Submission Results
Sequence Name: Not Available
GenBank Accession Number: 1139488950
GenInfo (GI) Number: 0000000000
Download Results: 1139488950.PHASTER.zip
gi|00000000|ref|KY128483.1| Klebsiella oxytoca strain 97_38 plasmid pKm38_N, complete 68763, gc%: 53.13%
Download summary as .txt file: summary.txt file_download
Total: 1 prophage regions have been identified, of which 0 regions are intact, 0 regions are incomplete, and 1 regions are questionable.
| Region | Region Length | Completeness | Score | # Total Proteins | Region Position | Most Common Phage | GC % | Details |
|---|---|---|---|---|---|---|---|---|
| 1 | 31.5Kb | questionable | 70 | 12 | 23968-55512 info_outline | PHAGE_Salmon_SJ46_NC_031129(4) | 55.22% | Show info_outline |
Region DNA
>1 23968-55512 TTAAGCAACGTTTTCTGCCTCTGACGCCTCTTTTAATGGTCTCAGATGTCCTTTGGTCACCAGTTCTGCC AGCGTGAAGGAATAATGGCCGAGCATATTGATATGTCCGTGGCAAAGCGGGGAGAGGCGTGCGATATCTT CATCATTCAGTGTTTCACCCTGCGCCCGGAGATGATCCAGGGCTGCCTGCATATAAATAGTGTTCCATAA CACGACGGCGTTAGTGACCAGCCCCAGTGTGCCCAGTTGATCTTCCTGACCGTCGGTATATCGTTTTCTT ATCTCACCTTTTTGACCGTGACAGATGGCTCTGGCAACGGCATGGCGACTTTCTCCCCGATTAAGCTGGG TCAGAATGCGCCGGCGGTAATCTTCATCATCAATATAATTAAGCAGATACAGCGTTTTGTTGATGCGCCC CACTTCAATGATTGCCTGAGTCAGTCCGGAAGGACGTTCACTTTTCAGCAATGAACGGACCAGCACTGAA ACCTGTACTTTGCCCAGCTTCAGGGAGCCAGCGGTCCGGATCATTTCGTCCCACTGAAGGACTATTTTTC GGGGATCTGATTGCCCTCTGGCAATATCATTCAGCACGCCATAGTCGGCATCATGGTCCATTCGCCAGAA AACCGAAGCACCGGCATCAGCCAGGCGTGGAGAAAACTGGTATCCCAGCAGCCAGAAAAGGCCAAAGACA AGTTCGCTGGCACCTGCTGTATCGGTCATAATTTCGGTTGGATTCAGCCCGGTCTCCTGTTCCAGAAGAC CTTCCAGCACAAAGATAGAGTCCCTCAGCGTCCCCGGTATAACGATGCCATGAAAGCCGGAATACTGATC GGACACAAAGTTGTACCAGGTGATCCCTCTGTTATTACCAAAGTATTTGCGGTTCGGTCCGGCATTGATT GTTCTGACTGGCGTAACAAAGCGCATTCCATCTGCAGATGCCACTTCTCCTCCACCCCATATCTGTGCCA GTGGCAGCGTTGCCTGAAAATCAACCAGTCTGGCATTAGCGCTGGTGATAGTTTCAGCCCGCAGATAGTT CGCTTTTGTCCAGTTCAGCCGGTGTCGGGTCAGTGCAGGAACATTTGATCTGATCAGTGGTTCCAGACCG ATATTGCAGGCTTCAGCCATCAGCACGGCGCTGATGCTGACGGGCAGATCATCAACTCTGGCACTGGCTT CACTGGCATGGAAAAACTCATCAGCAAATCCGGTATGGGCGTTAATTTCGAGCAGCAACTCCGTTAAATC CACCGGAGGGAGTAGATCACTGATCATTTTGCTCAGTCGTTTCAGACTGTCCGGCTCATCAAGACTGGCG AGGGGAGAAATTGTCAACCGGGGCTTCGGGCCAGAAACATCGAGTTCGACAGCCTCATTTTCGCAAAGAC GTGCAGCAACCTGTCTGTAACGACTATCAAGCTGATGACCCAGAGATTTTATTGCTTCCTGCGGGTCTGT CGGGTGCCCCAAAGAACGATAAACCTTAATCCGGTTTGCCTGCCAGTCAGCACCCTGTAGTAATCTTGCA CGAGGATCTCCCCACCGGTTACTGCCGGTAACGTAGACATCCCTCCGCCTCAGACTATCCTGCAGTTTAC TGAGAAAGCAGAGCGTGTATCCCCTGCGGGTGATATGTTTTTCCTTGTTAATCACCAGCCGTTTCCATGA CCGACTGATAATTTCCGTTGGTGCGTCGTCAAAAAACTGCCGCCGTGAGCTGAACTCCCGGCTGAGGTAG TCACAGGCATTCAGAGTGGTAACCCCGGCAGGTGCGGATGAAAATTTAACGGTATTCAGCAGATGGGGCA GGAAACGACGAACGCGCCCGTACTGCTCCACCATTTCTTCATGAAAATTATCGTCTGAGGGCCGGGCAAT TTCACGGACAAGCGTGATGATTTCAGCCAGCTTTTGCCTTGGGATGTAGCTGAACACCTCAGCACGAATC GATTCGTCCGGTGTTTCTTCTTTCAGCAGGTACGAACATGCGCTGGCGAGCGCCAATGCAGATTTATCCA GATCCTTCAGCGAGCGGAGCCGTTTTTTCTGCCCAATCTTTCTGGCGTCACGGATGATAACGGCCAGCAT GGCGTCCAGAACGGGGGGGTAAGCGGGAACCCCAGAAAATTCCGCCATTCCGCATTGTGGAATTTTTTGG GGGGGTGGTCCGCGGCATGACGACCCGCCAAAGGCTACCGCATCTATCTGAGGCGCTGTGGCGCGACGCT GAAACCCCGGGGAATTCCGCTACTCCAGTTCCAGGTCCGCAATAGTTCGTCCAGGTCGGGTGGCGTACGC CGGAAACGCCGATTTTTCCGCAACCGTTTCTGCGTTGTCGGCAAGGTGGTCTCAGAGAGCGCTCAAGAAG CGGTTTTTCTCGTATGTTTAGCTACGGTGGCCTAGGAGCCTGCGCGGCAGAAGCCAAATCGGCGGAAGAT CGAGGACGATACGGGGATGGCTGCCAGTTACCTTCCTTACCGACCCGACCAATCCTATCTGCTGCCCCCT TCTCTGGGAGAGTGGCTACCTGAAGGGCATCTTGCCTACTTCATCAGCGAGACTGTCGATACGCTGGACT TGAGCGCATTCCACGCCCGGTATGCCGGCGGTGGTCCGGGCAATCAGCCGTTTCATCCGGCGATGATGGT CAAAGTGCTGATCTATGGTTACGCGAGCGGCGTCTTCTCTTCGCGCAAACTAGCCAGGAAGCTGTACGAG GATGTCGCGTTGCGTGTGCTGGCCGCTGGAAACTTCCCGGCCCACCGCACGCTGAGTGACTTCCGTGCCC TACACCTGACCGAGCTTGAGAATTTGTTCGTTCAGGTGGTGCAACTGGCGCGCGAATGTGGGCTGGTGAA GCTTGGCACGATCGCGGTCGACGGCACCAAGGTAAAAGCCAACGCCAGCCGCCACAAGGCGATGAGCTAT AAGCGCATGAAGCCGGCCGAGGACGAATTGCATTGCGAGATCAAGGCGCTGCTTGATCGCGCCAAGGCTA CCGACGACCAGGAGCGTAACGAGCCGGAGCTGGACATTCCTGCCGAGATTTCTCGCCGCGAGAAGCGCCT GGAGGCGATCCAGGCGGCAAAGGCGCGCCTGGAAGCGCGCCAGCGTGAAGCGGACCAGGCCCGGGGGCGC AGCGAAGACGATGGCCGCCGGCCTCGCCATCCGGATGGCTCGGACAAGGGCGGTGGCTCGTACAAACGCG AGTTTGGTGTGCCGGATGACCGTGATCAGGAAAGCTTCACCGATCCGGACAGCCGGATCATGAAACACGC CGGTGGTGGCTCCGAGCAGAGCTACAACGGGTACACAGCGGTCGATGCCGAGCACCAGATCATCGTGGCG GCGGAGTTGACCAACTGCGCCGCGGACAGTCAGGCGCTGCTGGGCATGCTGGCAGCAGTTCAGGCCAACA CCGGAGAAATGCCGGCCCAGACGCTGGCGGATGCGGGATTCCGTAGTGAGGCTGTTCTGGCAAAGGTCGC CGATCACCACGGCGATGTCATCGTTGCCCTCGGCCGCGAGGGACGTGAAGATGCCAAGGTCAATGCCAAG ACCCATCCGCATACGGCGGCGATTGCGGCGAAATTGAAAACGGAGCAAGGCGATGCAGCTTACCGCCGGC GCAAGTCGATCGTGGAGGCTCCGAATGGTTGGATCAAGGCGGTGATGGGATTGCGTCAGTTCAGCATGAG GGGCCTGGACAAGGTGCAAGCCGAGTGGAAGCTCGTCTGCATGGCGCTAAATCTGAGGCGAATGGCGTAT CTGTGAGGGCGAAGGTTAAATGGGGCGGCTCAAATGCACCCCAGTCGTCATAACACGCCGCGCGCCGCAA GATTGGTATCCTTGGCGCCGACGCCTTGCCAATTGCAGAGAGCGCCGCCGCCATCGTCAGTGCTCTACAG AAAACCGGTCACACGGCTCTGCCGCGCAGACTCCTAGCCTAAATGTGACAGTGGTTGGTAATCCATGCCG CCCGCAAGGGCGGCGGTGGTGGGCCAATAGATGATTTTCAGAGCCTTACTGCCCGTTGACGCCCAATCCC TCGAGCGCGAGTCTAGCCGCAGCGGCGATGACGGCCTCGCTGTGCTTGTCATCCTTGTTAGGCGCCCGGG TGTAGACGGCCAACACAATAGGTGCGCGCCCAGTGGGCCAGACGACGGCATAGTCATTTGCCGTGCCATA CACTCCGCAGGTTCCGGTTTTGTCTCCGACTGCCCAGTCTGCCGGCACCGCCGCGCGGATGCGGTGGTTG CCGGTCGTGTTTCCCTTTAGCCAATCAACAAACTGCTGCCGCTGCGGCGCAGCCAGTGCAGAGCCCAGTG TCAGTTTTTGTAAGCTTTCCGTCACGGCGCGCGGCGATGAGGTATCGCGCGCATCGCCTGGGATGGCGGA GTTCAGCTCCAGCTCCCAGCGGTCCAGACGGAACGTGGTATCGCCGATAGAGCGCATGAAGGCCGTCAGC CCGGCCGGGCCGCCCAACTCCTTCAGCAACAAATTGGCGGCGGCGTTATCACTGTATTGCACGGCGGCCG CGGACAGCTCCGCCACCGTCATGCCTGTTGTCAGATATTTTTCCGAGATGGGTGACCACGGAACCAGCGC ATTTTTGCCGTAACGGATGGGTGTGTCCAGCAAGCCGGCCTGCTGCTGGCTGCGAGCCAGCACAGCGGCA GCAAGAAAGCCCTTGAATGAGCTGCACAGTGGGAAGCGCTCCTCAGCGCGGTAACTTACAGTTGCGCCTG AGCCGGTATCCATCGCGTACACACCGATGGAGCCGCCAAAGTCCTGTTCGAGTTTAGCGAATGGTTCCGC GACGAGGTTGGTCAGCGCGGTGGCAGAAAAGCCAGCCAGCGGCCATGAGAGACAAGACAGCAGAACTAGA CGGCGATACAGTGACATCAACGATATTCCTTGTTTGAAGGTGGAGCTAGGTGTAGCGGCCGGATGTAATC AGGCCGCTACAGCTGGGATTATCACCGAGCGGCAAGCCGCTCCCTCTCCAGAGGCTGTAACGGCTGTAAC TGCCCCGGATGGGCACACATCGGGTTGGTAAGTCCCTGGCACCACAACGTCCAGCGCTATTGAAAAACGA ATCAGGTCGGCGTTCATGGGTCGGCCACCTCGCCTGACCTCGGCATCCACGTTACGGACGGCCTCAGGAA GTCCTGGCCAAGCCCCGACTATTGGGGCGCGAAGATAGCACCGAGGGTACGCCGGTGTCAACACCAACTG AAAACTGACCCACTTTACCCCTGAATCACCAAAGTAATACTGACCCACCTGGATCATTCGGGTTTGGAAT TTTTCCTGACCACTCCCGCCTTCCTCTTGTCCTTCAAGCGGTAGCTTTCGCCGCTCAGGGTCAGGATATG GGCATGGTGCAGCAGCCGATCCAGCATCGCGGCTGTCAGGGTGGTATCGCCGGCAAACGCGTCGGCCCAC