTGACGTGCCCATCCCCCAGACGCGTGACATCGGCAGTTTAC CCTGCGCGGCCACCACAATTGCCAATGCCTGGTTCATGGCTTCGCTTTCAACATGCCAGCGGGCAAGGCG TGAGAGCTGCCAGTAATCATGCGTGTTTGTAGCTTCCGCCATCTTACGCAGGCCCAGATTGAGCCCTTCA GCGAGCAGGACGTTGAGCAGACCGATCCGGTCGCGACATGGAGCCCCGGTTCTCAGATGGGTAAACGCAT CTGTGAAACCAAGGGCTGCATCAACTTCAAGCAGCATGTCGGTAATCCGAACGGACGGCATTCGGCGATA CAGATCCAGTATGAGTGCCTCGGCACCATCCGGCACGTCTGCTGTCAACCTGTCGATCCGCAACGTTCCA TCTTCTATGCTACCGTGCGGAATAGTGCCGTTACGGGCAGCCCGGGCCAGCCGCTTAAGAGCGATCGTGA GTCGCGCCTTTCTGTCTGCCAGCCAATCCTGTGGGTTGGAAGGCACGGCCAGTTTTGCATTTTCCTGCGC CGCGATCATCGGCACCAGTACCTGCTTGAGGTCACCATAGCGGCGCGAATGAGCGAGCCAGACATCTCCG GAACGAAAAGCATCCCGGAGGTGAAAGAGTACCGCCACTTCCCAAAGACGGGTATCTCCTTTTTCCTGAG CTCGTAAATGACGGTTCCATTTGGAGCTGGGCCGCAGGAAACGCCTTTCTGGCGATGCAACACCTTTCAT CTCTCCGATCGACAAAGCTGCTGCTACCAATGGTCCGGCGACCGGCGCGGCTTCGAGCTTCAGACAGCGC AACATGCGGGGCGCATAACGACGAAAGCGATGGTATCCCTGCCCGACATATGCAAGAGGCTCATCGGCTA GCGTGTTGCTGAGTTGAGTCCCTGTCGCTACCAGTTGAGCGAGCCGGTCCCATGCAACCGAACTGGCGAC AGCCATCTCCAGCGGGGTTCCGTCACTGCGGGCCTCAAGCAACGAAGCTCCCAGCGCGGTGAAGGTACGG ATCGTATCCGTGAGTGTGGCTTTAGAGCCGGAAATTGTTTCGTCATGCTGGCGCTTCGCTTCCCGCCAGG TTTTTCCTACGATCCTGTCATGGGTTTCGACTATGGCATCAGCAATCGCCGCTTCCCACTCCACAACACA GACGGCAAGGATCGCCCAGCGGCGGTCCGAAGTGATGTCACGCAAACCGTCGGTGAAGTAGCGTTCACCC TGCCGACGCAGCCGGGCAATGCGATGGGCAGGTATGCTGGCCAAAGCACTATGATTGATATTCAGGGTAC GCAGAAATTCGAGCCTGTCGAGCAAACGGTTAGCAGCAGCCGAGTTGTTACCAACCTCGAAGTTGCGAAG CCAGATGAAACGACTGATATTGCCGGCGAGCATTTCACTCAGAAGTTTGTCCAGGTGATCGCGAACATCC GCTGTTAAATTTTCCGCAATCCGCGTTTCAATCCGCCGCTCAGCGGCGACCAGAGCATCCGCGCACAAGC GCTCGATTGTCGATACTGCGGGCAGAATGGTGGAAGTTTCCCGACACCGCACAATAAAACGATGAGCAAG ATCCTCGTTTGATCTGGCATCTTCGGCCTGGCCGAAAGTCCACTCCCGCAGATCACGGGCACCACGGCCC GTGAAGGTCTTGTAGCCGTAAATTTCGCGCAGCGTGTCCATGTGCTGCTGACGGGTTTGGCGCCGTGTGG CATAAGTGAGAAGCGCATCAGCCGGAACTCCAAGCTGAGCACCGACGAAGGAAAGGACTTCACGCGGGAT CATCTCACCAGGAGCCAGTGCACGGCCCGGATATCGTAAGGCACAAAGTTGCAGGGCAAAGCCAATCCTG TTTTCCGGTCTGCGGCGCTGCCTAATGTTTTCCAGGTCATCATCGCCCAGCGTGTAGAACTTCAGTAGCG ACAGTTCGTCCGTGGGCAGATCGAACAGCGCTGCTCGCTGCCGTTCGGTGAAAATATGGCGTCGTGACAT ACAAATTCGTCCCTTTTGAAGTATAGTCTGTTTTGGACAACAGCCAGCCCATATAAATCAGGGCGTTCCG ATACAAAAATCCAGGAGGGTTCAATTGGGACATCGTGCCGCCATTTACTGCCGGGTTTCAACAGCGGATC AGTCTTGTGAACGCCAGGAATTTGATCTGCGAGCCTTCGCCGGCCGTGCCGGCTACGACGTGGTGGGAAT ATTTAAGGAAACAGGTTCAGGAACTAAACTCGACCGGGCCGAGCGAAAGAAAGTCCTGGCGCTTGCCCAG TCCAGACAAATTGATGCAATCCTGGTCACTGAGCTTTCCCGGTGGGGGCGCTCGACGCTCGATCTGCTCA ATACGCTACGTGAACTGGAGAACTGGAAGGTTTCCGTGATAGCCATGAATGGAATGGCGTTCGATCTTTC GTCGCCGTATGGACGAATGCTGGCGACGTTTCTTTCCGGCATTGCGGAGTTTGAGCGGGATCTCATCAGC GAGCGGGTCAAGTCAGGCCTTGCTGTTGCGAAGGCACGTGGTAAGAGGCTTGGTCGTCAGGCCGGAGTGC GACCAAAATCAGACCGACTTTTGCCTAAGGTGGTTGCGATGAGGGCCGAGGGACGCAGCTATCGCTGGAT CGCACGCGAGCTCGGTATCAGCAAGAATACCGTCGCTGACATCGTGCAACGACACAGAGCTAACGCTTAG GGTGTCATTTCGCCCTCAGCCGGAACCGACCCCTGGGTGGAGCTGCGGTCAGTTGTCTGGTACACGCTCG TAAGCGGCCCTACCGGCCCGCTAACGCGGAGATACGCCACGACTACGGCCCTTGCCTTGTCGTGACCACT CCGACCGCGCACAAAAGCTCCTGAGTTATTTTTAGCGGGTATGGCTTAACAGGGTAAGGGATGGGATAGG CAGAACCTTTCAAAACGGTAACCGGCTTCGCCGGGCGACGGCGCCACTTACCGACGGAGCCTTGTTCAAA TTCATCTGGCGCCTCCATGCCGCAAAGCGGCATTCAGAAGACAGGCTGCGCACTGCTCGCGTCGCCTCCG AACGGAAATACCGTGGTTTTCACCGATCTTGCCAGCTACCCCAAGCAAAACGGACTTGCCAAAGCATTGA GGGAAATTGGCCGTATAGAACGAAAGCTGTTTATGCTCGACTGGTTCCGCGATCCGGCACTTCGTCGGCG GGTACAGGCTGGATTGAATAAAGGGGAGGCCCGTAACGCACTGGCGTGTGCGGTATTCCTGCACCGACTG GGGGAAATCAGGGACCGCAAACCGGAAAATCAGAGCTATCGCGCCAGCGGACTGACGGCAGCTATCTCGC TGTGGAACACCGTCTATATGGAAAGAACGATCGATGCCCTGAAGCGTAAAGGAGTGAAGAGCAACGAGCA ACTGCTGTCGCATTTGTCGCCGTTAGGCTGGGAGCACATCAATATGACAGGCGATTATATCTGGATAAGC AACCGGCTTCCGGTAAGTTTCGTCGGCTGAGGCCAGCTAAAGTCGAAAGGTCAAAAAATAGCCTTAGCGT ACAATAATTTTCGATATCCAAACTGCCCCCAGAGAAACGGAGTGGGTTTCACCAATGAATTCGCAGCCTA CGATGATCGTTTTATCCCGAGTCTGAGGAAACTGGCTGATGCGGCAAAAAGCGGGGGGGCGCTGGCAATC CTGCAACTGTTTCACGCCGGTAATAAAGCGGTTCCCGAACTCATCCCAGATGGAGAGCTCGTCAGCGCCA GTGCCCTGGCCGCTCCGGCTGGCCCTTTTAATCGCGGGGAACAAGCCAGCCGGGCGTTGGGTCATGACGA AATTTCTGGTGTGATCCATGACTTCGGCGAAGCCACTCGCCGCGCAATTGAGGCCGGTTTTGATGGTGTT GAATTGCACGGCGCGCATGGTTTTCTTATCCAGAACTTCTTCTCCCCCTGGTTTAACCAGCGTACTGACG AATGGGGTGGTTCATTAGCAAACCGGATGCGTTTTCCGCTGGAGGTCGTTCGGGAAGTCCGGCGGGTTAT TGAAACTCATGCCAGGAAACCCTTTTTATTGCGTTACCGGGGCTTTGTTGAATAAATCGAACTTTTGCTG AGTTGAAGGATCAGATCACGTATCTTCCCGACAACGCAGACCGTTCCGTGGCAAAGCAAAAGTTCAAAAT CACCAACTGGCCCACCTACAATAAAGCCCTCATCAACCGTGGCTCCATAACTTTCTGGCTGGATGATGAA GCTATTCAGGCCTGGTATGAGTCAGCAACACCTTCTTCACGAGGCAGACCTCAGCGCTATTCTGACCTTG CCATCACGACTGTGCTGGTCATTAAACGCGTATTCAGGCTGACCCTGCGCGCTGCGCAGGGCTTTATTGA TTCCATTTTTTCTCTGATGAACGTTCCGCTACGCTGCCCGGATTACAGCTGTGTCAGCAGGCGGGCAAAG TCGGTTAATGTCAGTTTCAAAACGCCCACCCGGGGTGAAATCGCACACCTGGTAATTGATTCCACCGGGC TGAAGGTCTTCGGTGAAGGCGAGTGGAAAGTCAAAAAGCATGGCCAGGAACGCCGCCGTATCTGGCGTAA GCTGCATCTCGCCGTTGACAGTAAAACACATGAAATCATCTGCGCTGACCTGTCGCTGAACAATGTGACG GACTCAGAAGCCTTCCCGGGTCTTATCCGGCAGACTCACAGAAAAATCAGGGCAGCATCGGCAGACGGCG CTTACGACACCCGGCTCTGTCACGATGAACTGCGGCGTAAGAAAATCAGCGCGCTTATCCCTCCCCGAAA AGGTGCGGGTTACTGGCCCGGTGAATATGCAGACCGTAACCGTGCAGTGGCTAATCAGCGAATGACCGGG AGTAATGCGCGGTGGAAATGGACAACAGATTACAACCGTCGCTCGATAGCGGAAACGGCGATGTACCGGG TAAAACAGCTGTTCGGGGGTTCACTGACGCTGCGTGACTACGATGGTCAGGTTGCGGAGGCTATGGCCCT GGTACGAGCGCTGAACAAAATGACGAAAGCAGGTATGCCTGAAAGCGTGCGTATTGCCTGAAAACACAAC CCGCTACGGGGGAGACTTACCCGAAATCTGATTTATTCAACAAAGCCGTAAACGGGATGTCACTTCATGC ATGTCAGGATATTTTTCTTTCTGATACTTAATCGCAAGGTCGGCCCAGTTATTATGCAGTGGTACAGTCA GTGAACCAACGTAAATCACATATCCACCTTTTCCACCCATATCTTTTGCAAGTTCATCTATATTGGCCTG AGCATATTTTTCGCTATCAATAGTTTCCACATCCCATTGAGCTATCTGCTTATCAGGGGACTCATGAGAC AACACAACAATACCTTTATCCCGGGCTTTTTTTAATACAGGCTCCAGAACCGTTGCATCATTTGGTACAA CGATAATTGCATTAACATTTTTAGCAATAAGGTCCTCAATGACTTTAACTTGTTGAGCCGGATCCGGGGT TGCTGGCCCTGTCTGATAGGCATTAACATTGAGTTTATCGGCAGCTTCCTTTACGCCAACCCCCATCCGG TTAAACCATGGGATACCATTGACTTTTGCAACCAAGGCAATTTCATATTTCTCTGCTGCGAATACTGAAC