Submission Results
Sequence Name: Not Available
GenBank Accession Number: 1535848744 open_in_new
GenInfo (GI) Number: 0000000000 open_in_new
Download Results: 1535848744.PHASTER.zip
gi|00000000|ref|MH995507.1| Klebsiella quasipneumoniae subsp. quasipneumoniae strain KQN17277 138998, gc%: 51.88%
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 | 32.3Kb | incomplete | 40 | 9 | 85772-118073 info_outline | PHAGE_Salmon_SJ46_NC_031129(3) | 55.89% | Show info_outline |
Region DNA
>1 85772-118073 AAAGTAGCTCAACTGGGAAGTAAGAAGATCTGTGATCCGGCTAAGCTGAAAGGCTTTCATCGCCTGAAAA CAGAAACTCGTCGCCTCCTGCTGAAATTCGGTATGCCGTTCATGAACGGATTTGCCGTACCCGTCAGCAA GACCGATGAAATCTGTAACAAGCTGAATGACATCAACTTTCAGTTTAACCAACTGAAACAGGATTTCATC AAAGGTTACAACAAAGCCGTGGATGAATGGTGTCAGGAGAACCCTGAGTATGAACGAGCTATCCGTGCCG GAGCCCTTCCAAAGGAAACGGTCGAGGAGCGGATTGGCTTTGAGTACCAGGTGTTCATGATCCAGCCTGT GAACGAAGATGAGGCCAACGCCAAACGCCTTAACCGCAAGGTTGAGCGCCTGGGTGACGATCTCATCTCC GAAGTGGTTCAGGAAGCGAATAAGTTCTATATGGAACGTTTGGCCGGTCGAGACCAATGTGCGGTCACTA CTCGGCAGACACTCCGTAACATCCGCGACAAGGTGGATGGGCTTAGCTTCCTGAACAGCGCTTTTAACCC TCTGGTCAAGCTGCTCGACCAAACCCTCCGGGGATACGAGCAACATGCCGATGGCCGAAACATCGTTGCG CCTTTCTTTTATCAGGTCGTGGCCGCAGTGCTGATCATGAGCGAGAGGGACCGCATCGAGCAGTATGCCA ATGGCTCGATTACTGTAGAGGGCATGGCTAATGACATTGGCGGTTCGGGAGCCCAGATGGGGGACCGTTC TAAAGATGAAAAGGCCGAACAGAAAAGCGATAAAGCCGGTGAGCTTATCCCTGCAACAGAGGGTGGCGAA ACCAAGCAGCAACAGGTAGGTGGTACTGAATCTGTTCAATCAGAACAGACTAACAGCGGTGGTAACTCTG TTGACCTGGATGAAGACATCGACAACTTCTTCAAGAGTTTTGCAGAACGAGGCGAGGGTGAATCGGAAGA TGAATCCAATGCCGGTGATGTGGTTCGAGAAGAGCGTGTTGATGTTGAGGATGAGCTGGTTTTGCCTGAG GAAACTCCGGTAGAGCAAGAGCCTGTCCAAGAGGAGACGACAGAGGAGCCTCTCAACCAGGAGCTGCCTA AAACTGACGACGATGGCGACTATTTCTTCTAATAGTCACTTCAACTAAACCGACCCGGAGGGGATAGCCA TTCCCTCCAGGGGTGGACTATCTCCTTCCCTACCAGGAGAAAAGATATGTCCAAAAAACGCACCATTTAC AGCGCTCTACCAATCGTGGCCGCAGCCTATGGTGAAAAACTCGGTGTCAAAGTCGCCATCGGTAACGATG ACGCATACACCGATGGTAAGACCATCGTGGTTCCGAATATCCCCGACGACTATCCTCACATGGATGCTGT CTGGGGGTATTTGGCCCATGAAGCAGCCCATGTCCGGTTTACGGACTTTGGTGTTGAGCGCCGCAGAGGT CTTCATGCTGAGTTGTCCAACGTTTTGGAGGACTGCCGCATAGAACGGGCCATGATGGAACTCTTCCCCG