TGGCTGAACGGCAGGTTCGAGGTCAGGATCATCGCCCCTTTCTCATAGCGCTTCGCCACCACCTGAAAGA ACAGGTTCGCTTCCTCGCGTCCGAAAGGCAGGTAGCCGATCTCATCGATCACCAGCAGCCGTGGACCGAG GATGGCGCGGTTGAAGTATTCCTTCAGCCGCCCTTGTCGCTGCGCCGTGCTCAGTTGCAGCATCAGGTCG GCTGCCGTGATGAAGCGTGTCTTGACCCCGGCTTGCGCGGCCTTGTAACCCAAGGCGATGGCGAGGTGGG TCTTGCCGATGCCAGAGGGTCCGATCAGCACCACGTTCTCGGCCCGTTCGACAAACGCCAGACTGCCCAG CTCCTGCACCAGTGCCTTGGGCACGCCGGGGTTGAAGCTGAAGTCATAGTCCTCCAGGGTCTTGATGCCC GGGAAGCAAGCCATCCGCGTCAGCAGTTCGCGGCTGCGCTGCTGGCGACACCCCGCTTCATGCCGCAACA GGTGTTCCAGGAAGTCGGTGAAGCTGAAGTCCTCGCGCACCGCCTGCTGCGCCAGGACGGGGTAATGCGT TGCCACCCGTTCGAGTTTGAGTTGCTGGCACAGGGCGTCGATCCGCTCATGCTGGAGGTTCATCGGCAGG CCTCCCCAATTGCGTCATAGACAGACAGTGGGTGCTGGAGAGATTCCAGTGGTACCGGGCGGAGACTGTT ATCCAGCAGGGGGGCCTCGTCGCGCCGCACACGGGATGGCAAGGGTTGCAGGTGTTCCCGCTCCTGCCGC CAACGGTCGATGGGGCGCTCGTTCAGGGTGGCGTGGACCCGCACATTCGCCTCGTCTGCCAACCAGTCAC GGACGCGTCGGTTGGCAGCAGCACAATCGAGCAGCAGCCCCGTGCCCTTCATCCGGGTCAGCAACGGGTT GTAGAAGCTCTCGCGGAAGTAGCGATTGAAGCGCTCGACCTTGCCTTTGGTCTGGGCCCGATACGGGCGA CACAGCCGGATCCGGAACCCCAGGTCATCGGCCAGTTGAAGCAAGCCGGGGTGAAAACGGTGCTTGCCGT CACCGTAGGCATCGCGTTCCAGCACCACGGTCTTCATGTTGTCGAACAACACCTCGCGGGGCACACCGCC CAGATAGTCAAAAGCCAGCAACAGGGAGTCCCGCACGGACTCGAAGGATTCGTCCGGTACGAAGGTGACA AACGTCATGCGGCTGTATCCCAGCGTGGCGACGAAGGCCGACATGGGGGATCTGGCCCGGCGCAAGACCA CGAAATCAGCCTGCAACTGCCGTCCGGGCTCGGTCTCGAAACGGACGGCCGGACCTGCTTCGCGGCGGGC GGGCTTGAGCGTGGCGAGGAAGGCGCGCAATAACGAGAGACCGCCGCCATACCCTTGAGCGCGGATTTCC CGATTCAGGACGGTGGCAGGCAGCCAGATGGGGTGGGCCTGCTCGACCCGTTGCCGCAGATAAGATTCAA ATGGCCCCAGTTTGGTGGGGCGTGGTTCACGGGGCTGGTATCGCGCTACCGACGGATCGCGGAGGTAGCG GCGCACGGTATTGCGCGAGACCCCCAACGTGCGGGCGATGTGCCGGATGGAGTGGCCCTGTCGGGCAAGA ACTCTGATTTCCACGGTTTGCTCCTGGGTCAACATCGACGGCCTCGAAAAGGCCGCCAAACTAGCCCAGG TGGATCAGTTTTACTTCGCTGGGGTGGGTCAGTTTTACACTGCTGCTAACACGGAACCGCTGAAAATTCC GTCACTCCAGTTCCAGGCCTGCGACGATCGCATCGAGATCGATCGTCTTGCCGCTGCTTTGAAAGGTGTA GTGCCCGTTGAGCAGGATGTGCCGCCATGCCGCAGGCGAAATTTTTGTGATGAGTGCCAGCGCCTTGCTG TTGCCGGCCGCCTCGTACTTGGTCACCAGCCGCGACAAGATTGCCGAGTTGTAGAAAATGATCGTGTTGG CGATCAGCCGTGCGCACTGGTTGCTGATCTCGATTTCAATGTCGGTGCGACCGGTCAGTTCCTTCTTACC GCCGACCTGGGCAATGGCCGAGCGTAGCTGATGGTAGGACTCGAGGCGATTTTGCGAGCGGTGCACGTTG CGTTCCAGTTGCGGATCGCGCAGGTAGCGAAGCGTGTAGATGCTGCGGATGAGCTTGTCGAACTCGAAGA TCGCGCGCCGCGTCGGGTTCGTCGTGGTGTAGGTGCACAGCTTGCGGATCAGCGTGCCCTGCGTCATTTC CTTCAGCCCGAGTGTGGCGACGATCCGGTCGATGTTCGGCTTCTCGCGATGGATGAGATCGCAGTCGATT TTCCCGACTGGCCGAATCAGGCACGCCTGATACTGTGCTGGATCGTCAGCGCAGTAGAGTTCTTTCAATT GCGCGTTGAGGTCGGTGAAGCGCGGCTCGAACCGCCGGCCAAACCAATGCAGGATGGCGAAGTTGGCCTT GTTGACGCTGTGCATGTCGCCGGTGATCGCGGTCGGCATGATGTCCGACGTGTTGCGATACCAGATGTCG AACACGTGGTGGGCCTCGTAGTCGTGCGCGCCGATCAGGTAGCCGTTGAGCGGGATGTGGTTGCACAGCA GCGTGTAGGCGACCACGCCCTTGCCGCGCCCGAAGTACTTGCGCGAATAGCGCGCCTTCACGGTCGGCCG TTCGACGCTGAATTTCTGCCCGTCGACGGCACCGTACAGCGTTTCGAGGTCGAACGAGTAGTATGGGAAG ATCGGTAGCGTGGCGATGGCGTTGCTGATGCAGTCGTTGGCCGCGTGCAGCGTTGCCTGGCGCAGGTACT GCTGGTAGCCGCTATCCAGCACGTGGTACGGGATGTCGCTGGTGCGCGCCATGACGTGGTTGCCGTGGTT CATCGCTTGCGCGATGATGACCGCCATCAGGCTGTCAGCGTCGGCGACCTTCTTCGCGTAGCGCGGCTGC ATGGGCGTGAACGCCGACAGAAACTTGCACTCGTCGTTGACGAAGCGAAACACGTCGGCCACGTCGCAGA ACGGAAGCTTCTCGTAGAATGCCTTTTCGCGCGCTTTCTCATTCTCGCTCTTGGGCTTGCGCCAGGTCAG TTTCTGCGTGTCCTTGTTGTATTCGAGGTGCGTCAGCTTGCCCTGTTTCAGCTCGCGGTTGAACGCCAGC CACTGCGTGCGCAGTTCGGCAGTCAGCGCATCGAGTTGGGCATGGACGGGTTGCTGCAGGAAGGGGATCT CCATTTTTGCGAGCACATCGATCTTCCTGTCCATCTCAACCAGTTCATCTGAGAAGTGCCGGTGTTGCAG GCTGTCGTCGAGGTAGAGTTCACCCGATTGGAGACGCTTCCTGATCTGGCGGTACAGCCAGAACTCGTAG CGGTCAGCGTGCAGGCCGGTTGGTTTACCGTCGGCGTCGAAGGTCAGCAGGTACGGCCGCAAGCGTTTCG GAAGTGTCGCCGCGGGCCACTCGTCGAGTGGCCGTTGCGACAGCCGCTGCTGCTTGGCAAAAACACCTTT GGCCCAGGCCAGCGCGGCAAGCCATGGACTGTCTGGATTGGAGCCGGAGAGGTCGAGCGCAACGTACAGT GGACGAAGATGGCGGCGCATGCGGTCGGCCAGCCCGTCCACCGCCTGCCACTGCAAGGCCAGCTTGCTCG CCGGCTTCACGCTCATACGCTGCGCCGTGGTTTGCAGCGTATCGCGAGGCATGATCTTGTAGGCGCGCTG CCGCACCTCGCCGAAGGGCGTGGGATCGGCCACGCTATCATCAACGTAGAGTGACAGCAGGCGGCCTACC CGCGGCGTTTCCTGCTGACGGCGCACCTGCTCGTCGGCAAAGGATTGTTTGGCACCAGCGCTGCTTTCGT CCTCCAACTGCTTCATGTGGTACGCCATCGCATCGACCAGGTTGTCGGAGAGCTGCCGGTAGCGTACCCA GGCATAGCACAGCAGGTAGAGTTGGGTCTGATCGGCCTTCAGATTGCGCAGGTCGTGGACGGTGTAGAAG TTTGCCAGGCTCGCGTAGTACAGCAGGTTCTGCTGCGAGACGTCGAGTTTAGGCAGCAGTGTCTTGGCGA TTGCGTGCAGCGGCTCCAGCGTGGCGCGCTTTTCGCGCTCGCGGACCATCTGGCGCCAGCCGAAATTCTT GGCGTCCTGCTTGAGCGCCGCCAGTTGCGACAGGGTGTCATCACGGACCAGAAGCTGGCTCAGCGCGGCC TTGGCAGATTCGTCCAACGCTTGCTCCAGCAGATTGCCCAGGCGCCGGCGCTCGGCGGATAGCGTTTCGC TGACCAACTCTTGCAAGGTCGTATAGCCGGGCCGGATAATCTTGTGCTCATTGAGCCAGACGATCAGCTC GGCGGCGACGAACCCCGGCGTTACGTCACGCCGCACGGTCCGTGCGGCCTGCTGCTCGAGCTGCGGCAGG AAGGCGGCCGACCACGGCCAGTAGCCGAATAGTTTGGCGATCTGCTCGCGCTGGGTGTAGCGTTCATGCT TGGTGATCGCCTTGGGTTCGAACACCTCGCCGTGGAAATAGCGGCTCAGCACGAAAGCGCAATCGTCCTC GACTTCGTCCCAGTCGAAACTGAAGAAGGCATGCTTGGCCTTGAAGTAGCCGATCTGCAAGAGGCAATAG ACCTTGGCATGAAGACTGGGCCGGCTGTTGGCAAGCGCCAACTCGGTTTCTGTCACAGCCAGATATTCCA GCTGCTGCGCATCATCGAACTCCGGCAGGCCATACAAGGCCTCCTGTTCGGCGTCGGATAGGACGCTGAG TAGCTTGTTCTTCTTGCTCATGGCCCGTTCTTGCTATCTTGAGGTTTCGTAGAAACATGGGGCATTTTCG ATTCTACTGAAATAATCGTTATTATCGCGTTACTCGCTTTTCGAATCGCAACCTGTCCATATGAAAACGG GCCAGACTACGGCTTCGAGTTCTACCCCAGTCGGCTTTCCCGATGCGGATTCGCTGGCTGCCTTGCGCGG CTGGTACGCGGGACTCAGCTCTCGCGCGGCCGTTGAACACTACCTGGCGGCACGCAAGGCCGCCGGTCAA TCAGCGCGAGGGATGCTGGGGCATATCCGCCGCCAGCTCATCGTTTTCGCCAACAGCCGCCACCGGCCGG ATCTGGCCGACGTGTTCCAGCACGCCCCCGAAGAGCGACAGGGGCGCGCGGGTGCCGTCGAACGCGCGAT CCGGCTCTTGCCCACGCTGCCGGCGCCGAAGCCCCAGATCAGCGACAGCATCGACCAGTGGCTGTCTCCG AGGACCGTCAGGGCACTGCAGGCGTACGGTATCCACACCCTCTCGGCGCTGACCGTGCGCATTCCCCGCC GGCGTGGCTGGTGGAAAGCCATCGAGGGACTCGGCATGACAGGCGCCCGGCAGGTCGAGGCTTTCTTTGC CGCACATCCGCAGCTCACCGAGCGCGCCCGGGCCCTGATCCCGATTATTCAGCCCAGCGGCATCGTGCCG TGGGAGCAGTTGCGTCTGCCGAACGAAGTCGACGGCTCGCAGGGCAATTTCCGGGCCCCGCGCAACGCTT GCACGCTGAATGCGACCAACGACTACGAGGCCGTGCAGGCCTGGCTGGCGCTGCACGAGACTGTCGCCAC ACAGCGCGCCTATCGCAAGGAGGCTGCGCGGCTAATCCTGTGGGCCATCGTCGAACGCGGACGGGCGCTA TCATCCCTGACCACGGACGATGCAATCGCGTACCGGGCCTTTGTCCGGCACCCGACCCCGCGCGAGCGTT GGGTGGGGCCACCTCGACCACGCGATTCGGTGGAATGGCGCCCCTTCTCGGGCGGCTTGTCCGCACGCTC GGCAGCGTATGCGCTGACGGTGCTCTCGGCGCTGTTCCGGTGGCTCATCGAGCAGCGCTATGTGCTGGCC AACCCTTTCGCCGGCGTCAAGGTACGCGGTCACGCCTTGCGGCCCGCACTGGATACGGCGCGAGGCTTTA CCGAGGGAGAATGGCTACTGCTGCGCGCCATTGCAGACGGCCTGGAATGGTCCTACGGCTGGTCCGAGCC GGCAGCACAACGCCTGCGCTTCATGCTCGACTTCGGCTATGCCACGGGCCTGCGCGCTAGCGAACTGGTC GGCGCCGTCCTGGGTAATGTCCGCCTCGACGAGCACGGTGACCACTGGCTGCATTTGGTTGGCAAAGGTG GCAAACCAGGTAAGGTGGCCTTGCCGCCGCTCGCGTATACGGCGCTGGACCAATACTTGGCACAGCGTCA ACTGCCAGTCAGCCGGGAACGGTGGAATCCGAAAACGCCCCTGGTGGGCAGTCTTGGGGAAGACGGTAAT