CGGAAAAAATATATGCTGAAGACATAGCTACGCTAAGCAATGCAATTTTAAGTTTCATATTTTTGCCTTT CTGAACTGTAGGGGGTGGATGTCATGGAAAGATTACCGGTAAAGGGAATAGCTCAGGAAGTCAGGATTAC GTAATTGTGAGTTATGCACATTAATGTTAAAATTCATGATTTTTTATGTTGATTTTGTGTTAAATCATGA GGGATTGATGGGGGAAGACAAAATAAAATGTTAATTAATGGTGGTTTTAAATCATATTATTTAACCATTT GATAACATTTCAGGGGTTTTAGGTGATGCCCGAATACAGCGAATTTAAGTCATAAAATTAATTTTTTATT TCGCATGTCTCATTAGTAATTTTTATCACCATAGATAAGTCTGCTGACCGGGGAACCAGCATGCGGAAAA AAGATATGTGATTTGCAGGGGTATACACCGATACGTGCATCAGCGACTGACAACGTCTCTTACTGGTAAT GAGGAGCAGGGTGGAAAAATACTTTTTCTGCAAAGTCGTGAACCCCATCTGGGGGTGTTATCTGCCTTCA CAGAGATGTTGCCGGAACACAATAATGAACAGGCCGGATTATGCTATCCGGCCTGTTGTGTCAACTTGGT GATTTTTCGACAAATAGATTGAGATGGTAGCGGTAGCTGTCGAGGAACCGGGATTTACATGCATCATTCA TACTGCCGGTGACCTGTTCAACGTCCACTTTCCGCCCTTGTGAGTTCATCTGGGCCAGACTTAATGCAAT AAAATCAAAATCTTTTGGATGAAACTTGGCTTTGTTGAATAAATCAGATTTCGGGTAAGTCTCCCCCGTA GCGGGTTGTGTTTTCAGGCAATACGCACGCTTTCAGGCATACCTGCTTTCGTCATTTTGTTCAGCGCTCG TACCAGGGCCATAGCCTCCGCAACCTGACCATCGTAGTCACGCAGCGTCAGTGAACCCCCGAACAGCTGT TTTACCCGGTACATCGCCGTTTCCGCTATCGAGCGACGGTTGTAATCTGTTGTCCATTTCCACCGCGCAT TACTCCCGGTCATTCGCTGATTAGCCACTGCACGGTTACGGTCTGCATATTCACCGGGCCAGTAACCCGC ACCTTTTCGGGGAGGGATAAGCGCGCTGATTTTCTTACGCCGCAGTTCATCGTGACAGAGCCGGGTGTCG TAAGCGCCGTCTGCCGATGCTGCCCTGATTTTTCTGTGAGTCTGCCGGATAAGACCCGGGAAGGCTTCTG AGTCCGTCACATTGTTCAGCGACAGGTCAGCGCAGATGATTTCATGTGTTTTACTGTCAACGGCGAGATG CAGCTTACGCCAGATACGGCGGCGTTCCTGGCCATGCTTTTTGACTTTCCACTCGCCTTCACCGAAGACC TTCAGCCCGGTGGAATCAATTACCAGGTGTGCGATTTCACCCCGGGTGGGCGTTTTGAAACTGACATTAA CCGACTTTGCCCGCCTGCTGACACAGCTGTAATCCGGGCAGCGTAGCGGAACGTTCATCAGAGAAAAAAT GGAATCAATAAAGCCCTGCGCAGCGCGCAGGGTCAGCCTGAATACGCGTTTAATGACCAGCACAGTCGTG ATGGCAAGGTCAGAATAGCGCTGAGGTCTGCCTCGTGAAGAAGGTGTTGCTGACTCATACCAGGCCTGAA TAGCTTCATCATCCAGCCAGAAAGTTATGGAGCCACGGTTGATGAGGGCTTTATTGTAGGTGGGCCAGTT GGTGATTTTGAACTTTTGCTTTGCCACGGAACGGTCTGCGTTGTCGGGAAGATGCGTGATCTGATCCTTC AACTCAGCAAAAGTTCGATTTATTCAACAAAGCCTTTTTTTATATACGATCTGACGAATTCAGCAGAAGG AAACTCATCATTCGTGACGAAATAAAAATTAGTTTCCCCATTAATATAGAAATGAGTGTTTACTCACAGA AAGAAAATCAGGAGTAATTATTCTGAAGACAGATAATACAGAAGTCGTACAGCGCATTTAACTCACTTCT CAGGAGGTTAATCACTCTCTATTTGTGGACAACCGACATGTCTTAAGGCTCTGGAATAACGTGTTGATAT TTCGATGCGTAGCATGCAGCGGAATATTACCGGATCAATAAAGCAGGAAGAGGCGTTTTAATTCTTTCCG CAGGATGATAGTAGGGTGACTGCCATGTCTGATTATAATGAAAAAAGTGCGATCTCCGCACTTCTCGCAG GTCATTGTTCCGATCCATTTTCCGTGCTTGGCATGCACTCAACCGATGCGGGTCTGGAAGTGCGCGCATT ATTACCCGATGCCACCGATGTATGGGTGATTGAACCGAAAACCGGGCGCAAAGTCGGTAAACTCGAATGC CTCGACACACGCGGGTTCTTTAGCGGCGTTCTGCCGCGCCGGAAAAATCCTTTTCGTTACCAGCTGGCCG TCACCTGGCACGGTCAGCAAAACCTGATTGACGACCCCTATCGCTTTGGCCCGCTGCTGCAGGAGCTTGA TGCCTGGCTGCTCGCTGAAGGGACTCATCTGCGGCCCTACGAGACGCTGGGAGCCCATGCCGACACCATG GACGGCGTCACCGGGACGCGTTTTTCCGTCTGGGCGCCGAACGCCCGTCGTGTGTCGGTGGTCGGACAGT TCAACTACTGGGACGGCCGCCGCCACCCGATGCGTCTGCGCAAAGAGTCCGGCATCTGGGAGCTGTTTGT CCCCGGCGCGCATAACGGCCAGCTGTATAAGTTCGAGCTGATTGACGCCCACGGCCACCTGCGGGTGAAA TCCGACCCGTATGCCTTTGAGGCACAGATGCGCCCGGAAAGCGCGTCGCTTATCTGCGGCATGCCGGAAA AGGTCGAACAGCCACAGTCCCGTCAGCAGGCCAACCAGTTTGATGCACCGATTTCGATTTATGAAGTGCA CCTTGGCTCGTGGCGCCGCCACGCCGATAACCATTTCTGGCTCAGCTACCGCGAGCTGGCGGACCAGCTG GTGCCTTACGCGAAGTGGATGGGCTTCACCCATCTGGAGCTGCTGCCGGTAAACGAACATCCGTTCGACG GCAGCTGGGGCTATCAGCCCACCGGGCTGTACGCGCCGACCCGCCGTTTTGGTACCCGTGAAGACTTCCG CTACTTCCTGAATGCTGCCCATGCCGCGGGTCTGAACGTGATCCTCGACTGGGTGCCGGGCCACTTCCCG TCGGATGACTTTGCGCTGGCATCGTTCGACGGCACCGCGTTGTATGAACACAGCGACCCGCGAGAAGGTT ATCACCAGGACTGGAATACGCTGATCTACAACTACGGTCGCCGTGAAGTCAGCAACTTTCTGGTCGGGAA CGCGCTGTACTGGATTGAACGCTTCGGGATCGACGCCCTGCGCGTGGATGCGGTTGCGTCAATGATCTAC CGCGACTACAGCCGCAAAGAGGGGGAGTGGGTGCCCAATGAGTACGGCGGCCGGGAAAACCTCGAAGCGA TTGAATTTCTGCGCAATACCAACCGTGTGCTCGGTGAGCAGACGCCGGGAGCGGTCACGATGGCGGAGGA GTCCACCGACTTCGCCGGGGTTACACGACCGTCTTCGACGGGCGGTCTTGGCTTCTGGTTCAAATGGAAC CTCGGCTGGATGCATGACACCCTCGACTATATGCAGCTCGATCCCATCTATCGTCGTTATCATCACGACA AGATGACCTTCGGGATGCTCTACAACTACACCGAAAACTTCGTGTTGCCGCTGTCACACGATGAAGTGGT TCACGGCAAAAAATCGATTCTTGACCGGATGCCTGGCGATGCCTGGCAGAAGTTCGCCAACCTGCGCGCC TACTACGGCTGGCTGTTTGCCTTCCCCGGTAAAAAGCTGCTGTTTATGGGCAACGAGTTTGCCCAGGGGC GGGAGTGGAACCACGACGCCAGCCTCGACTGGCATCTGCTGGAAGGGGGCGACAACTGGCATCACGGGGT GCAGCGTCTGGTGCGCGATCTGAACCATACCTATCGCCACCATAAGGCACTGCACGAACTGGATTTTGAC CCCTACGGCTTTGAATGGCTTGTTGTGGATGACCATGAACGGTCGGTGTTTATCTTTGTCCGTCGCGATA AAGCCGGGAACGAGATAATCGTGGCGAGCAACTTCACGCCAGTACCGCGTCACGGCTATCGCTTCGGGAT TAACCAGCCGGGGCGCTGGCGTGAAGAGCTGAACACCGACTCGATGCACTACCACGGGAGCAACACCGGC AACGGCGGCTGCGTGGCAAGCGAGGCGATCGCCAGCCACGGTCGGGAGCATTCGCTGTCGGTGACTCTGC CGCCGCTGGCGACAATCTGGCTGGTACGGGAATCTGCAGGGCAATAAAACGCGCAGCTGATTTATTGCAG CTGACTTATTACCGGAGGTGATCACTTCTGAATTATTTTGCAGAAGAGTGAGGCTTTTTCTTCATTATTT TCTTTTATGGCTTTTATTTAATAGCAGGACATTATTATGAGTAAACTTGAATATACTGACAACTTAATGC TGTCGCGCCAGTTACCGCTTAAATCCGTGGCCCTGATCCTCGCCGGCGGACGTGGCACACGATTAAAAGA CCTGACCACTATTCGCGCAAAACCTGCGGTGCATTTCGGCGGTAAATTCAGAATTATTGATTTTGCTTTA TCGAATTGTATTAACTCCGGAATAAGACGTATCGGGGTCATTACACAATATCAGTCCCATTCACTGGTGC AGCATATTCAACGCGGCTGGGCATTCTTTAACGAAGAAATGAATGAGTTCGTGGATTTATTACCGGCGCA GCAGCGGGTGCATGGTGAGAACTGGTATCGGGGGACGGCGGATGCCGTGACCCAGAATCTGGATATTATC CGCCGCTATGATGCGGAATATGTCGTTATTCTGGCCGGGGACCATATCTATAAACAAGATTATTCGCGGA TGCTGCTCGATCACGTTGAAAAAGGGGCGCGCTGTACCGTGGCCTGCCTGCCGGTCCCGGTTGAAGAGGC AAGCGCTTTTGGCGTCATGGCCGTGGATGAGAATGACAAAATCATTGAATTTGTTGAAAAACCGGCTAAT CCGCCCACCATTCCTGGCGATGAAACCCGCTCGCTTGCCAGTATGGGCATTTATGTGTTTGATGCGGAAT ATCTCTACCAGCTGCTGGAAGACGACGATCGGGATGAACACTCCACCCATGATTTTGGCAAAGATATTAT TCCCAGGATAACGGCGGCAGGTGAAGCGTATGCGCATCCGTTCCCGCGCTCCTGCGTTCAGTCGGATAAT AATGCCGAGCCATACTGGCGCGATGTCGGAACCCTGGAGGCGTACTGGAAAGCGAATCTGGATTTAGCCT CAGTAGTGCCAGAGCTGGACGTTTATGACCGTAACTGGCCTATCCGTACCTATGTCGAATCGCTGCCCAG CGCCAAATTTGTTCAGGACCGTTCCGGCAGTCATGGCATGACCATGAATTCTCTGGTCTCCGGCGGCTGT ATTATTTCTGGCTCGGTGGTGGTGCAGTCGGTTCTATTTTCCAGAGTTCGGATTAACTCGTTCTGTAATA TTGATTCGTCGGTTTTATTACCGGGCGTCTGGGTCGGTCGCTCCTGCAGGATAAGACGCTGCGTGATCGA