GTACGTCGCAGACCCTGAATGAGGTTGCTCGCTATATGGCTCAAGCTGGTCATTACGAGCACGTCACAGA CAAAGAGGCCCCTGCCTCCATTCTGACAGGGTTTTGTTTGTACTGGTTGCAAACCAAGGCTGTAGGGCAA TCCGTCCTTCAACCCTATCTCGATTCGGCTACCCCCGTATTCGAGCGCGTGTTCCCTCAGGGTGTTGTTG TTCGGCTGAACGCTTTACTGCGTAAGGCTGTGAACACTAAGTCAACCGCAGAGGTGACATCCTTGGCCGA CCAAATCATCAAGATGATCGAGGAGGAAAAGGAGAAAGAAGAGCAAAAGCCCCAGAATGGTCAGGATGGT AACAACCAGCAGAATGCTGGTGGCAACCAACCTCAGAACAGTCAGGGCGGAAGTGGTAACGATCAAAACC AAGGGCCTGATGCCAATGGTGGTGATCAGCAAGGTAAAGACCAGAAGCAAGACGATGCTAACGGGAAATC TGATCCGAAAGGACAGGGCGACCAAGGCAAGTCGGATACTGATGGTGGCAGCAAGGCAGGACAAAGCCAG GCTGGTGGCAATTCTGACGCGGCGAAACAAGACGCGGCCAAAATGCTCCAGCAGGTTCTGAATGCCGGTG CCGGTGATTTGCGTGGTGACGCGCATGATGCACTTAAAGCCGAGCTCAACCGGGTGGCTCAAGATAAGGG GGACAGTAGCTATATGACTGTTCGCTCTGCTGTGAACACCCAGGACAACCCTGCTGTTGGCAAAAGCCTG GTAGGGGATGTGAAGAGCACCACTTCAAAGATAAGAACGCAGCTCTACGGATTGGTCCAGGCCAGCCAGC GAGTTGCTCACCGTAACCAACGATCAGGGAAGCGTGTGGATGCTCGGAAACTACATCGTGTAGTGACGGG TGATACCCGCGTATTCCTCAAGCCAGAAGCCAAGAAACGCCCTAATACGGCGGTTCACATCCTGGTTGAT ATGAGCTCCTCGATGGCCTACAAGGCCGCCAATGGAAAGGAGCGTCAAGACATTGCGCGGGAAGCGTCCT TGGCTATTTCGATGGCTCTGGAAGCAATACCCGGCGTAAACCCGGCAGTCACCTTTTTTGGTGGCAACCG GAACCAGCCAGTGTTCAGTGTCGTGAAGCATGGAGATACGGTTCAGAATCGGGCCGGTCGGTTTGGGTTC AAAGCAACTGGCGGTACGCCTATGGCGGAAGCTATGTGGTATGCAGCTTTTGAACTCACCAAGACCCGTG AAGAGCGAAAAATGTTGATCGTAGTGACTGACGGGCAGCCTCAAAGCGCCCCGGCATGTCGCTCAGTGAT TGACCTCTGTGAACGAAGCGATGTTGAGGTGATCGGCATAGGGGTAGAGACTACCGCAGTGTCAGGACTG TTCCAAAAGAACATTGTCATTGATGATGCGGCAGCTCTGCAACGCACACTGTTTAAGTTGATGGAGCGGT CATTGACTGCTTTTGCAGCTTAACAGGAAGTGAAACGACAAACGGCTATCCCTTCGGGGGTGGCCGTTTT TATTTGGAGAGTCTATGAACCAATTCCATTCATCTTTGGATTTGTATCATCGGAACAAAGGTAGAAGGGC TACAGTGCCGGAGACGCCTTTTTTACTGCTTGCTAAGCGCATTCCTCCGATGTACTGGAGACTGTTCCAG GGTGTTACTTTGGATAGTCGTATGGGATACACAGGCAGGCGGCAGTTCCACCGTCTTGGGCAAGCAATCG ACTGGGCAAAGTCATCAGTTGGCGATTCCTGGTCAAATAAGCGCTTTCACAAGCCGGTAGGCCTCGATGT ATTGCTGGCCTGTACTGCGAGTAAGGTGCCTGAACATCTGGTCGAAGAACTGAAAAGACGGGGCAGTTGA TGCGTCTTTGAGCTTTGCACCCGAAAAGGGCAGTTTGAGCGTTCCTGTTCACACAGCTCTCGTGGAACAA TCAAAGTGAGGAGGGAATACCCTCCCACTTTCTCAGAGGCCTTCATTGAGGGTTGCTGAGAAAGTGAATT TTGTCCTCTCTGAGGGCGAAACGTGCGATAGCTGGTCGCCAAAAACAAACAGCATTCAACCTCAGCCTAA