GCCGGCATCACCGGCCCTCACCTTTGGTGCGTGTTGCGAAGATTCTTTACGCAAGCCGCTGAGGCCATTG AGGCCGATCATCCGGTCGCCGCCGAAAAGCTGCGCCGTGCCACGCCTCATTGGATGCGTCACAGTCATGC CAGCCATGCGTTGGCCCGGGGAGCTCAGCTCACCGCGGTGCGCGACAACCTACGCCATGCGTCGATCGCC ACGACGTCGATGTATTTGCATGGCGATGAGCTCGAGCGCGCCAGGCAGATGCGGCAGGCTTTTGGCGCTC GTCACGTCAAGCGAGGAGTCGACTGAATTTTCATCATACGGAATGACGGAATTTTCTGGGATTCCCGCTT AGAACCCCAGAACGTCCAATGCATCATCCAGCGCCAGCGTTTCCCATGCAAGGACAAAGGCAACCAGAAC CGCCATCCTTTTCTGCGGTGACATCCTGGCAATATTGAACACCGAAGTCATACCAGCATAACGTGCGAGA TTTTTCAGGCGCACAGCCGGGAGTGTACTCAGGTTTTCAGCATGCAGGCCAAAATCGTTCAGAGTTTTCC AGCGTTCAATTGCTTCATTAAACGCCGGACCACTGATGGTCACAGGGCCCTTTTTCAGTGATTCCAGTAA AGACAGGCGGCTGCAATCAGTTGGCCCCAGCAGCATCTCCAGCTGTGAACGCTGTTCGGCTGACGGTATC AGTGCCAGTTTGTTCCACAGGCGCAACGTCGCCTTTTCCCTTACCTCTGAAATCAACCGGGTCAGCGTAG TGGCTCCGGGGAGAATAATACGATGTTGCATAAGCCACCCTGTCGCCAGATCGAAAAGCAGGCCAGGACG TTCGTTGCTTATCCAGCTCCGGGTATATAAAAGACGGGTAAGGCGAAATGTCCAGGGCCAGGCAAATTCA CGATACTGATAGTGCTGACGTATCAGCGCTGCATGCTCACGGCGGGTATTTTCCCTCTGACCGTATTCTG CAAGAACGGTGATATCACGAATCCCGAGCTGTCTGGCGGTAAAATGCCGGACGCCGGAAGGAATATGATT CATATCGGTGAGGAAGGTGCCCAGAAAACGGACACATCCAATTTGCAGGGCAATGCCCAGACGGTTGTGA TCACCTCTGCTTTTTCCGATAAATTCCTTGTCTGCTTCATCAAGGTGAAAATATCGTGCCAGCTGAAGCT CATCCGGTTCACCGGTGAATCTGCCATAGCTTTCAGTCTGCTCAGTGGTCAGAAAGTCAACGGGCATATC GGCCTCCCTGCCTGACGGGCATTTAGTAACATTTTTCCAACCGTACGAAATGTTATAAATTATCAGACAT AGTAAAACGGCTTCGTTTGAGTGTCCATTAAATCGTCATTTTGGCATAATAGACACATCGTGTCTGATAT TCGATTTAAGGTACATTTTTATGCGAATTTTTGGTTATGCGCGGGTCTCAACCAGCCAGCAGTCCCTCGA TATTCAGATCAGAGCGCTCAAAGATGCAGGGGTAAAAGCTAACCGCATCTTTACCGACAAGGCATCCGGC AGTTCAACAGATCGGGAAGGGCTGGATTTGCTGAGGATGAAGGTGGAGGAAGGTGATGTCATTCTGGTGA AGAAGCTCGACCGTCTTGGCCGCGACACCGCCGACATGATCCAACTGATAAAAGAGTTTGATGCTCAGGG TGTAGCGGTTCGGTTTATTGACGACGGGATCAGTACCGACGGTGATATGGGGCAAATGGTGGTCACCATC CTGTCGGCTGTGGCACAGGCTGAACGCCGGAGGATCCTAGAGCGCACGAATGAGGGCCGACAGGAAGCAA AGCTGAAAGGAATCAAATTTGGCCGCAGGCGTACCGTGGACAGGAACGTCGTGCTGACGCTTCATCAGAA GGGCACTGGTGCAACGGAAATTGCTCATCAGCTCAGTATTGCCCGCTCCACGGTTTATAAAATTCTTGAA GACGAAAGGGCCTCGTGATACGCCTATTTTTATAGGTTAATGTCATGATAATAATGGTTTCTTAGACGTC AGGTGGCACTTTTCGGGGAAATGTGCGCGGAACCCCTATTTGTTTATTTTTCTAAATACATTCAAATATG TATCCGCTCATGAGACAATAACCCTGATAAATGCTTCAATAATATTGAAAAAGGAAGAGTATGAGTATTC AACATTTCCAAACAAAGTTAGGCATCACAAAGTACAGCATCGTGACCAACAGCAACGATTCCGTCACACT GCGCCTCATGACTGAGCATGACCTTGCGATGCTCTATGAGTGGCTAAATCGATCTCATATCGTCGAGTGG TGGGGCGGAGAAGAAGCACGCCCGACACTTGCTGACGTACAGGAACAGTACTTGCCAAGCGTTTTAGCGC AAGAGTCCGTCACTCCATACATTGCAATGCTGAATGGAGAGCCGATTGGGTATGCCCAGTCGTACGTTGC TCTTGGAAGCGGGGACGGATGGTGGGAAGAAGAAACCGATCCAGGAGTACGCGGAATAGACCAGTCACTG GCGAATGCATCACAACTGGGCAAAGGCTTGGGAACCAAGCTGGTTCGAGCTCTGGTTGAGTTGCTGTTCA ATGATCCCGAGGTCACCAAGATCCAAACGGACCCGTCGCCGAGCAACTTGCGAGCGATCCGATGCTACGA GAAAGCGGGGTTTGAGAGGCAAGGTACCGTAACCACCCCAGATGGTCCAGCCGTGTACATGGTTCAAACA CGCCAGGCATTCGAGCGAACACGCAGTGTTGCCTAACCCTTCCATCGAGGGGGACGTCCAAGGGCTGGCG CCCTTGGCCGCCCCTCATGTCAAACGTTAAACATCATGAGGGAAGCGGTGATCGCCGAAGTATCGACTCA ACTATCAGAGGTAGTTGGCGTCATCGAGCGCCATCTCGAACCGACGTTGCTGGCCGTACATTTGTACGGC TCCGCAGTGGATGGCGGCCTGAAGCCACACAGTGATATTGATTTGCTGGTTACGGTGACCGTAAGGCTTG ATGAAACAACGCGGCGAGCTTTGATCAACGACCTTTTGGAAACTTCGGCTTCCCCTGGAGAGAGCGAGAT TCTCCGCGCTGTAGAAGTCACCATTGTTGTGCACGACGACATCATTCCGTGGCGTTATCCAGCTAAGCGC GAACTGCAATTTGGAGAATGGCAGCGCAATGACATTCTTGCAGGTATCTTCGAGCCAGCCACGATCGACA TTGATCTGGCTATCTTGCTGACAAAAGCAAGAGAACATAGCGTTGCCTTGGTAGGTCCAGCGGCGGAGGA ACTCTTTGATCCGGTTCCTGAACAGGATCTATTTGAGGCGCTAAATGAAACCTTAACGCTATGGAACTCG CCGCCCGACTGGGCTGGCGATGAGCGAAATGTAGTGCTTACGTTGTCCCGCATTTGGTACAGCGCAGTAA CCGGCAAAATCGCGCCGAAGGATGTCGCTGCCGACTGGGCAATGGAGCGCCTGCCGGCCCAGTATCAGCC CGTCATACTTGAAGCTAGGCAGGCTTATCTTGGACAAGAAGATCGCTTGGCCTCGCGCGCAGATCAGTTG GAAGAATTTGTTCACTACGTGAAAGGCGAGATCACCAAGGTAGTCGGCAAATAATGTCTAAAACAAAGTT ATGCACCTATTAAGCGCACAGCGGAGCAATGAAGGATACCTTGATGAAAAAAATTTTGCTGCTGCATATG TTGGTGTTCGTTTCCGCCACTCTCCCAATCAGTTCCGTGGCTTCTGATGAGGTTGAAACGCTTAAATGCA CCATCATCGCAGACGCCATTACCGGAAATACCTTATATGAGACCGGAGAATGTGCCCGTCGTGTGTCTCC GTGCTCGTCTTTTAAACTTCCATTGGCAATCATGGGGTTTGATAGTGGAATCTTGCAGTCGCCAAAATCA CCTACGTGGGAATTGAAGCCGGAATACAACCCGTCTCCGAGAGATCGCACATACAAACAAGTCTATCCGG CGCTATGGCAAAGCGACTCTGTTGTCTGGTTCTCGCAGCAATTAACAAGCCGTCTGGGAGTTGATCGGTT CACGGAATACGTAAAGAAATTTGAGTACGGTAATCAAGATGTTTCCGGTGACTCGGGGAAGCATAACGGC TTGACCCAGTCATGGCTGATGTCGTCGCTCACCATATCTCCCAAGGAGCAAATTCAGTTTCTTCTACGCT TTGTCGCGCATAAGCTGCCTGTATCCGAAGCGGCTTATGACATGGCGTATGCCACAATCCCGCAGTACCA GGCAGCCGAAGGATGGGCTGTACATGGAAAAAGCGGCAGCGGCTGGCTTCGGGACAATAACGGCAAGATA AATGAAAGTCGTCCGCAGGGCTGGTTCGTGGGCTGGGCTGAAAAAAACGGACGGCAAGTTGTTTTCGCCC GATTGGAAATAGGAAAGGAAAAGTCCGATATTCCCGGCGGGTCTAAAGCACGAGAGGATATTCTCGTGGA ATTACCCGTGTTGATGGGTAACAAATGATATGTGGCGTCATCGAGAGCAGATGCATAACCCTGCGCTCGA GCGGACCTCGCGCATAAAGCCGCGCGAGTCCGCTCACCTTGAACGTTAGATGCACTAAGCACATAATTGC TCACAGCCAAACTATCAGGTCAAGTCTGCTTTTATTATTTTTAAGCGTGCATAATAAGCCCTACACAAAT TGGGAGATATATCATGAAAAGAGTTTGATGCTCAGGGTGTAGCGGTTCGGTTTATTGACGACGGGATCAG TACCGACGGTGATATGGGGCAAATGGTGGTCACCATCCTGTCGGCTGTGGCACAGGCTGAACGCCGGAGG ATCCTAGAGCGCACGAATGAGGGCCGACAGGAAGCAAAGCTGAAAGGAATCAAATTTGGCCGCAGGCGTA CCGTGGACAGGAACGTCGTGCTGACGCTTCATCAGAAGGGCACTGGTGCAACGGAAATTGCTCATCAGCT CAGTATTGCCCGCTCCACGGTTTATAAAATTCTTGAAGACGAAAGGGCCTCGTGATACGCCTATTTTTAT AGGTTAATGTCATGATAATAATGGTTTCTTAGACGTCAGGTGGCACTTTTCGGGGAAATGTGCGCGGAAC CCCTATTTGTTTATTTTTCTAAATACATTCAAATATGTATCCGCTCATGAGACAATAACCCTGATAAATG CTTCAATAATATTGAAAAAGGAAGAGTATGAGTATTCAACATTTCCGTGTCGCCCTTATTCCCTTTTTTG CGGCATTTTGCCTTCCTGTTTTTGCTCACCCAGAAACGCTGGTGAAAGTAAAAGATGCTGAAGATCAGTT GGGTGCACGAGTGGGTTACATCGAACTGGATCTCAACAGCGGTAAGATCCTTGAGAGTTTTCGCCCCGAA GAACGTTTTCCAATGATGAGCACTTTTAAAGTTCTGCTATGTGGCGCGGTATTATCCCGTGTTGACGCCG GGCAAGAGCAACTCGGTCGCCGCATACACTATTCTCAGAATGACTTGGTTGAGTACTCACCAGTCACAGA AAAGCATCTTACGGATGGCATGACAGTAAGAGAATTATGCAGTGCTGCCATAACCATGAGTGATAACACT GCGGCCAACTTACTTCTGACAACGATCGGAGGACCGAAGGAGCTAACCGCTTTTTTGCACAACATGGGGG ATCATGTAACTCGCCTTGATCGTTGGGAACCGGAGCTGAATGAAGCCATACCAAACGACGAGCGTGACAC CACGATGCCTGCAGCAATGGCAACAACGTTGCGCAAACTATTAACTGGCGAACTACTTACTCTAGCTTCC CGGCAACAATTAATAGACTGGATGGAGGCGGATAAAGTTGCAGGACCACTTCTGCGCTCGGCCCTTCCGG CTGGCTGGTTTATTGCTGATAAATCTGGAGCCGGTGAGCGTGGGTCTCGCGGTATCATTGCAGCACTGGG GCCAGATGGTAAGCCCTCCCGTATCGTAGTTATCTACACGACGGGGAGTCAGGCAACTATGGATGAACGA AATAGACAGATCGCTGAGATAGGTGCCTCACTGATTAAGCATTGGTAACTGTCAGACCAAGTTTACTCAT ATATACTTTAGATTGATTTAAAACTTCATTTTTAATTTAAAAGGATCTAGGTGAAGATCCTTTTTGATAA TCTCATGACCAAAATCCCTTAACGTGAGTTTTCGTTCCACTGAGCGTCAGACCCCTAAAAGAACTTTCCG