CCGGGGATGCGTTATTCCGGAGGGGACGGTGATTGGCGAAAATGCCGTTGAGGATGCGCGACGCTTTTAT CGTTCGGAAGAAGGCATCGTTCTGGTTACCAAAGAAATGCTGAACCGACTTGAACTATGAAGCCGTTGGC GGAAATAAAAGCTGCCGCAGCTGTGATTGCCGTCATTGGCATCGCGTCGCCTTCATGCCTGAATAATTAA GGAGCATCCATGCGAGTTTTACATGTAGGAGCGGAGATGTTCCCTCTGTTGAAAACGGGGGGGCTGGCTG ATGTGACCGGTGCTCTCCCGGCGGCGCAAATAGCCGAGGGCGTGGATACCCGCGTGCTGCTGCCGGGGTT TCCCGCGATCCGCGACGGAGTAGGGGAACCGCAGGTGGTGGCCAGCAGGGAGACCTTCGCCGGGCCGATG ACGCTGTTGTTTGGCGACTTTAACGGCGTGGGCATCTATCTGATTGATGCCCCGCATCTCTATGACCGAC CGGGTAATCCTTATCATGACCCGCAGATGCAGGATTATCCCGATAACGTCCTGCGTTTCGCGCTGTTGAG TTGGGTCGCGGCTGAGCTTGCTGGCGGTCTGGATCCGTTCTGGCGGCCTGAAATCGTCCACGCCCATGAC TGGCATGCGGGCCTCACGCCGGCTTATCTGGCCGCCCGCGGCAACCCCGCCAGGTCAGTGTTTACGGTGC ACAACATTGCCTATCAGGGCTTGTTCCTCGCCCGGCATATGGCGGAGATCGCTTTACCGTGGTCATTCTT CCAGATGCATGGGGTGGAGTTTAAAGGACAGATCTCCTTCCTTAAGGCGGGCCTCTATTTCGCTGACCAT ATCACCACCGTCAGCCCGACGTATGCCCGTGAAATTACCGAACCGCAGTACGCGTTCGGTCTGGAAGAGT TGCTGCGGCAACGTCAGCGGGAAGGGCGACTGTCGGGGATCCTTAACGGCGTCGACGAAAGCATCTGGGA TCCGCGCCGCGATCCGCTGCTGGCTGCGCCTTACGACCGGAACTCGCTGGCTGAGAAAGCGAAGAACAAG CAGCAGCTGCAGACGACGCTGGGGCTGAAGGAGGACGGCCGGGCGCTGTTGTTCACCGTCGTGAGCCGGC TCACCAGCCAGAAGGGGCTGGATCTGCTCCTTGGCGCACTGCCGGGAATCATTGCGCAGGGAGGGCAGCT GGCGCTACTGGGATCCGGCGACCCGGATTTGCAGGCCCGTTTTCTTGCCGCTGCGGCGCAATACTCCGGG CAGGTGAGTATCCGGATCGGTTACGACGAGGCGCTGTCGCATCAGATGATTGGCGGCGCCGACGTCATCC TGGTGCCCAGCCGTTTTGAACCCTGCGGTCTGACCCAGCTCTATGGCCTTCGCTACGGCACATTGCCGCT GGTTCGTCGCACCGGCGGACTGGCGGATACCGTCGCCGACTGTTCGCTCGAAAACCTTGCTGACGGGATC GCGAGCGGATTTGTGTTTACCGACAGCGAGACTGAATCACTATTACATGCCATCCACCGGGCCTTTGTCC TGTGGTCCCGTCCATCGCTGTGGCGGTACGTGCAACGTCAGGCAATGAGCATGGATTTTAGCTGGCAAAT TGCCGCTAAGTCTTTCCACCAGTTGTATCAGCGTATTATTTAATTGCTACGGATAAGAAAAATGGAACCA CGCTTAAGTTATATTTCACCCAGTCTGAATGAAGAAGCGCTACAGCATGCTATCGCTTATAAGCTCATGT TTATTCTTGGTAAAGATCCCTCACTTGCCAATAAACATGAATGGCTCAACGCCACGCTGTTCGCCGTTCG CGATCGGCTGGTAGAACGTTGGCTGCGGGCGCATCGGGCGCGGATCTCGCAGCAGGCCCGGCAGGTTTAT TATCTGTCGATGGAGTTTCTCATCGGCCGAACCCTCTCTAATGCCTTACTGTCGCTGGGCATCTATGAGG ATGTGAAAACGGCTCTGGCAGGGATGGGGCTGGATCTGGAAGAGCTGATTGATGAGGAGAACGATCCGGG GCTGGGCAACGGCGGTCTCGGTCGTCTGGCGGCCTGTTTTCTCGATTCCCTGGCCACACTGGGGCTGCCA GGCCGCGGCTATGGTATCCGCTACGACTACGGTATGTTCAAGCAAAACATCATCGACGGCCGGCAGATGG AGTCACCGGACTACTGGCTGGAGTACGGTAACCCGTGGGAATTCGAGCGCCATAAAACCCGCTATACCGT GCGCTTTGGCGGACGTGTTCAACATGAGGGCAAAAACTCACGCTGGCTGGAAACCGAAGAAATTATTGCC GTGGCCTACGATCAGATTATCCCGGGTTATGACACCGATGCCACCAACACCCTGCGTTTGTGGAGTGCCC AGGCCAGCAGTGAAATTAATCTCGGTAAATTTAACCAGGGGGACTATTTCGCCGCCGTGGAGGATAAGAA CCACTCTGAGAACGTTTCCCGCGTGCTTTACCCGGACGACTCGACCTATTCCGGGCGTGAACTGCGCCTG CGTCAGGAGTATTTCCTTGTTTCGGCGACGGTACAGGACATCCTCACCCGTCATTACCAGCTGTATCAAA CCTATGACAACCTGGCGGATAAAATTGCTATCCACCTCAATGACACCCATCCGGTGCTGTCGATCCCGGA GCTGATGCGTCTGCTGATTGACGAACACCGCTTCAGCTGGGATGACGCGTTTGAGGTGACCTGTCGGGTC TTCTCCTACACCAACCATACCCTGATGAGCGAAGCGCTGGAGACCTGGCCTGTCGATATGCTGGGGAAAA TCCTGCCGCGCCATTTGCAGATTATCTTCGAGATTAATGACTATTTTCTGAAAACGATGCAGGAGCACTA TCCCGATGATATGGCGTTGCTGAGCCGGACCTCGATTATTGATGAGTCCAATGGTCGCCGCGTGCGGATG GCCTGGCTGGCGGTAGTGGTCAGTCACAAGGTTAACGGCGTGTCGGAACTGCACTCCCGGCTGATGGTGG AGTCGCTATTTGCCGATTTCGCCAGAATCTTTCCGCGCCGCTTCACCAACGTGACTAACGGCGTCACGCC GCGCCGCTGGCTGGCTGCCGCTAACCCGTCCCTTGCCGCGGTTCTGGACCGCCATATCGGCCAGACCTGG CGAACGGATTTAAGCCAGCTGAGCGAAATGGGGGAATATCAGGATTATCCGCTGGTTAACCAGGCCGTCA GCGCCGCCAAACTGGCGAATAAACAGCGTCTGGCCGATTATATCGCCCGTCAGCTGGGCGTGGTGGTGAA CCCGAACGCGCTGTTTGATGTGCAAATTAAACGGATCCACGAATATAAACGCCAGCTGATGAATGTGCTG CATGTGATCACCCGCTACAACCGTATCAAGGCGGACCCGCAGGCCGAATGGGTGCCGCGAGTGGTGATTT TCGCCGGCAAAGCCGCGTCCGCTTACCACACGGCAAAACAGATCATCCATCTGATAAACGACGTCGCCAA AGTCATCAACAGCGATCCGCAGATTGGCGACAGACTAAAGGTGGTGTTCATTCCCAACTACAGCGTCAGT CTGGCGCAGATGATCATTCCGGCCGCGGACCTTTCTGAGCAGATTTCGCTGGCAGGGACTGAAGCCTCCG GGACCAGTAATATGAAGTTCGCCCTCAACGGTGCGCTGACCATTGGCACGCTGGACGGCGCCAACGTTGA GATGTTGGAGCACGTGGGTGAGGACAATATCTTTATCTTCGGTAATACCGCTGCAGAGGTCGAGGCGCTG CGCAGCAACGGTTATCAGCCGCGTGATTACTACGACCAGGATCAAGAGCTGCGCCAGGCGCTGACCCAGA TGGGGACCGGGGTGTTCAGCCCACAGGAGCCGGGCCGCTATCGCGGTCTGCTGGATTCGCTGATCAACTT TGGCGACCACTATCAGGTGCTGGCCGATTACCGCAGCTATGTTGACTGTCAGGACAAGGTGGATGCGCTC TACCGAACCCCGGAAGAGTGGACCGCCAAAGCGATGCTCAACATAACCCACATGGGCTATTTTTCATCGG ACCGTACGGTGCGGGAGTATGCGCAAAAGATCTGGTATATCGACAAAACGCAACTCTGAGCGCGTACTGA CAACCAGGAAACGCCGGGGCGGGTGGCAGGAGACCGGCCCCGTCGATGAGCGACCCGGCAGCAACACATA AATAAGCCTGACGGATATGACAGGAGAGAAAAATGACGGACAGTAAACGCGCAGGGGAGCCTGCACAACA GAGTGATTTGATTAACGTCGCTCAGCTGACCGCGCAGTACTACGTACTGAGGCCGGAAGCGGGCAACGCG GAGCATGCGGTGAAGTTTGGTACCTCTGGCCATCGTGGCAGTGCAGGGCGCCATAACTTCAATGAGCAGC ATATTCTGGCGATCGCGCAGGCGATTGCGGAAGACCGCGCCAGGAACGGGATTACCGGTCCCTGCTACGT GGGTAAAGATACCCACGCGCTCTCCGAACCGGCCTTTATTTCCGTACTGGAAGTGCTGGCGGCCAACGGC GTTGATGTTATCGTGCAGGAACACAACGGTTTCACCCCGACGCCGGCCATTTCCAATGCCATCCTGGTGC ACAACAAAAAAGGTGGTCCGCTGGCAGACGGCATCGTGATCACGCCGTCTCATAACCCGCCGGAAGATGG CGGTATTAAGTACAACCCGCCGAACGGCGGCCCGGCGGATACCAACGTCACCAAAGTGGTAGAGAATCGC GCTAACGAACTGCTGGCCTCGGGTCTGCAGGGCGTCAGGCGCATCTCCCTCGATGCGGCACTGGCATCCG GTCATGTTAAAAAGCAGGATCTGGTACAGCCGTTTATCGAAGGGCTGGCGGATATCGTCGACATGGCGGC AATTCAGAAAGCCGGCCTCAAGCTCGGGATCGATCCGCTGGGCGGGTCCGGTATCGAATACTGGAAACGT ATTGCCGGGCACTACAAGCTCGACCTGACTATCGTCAACGATCACGTCGATCAAACCTTCCGCTTTATGC ATCTGGATAAAGACGGCGCCATTCGCATGGACTGCTCATCTGAGTGCGCAATGGCGGGCCTGCTGGCGCT GCGCGATAAGTTTGACCTGGCTTTTGCTAACGATCCAGATTATGACCGTCACGGCATCGTCACGCCGGCA GGGCTGATGAACCCGAACCACTATCTGGCGGTGGCGATTAACTACCTGTTCCAGCATCGCCCGCAGTGGG GCCAGGATGTGGCGGTGGGCAAGACGCTGGTCTCTTCCGCGATGATCGACCGTGTGGTGAACGACCTCGG CCGCAGGCTGGTTGAAGTGCCGGTGGGCTTTAAATGGTTTGTTGACGGCCTGTTCGACGGCAGCTTCGGC TTCGGCGGAGAAGAGAGCGCGGGCGCCTCGTTCCTGCGTTTTGACGGAACGCCGTGGTCGACCGACAAAG ACGGGATCATCATGTGCCTGCTGGCGGCGGAAATCACCGCCGTCACCGGTAAAAACCCGCAGGAGCACTA CGACGAACTGGCCGCCCGCTTCGGCGCGCCGAGCTATAACCGGCTGCAGGCTTCGGCCACTTCCGCACAG AAAGCGGTGCTGTCGAAGCTGTCGCCGGAAATGGTCAGGGCCAGTCAGCTGGCGGGTGACCCGATCACTG CGCGTCTGACCGCCGCGCCGGGCAACGGCGCATCGATTGGTGGCCTGAAAGTGATGACCGACAACGGCTG GTTCGCCGCCCGACCGTCAGGTACGGAAGACGCTTACAAGATCTACTGCGAGAGCTTCCTCGGGGAAGCA CATCGCAAGCAGATCGAGAAAGAAGCGGTGGAAATCGTGAATAGCGTGCTAGCGGCGCACCAGTAGAGCA GTTGACGTACTCCGCTGAGCCGGAGTACGTCATAGTTACCCGGCGACACCAATACAGGCACCACTTTGTC AGAACATAAGGAACGGGACGCTTCGCAAAAGGTATTGCTGCGGGGACTATATGAATATCTATGTTATTAC CAATAATAATTTCATGCTTGTAGGTCTGAAATGTATGTTCAGCGACAACAGCCTCTCCGTCAACAGGGTT GTGTTTTCACGGGTCAGCGATATTGCCTTCAGCAACAGCGATGTGGTGATTGTGGAGTCAGAGCTGAACA CCGGCGATGCCGAACGTCTCAAGTACCTACACATTTCACCGGTCAATCTTATCTTTTTATTAAAACCGGC GTCAGGAATGAGCGGGACAGGGCGTGAAGCGGTATGCATTGACACTGAATTAAGCGGTAATGAATATCTC ATGATGAGGCAGGCGTTTAAAAAAATGGGGATCAATCTGAAGAGGGACAAGTTGTCATTTACCAAAAGAG AAACACATGTTATCAATATGATTTTAAATGGTTATTCGATAGATGAAATTTCCCGTAGCCTGCTGATCTC CAAAAAAACGGTTCAGTCTTTTGTCGGTATTGTTTTGCATAAACTGAATACCACCAAAATAAGTGGAATA TACCGCAAAAAAAATCTCATCATCGACAGTTTTGCCAGGAGGAGCCTGCATCGTTAGGATGCCCTATAAA CTAATGATCTGCTTATGGAAAGTCACTATTTCATATATTAAGTTTCAACTAAATTTGTTATAAATTATTT TATGTTGTTATGTTGAACGGGGTTTGATTATTGGTATGCTTCAGAAAAAATAAACATACATCATGGGTGC TAACATGATGAAAATATATGAAACTATAGTCATCAAATGATTTAAGCATACAATAAATAATATAGGATTA TATCCTCTATCTGTGAATGGTGGGCGGCAGAGGAAAAACGGGATATATATTTATGCATTTCATCTTTTTA TTATAAAAAACTGTTATGTAAATTCTGTAGCGGGAGGGGGTATGTTTAGTGAAGACGCACACTATGAATT TCTAAAAAGATATTACAGAGCGGAGTTTTTTGAAGGAAGAAATGGTTCCATTTGGGGAATAAATTATTCT TACAATTTGGCAAGGGTGGGTATGAATATGCTTGAAAGATATGGCTATGGGATAATATTAAAGCATGAAT CTATCACTGGTGAAACCATTTACTATGATCGTAGTCTGACGATACTATTTGGTGACAGAATTACACAGGC CCTGGGAGGTCAGTATTGCAACAGAGAAATGAGAGAATAATGATTTAATATATTTTTTAATCGCTCGTTA AACATTGGAACTTTTCTCAGAACGTGACTGCAATGTCTTCAACGCATCTAACATGTCGTCGCCGTTCAGT GAGCGCTGCGATTATTTCTCTGTTGGTTTTCTGCGCCGCCGCAAAGAGCCATCACCGGCAGGGATCGCCT GTGAACGGTTGTTATCGCGTTTATCCTGAACATCAATCTAAATTGAAATGTCCGCATGTAGGTTATGTTT CAGCCTTTGCCGAAGATGTCTTTACTCCGGGTCTGAAGTTGCTGCA
Region Details
| Region | 1 |
| Region Length | 36Kb |
| Completeness(score) | incomplete(30) |
| Specific Keyword | transposase |
| Region Position | 169906-205931 |
| # tRNA | 0 |
| # Total Proteins | 21 |
| # Phage Hit Proteins | 10 |
| # Hypothetical Proteins | 0 |
| Phage + Hypothetical Protein % | 47.6% |
| # Bacterial Proteins | 11 |
| Attachment Site | yes |
| # Phage Species | 5 |
| Most Common Phage Name(hit genes count) | PHAGE_Salmon_SJ46_NC_031129(4) PHAGE_Salisa_1_NC_017983(1) PHAGE_Rhodov_RS1_NC_020866(1) PHAGE_Nitrin_1M3_16_NC_024217(1) PHAGE_Deep_s_D6E_NC_019544(1) PHAGE_Rhodob_RC1_NC_020839(1) PHAGE_Pseudo_PMG1_NC_016765(1) PHAGE_Entero_mEp213_NC_019720(1) PHAGE_Burkho_KS14_NC_015273(1) PHAGE_Entero_Mu_NC_000929(1) PHAGE_Entero_HK022_NC_002166(1) PHAGE_Brocho_BL3_NC_015254(1) PHAGE_Pseudo_D3_NC_002484(1) PHAGE_Yersin_PY54_NC_005069(1) PHAGE_Pseudo_phiPSA1_NC_024365(1) PHAGE_Pectob_ZF40_NC_019522(1) PHAGE_Geobac_E2_NC_009552(1) PHAGE_Burkho_phiE125_NC_003309(1) PHAGE_Escher_pro483_NC_028943(1) PHAGE_Pseudo_JBD44_NC_030929(1) PHAGE_Clostr_vB_CpeS_CP51_NC_021325(1) |
| First Most Common Phage # | 6 |
| First Most Common Phage % | 19.04% |
| GC % | 54.64% |
| Region: | The number assigned to the region. |
| Region Length: | The length of the sequence of that region (in bp). |
| Completeness: | A prediction of whether the region contains a intact or incomplete prophage based on the above criteria. |
| Specific Keyword: | The specific phage-related keyword(s) found in protein name(s) in the region. |
| Region Position: | The start and end positions of the region on the bacterial chromosome. |
| # tRNA: | The number of tRNA genes present in the region. |
| # Total Proteins: | The number of ORFs present in the region. |
| # Phage Hit Proteins: | The number of proteins in the region with matches in the phage protein database. |
| # Hypothetical Proteins: | The number of hypothetical proteins in the region without a match in the database. |
| Phage + Hypothetical Protein %: | The combined percentage of phage proteins and hypothetical proteins in the region. |
| # Bacterial Proteins: | The number of proteins in the region with matches in the nrfilt database. |
| Attachment Site: | The putative phage attachment site. |
| # Phage Species: | The number of different phages that have similar proteins to those in the region. |
| Most Common Phage: | The phage(s) with the highest number of proteins most similar to those in the region. |
| First Most Common Phage #: | The highest number of proteins in a phage most similar to those in the region. |
| First Most Common Phage %: | The percentage of proteins in # Phage Hit Proteins that are most similar to the Most Common Phage proteins. |
| GC %: | The percentage of GC nucleotides of the region. |
Intact (score > 90)
Questionable (score 70-90)
Incomplete (score < 70)
Questionable (score 70-90)
Incomplete (score < 70)
| Region: | The number assigned to the region. |
| Region Length: | The length of the sequence of that region (in bp). |
| Completeness: | A prediction of whether the region contains a intact or incomplete prophage based on the above criteria. |
| Score: | The score of the region based on the above criteria. |
| # Total Proteins: | The number of ORFs present in the region. |
| Region Position: | The start and end positions of the region on the bacterial chromosome. |
| Most Common Phage: | The phage(s) with the highest number of proteins most similar to those in the region. |
| GC %: | The percentage of GC nucleotides of the region. |
Criteria for scoring prophage regions (as intact, questionable, or incomplete):
Method 1:
- If the number of certain phage organism in this table is more than or equal to 100% of the total number of CDS of the region, the region is marked with total score 150. If less than 100%, method 2 and 3 will be used.