CTAAGCGATAGACTGTATGTAAACACAGTATTGCAAGGACGCGGAACATGCCTCATGTGGCGGCCAGGAC GGCCAGCCGGGATCGGGATACTGGTCGTTACCAGAGCCACCGACCCGAGCAAACCCTTCTCTATCAGATC GTTGACGAGTATTACCCGGCATTCGCTGCGCTTATGGCAGAGCAGGGAAAGGAATTGCCGGGCTATGTGC AACGGGAATTTGAAGAATTTCTCCAATGCGGGCGGCTGGAGCATGGCTTTCTACGGGTTCGCTGCGAGTC TTGCCACGCCGAGCACCTGGTCGCTTTCAGCTGTAAGCGTCGCGGTTTCTGCCCGAGCTGTGGGGCGCGG CGGATGGCCGAAAGTGCCGCCTTGCTGGTTGATGAAGTACTGCCTGAACAACCCATGCGTCAGTGGGTGT TGAGCTTCCCGTTTCAGCTGCGTTTCCTGTTTGGGGTCGTTTGCGGGAAGGGGCGGAATCCTACGCTAAG GCTTTGGCCAGCGATATTCTCCGGTGAGATTGATGTGTTCCCAGGGGATAGGAGAAGTCGCTTGATATCT AGTATGACGTCTGTCGCACCTGCTTGATCGCGGCCGCGATAGCTAGATCGCGTTGCTCCTCTTCTCCATC CGCGTTCCAAGCTGCGGAAAGGCACCCATAAGCGTACGCCTGGTCGAGCAGGCGACGCGGATCGACGTCC AGCGCACGAGAGAATGCGTCCGCCATCTGTGCAATGCGTCTAGGATCGAGACAAAGGTCGTCTCTGTCAG CCGGATCGTAGAACATATTGGCGGCGCCAAAGCCCACTTCACCGACCAGACCGACGGGATCTATCACCAG CCAGCCGCGACTGGAGAACATGATGTTTTCATGATGCAGATCGCCATGTAGCCCACGCAGTTCCGAGGCA TTGCTCATCATTTGATCGGCTATAATCGCCGCGTGGACGTAGTCAGTTTGACAACCTGCGTTTTGATCAT CGCGCGCCCGCTGAAACAAAGCTGCAAAGCGATCCCGGATCGGGAGAAGGGCAGAAGGCAGGGGTTCCTC AGATGCGGCATACAGCTTCGCCATTAGTTCCGCTGCAATTTCGGTCGCCTGGTAGTCGCCGTGCTCGGCA ACGATGTGAGAGAGCATTCGCTCCCCGGCATATTCGAGCAACATCAGATTGTTCTCACGACCGAGCAACC GGACTGCTCCCCTCCCATTGCGCCATACCAGATAGTCGGCCCCGCGCAGTTCATCAGCAATGTCTTCTAT AGGTTTCAATCCCTTGACGATTGCAGGAGTCCCGTCTGGCAATGAAACTTTCCAAACGAGGCTGGAAAAG GTGTCCGCAATGAGAACAGGTTGCGAAACGTGCCAATGAGCAGGAAAAACAGGCGGCATGAACATCAACC CCAAGTCAGAGGGTCCAATCGCAGATAGAAGGCAAGGCGTTCGCGGTCGGGGGCTTCGATCCCCAATACA TTGAATAGGACAGCGAAGGCGCGCTCTGCTTCATCTGGCGCTGCCCAGTTCTCTTCGGCGTTAGCAATCA TGAGTGCCAAATCGGCATAGCGATCTGCTGTTCCGAGCCGCCCAAGGTCGATCAGACCCGTGCATTGAAG AGTTTTAGGGTCCACCATGAAGTTCGGCATGCAGGGATCACCATGGCAAACAACCATATCGGTGCGCTCT TGGTCGAGCCGCACCGGTAGCTCTCGTTCGACACGAGCCAAAAGATCGAGCTGCGGCGTACTCTTGTCCT CGTCCGGTAAGAAGTCGGGATTGACGGCATTGCGGGACACCACATCAACGGCGCGTCCGAACATTCGCGA CAGCCTGCGCTCAAACGGACATTGATCAACCGATAGGCTGTGAACAGCGCCAAGTTGCTGCCCCATTGAC GGCCACGCTTTGAGCAAATCCGCTCCAGACAGATCAGCCGCCGGTACTCCCGGAATTGCCGTTATCACCA AGCATGCACCCTCCTGTTCCTCCTGCCAGTTGATGACCTCGGGGCAAGCCACACCTCGACCTTTGAGCCA AATGAGGCGGTCACGCTCTCCAGCGAGCTCACCGCGGCGGGAAGCAGGTGCGATTTTCGCGAAGGCATGC CCGTCACCACGTCGAAAAACAAAATCACCAGATTCTCCGCCTCTGACAGGCAACCAGTCAGAATGCGATT CACCAAAAAAAATATTAGTTCGATTCAATGGAGGTTCCTTCAGTTTTCTGATGAAGCGCGAATATAGAGA AATATCCCGAATGTGCAGTTAACGAATTCTTGCGGTTTCTTTCAGCGCCGCCAATACCGCCAGCCCGTCG CGCAAGGGGCGCGGCTCGTGTGTGCGGATGAAGTCAGCTCCACCTGCGGCGGCGGCAAGCTCTGCAGCGA GTGTCGCGGCCCCGACATCCCCCGGACCACGGCCTGTGAGCGCGCGCAGAAAGGATTTGCGCGAAACAGA CAGAAGCACCGGCAAATCGAAGCGCAGCCGCAATTCATCGAACCGCGCCAGCACCGAGAGCGAGGTTTCG GGAGCAGCCCCCAGAAAAAACCCCATGCCGGGATCAAGGACAAGGCGGTTGCGTTTGATACCGGCACCCG TCAGCGCCGCGATGCGCGCGTCAAAGAACGCCGCAATGTGATCCATGATGTCGCCAGCGGGTGCCTCGCG CCGATCTGCCTGCCCGTCTTGCACCGAATGCATAACGACGAGTTTGGCAGATGATTTCGCCAATTGCGGA TAGAACGCAGCGTCTGGAAAACCGCGAATATCATTGAGATAGGCCACACCACGCGACAAGGCATAGGCTT GCGTCGCGGGTTGATAACTGTCGAGCGAGACGGGAATGCCATCTGCCTTGAGCGCGTCCAGCACCGGCGC GATACGCGCGATTTCTGTGTCGGACGAAACAGGCGCGGCGTCGGGATTGCTGGATGCCGGACCGAGGTCG ATCACATCTGCCCCCTCGGCCATCAGCTTACGCGCCTGCGCAATGGCTGCGTCTGGCGCCAGATACCGGC CTCCATCGGAGAAACTGTCCGAGGTTATGTTGACGATGCCGAAAATGATGAGCGATTTATTCATGGGGGC TTCTATAATAATAATAATCGAGCATGAGTCTCATACGGATGCTCGGGTCGAAAGGGAATCCCCAGGCGAG TAACCTGTTTGCGGTGCTCCATTAGCTGCAGGAGCAGAATAGCATACATCTGGAAGCAAAGCCAGGAAAG CGGCCTATGGAGCTGTGCGGCAGCGCTCAGTAGGCAATTTTTCAAAATATTGTTAAGCCTTTTCTGAGCA TGGTATTTTTCATGGTATTACCAATTAGCAGGAAAATAAGCCATTGAATATAAAAGATAAAAATGTCTTG TTTACAATAGAGTGGGTATCGGAGACGAAGAAGGACAAGGTACATGCTGACCGATACCAAGCTGCGCAAT CTCAAGCCCAGGGACAAACTCTACAAAGTGAATGACCGGGAAGGTCTCTATGTGGGGGTCGCCTCAGAAA ACGGAATCTATGGTCACTCCCGTTTTTGCAACACCGATTTTGACGACAAGTTGGCTTGCTTGAATCTATC CGGCGTCTGAATGGGATTTTATTCCCGCGCCTCGATGAGTTCCGCGCCTGATGAACCTCCAGAAAATATA CGGCTTCAATGAGCCTTTCCGTTTTACAGGTTCCTCAACAGGCCGGTGGGCCGTTAGTATCATCAATATC AGTATTCGCAAAACCAGATGAATGATTGTTTAAACTGGTGTATTTCTGCCTTTATGCTTCGTAAGTTTGC TGTCGCGCCGTCAGTGCCCAGGCTATTCTGGCCAGCTTGTTTGCCAGAGCACAGGTGACGACAAAGTTGC TTTTCCGACACAACAACTCCCTGACCCAGTCGGCCAACTTGCCAGACTGGTGTTCCAGTTTTTGTATGAA TACCCTGGCACACTGAACCAACAAAGTTCGGATCTTTTTGTTGCCCCGCTTGCTAATCCCTAACAATGTC GTCCGACCTCCCGTGCTGTACTGTCGGGGTACCAGCCCTGTTGCCGCCGCAAAGTCACGGCTGCTGGCGT ACTGCTTCCCGTCGCCAATCTCAGTTGAAATAGTACTGGCAGTCAGCGTTCCAACGCAGGGAATACTCAG CAAGCGCTGTCCAACCTCATCTTCGTCCAACTTTCGTTTCAACTGAGATTCCAGATCTTTAATCTGCTCA ACAAGATAGTGATAATGCTGTTGTAATTTCAGCAGTAACTGGCTGAGATAAAGAGGCAAACTACTGTCCT CAAGAAGGGTACTCAGTCGACTAATAACGGCAGCACCTCGCGGAACGCTGATACCAAATTCCAGCAGAAA AGCATGCATCTGATTAGTTGTTTTCACCTTATCCTGAACCAGGGATTCACGGACACGATGCAGAGCTCGC ATTGCCTGCTGAGATTCGGTTCTGGGCTGCACGAAACGCATAGATGGACGTGATGCTGCTTCACAGATAG CTTCAGCATCAACGAAGTCATTTTTGTTGCTTTTAACGAATGGGCGGACAAATTGCGGTGATATCAGCTT TGGAAAATGCCCTAACTCTTCCAGCTTGCGTGCCATAAAGTGAGAACCGCCACAGGCTTCCATCGCGATG GTTGTTGCCGGGCATGTCGCCAGAAATTCGATTAGCTTTGGTCGGGTGAATTTTTTACGGTAAACGGCCT TCCCACGATGATCCTGACAATGAATATGGAAAGAGTTCTTACCCAGATCGATACCAATAAGCGCAATGTT TTCCATGATGGTTCTCCGAATGAAAGCCTGTCCTCAGCATAGTACTGGGAAGGAGGGAGTGACCATCTCA TTAAATAAAGCACGCTAAGCCGGTTGCAGCGGTCGTAGCGGCCTGAACTTGCCCGCGCCGATCTTGGCGC TGCTGCGCCAGAGGTAATCGCCGGTGAGGTTGATGTGCTCCCAACCGAGCGGCGACAGGTACTGCAACAG CGCGTCATCAACGGCATGGCCGTTGCCACGCAGCGCGTGCGCAGCCCGTTCCAGATAGACCGTGTTCCAC AACACGACGGCAGCCGTTACCAGATTGAGGCCGCTAGCCCGGTAGCGCTGCTGCTCGAAACTGCGGTCGC GGATTTCACCCAGGCGGTTGAAAAACACTGCCCTGGCCAGCGCATTGCGCGCCTCGCCCTTGTTCAGGCC GGCATGCACGCGGCGGCGCAGTTCCACGCTTTGCAGCCAGTCCAGGATGAACAGCGTGCGCTCGATGCGG CCCAGCTCGCGGAGCGCCACGGCCAGGCCGTTCTGGCGTGGGTAGCTGCCGAGCTTTCGGAGCATCAGGG AGGCCGTCACCGTGCCCTGCTTGATCGAGGTGGCCAGCCGCAGGATTTCGTCCCAATGGGCGCGGACGTG CTTGATGTTGAGCGTGCCGCCGATCATGGGTTTCAGCGCGTCATAGGCGGCGTCGCCCTTCGGGATGTAG AGCTTGGTGTCGCCCAGGTCGCGGATGCGCGGCGCGAAGCGGAAGCCCAGGAGGTGCATCAGGGCGAAGA CGTGATCGGTGAAGCCCGCCGTGTCGGTGTAATGCTCCTCGATCCGCAAGTCGGACTCGTGGTACAGCAG GCCGTCGAGCACGTAGGTCGAATCGCGCACGCCGACGTTCACGACCTTGGTGTGAAATGGCGCGTACTGG TCAGAAATGTGGGTGTAGAACGTCCGCCCTGGGCTGCTCCCGTATTTCGGGTTGATGTGGCCGGTGCTCT CGGCCTTGCTGCCGGTGCGGAAGTTCTGGCCGTCCGACGATGAGGTGGTGCCGTCGCCCCAGTGCTCGGC GAAGGGATGGCGGAACTGTGCGTTGACCAGATCGGCCAGCGCCGCCCCGTAGGTTTCGTCGCGGATGTGC CAGGCTTGCAGCCAAGCCAGCTTGGCGTAGGTCGTGCCGGGGCAAGACTCCGCCATCTTGGTCAGGCCCA GGTTGATCGCGTCGGCGAGGATCGTGGTCAGCAACAGGTTCTTGTCTTTGGCCGGGTCGCCCGATTTCAG ATGCGCGAAATGCCGAGTGAAGCCCGTCCATTCGTCCACCTCCAGCAGCAGTTCGGTGATCTTGACGTGC GGCAGGATCATTGCCGTCTGGTCGATCAGCGCTTGGGCGGTGTCGGGTACCGCCGCGTCGAGCGGCGTGA TCTTCAAGCCTGACTCGGTGATGATGGCGTCCGGCAGCTCGTTGGCCGTCGCCATACGGTTGACGGTGGC