- If the number of certain phage organism in this table is more than 50% of the total number of CDS of the region, that phage organism is considered as the major potential phage for that region; the percentage of the total number of that phage organism in this table in the total number of proteins of the region is calculated and then multipled by 100; the percentage of the length of that phage organism in this table in the length of the region is calculated and then multipled by 50 (phage head's encapsulation capability is considered).
- If any of the specific phage-related keywords (such as 'capsid', 'head', 'integrase', 'plate', 'tail', 'fiber', 'coat', 'transposase', 'portal', 'terminase', 'protease' or 'lysin') are present, the score will be increased by 10 for each keyword found.
- If the size of the region is greater than 30 Kb, the score will be increased by 10.
- If there are at least 40 proteins in the region, the score will be increased by 10.
- If all of the phage-related proteins and hypothetical proteins constitute more than 70% of the total number of proteins in the region, the score will be increased by 10.
If the region's total score is less than 70, it is marked as incomplete; if between 70 to 90, it is marked as questionable; if greater than 90, it is marked as intact.
gi|00000000|ref|CP011634.1| Klebsiella oxytoca strain CAV1374 plasmid pCAV1374-228, complete 227680, gc%: 53.83%
Download details as .txt file: detail.txt file_download
Hits against Virus and Prophage Database
Hits against Bacterial Database or GenBank File
Hits against Bacterial Database or GenBank File
Region 1, total 23 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | 169906..169917 | attL | 0.0 | Showinfo_outline |
| 2 | complement(170063..171742) | PROPHAGE_Brucel_1330: transposase, putative; AB185_03285; phage(gi23501616) | 1.16e-33 | Showinfo_outline |
| 3 | complement(171817..172524) | EAL domain protein; AB185_03290 | 0.0 | Showinfo_outline |
| 4 | complement(172521..172757) | mercury resistance protein; AB185_03295 | 0.0 | Showinfo_outline |
| 5 | complement(172754..173116) | transcriptional regulator MerD; AB185_03300 | 0.0 | Showinfo_outline |
| 6 | complement(173134..174831) | mercuric reductase; AB185_03305 | 0.0 | Showinfo_outline |
| 7 | complement(174870..175295) | mercury transport protein MerC; AB185_03310 | 0.0 | Showinfo_outline |
| 8 | complement(175323..175598) | mercury transporter; AB185_03315 | 0.0 | Showinfo_outline |
| 9 | complement(175614..175979) | mercuric transport protein; AB185_03320 | 0.0 | Showinfo_outline |
| 10 | 176051..176506 | MerR family transcriptional regulator; AB185_03325 | 0.0 | Showinfo_outline |
| 11 | complement(177489..177731) | replication regulatory protein; AB185_03335 | 0.0 | Showinfo_outline |
| 12 | complement(177863..178420) | endonuclease; AB185_03340 | 0.0 | Showinfo_outline |
| 13 | complement(178518..178826) | PHAGE_Entero_mEp213_NC_019720: hypothetical protein; AB185_03345; phage(gi428782634) | 4.43e-15 | Showinfo_outline |
| 14 | complement(179195..180055) | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; AB185_03350; phage(gi100066) | 5.20e-57 | Showinfo_outline |
| 15 | complement(180238..180795) | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; AB185_03355; phage(gi100036) | 2.13e-27 | Showinfo_outline |
| 16 | 180959..183964 | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; AB185_03360; phage(gi100060) | 6.12e-130 | Showinfo_outline |
| 17 | 184167..184487 | PHAGE_Pseudo_JBD44_NC_030929: anaerobic NTP reductase large subunit; AB185_03365; phage(gi100077) | 8.78e-06 | Showinfo_outline |
| 18 | 184477..185742 | toxin HipA; AB185_03370 | 0.0 | Showinfo_outline |
| 19 | complement(186258..189155) | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; AB185_03375; phage(gi100060) | 0.0 | Showinfo_outline |
| 20 | 189250..189855 | PHAGE_Clostr_vB_CpeS_CP51_NC_021325: putative resolvase; AB185_03380; phage(gi509140089) | 1.47e-21 | Showinfo_outline |
| 21 | 190152..190655 | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; AB185_03385; phage(gi100060) | 1.45e-52 | Showinfo_outline |
| 22 | 191303..192226 | PHAGE_Salmon_SJ46_NC_031129: sigma factor for late transcription; AB185_03395; phage(gi100065) | 0.0 | Showinfo_outline |
| 23 | 205931..205942 | attR | 0.0 | Showinfo_outline |
Sequence
>169906..169917
AGGGCTTCCAGC
Sequence
>complement(170063..171742)
KlebsiellaoxytocaMATDTPRIPEQGVATLPDEAWERARRRAEIISPLAQSETVGHEAADMAAQALGLSRRQVYVLIRRARQGSGLVTDLVPGQSGGGKGKGRLPEPVERVIHELLQKRFLTKQKRSLAAFHREVTQVCKAQKLRVPARNTVALRIASLDPRKVIRRREGQDAARDLQGVGGEPPAVTAPLEQVQIDHTVIDLIVVDDRDRQPIGRPYLTLAIDVFTRCVLGMVVTLEAPSAVSVGLCLVHVACDKRPWLEGLNVEMDWQMSGKPLLLYLDNAAEFKSEALRRGCEQHGIRLDYRPLGQPHYGGIVERIIGTAMQMIHDELPGTTFSNPDQRGDYDSENKAALTLRELERWLTLAVGTYHGSVHNGLLQPPAARWAEAVARVGVPAVVTRATSFLVDFLPILRRTLTRTGFVIDHIHYYADALKPWIARRERWPSFLIRRDPRDISRIWVLEPEGQHYLEIPYRTLSHPAVTLWEQRQALAKLRQQGREQVDESALFRMIGQMREIVTSAQKATRKARRDADRRQHLKTSARPDKPVPPDTDIADPQADNLPPAKPFDQIEEW
Sequence
>complement(171817..172524)
KlebsiellaoxytocaMTSSQPAGWTAAELAQAAARGQLDLHYQPLVDLRDHRIAGAEALMRWRHPRLGLLPPGQFLPLAESFGLMPEIGAWVLGEACRQMHKWQGPAWQPFRLAINVSASQVGPTFDDEVKRVLADMALPAELLEIELTESVAFGNPALFASFDALRAIGVRFAADDFGTGYSCLQHLKCCPITTLKIDQSFVARLPDDARDQTIVRAVIQLAHGLGMDVIFRRRLHQLIGRNGCCAASS
Sequence
>complement(172521..172757)
KlebsiellaoxytocaMNAPDKLPPETRQPVSGYLWGALAVLTCPCHLPILAAVLAGTTAGAFLGEHWGVAALALTGLFVLAVTRLLRAFRGGS
Sequence
>complement(172754..173116)
KlebsiellaoxytocaMSAYTVSQLAHNAGVSVHIVRDYLVRGLLRPVACTTGGYGVFDDAALQRLCFVRAAFEAGIGLDALARLCRALDAADGAQAAAQLAVLRQLVERRRAALAHLDAQLASMPAERAHEEALP
Sequence
>complement(173134..174831)
KlebsiellaoxytocaMTTLKITGMTCDSCAAHVKEALEKVPGVQSALVSYPKGTAQLAIEAGTSSDALTTAVAGLGYEATLADAPPTDNRAGLLDKMRGWIGAADKPSGNERPLQVVVIGSGGAAMAAALKAVEQGAQVTLIERGTIGGTCVNVGCVPSKIMIRAAHIAHLRRESPFDGGMPPTPPTILRERLLAQQQARVEELRHAKYEGILDGNSAITVLHGEARFKDDQSLIVSLNEGGERVVMFDRCLVATGASPAVPPIPGLKESPYWTSTEALASDTIPERLAVIGSSVVALELAQAFARLGSKVTALARNTLFFREDPAIGEAVTAAFRAEGIEVLEHTQASQVAYINGEGDGEFVLTTAHGELRADKLLVATGRAPNTRKLALDATGVTLTPQGAIVIDPGMRTSVEHIYAAGDCTDQPQFVYVAAAAGTRAAINMTGGDAALNLTAMPAVVFTDPQVATVGYSEAEAHHDGIKTDSRTLTLDNVPRALANFDTRGFIKLVVEEGSGRLIGVQAVAPEAGELIQTAALAIRNRMTVQELADQLFPYLTMVEGLKLAAQTFNKDVKQLSCCAG
Sequence
>complement(174870..175295)
KlebsiellaoxytocaMGLITRIAGKTGALGSVVSAMGCAACFPAIASFGAAIGLGFLSQYEGLFIGILLPMFAGIALLANAIAWLNHRQWRRTALGTIGPILVLAAVFLMRAYGWQSGGLLYVGLALMVGVSVWDFISPAHRRCGPDSCELPEQRG
Sequence
>complement(175323..175598)
KlebsiellaoxytocaMKKLFAALALAAVVAPVWAATQTVTLSVPGMTCASCPITVKHALSKVEGVSKTDVSFDKRQAVVTFDDAKTNVQKLTKATEDAGYPSSLKR
Sequence
>complement(175614..175979)
KlebsiellaoxytocaMSEPQKSEPQNGRGALFAGGLAAILASACCLGPLVLIALGFSGAWIGNLTVLEPYRPIFIGAALVALFFAWRRIYRPAQACKPGEVCAIPQVRATYKLIFWIVAALVLVSLGFPYVMPFFY
Sequence
>176051..176506
KlebsiellaoxytocaMQINFENLTIGVFAKAAGVNVETIRFYQRKGLLPEPDKPYGSIRRYGEADVTRVRFVKSAQRLGFSLDEIAELLRLEDGTHCEEASGLAEHKLKDVREKMADLARMEAVLSELVCACHARKGNVSCPLIASLQDGTKLAASARGSHGVTTP
Sequence
>complement(177489..177731)
KlebsiellaoxytocaMSQIDNAVTSSSKRAYRKGTPLSVSERKMRSVSRKRETHKPVNVFIQNSHKDKLDAFCQENGLTQAEAIELLIKRELLGE
Sequence
>complement(177863..178420)
KlebsiellaoxytocaMKVNRTLLRWCLPGLVSLSLCAPIPAVYAANIETGFSPEGTGLQLVLKTITTAQQEIRLMGYSFTSPDVAGALVRARQRGVDVKVVLDHKANTGERNKASRAAMNLLVSAGIPVRTVDAYKILHDKVIIADGRNTEVGSFNFSRAADRANSENVLVVWDDPAVAGRYLQHWSSRWSQGTDWKQTY
Sequence
>complement(178518..178826)
KlebsiellaoxytocaMIVPVEVDRDARGYWTHPALIRSCCQTTPQLMWWLRVQKLECFVMSMRDEATEAFCAGWDDGPSDASAWELVPPPGKGWFLGSVHPREEGPECYWFRHTTKA
Sequence
>complement(179195..180055)
KlebsiellaoxytocaMSIQHFRVALIPFFAAFCLPVFAHPETLVKVKDAEDQLGARVGYIELDLNSGKILESFRPEERFPMMSTFKVLLCGAVLSRVDAGQEQLGRRIHYSQNDLVEYSPVTEKHLTDGMTVRELCSAAITMSDNTAANLLLTTIGGPKELTAFLHNMGDHVTRLDRWEPELNEAIPNDERDTTMPAAMATTLRKLLTGELLTLASRQQLIDWMEADKVAGPLLRSALPAGWFIADKSGAGERGSRGIIAALGPDGKPSRIVVIYTTGSQATMDERNRQIAEIGASLIKHW
Sequence
>complement(180238..180795)
KlebsiellaoxytocaMRLFGYARVSTSQQSLDLQVRALKDAGVKANRIFTDKASGSSTDREGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVAVRFIDDGISTDGDMGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERAS
Sequence
>180959..183964
KlebsiellaoxytocaMPVDFLTTEQTESYGRFTGEPDELQLARYFHLDEADKEFIGKSRGDHNRLGIALQIGCVRFLGTFLTDMNHIPSGVRHFTARQLGIRDITVLAEYGQRENTRREHAALIRQHYQYREFAWPWTFRLTRLLYTRSWISNERPGLLFDLATGWLMQHRIILPGATTLTRLISEVREKATLRLWNKLALIPSAEQRSQLEMLLGPTDCSRLSLLESLKKGPVTISGPAFNEAIERWKTLNDFGLHAENLSTLPAVRLKNLARYAGMTSVFNIARMSPQKRMAVLVAFVLAWETLALDDALDVLDAMLAVIIRDARKIGQKKRLRSLKDLDKSALALASACSYLLKEETPDESIRAEVFSYIPRQKLAEIITLVREIARPSDDNFHEEMVEQYGRVRRFLPHLLNTVKFSSAPAGVTTLNACDYLSREFSSRRQFFDDAPTEIISRSWKRLVINKEKHITRRGYTLCFLSKLQDSLRRRDVYVTGSNRWGDPRARLLQGADWQANRIKVYRSLGHPTDPQEAIKSLGHQLDSRYRQVAARLCENEAVELDVSGPKPRLTISPLASLDEPDSLKRLSKMISDLLPPVDLTELLLEINAHTGFADEFFHASEASARVDDLPVSISAVLMAEACNIGLEPLIRSNVPALTRHRLNWTKANYLRAETITSANARLVDFQATLPLAQIWGGGEVASADGMRFVTPVRTINAGPNRKYFGNNRGITWYNFVSDQYSGFHGIVIPGTLRDSIFVLEGLLEQETGLNPTEIMTDTAGASELVFGLFWLLGYQFSPRLADAGASVFWRMDHDADYGVLNDIARGQSDPRKIVLQWDEMIRTAGSLKLGKVQVSVLVRSLLKSERPSGLTQAIIEVGRINKTLYLLNYIDDEDYRRRILTQLNRGESRHAVARAICHGQKGEIRKRYTDGQEDQLGTLGLVTNAVVLWNTIYMQAALDHLRAQGETLNDEDIARLSPLCHGHINMLGHYSFTLAELVTKGHLRPLKEASEAENVA
Sequence
>184167..184487
KlebsiellaoxytocaMLDLSFAKPDEMVSLLCDRLRKERINQQMTQSELAKRAGIGVNTLSNLESGKNTGFENIIRVAMVLGRTAELEGLFKPRLESLEDLRRYESTLTRKRIRSKGGHNE
Sequence
>184477..185742
KlebsiellaoxytocaMMNSIEVFYEGWGERWLWGTLVSTTALTGRPVIVFEYSPAAREKGLELARYTLPLSGPSLRREFPQHQLGLPGPVYDSLPDGWGMLLMDRLFRKRGLSSARIGPLERLTYIGSNAMGAMSYMPASPDVLSVQDNIPISQLAAEVHEVLKGEGGEFLNRLLLMGGSPQGARPKALLYRHSGTGEFTTVPALGHEPWLIKFPARQEHPEVCAVEMIYAQCLRECGIDTPETEYFELPGEQAAFATRRFDRERGMKVPMQSLAAFTGANYQVPGSMDYASFLRATQLCTNDVREKKRAFERVVFNVIFNNRDDHPKNFAYLMSANGNWSLAPAFDITFCDGPGGYHQMDVMGEALTIEHKHLMTLGIREAELDENQVNEVIDRIASVATTFSEKCHEHLPGKVTRDTMSYIQTRIDENISSIKS
Sequence
>complement(186258..189155)
KlebsiellaoxytocaMSRRHIFTERQRAALFDLPTDELSLLKFYTLGDDDLENIRQRRRPENRIGFALQLCALRYPGRALAPGEMIPREVLSFVGAQLGVPADALLTYATRRQTRQQHMDTLREIYGYKTFTGRGARDLREWTFGQAEDARSNEDLAHRFIVRCRETSTILPAVSTIERLCADALVAAERRIETRIAENLTADVRDHLDKLLSEMLAGNISRFIWLRNFEVGNNSAAANRLLDRLEFLRTLNINHSALASIPAHRIARLRRQGERYFTDGLRDITSDRRWAILAVCVVEWEAAIADAIVETHDRIVGKTWREAKRQHDETISGSKATLTDTIRTFTALGASLLEARSDGTPLEMAVASSVAWDRLAQLVATGTQLSNTLADEPLAYVGQGYHRFRRYAPRMLRCLKLEAAPVAGPLVAAALSIGEMKGVASPERRFLRPSSKWNRHLRAQEKGDTRLWEVAVLFHLRDAFRSGDVWLAHSRRYGDLKQVLVPMIAAQENAKLAVPSNPQDWLADRKARLTIALKRLARAARNGTIPHGSIEDGTLRIDRLTADVPDGAEALILDLYRRMPSVRITDMLLEVDAALGFTDAFTHLRTGAPCRDRIGLLNVLLAEGLNLGLRKMAEATNTHDYWQLSRLARWHVESEAMNQALAIVVAAQGKLPMSRVWGMGTSASSDGQFFPTARHGEVMNMVNAKYGSVPGLKAYTHVSDQFAPFACQSIPATVSEAPYILDGLLMNEVGRHVREQYADTAGFTDHLFGASSLLGYNLVLRIRDLPSKRLYVFNPDTTPRELRKLVGGKAREDLIVANWPDIFRCAATMTAGKIRPSQLLRKLASYPRQNNLAVALREVGRIERTLFIIEWILDTDMQRRAQIGLNKGEAHHALKNALRIGRQGEIRDRTTEGQHYRIAGLNLLTAVIIYWNTVHLGHAVTERRNEGLDVPPEFLPHISPLGWAHILLTGEYLWPKEPKA
Sequence
>189250..189855
KlebsiellaoxytocaMGHRAAIYCRVSTADQSCERQEFDLRAFAGRAGYDVVGIFKETGSGTKLDRAERKKVLALAQSRQIDAILVTELSRWGRSTLDLLNTLRELENWKVSVIAMNGMAFDLSSPYGRMLATFLSGIAEFERDLISERVKSGLAVAKARGKRLGRQAGVRPKSDRLLPKVVAMRAEGRSYRWIARELGISKNTVADIVQRHRANA
Sequence
>190152..190655
KlebsiellaoxytocaMPQSGIQKTGCALLASPPNGNTVVFTDLASYPKQNGLAKALREIGRIERKLFMLDWFRDPALRRRVQAGLNKGEARNALACAVFLHRLGEIRDRKPENQSYRASGLTAAISLWNTVYMERTIDALKRKGVKSNEQLLSHLSPLGWEHINMTGDYIWISNRLPVSFVG
Sequence
>191303..192226
KlebsiellaoxytocaMAKQKFKITNWPTYNKALINRGSITFWLDDEAIQAWYESATPSSRGRPQRYSDLAITTVLVIKRVFRLTLRAAQGFIDSIFSLMNVPLRCPDYSCVSRRAKSVNVSFKTPTRGEIAHLVIDSTGLKVFGEGEWKVKKHGQERRRIWRKLHLAVDSKTHEIICADLSLNNVTDSEAFPGLIRQTHRKIRAASADGAYDTRLCHDELRRKKISALIPPRKGAGYWPGEYADRNRAVANQRMTGSNARWKWTTDYNRRSIAETAMYRVKQLFGGSLTLRDYDGQVAEAMALVRALNKMTKAGMPESVRIA
Sequence
>205931..205942
AGGGCTTCCAGC
Click on a region to see details.