AAGCTGTGTTTCCAGCAGCGTCAGCCGGTCGTTCAGGTACCGGTTGCAGTCGGTGGCCACGGCCAGCGGC AATTCGCTGGCCTGCTTGAGGCTGGCGAATTTCGCGGGCGGCACCAGGTAGTCCTCGAAGTCCTTGAACT GGCGCGACCCCTGCACCCAGATGTCGCCGGAACGCAACGCGTTCTTCATCTCCGACAGCGCGCACAGTTC GTAGTAGCGCCGGTCGATGCCGGTGTCGGTCATGACCAGCTTCTGCCAGCGCGGCTTGATGAACTCGGTC GGCGCGTCGGCGGGCACCTTGCGGGCGTTGTCGCTGTTCATGCCGCGCAGCACCTCGATGGCGTCGAGCA CGTCCTTCGCGGCGGGAGCGGCCCGCAGCTGGCACTGTTGCAAAGTTAGCGATGAGGCAGCCTTTTGTCT TATTCAAAGGCCTTACATTTCAAAAACTCTGCTTACCAGGCGCATTTCGCCCAGGGGATCACCATAATAA AATGCTGAGGCCTGGCCTTTGCGTAGTGCACGCATCACCTCAATACCTTTGATGGTGGCGTAAGCCGTCT TCATGGATTTAAATCCCAGCGTGGCGCCGATTATCCGTTTCAGTTTGCCATGATCGCATTCAATCACGTT GTTCCGGTACTTAATCTGTCGGTGTTCAACGTCAGACGGGCACCGGCCTTCGCGTTTGAGCAGAGCAAGC GCGCGACCATAGGCGGGCGCTTTATCCGTGTTGATGAATCGCGGGATCTGCCACTTCTTCACGTTGTTGA GGATTTTACCCAGAAACCGGTATGCAGCTTTGCTGTTACGACGGGAGGAGAGATAAAAATCGACAGTGCG GCCCCGGCTGTCGACGGCCCGGTACAGATACGCCCAGCGGCCATTGACCTTCACGTAGGTTTCATCCATG TGCCACGGGCAAAGATCGGAAGGGTTACGCCAGTACCAGCGCAGCCGTTTTTCCATTTCAGGCGCATAAC GCTGAACCCAGCGGTAAATCGTGGAGTGATCGACATTCACTCCGCGTTCAGCCAGCATCTCCTGCAGCTC ACGGTAACTGATGCCGTATTTGCAGTACCAGCGTACGGCCCACAGAATGATGTCACGCTGAAAATGCCGG CCTTTGAATGGGTTCATGTGCAGCTCCATCAGCAAAAGGGGATGATAAGTTTATCACCACCGACTATTTG CAACAGTGCCCAGTCCACGCCTCAGAACTTGTGGGCTCGCTTTTAAAAAGTTCCCGTCCGTCAGGGCTGG CGCAGGCGATTATGGAGGTGGGACGGGTCAACAAGACGCTGTACCTCCTCAACTACATTGATGATGAAGA ATATCGTCGCAGGATACTGACTCAGCTTAACCGGGGAGAAGGCCGTCACGCCGTGGCAAGGGCGATCTGT TACGGCCAACGTGGTGAGATTAGAAAACGTTACCGTGAGGGGCAGGAGGATCAACTGGGTGCGCTGGGGC TTGTCACTAACGCAGTTGTATTGTGGAACACGCTTTATATGCAGGAAGCGCTATCACATTTGCGCAGCGC TGGTGAGATCCCGGAAGACGAGCATATCTCACGCCTGTCGCCACTGATGTACGGTCATATCAACATGCTG GGACATTATACGTTCACGCTGCCGGAAAATATTCTGAAGGGAGAGTTGAGGCCATTAAATTTCAATTCAA ACAATGAATTATTGCCTTAACGTGGTTTTTTACACGATTGAACCTCGAACCCCTATATCGGCTAAAGCAC TCCGGTAGCTTGATTCACCCCACGGCCACGGCAGGATCTTGGCCGTCGCAAGCGCCAGGGGAAAATCTTC AGCTGCAAGCCTGAGTGATTTCATGTGCGTGTAATCCATCGCCCAGATGATTTTTGTGAAGAAGAACTCG CGCTCGTTCATGTCCGGGCGCGCGTCCTGGCCCTCCGTGCCAACGGCCAGCAAGTAATCGGCCTGAATTG GCAGTATCAGCGCGCGTAGTAAGTCATGGATCGCCGGTTGCGGCAGTCTGCGCGCCAGATTAATTACCCG GTCGAACTTCAGTTTATCCTGCTTGCGCTTGTCGGTCTGCTCCATCAGATTTCATGGCCCCCTTCTTCAT GCTCATGCTCATGGGTGTGTTCTTTTCCGGTATGGCTCTGTTCCGCCTGAGACGTCTGCGGCATGGCGTA ATCGTCGTAAATGCTGCTGTCAAAGTCGTAGTCTGATGCTTCGGCATAATGCTCGTAATCGGCATACTCC TGCGCGCTCCACTGCTGATCGTCGGCAGCAGCATAATCATGGGCCAGTTCTGCATCATTTTGCTGTGCTT CATGACGCCGCAGGCCAACGGAATCATCCATAGGGTTCTGCTTAAGATGAAAGGCGTCCTCTGCGTTGCT CACCGGCTGATAATCAGTGCCGGTTGTCATGTTATGTTCATCGGGTTTCTGGTTAAACGCCATGCTTTCC CCCGTGGCTTCTGGCAGACCTTTTTCAGCTGATCGGGTTTCTAAACTGGTATCGCGGCCAATATCCTTAA ACCTGGCCTCAAGCCCAAAGAAACGGTCAATTTCTGCGGCCGTGGTTTTCGGGCTGTCGCGGCTCACGCT CGATGCCAAAGATTTTTTATCGTCGGTAAAAATTTCCACCTCATGACGCGCACGCGAAATACCAACATAA AAAACGTCCTTAGAAGTGGTAAGCGATTTGGTATCTATGTTGAACAACACGCGATCACAGGTAAGCCCCT GGGATTTGTGGACGGTGGTTGCATAAGCATAGGAAAGATAAGAAGCCTGTTTTTTGTCCAGCTCAACCGT GCGCCCTTTTTTGTCCTCAAGCGTCAGTTTTTCACCCTCCACGGTTTTCACCGTGAAGCGGTCGCCGTTG GCAACGTCCAGCGTTTTATCGTTACGCGTTACCATGACCTTATCGCCCGGCGCCAGTTCGGCGCTGACTG CCTGGTATACAGACAGCTTGGTGTGTGTACGCGGGCTGAAAGCGATCTGCTCACCGCTGCTGCTTTCAAC CGTCAATTTGTTGCCCGGCCCGGTATCAAGAACCTGGTAAGACTCGCCCCGCTTCATACCATTTTTGTAA TCCTGTTCGGGGATAATGATTTGCCCTTTACTGAAATAACGGCTGTCGCGGCGTTCCGCCTGTGTCGAAT CCACGCGGTCAAGTAGCGTGAACGTTTCGCCGGTTCCGGCAAGCCCCAGATTGCCCCGGATGTAGTCATT GAGGGTTTTGCGTGAGGCGTTCGTACCAGAGATTATCAGGGTGGCATCCTGTTGTTCTGAGGACAGAGAC AGGTAGCGATCGGCAAGTTGAGCGAGTCGGGGCGCTTCTTCCTTCAGTTCGTTCACGCCGGTGATATTTT TCAGGGCGCGCGCGGCATTACCTTCAGCGGCATACTTAACCGCCTCAAGCAAAACTTCATTCTTCTGTCG CTGAATGTCTTTCATGTAGCTGGTCTGCATACCTGCTTTAATCAGCTGCTCAAAAGGCTTACCGGCTTCT ACCGCTTTCGTCTGTGACGTATCCCCCAGGAATACCGCGCGAGCGTTATGCTTCTCGATCACCTCCATCA GCTGTTTCATCTGCCGGGCGGGTATAACCCCGGCTTCATCAATGAATACGACTGATTTTTCATCCAGCTT TTTATCCTTCGCTTTGAGGAAGGCGGCAACGGTGCGGGCCGGTAATCCATCATCTTCAAGCGCTTTTTTC TGTGTCCCATAGGGGGCCAGCGCCGTGACCTTCAGCCCTTGTGACTCCAGCAGCTCTTTAGCGGCCATCG TCATATAGCTTTTACCGGTACCGGCGTAACCATGTGCGGCCACAAAACGATCTTTGCTCGTCACAATTTC TGTAACTGCGCGCATCTGCTCATTCTTGAGGGTTTTCCCGGCGAGCAGCTGGCCTGCAATCTCTGCGGTC AGCTGTCGCGGCATCTGCCCCCGGCCGCGTGATTCGATAGTCAGAATGGAACGCTCAAGGCGAATACCCT CCACGGTAGTGACGCGGTGGCTGGTCTTTTTAAGCCTGCCGTTTTTAATACCATCATCTACCGCAAAACG GGCTTTATCCGCACGCATCCCGCTATTCGTCAGCGAGTCGATCCACTCTTTGCGCGTCAGAGTTTCGGCC ATAACTGAAGCACCGACCTTCAGCGTTGATTGATACCGGGCTTCGCCCTCGATGATGGCGCCCTTCTGTA CCGCCTTCAGGTACGCTTTTTCAACATCGGCCATTGTGGCATGGCCCAGCACCTGCTTATTAGCGATCTG AATCAGCTTCTGGCGTTCAAAGCTGGCATCGCGCTCTGACAGCGACTTAACTGCAAACTGGATAGCCCGG TCAGCTTTAACCTCAGGGCTGGTAAAATCCGGGGCCATGTTGCGCGCAATATCAGCCTCCAGAGGTTTAC CGTGTCCCTGCCATTCACGGTTATCAAAATCAATGCCTAGCGTTTTGGCGCGGCTGGCCCATTCCTGGTG AATTTCTTCACGGGAATGCTCTGTTTTCTTTTCACGCGTCGCCATCGAGACGCGGCTTTTCGTCTGAGCA TCGGCGGTTTCCCGCGTCAGGCCCATTGCAGCGAGTCCCTTTTCAATTTGCTCCGACCGGCGGGAAAAAG CGCGAATCTGTTCGTCTGAAAAATGGGCCATATCGAACGTGTTATTTTTGCTGTTGTAACGCAGCTCATA ACCGGCTTTGGTCAACTCCAGCGCCAGCTCCTGTTTGTAAACATCGCCCAGGTGCATTTTGTTACGCATC AGCTCATCATTTTTGAGCGCGCGCCACTGGCCGTCCTCGCGCTGGGTCATGTTCATGACAAAAGCGTGGG TGTGCAAATCAGGATCTAGCGCCCTGGACGTTTCGTGGCGAAAAGTAGCGACGACAAGGTTATTGGTATT CTGGGTTACTGATTTCCCCTGGCGAGTCGTCCGGGCCTGCGCGAGTTTTTCAGCTTCACGCACAGCAGCG GCAACAGCTTTTTCATGAGCCTCGATAATGGTTTTATCGCCGTGTATCAGCGCCTGCATGGATACCCCTT TAGGCGCTGAAAACGTCAGGTCGTAGCCCAGACGCTCTTTTTTGGCATCACCCACGTGTCGCTGCATATG CGTGAAGGTATCTATCTCTCCGACAAGCAGCTCTTTAAACCGGGCTGATTCAACGTCCCCGGATAAGCCG AGGGCTTCAGCTCCGGTTCCCTGCCAGGACGTGAATGATGAATCCTTACTGTAGTAATCATCCTTTGCAT CAGAGTAGTAGCCCACAACGCTAGTGACGTTCTGGCGGGTAATCGTGGTTATATCAAGCATCAGATCTCC CTCAGTTCAATGCCAGGAACAGGGTTTTTGCGATGGTATTTAACGTGTTTAGCCTTGAACTTAGCGACGG GCATATCACCAGGCAACGCCAGATAGCCGGTGAGGTTTGGCAACATTGATATTTCGGTAGGCGTTACGGC ACGAACAACTTTAACGTCGCGGCGTTTACGGACAATCCAGGGCTTCTGAGGATCGGATTCTTTACGCTCA ACTTCGCCTTCTATCTCACCGAGTGAGCGCGACATTTGATCCAACGTTTCATCACCGAGACGGCTGCCGC CCAGCACGATGTTAGAACGCATGTTAGCCAGAATTGTCTGAGCCATATCCCGACCATAAACCTTAACCAG CTGAGAATAGGTTTGATAGCCAGCATAAACACACAGACCGCTTTTACGCCCTTTGGTCAGTGCATCGTTG AGGTTTGGCAGAAACTGGAGTGATTCCAGCTCGTCAATAAATACATTAATGCGGCTTTCTTTTTCACCCA TACCCAGCACGATAGAAAAAATCGAATCCAGCCAGCAGGAAATTAGCGGATTAAGTGACCTTTTCATTTC TTCCTGCCAGGTGATAAACAGGGTTCCCGGCTTTCCATCATCAAGCCAGTCACGCAGGGAAAAATTACCT TCCGGCATTTTCAAATGTGGGGCAAGATTCTTACTGAGAACAAATCGCGCGCTTCCAACTGCTTTTTCAG ACCCGGAAAAAATAGCTTCGGCAGGCGTCCCCATTAAAAATTCTTTTAATTTTTTCTGGTCAACGTTACA GGCCCAGTGAATAACTTCTTCCATAGTTACTGTGCTATATAGGCTGTGAAGTTTTTTCGAAACTTCACTA AAAATAAGACGGCCATAGCCGAACCATTCTTCAGTAGCCATATCAGGGCTTTCCTGAACAATAGAGTTCA CTAAGCGCTCGTAATCATATGAACGGCGAATTTCATTGAAAAACACCCAGCCTTCAGTGCGTTTATCATA