Intact (score > 90)
Questionable (score 70-90)
Incomplete (score < 70)
Viewer Options
Questionable (score 70-90)
Incomplete (score < 70)
Viewer Options
Length: 227680 bps
Phages: 1
arrow_upwardarrow_upwardarrow_upward
Click on a region in the genome above to show details here.
Click on a region in the genome above to show details here.
Viewer Options
Click on a sequence to see details.
Locus 1: attL (Region 1)
Locus: attLORF Start: 169906
ORF Stop: 169917
Strand: Forward
Protein Sequence: AGGGCTTCCAGC
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 2: AB185_03285 (Region 1)
Locus: AB185_03285ORF Start: 170063
ORF Stop: 171742
Strand: Backward
Protein Sequence: MATDTPRIPEQGVATLPDEAWERARRRAEIISPLAQSETVGHEAADMAAQALGLSRRQVYVLIRRARQGSGLVTDLVPGQSGGGKGKGRLPEPVERVIHELLQKRFLTKQKRSLAAFHREVTQVCKAQKLRVPARNTVALRIASLDPRKVIRRREGQDAARDLQGVGGEPPAVTAPLEQVQIDHTVIDLIVVDDRDRQPIGRPYLTLAIDVFTRCVLGMVVTLEAPSAVSVGLCLVHVACDKRPWLEGLNVEMDWQMSGKPLLLYLDNAAEFKSEALRRGCEQHGIRLDYRPLGQPHYGGIVERIIGTAMQMIHDELPGTTFSNPDQRGDYDSENKAALTLRELERWLTLAVGTYHGSVHNGLLQPPAARWAEAVARVGVPAVVTRATSFLVDFLPILRRTLTRTGFVIDHIHYYADALKPWIARRERWPSFLIRRDPRDISRIWVLEPEGQHYLEIPYRTLSHPAVTLWEQRQALAKLRQQGREQVDESALFRMIGQMREIVTSAQKATRKARRDADRRQHLKTSARPDKPVPPDTDIADPQADNLPPAKPFDQIEEW
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: AB185_03285, transposase, putative, phage(gi23501616), PROPHAGE_Brucel_1330
Homolog/Ortholog E-Value: 1.16e-33
Locus 3: AB185_03290 (Region 1)
Locus: AB185_03290ORF Start: 171817
ORF Stop: 172524
Strand: Backward
Protein Sequence: MTSSQPAGWTAAELAQAAARGQLDLHYQPLVDLRDHRIAGAEALMRWRHPRLGLLPPGQFLPLAESFGLMPEIGAWVLGEACRQMHKWQGPAWQPFRLAINVSASQVGPTFDDEVKRVLADMALPAELLEIELTESVAFGNPALFASFDALRAIGVRFAADDFGTGYSCLQHLKCCPITTLKIDQSFVARLPDDARDQTIVRAVIQLAHGLGMDVIFRRRLHQLIGRNGCCAASS
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03290, EAL domain protein
Homolog/Ortholog E-Value: N/A
Locus 4: AB185_03295 (Region 1)
Locus: AB185_03295ORF Start: 172521
ORF Stop: 172757
Strand: Backward
Protein Sequence: MNAPDKLPPETRQPVSGYLWGALAVLTCPCHLPILAAVLAGTTAGAFLGEHWGVAALALTGLFVLAVTRLLRAFRGGS
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03295, mercury resistance protein
Homolog/Ortholog E-Value: N/A
Locus 5: AB185_03300 (Region 1)
Locus: AB185_03300ORF Start: 172754
ORF Stop: 173116
Strand: Backward
Protein Sequence: MSAYTVSQLAHNAGVSVHIVRDYLVRGLLRPVACTTGGYGVFDDAALQRLCFVRAAFEAGIGLDALARLCRALDAADGAQAAAQLAVLRQLVERRRAALAHLDAQLASMPAERAHEEALP
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03300, transcriptional regulator MerD
Homolog/Ortholog E-Value: N/A
Locus 6: AB185_03305 (Region 1)
Locus: AB185_03305ORF Start: 173134
ORF Stop: 174831
Strand: Backward
Protein Sequence: MTTLKITGMTCDSCAAHVKEALEKVPGVQSALVSYPKGTAQLAIEAGTSSDALTTAVAGLGYEATLADAPPTDNRAGLLDKMRGWIGAADKPSGNERPLQVVVIGSGGAAMAAALKAVEQGAQVTLIERGTIGGTCVNVGCVPSKIMIRAAHIAHLRRESPFDGGMPPTPPTILRERLLAQQQARVEELRHAKYEGILDGNSAITVLHGEARFKDDQSLIVSLNEGGERVVMFDRCLVATGASPAVPPIPGLKESPYWTSTEALASDTIPERLAVIGSSVVALELAQAFARLGSKVTALARNTLFFREDPAIGEAVTAAFRAEGIEVLEHTQASQVAYINGEGDGEFVLTTAHGELRADKLLVATGRAPNTRKLALDATGVTLTPQGAIVIDPGMRTSVEHIYAAGDCTDQPQFVYVAAAAGTRAAINMTGGDAALNLTAMPAVVFTDPQVATVGYSEAEAHHDGIKTDSRTLTLDNVPRALANFDTRGFIKLVVEEGSGRLIGVQAVAPEAGELIQTAALAIRNRMTVQELADQLFPYLTMVEGLKLAAQTFNKDVKQLSCCAG
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03305, mercuric reductase
Homolog/Ortholog E-Value: N/A
Locus 7: AB185_03310 (Region 1)
Locus: AB185_03310ORF Start: 174870
ORF Stop: 175295
Strand: Backward
Protein Sequence: MGLITRIAGKTGALGSVVSAMGCAACFPAIASFGAAIGLGFLSQYEGLFIGILLPMFAGIALLANAIAWLNHRQWRRTALGTIGPILVLAAVFLMRAYGWQSGGLLYVGLALMVGVSVWDFISPAHRRCGPDSCELPEQRG
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03310, mercury transport protein MerC
Homolog/Ortholog E-Value: N/A
Locus 8: AB185_03315 (Region 1)
Locus: AB185_03315ORF Start: 175323
ORF Stop: 175598
Strand: Backward
Protein Sequence: MKKLFAALALAAVVAPVWAATQTVTLSVPGMTCASCPITVKHALSKVEGVSKTDVSFDKRQAVVTFDDAKTNVQKLTKATEDAGYPSSLKR
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03315, mercury transporter
Homolog/Ortholog E-Value: N/A
Locus 9: AB185_03320 (Region 1)
Locus: AB185_03320ORF Start: 175614
ORF Stop: 175979
Strand: Backward
Protein Sequence: MSEPQKSEPQNGRGALFAGGLAAILASACCLGPLVLIALGFSGAWIGNLTVLEPYRPIFIGAALVALFFAWRRIYRPAQACKPGEVCAIPQVRATYKLIFWIVAALVLVSLGFPYVMPFFY
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03320, mercuric transport protein
Homolog/Ortholog E-Value: N/A
Locus 10: AB185_03325 (Region 1)
Locus: AB185_03325ORF Start: 176051
ORF Stop: 176506
Strand: Forward
Protein Sequence: MQINFENLTIGVFAKAAGVNVETIRFYQRKGLLPEPDKPYGSIRRYGEADVTRVRFVKSAQRLGFSLDEIAELLRLEDGTHCEEASGLAEHKLKDVREKMADLARMEAVLSELVCACHARKGNVSCPLIASLQDGTKLAASARGSHGVTTP
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03325, MerR family transcriptional regulator
Homolog/Ortholog E-Value: N/A
Locus 11: AB185_03335 (Region 1)
Locus: AB185_03335ORF Start: 177489
ORF Stop: 177731
Strand: Backward
Protein Sequence: MSQIDNAVTSSSKRAYRKGTPLSVSERKMRSVSRKRETHKPVNVFIQNSHKDKLDAFCQENGLTQAEAIELLIKRELLGE
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03335, replication regulatory protein
Homolog/Ortholog E-Value: N/A
Locus 12: AB185_03340 (Region 1)
Locus: AB185_03340ORF Start: 177863
ORF Stop: 178420
Strand: Backward
Protein Sequence: MKVNRTLLRWCLPGLVSLSLCAPIPAVYAANIETGFSPEGTGLQLVLKTITTAQQEIRLMGYSFTSPDVAGALVRARQRGVDVKVVLDHKANTGERNKASRAAMNLLVSAGIPVRTVDAYKILHDKVIIADGRNTEVGSFNFSRAADRANSENVLVVWDDPAVAGRYLQHWSSRWSQGTDWKQTY
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03340, endonuclease
Homolog/Ortholog E-Value: N/A
Locus 13: AB185_03345 (Region 1)
Locus: AB185_03345ORF Start: 178518
ORF Stop: 178826
Strand: Backward
Protein Sequence: MIVPVEVDRDARGYWTHPALIRSCCQTTPQLMWWLRVQKLECFVMSMRDEATEAFCAGWDDGPSDASAWELVPPPGKGWFLGSVHPREEGPECYWFRHTTKA
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: AB185_03345, hypothetical protein, phage(gi428782634), PHAGE_Entero_mEp213_NC_019720
Homolog/Ortholog E-Value: 4.43e-15
Locus 14: AB185_03350 (Region 1)
Locus: AB185_03350ORF Start: 179195
ORF Stop: 180055
Strand: Backward
Protein Sequence: MSIQHFRVALIPFFAAFCLPVFAHPETLVKVKDAEDQLGARVGYIELDLNSGKILESFRPEERFPMMSTFKVLLCGAVLSRVDAGQEQLGRRIHYSQNDLVEYSPVTEKHLTDGMTVRELCSAAITMSDNTAANLLLTTIGGPKELTAFLHNMGDHVTRLDRWEPELNEAIPNDERDTTMPAAMATTLRKLLTGELLTLASRQQLIDWMEADKVAGPLLRSALPAGWFIADKSGAGERGSRGIIAALGPDGKPSRIVVIYTTGSQATMDERNRQIAEIGASLIKHW