GGCGTTTAAAATAACATCGCCGGGACGATAGAAATTCTTTAAGAAGCCCCCATTTGGATCTAAAGCAATA TTTTTGCCGCCTCTAATGATGCTCTTAAATAACAGTTCATTGAAAATTGTGGTTTTACCAGTACCGGTTG TACCGGCAATCGAAAAATGCAAGTTCTCAGCGTATGTAGGTATGGGGATATTAGCCACGGTTAACTGGTT GACACCTCTTTCGCGTGTTTTATCAGCGAGTGTTCTGGCGCGAACAAGCTCTGTACCACGATAAATCTTT TTGAATCTTTCGCCTTTAAACACGCGTGATTTATCATAAATGATAAAAGCGATCAGACCGCCAACACCAA TAAACCAGCCAGCAATTAAAGCTGACCATAAAGGCCATAGCGAAAAAGTATTCTTAACCAGATACGGAAT CAGGTATTTAGCCGTGGATGGATCAATACCGTAGGTAAATTTTGCAACTAGAAACCATACCATCACTGGA GGCAAAGTAATTGCAAATAAAAATGCTAAGCCTCTTTCTCTATCGTCCATTTCAGCGCTCCTTTTTTGGT TCCCAGACTTTGTAGCCGTTACGTTCAACCTCTGCTTTTGCCGCTTTGGTTTTGCCCGGTTCTGCTATCG AGCGCAGGAGGATTAGCGTTTCAATAGCGAGTGATTCATGCAACATCATCTGTCCTGCCGGTGGGAATTT TACGCCAGATAGCGTTTCGGTTATTGCCTTCAGCTCATCGCGCAGTGGGCCAAAATCCGCATCTGAAGCA CGGTCAAAAAGATAATCCAGTTTGCGATTTACGTCGCTCAGCCGGTCGGCAACTATTTTCAACCCGGACT CCCGATCACCTGGGCCAGCTTCAATGCAGCGCCGCAGATAATCTGACCGATTACCTCCTGAAACCAGGTC TATATAGGCCAAAAGTTCATCTGATACTTTTGCGGTTATTATTGGCATTCAGTCCTCACATTGTGCATTT TTTAAACAAAAAATTGGGATCTAACAAGCTGAAATCTTAGTATTA
Region Details
| Region | 1 |
| Region Length | 31.5Kb |
| Completeness(score) | questionable(70) |
| Specific Keyword | transposase,head |
| Region Position | 23968-55512 |
| # tRNA | 0 |
| # Total Proteins | 12 |
| # Phage Hit Proteins | 10 |
| # Hypothetical Proteins | 0 |
| Phage + Hypothetical Protein % | 83.3% |
| # Bacterial Proteins | 2 |
| Attachment Site | yes |
| # Phage Species | 8 |
| Most Common Phage Name(hit genes count) | PHAGE_Salmon_SJ46_NC_031129(4) PHAGE_Entero_fiAA91_ss_NC_022750(2) PHAGE_Salisa_1_NC_017983(1) PHAGE_Thermu_OH2_NC_021784(1) PHAGE_Sodali_phiSG1_NC_007902(1) PHAGE_Lactoc_98201_NC_031064(1) PHAGE_Staphy_SPbeta_like_NC_029119(1) PHAGE_Staphy_phiPV83_NC_002486(1) PHAGE_Pseudo_F10_NC_007805(1) PHAGE_Entero_Mu_NC_000929(1) PHAGE_Vibrio_PWH3a_P1_NC_020863(1) PHAGE_Gordon_Utz_NC_030921(1) PHAGE_Escher_pro483_NC_028943(1) PHAGE_Staphy_Pvl108_NC_008689(1) PHAGE_Shigel_Stx_NC_029120(1) |
| First Most Common Phage # | 2 |
| First Most Common Phage % | 33.33% |
| GC % | 55.22% |
| 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|KY128483.1| Klebsiella oxytoca strain 97_38 plasmid pKm38_N, complete 68763, gc%: 53.13%
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 16 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | complement(23968..26067) | PROPHAGE_Xantho_33913: Tn5041 transposase; -; phage(gi21231545) | 2.11e-31 | Showinfo_outline |
| 2 | 26434..27753 | PHAGE_Staphy_phiPV83_NC_002486: transposase; -; phage(gi9635722) | 7.29e-29 | Showinfo_outline |
| 3 | complement(28003..28884) | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; -; phage(gi100066) | 2.88e-94 | Showinfo_outline |
| 4 | 29245..29256 | attL | 0.0 | Showinfo_outline |
| 5 | complement(29271..30050) | PHAGE_Entero_fiAA91_ss_NC_022750: IS21 transposition protein; -; phage(gi557307613) | 8.13e-78 | Showinfo_outline |
| 6 | complement(30047..31072) | PHAGE_Entero_fiAA91_ss_NC_022750: IS21 transposase; -; phage(gi557307612) | 2.30e-44 | Showinfo_outline |
| 7 | complement(31179..34208) | PROPHAGE_Xantho_306: Tn5044 transposase; -; phage(gi21243163) | 0.0 | Showinfo_outline |
| 8 | 34318..36033 | PHAGE_Gordon_Utz_NC_030921: hypothetical protein; -; phage(gi100031) | 1.22e-05 | Showinfo_outline |
| 9 | 37148..37705 | PHAGE_Salisa_1_NC_017983: hypothetical protein; -; phage(gi388570712) | 1.47e-29 | Showinfo_outline |
| 10 | 37879..37906 | attL | 0.0 | Showinfo_outline |
| 11 | 37888..38493 | PHAGE_Staphy_SPbeta_like_NC_029119: bifunctional AAC/APH; -; phage(gi985761240) | 1.18e-15 | Showinfo_outline |
| 12 | 38575..39351 | Spectinomycin 9-O-adenylyltransferase; - | 0.0 | Showinfo_outline |
| 13 | 39411..40235 | OXA-9 Beta-lactamase; - | 0.0 | Showinfo_outline |
| 14 | 40501..40752 | PHAGE_Salmon_SJ46_NC_031129: prohead core protein protease; -; phage(gi100061) | 4.13e-06 | Showinfo_outline |
| 15 | 40926..40953 | attR | 0.0 | Showinfo_outline |
| 16 | 55512..55523 | attR | 0.0 | Showinfo_outline |
Sequence
>complement(23968..26067)
KlebsiellaoxytocaMLAVIIRDARKIGQKKRLRSLKDLDKSALALASACSYLLKEETPDESIRAEVFSYIPRQKLAEIITLVREIARPSDDNFHEEMVEQYGRVRRFLPHLLNTVKFSSAPAGVTTLNACDYLSREFSSRRQFFDDAPTEIISRSWKRLVINKEKHITRRGYTLCFLSKLQDSLRRRDVYVTGSNRWGDPRARLLQGADWQANRIKVYRSLGHPTDPQEAIKSLGHQLDSRYRQVAARLCENEAVELDVSGPKPRLTISPLASLDEPDSLKRLSKMISDLLPPVDLTELLLEINAHTGFADEFFHASEASARVDDLPVSISAVLMAEACNIGLEPLIRSNVPALTRHRLNWTKANYLRAETITSANARLVDFQATLPLAQIWGGGEVASADGMRFVTPVRTINAGPNRKYFGNNRGITWYNFVSDQYSGFHGIVIPGTLRDSIFVLEGLLEQETGLNPTEIMTDTAGASELVFGLFWLLGYQFSPRLADAGASVFWRMDHDADYGVLNDIARGQSDPRKIVLQWDEMIRTAGSLKLGKVQVSVLVRSLLKSERPSGLTQAIIEVGRINKTLYLLNYIDDEDYRRRILTQLNRGESRHAVARAICHGQKGEIRKRYTDGQEDQLGTLGLVTNAVVLWNTIYMQAALDHLRAQGETLNDEDIARLSPLCHGHINMLGHYSFTLAELVTKGHLRPLKEASEAENVA
Sequence
>26434..27753
KlebsiellaoxytocaMAASYLPYRPDQSYLLPPSLGEWLPEGHLAYFISETVDTLDLSAFHARYAGGGPGNQPFHPAMMVKVLIYGYASGVFSSRKLARKLYEDVALRVLAAGNFPAHRTLSDFRALHLTELENLFVQVVQLARECGLVKLGTIAVDGTKVKANASRHKAMSYKRMKPAEDELHCEIKALLDRAKATDDQERNEPELDIPAEISRREKRLEAIQAAKARLEARQREADQARGRSEDDGRRPRHPDGSDKGGGSYKREFGVPDDRDQESFTDPDSRIMKHAGGGSEQSYNGYTAVDAEHQIIVAAELTNCAADSQALLGMLAAVQANTGEMPAQTLADAGFRSEAVLAKVADHHGDVIVALGREGREDAKVNAKTHPHTAAIAAKLKTEQGDAAYRRRKSIVEAPNGWIKAVMGLRQFSMRGLDKVQAEWKLVCMALNLRRMAYL
Sequence
>complement(28003..28884)
KlebsiellaoxytocaMSLYRRLVLLSCLSWPLAGFSATALTNLVAEPFAKLEQDFGGSIGVYAMDTGSGATVSYRAEERFPLCSSFKGFLAAAVLARSQQQAGLLDTPIRYGKNALVPWSPISEKYLTTGMTVAELSAAAVQYSDNAAANLLLKELGGPAGLTAFMRSIGDTTFRLDRWELELNSAIPGDARDTSSPRAVTESLQKLTLGSALAAPQRQQFVDWLKGNTTGNHRIRAAVPADWAVGDKTGTCGVYGTANDYAVVWPTGRAPIVLAVYTRAPNKDDKHSEAVIAAAARLALEGLGVNGQ
Sequence
>29245..29256
ACCAAAGTAATA
Sequence
>complement(29271..30050)
KlebsiellaoxytocaMNLQHERIDALCQQLKLERVATHYPVLAQQAVREDFSFTDFLEHLLRHEAGCRQQRSRELLTRMACFPGIKTLEDYDFSFNPGVPKALVQELGSLAFVERAENVVLIGPSGIGKTHLAIALGYKAAQAGVKTRFITAADLMLQLSTAQRQGRLKEYFNRAILGPRLLVIDEIGYLPFGREEANLFFQVVAKRYEKGAMILTSNLPFSQWADAFAGDTTLTAAMLDRLLHHAHILTLSGESYRLKDKRKAGVVRKNSKPE
Sequence
>complement(30047..31072)
KlebsiellaoxytocaMLTQEQTVEIRVLARQGHSIRHIARTLGVSRNTVRRYLRDPSVARYQPREPRPTKLGPFESYLRQRVEQAHPIWLPATVLNREIRAQGYGGGLSLLRAFLATLKPARREAGPAVRFETEPGRQLQADFVVLRRARSPMSAFVATLGYSRMTFVTFVPDESFESVRDSLLLAFDYLGGVPREVLFDNMKTVVLERDAYGDGKHRFHPGLLQLADDLGFRIRLCRPYRAQTKGKVERFNRYFRESFYNPLLTRMKGTGLLLDCAAANRRVRDWLADEANVRVHATLNERPIDRWRQEREHLQPLPSRVRRDEAPLLDNSLRPVPLESLQHPLSVYDAIGEACR
Sequence
>complement(31179..34208)
KlebsiellaoxytocaMSKKNKLLSVLSDAEQEALYGLPEFDDAQQLEYLAVTETELALANSRPSLHAKVYCLLQIGYFKAKHAFFSFDWDEVEDDCAFVLSRYFHGEVFEPKAITKHERYTQREQIAKLFGYWPWSAAFLPQLEQQAARTVRRDVTPGFVAAELIVWLNEHKIIRPGYTTLQELVSETLSAERRRLGNLLEQALDESAKAALSQLLVRDDTLSQLAALKQDAKNFGWRQMVREREKRATLEPLHAIAKTLLPKLDVSQQNLLYYASLANFYTVHDLRNLKADQTQLYLLCYAWVRYRQLSDNLVDAMAYHMKQLEDESSAGAKQSFADEQVRRQQETPRVGRLLSLYVDDSVADPTPFGEVRQRAYKIMPRDTLQTTAQRMSVKPASKLALQWQAVDGLADRMRRHLRPLYVALDLSGSNPDSPWLAALAWAKGVFAKQQRLSQRPLDEWPAATLPKRLRPYLLTFDADGKPTGLHADRYEFWLYRQIRKRLQSGELYLDDSLQHRHFSDELVEMDRKIDVLAKMEIPFLQQPVHAQLDALTAELRTQWLAFNRELKQGKLTHLEYNKDTQKLTWRKPKSENEKAREKAFYEKLPFCDVADVFRFVNDECKFLSAFTPMQPRYAKKVADADSLMAVIIAQAMNHGNHVMARTSDIPYHVLDSGYQQYLRQATLHAANDCISNAIATLPIFPYYSFDLETLYGAVDGQKFSVERPTVKARYSRKYFGRGKGVVAYTLLCNHIPLNGYLIGAHDYEAHHVFDIWYRNTSDIMPTAITGDMHSVNKANFAILHWFGRRFEPRFTDLNAQLKELYCADDPAQYQACLIRPVGKIDCDLIHREKPNIDRIVATLGLKEMTQGTLIRKLCTYTTTNPTRRAIFEFDKLIRSIYTLRYLRDPQLERNVHRSQNRLESYHQLRSAIAQVGGKKELTGRTDIEIEISNQCARLIANTIIFYNSAILSRLVTKYEAAGNSKALALITKISPAAWRHILLNGHYTFQSSGKTIDLDAIVAGLELE
Sequence
>34318..36033
KlebsiellaoxytocaMKTGQTTASSSTPVGFPDADSLAALRGWYAGLSSRAAVEHYLAARKAAGQSARGMLGHIRRQLIVFANSRHRPDLADVFQHAPEERQGRAGAVERAIRLLPTLPAPKPQISDSIDQWLSPRTVRALQAYGIHTLSALTVRIPRRRGWWKAIEGLGMTGARQVEAFFAAHPQLTERARALIPIIQPSGIVPWEQLRLPNEVDGSQGNFRAPRNACTLNATNDYEAVQAWLALHETVATQRAYRKEAARLILWAIVERGRALSSLTTDDAIAYRAFVRHPTPRERWVGPPRPRDSVEWRPFSGGLSARSAAYALTVLSALFRWLIEQRYVLANPFAGVKVRGHALRPALDTARGFTEGEWLLLRAIADGLEWSYGWSEPAAQRLRFMLDFGYATGLRASELVGAVLGNVRLDEHGDHWLHLVGKGGKPGKVALPPLAYTALDQYLAQRQLPVSRERWNPKTPLVGSLGEDGNAGITGPHLWCVLRRFFTQAAEAIEADHPVAAEKLRRATPHWMRHSHASHALARGAQLTAVRDNLRHASIATTSMYLHGDELERARQMRQAFGARHVKRGVD
Sequence
>37148..37705
KlebsiellaoxytocaMRIFGYARVSTSQQSLDIQIRALKDAGVKANRIFTDKASGSSTDREGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVAVRFIDDGISTDGDMGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERAS
Sequence
>37879..37906
AGGAAGAGTATGAGTATTCAACATTTCC
Sequence
>37888..38493
KlebsiellaoxytocaMSIQHFQTKLGITKYSIVTNSNDSVTLRLMTEHDLAMLYEWLNRSHIVEWWGGEEARPTLADVQEQYLPSVLAQESVTPYIAMLNGEPIGYAQSYVALGSGDGWWEEETDPGVRGIDQSLANASQLGKGLGTKLVRALVELLFNDPEVTKIQTDPSPSNLRAIRCYEKAGFERQGTVTTPDGPAVYMVQTRQAFERTRSVA
Sequence
>38575..39351
KlebsiellaoxytocaMIAEVSTQLSEVVGVIERHLEPTLLAVHLYGSAVDGGLKPHSDIDLLVTVTVRLDETTRRALINDLLETSASPGESEILRAVEVTIVVHDDIIPWRYPAKRELQFGEWQRNDILAGIFEPATIDIDLAILLTKAREHSVALVGPAAEELFDPVPEQDLFEALNETLTLWNSPPDWAGDERNVVLTLSRIWYSAVTGKIAPKDVAADWAMERLPAQYQPVILEARQAYLGQEDRLASRADQLEEFVHYVKGEITKVVGK
Sequence
>39411..40235
KlebsiellaoxytocaMKKILLLHMLVFVSATLPISSVASDEVETLKCTIIADAITGNTLYETGECARRVSPCSSFKLPLAIMGFDSGILQSPKSPTWELKPEYNPSPRDRTYKQVYPALWQSDSVVWFSQQLTSRLGVDRFTEYVKKFEYGNQDVSGDSGKHNGLTQSWLMSSLTISPKEQIQFLLRFVAHKLPVSEAAYDMAYATIPQYQAAEGWAVHGKSGSGWLRDNNGKINESRPQGWFVGWAEKNGRQVVFARLEIGKEKSDIPGGSKAREDILVELPVLMGNK
Sequence
>40501..40752
KlebsiellaoxytocaMGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERAS
Sequence
>40926..40953
AGGAAGAGTATGAGTATTCAACATTTCC
Sequence
>55512..55523
ACCAAAGTAATA
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: 68763 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: PROPHAGE_Xantho_33913 Tn5041 transposase (Region 1)
Locus: PROPHAGE_Xantho_33913 Tn5041 transposaseORF Start: 23968
ORF Stop: 26067
Strand: Backward
Protein Sequence: MLAVIIRDARKIGQKKRLRSLKDLDKSALALASACSYLLKEETPDESIRAEVFSYIPRQKLAEIITLVREIARPSDDNFHEEMVEQYGRVRRFLPHLLNTVKFSSAPAGVTTLNACDYLSREFSSRRQFFDDAPTEIISRSWKRLVINKEKHITRRGYTLCFLSKLQDSLRRRDVYVTGSNRWGDPRARLLQGADWQANRIKVYRSLGHPTDPQEAIKSLGHQLDSRYRQVAARLCENEAVELDVSGPKPRLTISPLASLDEPDSLKRLSKMISDLLPPVDLTELLLEINAHTGFADEFFHASEASARVDDLPVSISAVLMAEACNIGLEPLIRSNVPALTRHRLNWTKANYLRAETITSANARLVDFQATLPLAQIWGGGEVASADGMRFVTPVRTINAGPNRKYFGNNRGITWYNFVSDQYSGFHGIVIPGTLRDSIFVLEGLLEQETGLNPTEIMTDTAGASELVFGLFWLLGYQFSPRLADAGASVFWRMDHDADYGVLNDIARGQSDPRKIVLQWDEMIRTAGSLKLGKVQVSVLVRSLLKSERPSGLTQAIIEVGRINKTLYLLNYIDDEDYRRRILTQLNRGESRHAVARAICHGQKGEIRKRYTDGQEDQLGTLGLVTNAVVLWNTIYMQAALDHLRAQGETLNDEDIARLSPLCHGHINMLGHYSFTLAELVTKGHLRPLKEASEAENVA
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: PROPHAGE_Xantho_33913 Tn5041 transposase, -, phage(gi21231545), PROPHAGE_Xantho_33913
Homolog/Ortholog E-Value: 2.11e-31
Locus 2: PHAGE_Staphy_phiPV83_NC_002486 transposase (Region 1)
Locus: PHAGE_Staphy_phiPV83_NC_002486 transposaseORF Start: 26434
ORF Stop: 27753
Strand: Forward
Protein Sequence: MAASYLPYRPDQSYLLPPSLGEWLPEGHLAYFISETVDTLDLSAFHARYAGGGPGNQPFHPAMMVKVLIYGYASGVFSSRKLARKLYEDVALRVLAAGNFPAHRTLSDFRALHLTELENLFVQVVQLARECGLVKLGTIAVDGTKVKANASRHKAMSYKRMKPAEDELHCEIKALLDRAKATDDQERNEPELDIPAEISRREKRLEAIQAAKARLEARQREADQARGRSEDDGRRPRHPDGSDKGGGSYKREFGVPDDRDQESFTDPDSRIMKHAGGGSEQSYNGYTAVDAEHQIIVAAELTNCAADSQALLGMLAAVQANTGEMPAQTLADAGFRSEAVLAKVADHHGDVIVALGREGREDAKVNAKTHPHTAAIAAKLKTEQGDAAYRRRKSIVEAPNGWIKAVMGLRQFSMRGLDKVQAEWKLVCMALNLRRMAYL
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: PHAGE_Staphy_phiPV83_NC_002486 transposase, -, phage(gi9635722), PHAGE_Staphy_phiPV83_NC_002486
Homolog/Ortholog E-Value: 7.29e-29
Locus 3: PHAGE_Salmon_SJ46_NC_031129 hypothetical protein (Region 1)
Locus: PHAGE_Salmon_SJ46_NC_031129 hypothetical proteinORF Start: 28003
ORF Stop: 28884
Strand: Backward
Protein Sequence: MSLYRRLVLLSCLSWPLAGFSATALTNLVAEPFAKLEQDFGGSIGVYAMDTGSGATVSYRAEERFPLCSSFKGFLAAAVLARSQQQAGLLDTPIRYGKNALVPWSPISEKYLTTGMTVAELSAAAVQYSDNAAANLLLKELGGPAGLTAFMRSIGDTTFRLDRWELELNSAIPGDARDTSSPRAVTESLQKLTLGSALAAPQRQQFVDWLKGNTTGNHRIRAAVPADWAVGDKTGTCGVYGTANDYAVVWPTGRAPIVLAVYTRAPNKDDKHSEAVIAAAARLALEGLGVNGQ
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: PHAGE_Salmon_SJ46_NC_031129 hypothetical protein, -, phage(gi100066), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 2.88e-94
Locus 4: attL (Region 1)
Locus: attLORF Start: 29245
ORF Stop: 29256
Strand: Forward
Protein Sequence: ACCAAAGTAATA
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 5: PHAGE_Entero_fiAA91_ss_NC_022750 IS21 transposition protein (Region 1)
Locus: PHAGE_Entero_fiAA91_ss_NC_022750 IS21 transposition proteinORF Start: 29271
ORF Stop: 30050
Strand: Backward
Protein Sequence: MNLQHERIDALCQQLKLERVATHYPVLAQQAVREDFSFTDFLEHLLRHEAGCRQQRSRELLTRMACFPGIKTLEDYDFSFNPGVPKALVQELGSLAFVERAENVVLIGPSGIGKTHLAIALGYKAAQAGVKTRFITAADLMLQLSTAQRQGRLKEYFNRAILGPRLLVIDEIGYLPFGREEANLFFQVVAKRYEKGAMILTSNLPFSQWADAFAGDTTLTAAMLDRLLHHAHILTLSGESYRLKDKRKAGVVRKNSKPE
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: PHAGE_Entero_fiAA91_ss_NC_022750 IS21 transposition protein, -, phage(gi557307613), PHAGE_Entero_fiAA91_ss_NC_022750