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: AB185_03350, hypothetical protein, phage(gi100066), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 5.20e-57
Locus 15: AB185_03355 (Region 1)
Locus: AB185_03355ORF Start: 180238
ORF Stop: 180795
Strand: Backward
Protein Sequence: MRLFGYARVSTSQQSLDLQVRALKDAGVKANRIFTDKASGSSTDREGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVAVRFIDDGISTDGDMGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERAS
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: AB185_03355, hypothetical protein, phage(gi100036), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 2.13e-27
Locus 16: AB185_03360 (Region 1)
Locus: AB185_03360ORF Start: 180959
ORF Stop: 183964
Strand: Forward
Protein Sequence: MPVDFLTTEQTESYGRFTGEPDELQLARYFHLDEADKEFIGKSRGDHNRLGIALQIGCVRFLGTFLTDMNHIPSGVRHFTARQLGIRDITVLAEYGQRENTRREHAALIRQHYQYREFAWPWTFRLTRLLYTRSWISNERPGLLFDLATGWLMQHRIILPGATTLTRLISEVREKATLRLWNKLALIPSAEQRSQLEMLLGPTDCSRLSLLESLKKGPVTISGPAFNEAIERWKTLNDFGLHAENLSTLPAVRLKNLARYAGMTSVFNIARMSPQKRMAVLVAFVLAWETLALDDALDVLDAMLAVIIRDARKIGQKKRLRSLKDLDKSALALASACSYLLKEETPDESIRAEVFSYIPRQKLAEIITLVREIARPSDDNFHEEMVEQYGRVRRFLPHLLNTVKFSSAPAGVTTLNACDYLSREFSSRRQFFDDAPTEIISRSWKRLVINKEKHITRRGYTLCFLSKLQDSLRRRDVYVTGSNRWGDPRARLLQGADWQANRIKVYRSLGHPTDPQEAIKSLGHQLDSRYRQVAARLCENEAVELDVSGPKPRLTISPLASLDEPDSLKRLSKMISDLLPPVDLTELLLEINAHTGFADEFFHASEASARVDDLPVSISAVLMAEACNIGLEPLIRSNVPALTRHRLNWTKANYLRAETITSANARLVDFQATLPLAQIWGGGEVASADGMRFVTPVRTINAGPNRKYFGNNRGITWYNFVSDQYSGFHGIVIPGTLRDSIFVLEGLLEQETGLNPTEIMTDTAGASELVFGLFWLLGYQFSPRLADAGASVFWRMDHDADYGVLNDIARGQSDPRKIVLQWDEMIRTAGSLKLGKVQVSVLVRSLLKSERPSGLTQAIIEVGRINKTLYLLNYIDDEDYRRRILTQLNRGESRHAVARAICHGQKGEIRKRYTDGQEDQLGTLGLVTNAVVLWNTIYMQAALDHLRAQGETLNDEDIARLSPLCHGHINMLGHYSFTLAELVTKGHLRPLKEASEAENVA
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: AB185_03360, hypothetical protein, phage(gi100060), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 6.12e-130
Locus 17: AB185_03365 (Region 1)
Locus: AB185_03365ORF Start: 184167
ORF Stop: 184487
Strand: Forward
Protein Sequence: MLDLSFAKPDEMVSLLCDRLRKERINQQMTQSELAKRAGIGVNTLSNLESGKNTGFENIIRVAMVLGRTAELEGLFKPRLESLEDLRRYESTLTRKRIRSKGGHNE
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: AB185_03365, anaerobic NTP reductase large subunit, phage(gi100077), PHAGE_Pseudo_JBD44_NC_030929
Homolog/Ortholog E-Value: 8.78e-06
Locus 18: AB185_03370 (Region 1)
Locus: AB185_03370ORF Start: 184477
ORF Stop: 185742
Strand: Forward
Protein Sequence: MMNSIEVFYEGWGERWLWGTLVSTTALTGRPVIVFEYSPAAREKGLELARYTLPLSGPSLRREFPQHQLGLPGPVYDSLPDGWGMLLMDRLFRKRGLSSARIGPLERLTYIGSNAMGAMSYMPASPDVLSVQDNIPISQLAAEVHEVLKGEGGEFLNRLLLMGGSPQGARPKALLYRHSGTGEFTTVPALGHEPWLIKFPARQEHPEVCAVEMIYAQCLRECGIDTPETEYFELPGEQAAFATRRFDRERGMKVPMQSLAAFTGANYQVPGSMDYASFLRATQLCTNDVREKKRAFERVVFNVIFNNRDDHPKNFAYLMSANGNWSLAPAFDITFCDGPGGYHQMDVMGEALTIEHKHLMTLGIREAELDENQVNEVIDRIASVATTFSEKCHEHLPGKVTRDTMSYIQTRIDENISSIKS
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: AB185_03370, toxin HipA
Homolog/Ortholog E-Value: N/A
Locus 19: AB185_03375 (Region 1)
Locus: AB185_03375ORF Start: 186258
ORF Stop: 189155
Strand: Backward
Protein Sequence: MSRRHIFTERQRAALFDLPTDELSLLKFYTLGDDDLENIRQRRRPENRIGFALQLCALRYPGRALAPGEMIPREVLSFVGAQLGVPADALLTYATRRQTRQQHMDTLREIYGYKTFTGRGARDLREWTFGQAEDARSNEDLAHRFIVRCRETSTILPAVSTIERLCADALVAAERRIETRIAENLTADVRDHLDKLLSEMLAGNISRFIWLRNFEVGNNSAAANRLLDRLEFLRTLNINHSALASIPAHRIARLRRQGERYFTDGLRDITSDRRWAILAVCVVEWEAAIADAIVETHDRIVGKTWREAKRQHDETISGSKATLTDTIRTFTALGASLLEARSDGTPLEMAVASSVAWDRLAQLVATGTQLSNTLADEPLAYVGQGYHRFRRYAPRMLRCLKLEAAPVAGPLVAAALSIGEMKGVASPERRFLRPSSKWNRHLRAQEKGDTRLWEVAVLFHLRDAFRSGDVWLAHSRRYGDLKQVLVPMIAAQENAKLAVPSNPQDWLADRKARLTIALKRLARAARNGTIPHGSIEDGTLRIDRLTADVPDGAEALILDLYRRMPSVRITDMLLEVDAALGFTDAFTHLRTGAPCRDRIGLLNVLLAEGLNLGLRKMAEATNTHDYWQLSRLARWHVESEAMNQALAIVVAAQGKLPMSRVWGMGTSASSDGQFFPTARHGEVMNMVNAKYGSVPGLKAYTHVSDQFAPFACQSIPATVSEAPYILDGLLMNEVGRHVREQYADTAGFTDHLFGASSLLGYNLVLRIRDLPSKRLYVFNPDTTPRELRKLVGGKAREDLIVANWPDIFRCAATMTAGKIRPSQLLRKLASYPRQNNLAVALREVGRIERTLFIIEWILDTDMQRRAQIGLNKGEAHHALKNALRIGRQGEIRDRTTEGQHYRIAGLNLLTAVIIYWNTVHLGHAVTERRNEGLDVPPEFLPHISPLGWAHILLTGEYLWPKEPKA
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: AB185_03375, hypothetical protein, phage(gi100060), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 0.0
Locus 20: AB185_03380 (Region 1)
Locus: AB185_03380ORF Start: 189250
ORF Stop: 189855
Strand: Forward
Protein Sequence: MGHRAAIYCRVSTADQSCERQEFDLRAFAGRAGYDVVGIFKETGSGTKLDRAERKKVLALAQSRQIDAILVTELSRWGRSTLDLLNTLRELENWKVSVIAMNGMAFDLSSPYGRMLATFLSGIAEFERDLISERVKSGLAVAKARGKRLGRQAGVRPKSDRLLPKVVAMRAEGRSYRWIARELGISKNTVADIVQRHRANA
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: AB185_03380, putative resolvase, phage(gi509140089), PHAGE_Clostr_vB_CpeS_CP51_NC_021325
Homolog/Ortholog E-Value: 1.47e-21
Locus 21: AB185_03385 (Region 1)
Locus: AB185_03385ORF Start: 190152
ORF Stop: 190655
Strand: Forward
Protein Sequence: MPQSGIQKTGCALLASPPNGNTVVFTDLASYPKQNGLAKALREIGRIERKLFMLDWFRDPALRRRVQAGLNKGEARNALACAVFLHRLGEIRDRKPENQSYRASGLTAAISLWNTVYMERTIDALKRKGVKSNEQLLSHLSPLGWEHINMTGDYIWISNRLPVSFVG
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: AB185_03385, hypothetical protein, phage(gi100060), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 1.45e-52
Locus 22: AB185_03395 (Region 1)
Locus: AB185_03395ORF Start: 191303
ORF Stop: 192226
Strand: Forward
Protein Sequence: MAKQKFKITNWPTYNKALINRGSITFWLDDEAIQAWYESATPSSRGRPQRYSDLAITTVLVIKRVFRLTLRAAQGFIDSIFSLMNVPLRCPDYSCVSRRAKSVNVSFKTPTRGEIAHLVIDSTGLKVFGEGEWKVKKHGQERRRIWRKLHLAVDSKTHEIICADLSLNNVTDSEAFPGLIRQTHRKIRAASADGAYDTRLCHDELRRKKISALIPPRKGAGYWPGEYADRNRAVANQRMTGSNARWKWTTDYNRRSIAETAMYRVKQLFGGSLTLRDYDGQVAEAMALVRALNKMTKAGMPESVRIA
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: AB185_03395, sigma factor for late transcription, phage(gi100065), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 0.0
Locus 23: attR (Region 1)
Locus: attRORF Start: 205931
ORF Stop: 205942
Strand: Forward
Protein Sequence: AGGGCTTCCAGC
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attR
Homolog/Ortholog E-Value: N/A
Lysis
Terminase
Portal Protein
Terminase
Portal Protein
Protease
Coat Protein
Tail Shaft
Coat Protein
Tail Shaft
Attachment Site
Integrase
Phage-like Protein
Integrase
Phage-like Protein
Hypotheical Protein
Other
Transposase
Other
Transposase
Fiber Protein
Plate Protein
tRNA
Plate Protein
tRNA
Download data as .txt file: png_input file_download