Homolog/Ortholog E-Value: 8.13e-78
Locus 6: PHAGE_Entero_fiAA91_ss_NC_022750 IS21 transposase (Region 1)
Locus: PHAGE_Entero_fiAA91_ss_NC_022750 IS21 transposaseORF Start: 30047
ORF Stop: 31072
Strand: Backward
Protein Sequence: MLTQEQTVEIRVLARQGHSIRHIARTLGVSRNTVRRYLRDPSVARYQPREPRPTKLGPFESYLRQRVEQAHPIWLPATVLNREIRAQGYGGGLSLLRAFLATLKPARREAGPAVRFETEPGRQLQADFVVLRRARSPMSAFVATLGYSRMTFVTFVPDESFESVRDSLLLAFDYLGGVPREVLFDNMKTVVLERDAYGDGKHRFHPGLLQLADDLGFRIRLCRPYRAQTKGKVERFNRYFRESFYNPLLTRMKGTGLLLDCAAANRRVRDWLADEANVRVHATLNERPIDRWRQEREHLQPLPSRVRRDEAPLLDNSLRPVPLESLQHPLSVYDAIGEACR
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: PHAGE_Entero_fiAA91_ss_NC_022750 IS21 transposase, -, phage(gi557307612), PHAGE_Entero_fiAA91_ss_NC_022750
Homolog/Ortholog E-Value: 2.30e-44
Locus 7: PROPHAGE_Xantho_306 Tn5044 transposase (Region 1)
Locus: PROPHAGE_Xantho_306 Tn5044 transposaseORF Start: 31179
ORF Stop: 34208
Strand: Backward
Protein Sequence: MSKKNKLLSVLSDAEQEALYGLPEFDDAQQLEYLAVTETELALANSRPSLHAKVYCLLQIGYFKAKHAFFSFDWDEVEDDCAFVLSRYFHGEVFEPKAITKHERYTQREQIAKLFGYWPWSAAFLPQLEQQAARTVRRDVTPGFVAAELIVWLNEHKIIRPGYTTLQELVSETLSAERRRLGNLLEQALDESAKAALSQLLVRDDTLSQLAALKQDAKNFGWRQMVREREKRATLEPLHAIAKTLLPKLDVSQQNLLYYASLANFYTVHDLRNLKADQTQLYLLCYAWVRYRQLSDNLVDAMAYHMKQLEDESSAGAKQSFADEQVRRQQETPRVGRLLSLYVDDSVADPTPFGEVRQRAYKIMPRDTLQTTAQRMSVKPASKLALQWQAVDGLADRMRRHLRPLYVALDLSGSNPDSPWLAALAWAKGVFAKQQRLSQRPLDEWPAATLPKRLRPYLLTFDADGKPTGLHADRYEFWLYRQIRKRLQSGELYLDDSLQHRHFSDELVEMDRKIDVLAKMEIPFLQQPVHAQLDALTAELRTQWLAFNRELKQGKLTHLEYNKDTQKLTWRKPKSENEKAREKAFYEKLPFCDVADVFRFVNDECKFLSAFTPMQPRYAKKVADADSLMAVIIAQAMNHGNHVMARTSDIPYHVLDSGYQQYLRQATLHAANDCISNAIATLPIFPYYSFDLETLYGAVDGQKFSVERPTVKARYSRKYFGRGKGVVAYTLLCNHIPLNGYLIGAHDYEAHHVFDIWYRNTSDIMPTAITGDMHSVNKANFAILHWFGRRFEPRFTDLNAQLKELYCADDPAQYQACLIRPVGKIDCDLIHREKPNIDRIVATLGLKEMTQGTLIRKLCTYTTTNPTRRAIFEFDKLIRSIYTLRYLRDPQLERNVHRSQNRLESYHQLRSAIAQVGGKKELTGRTDIEIEISNQCARLIANTIIFYNSAILSRLVTKYEAAGNSKALALITKISPAAWRHILLNGHYTFQSSGKTIDLDAIVAGLELE
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: PROPHAGE_Xantho_306 Tn5044 transposase, -, phage(gi21243163), PROPHAGE_Xantho_306
Homolog/Ortholog E-Value: 0.0
Locus 8: PHAGE_Gordon_Utz_NC_030921 hypothetical protein (Region 1)
Locus: PHAGE_Gordon_Utz_NC_030921 hypothetical proteinORF Start: 34318
ORF Stop: 36033
Strand: Forward
Protein Sequence: MKTGQTTASSSTPVGFPDADSLAALRGWYAGLSSRAAVEHYLAARKAAGQSARGMLGHIRRQLIVFANSRHRPDLADVFQHAPEERQGRAGAVERAIRLLPTLPAPKPQISDSIDQWLSPRTVRALQAYGIHTLSALTVRIPRRRGWWKAIEGLGMTGARQVEAFFAAHPQLTERARALIPIIQPSGIVPWEQLRLPNEVDGSQGNFRAPRNACTLNATNDYEAVQAWLALHETVATQRAYRKEAARLILWAIVERGRALSSLTTDDAIAYRAFVRHPTPRERWVGPPRPRDSVEWRPFSGGLSARSAAYALTVLSALFRWLIEQRYVLANPFAGVKVRGHALRPALDTARGFTEGEWLLLRAIADGLEWSYGWSEPAAQRLRFMLDFGYATGLRASELVGAVLGNVRLDEHGDHWLHLVGKGGKPGKVALPPLAYTALDQYLAQRQLPVSRERWNPKTPLVGSLGEDGNAGITGPHLWCVLRRFFTQAAEAIEADHPVAAEKLRRATPHWMRHSHASHALARGAQLTAVRDNLRHASIATTSMYLHGDELERARQMRQAFGARHVKRGVD
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: PHAGE_Gordon_Utz_NC_030921 hypothetical protein, -, phage(gi100031), PHAGE_Gordon_Utz_NC_030921
Homolog/Ortholog E-Value: 1.22e-05
Locus 9: PHAGE_Salisa_1_NC_017983 hypothetical protein (Region 1)
Locus: PHAGE_Salisa_1_NC_017983 hypothetical proteinORF Start: 37148
ORF Stop: 37705
Strand: Forward
Protein Sequence: MRIFGYARVSTSQQSLDIQIRALKDAGVKANRIFTDKASGSSTDREGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVAVRFIDDGISTDGDMGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERAS
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: PHAGE_Salisa_1_NC_017983 hypothetical protein, -, phage(gi388570712), PHAGE_Salisa_1_NC_017983
Homolog/Ortholog E-Value: 1.47e-29
Locus 10: attL (Region 1)
Locus: attLORF Start: 37879
ORF Stop: 37906
Strand: Forward
Protein Sequence: AGGAAGAGTATGAGTATTCAACATTTCC
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 11: PHAGE_Staphy_SPbeta_like_NC_029119 bifunctional AAC/APH (Region 1)
Locus: PHAGE_Staphy_SPbeta_like_NC_029119 bifunctional AAC/APHORF Start: 37888
ORF Stop: 38493
Strand: Forward
Protein Sequence: MSIQHFQTKLGITKYSIVTNSNDSVTLRLMTEHDLAMLYEWLNRSHIVEWWGGEEARPTLADVQEQYLPSVLAQESVTPYIAMLNGEPIGYAQSYVALGSGDGWWEEETDPGVRGIDQSLANASQLGKGLGTKLVRALVELLFNDPEVTKIQTDPSPSNLRAIRCYEKAGFERQGTVTTPDGPAVYMVQTRQAFERTRSVA
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: PHAGE_Staphy_SPbeta_like_NC_029119 bifunctional AAC/APH, -, phage(gi985761240), PHAGE_Staphy_SPbeta_like_NC_029119
Homolog/Ortholog E-Value: 1.18e-15
Locus 12: 38575 (Region 1)
Locus: 38575ORF Start: 38575
ORF Stop: 39351
Strand: Forward
Protein Sequence: MIAEVSTQLSEVVGVIERHLEPTLLAVHLYGSAVDGGLKPHSDIDLLVTVTVRLDETTRRALINDLLETSASPGESEILRAVEVTIVVHDDIIPWRYPAKRELQFGEWQRNDILAGIFEPATIDIDLAILLTKAREHSVALVGPAAEELFDPVPEQDLFEALNETLTLWNSPPDWAGDERNVVLTLSRIWYSAVTGKIAPKDVAADWAMERLPAQYQPVILEARQAYLGQEDRLASRADQLEEFVHYVKGEITKVVGK
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: 38575, Spectinomycin 9-O-adenylyltransferase, -
Homolog/Ortholog E-Value: N/A
Locus 13: 39411 (Region 1)
Locus: 39411ORF Start: 39411
ORF Stop: 40235
Strand: Forward
Protein Sequence: MKKILLLHMLVFVSATLPISSVASDEVETLKCTIIADAITGNTLYETGECARRVSPCSSFKLPLAIMGFDSGILQSPKSPTWELKPEYNPSPRDRTYKQVYPALWQSDSVVWFSQQLTSRLGVDRFTEYVKKFEYGNQDVSGDSGKHNGLTQSWLMSSLTISPKEQIQFLLRFVAHKLPVSEAAYDMAYATIPQYQAAEGWAVHGKSGSGWLRDNNGKINESRPQGWFVGWAEKNGRQVVFARLEIGKEKSDIPGGSKAREDILVELPVLMGNK
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: 39411, OXA-9 Beta-lactamase, -
Homolog/Ortholog E-Value: N/A
Locus 14: PHAGE_Salmon_SJ46_NC_031129 prohead core protein protease (Region 1)
Locus: PHAGE_Salmon_SJ46_NC_031129 prohead core protein proteaseORF Start: 40501
ORF Stop: 40752
Strand: Forward
Protein Sequence: MGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERAS
Homolog/Ortholog Species: Head protein
Homolog/Ortholog Protein: PHAGE_Salmon_SJ46_NC_031129 prohead core protein protease, -, phage(gi100061), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 4.13e-06
Locus 15: attR (Region 1)
Locus: attRORF Start: 40926
ORF Stop: 40953
Strand: Forward
Protein Sequence: AGGAAGAGTATGAGTATTCAACATTTCC
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attR
Homolog/Ortholog E-Value: N/A
Locus 16: attR (Region 1)
Locus: attRORF Start: 55512
ORF Stop: 55523
Strand: Forward
Protein Sequence: ACCAAAGTAATA
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