GGGCGCACTGCGCCTGACAGGCTCTGTGTGCCCAAGTTACTTTAAGGAGCACACATGTCTCATCTGAACA ATCTCAAATCCGTAATGATCTCTCTCGCCGCCGAACATAAGCTGCCTGAAATCTACCAGGATGACATCAC TACCGATGTGGAGTCTCTGGATCGATTCGATGGTTTACGTCTGGTCTGGCTGTTGCGGTCTTGCGGCAGC GTATTGGTGCCAGCGGAAGTTGGCGTTAATCCGATCTATATCACCCATTGGTTGTGGTCTAACCACGGTC AACAGGTGGTTCCATTCTCTGTGGATACCCGCACGGGGTTGATTGAAAAAATCGACTTCGAGCAAGCTGA AAAGCTGATCATGCAGATGCCTTGCAACCTCTCTTCATTGCAGAACAAGGAATACTTGGTTGACCAGGTA AACCGAGTATTGCAACGAGGTTGTGAAATGCGTATCTGGGGTAGCTGGCCCAAAACAGCAATAACCTAAC CCCTCGGGAGGAAACCCCTCCTGGGTTCTCTCCCACAAACAAAGGAGAGAAGCATGAGCCTAGACAAGTT AAGTCGGCTGGTGGACCAACAACGAAAGATCCAGGATGAAATCGACAATGAAATCATTCTGGCCGTCAAA GAGGTGTTGGCTACAAACTCAGTCGGTTTAGCCCGTGAGCTTGTTGGGGGTGTCCCGCAAGATCATCCAT TCCATCCGTTTTTACTCGCTATAGCTAAGCAGCTTGACCCGAGATAACTAAGTAACCCAACCGGGTACAC CAAGGCCCGGTCGGCTTTGGTGTACCTCCAACCAATTTTGGAGGCACTATGTCTAATTCAAATTTCGGCT TTCTAGCTCTGGCCTTGCGCCAACGCCTGATCAAACGCTGGTCACTGATGCACTCTGTTCAACCGGAGTC TGTGTTGGAACACAGCGCTGTTGTTACCCTGCTTTCCTACCTGGCTGGCAATATTGCCATTCAGCAAGGG AAGTCGGTGGATCTGGCAGTCATGCTTGCTCATGCTTCGTTGCATGATGCAGCCGAGGTTCTCTGTTCGG ATGTTGTAACACCGGTCAAGAAAGCAAACGCTGTTTTGCAGCGTGAGTTTGAACGACTGGAAAAGGCCGC AGAGGACAAACTCATCCAGACTCTTCCCGAAGAACTCCAGGATGCAGTCGCCATAGCCTTCGCTCCCGGT GGCTATGAACAATCACTGGTTAAGGCCTGTGATACCTACTCCGCTTACATCAAGTGCAAACTTGAGGTGG CCGCAGGTAATGGCCTTGAGTTCCAGGATGCTCTCAGCAAAATGGAACGTGTTGTTGCTCAGGTGAAATC GGACTTCCCGGAAATCGACGCTCTGGACAAATGGTTTGGTAACGGACTCGGCCATTCAGTAGATAAACTG CTGGCAGGGGGTAACGATGACTAATCCAATCCCTGGCGACATCAAGATTAAGGACTTTGGCCGCGACCGG AAATTCCGTTCGGTTGATGAGCTTCAAAGCACTTTGTCAGAACAGTACAAAGGTCAGCATGTCAGCATCG TTTACCCTGCAAAGCCCAGCGGTTTACTCCGCACGGTTTTTGTCAGTGTCGATGATGCTGGTGGCGTGAA TCGAACCTATGGGGACCAGTCTCCTGTCGATTTTTCTGCCATCAAAGATGACCTGTATGTACCAAGTGAC CTGTAGGAGAGCACTAGCTATGGTGGTGATCATCGTAAACACAGGACACTATGAGTTTATCGGCCTTGGT GAGACCCACGGACAAGCCACAGAAGGGCTTTTGAAACGCTGGGACGAACACTGCGAACGTAATCCGGATG CTGAGTCTGGTTACATGCAGGAGCTGATAGAAGAAGGAAGCGCACAAGTTGTCGAGATGGAGCCCGGCTC CGCCGTAATTTACGGACTTGACGGCTAAGCCTTCTCAACTAACCCACTCGGGCGCATCATCCCGAGAGGG TGTGGTGCGTCCTAACCAAAAGGAATGCACTATGTCTAACTTTGAACAAGCTCTGGAGCGTACTGACGGT AAAACACTGATTCTCAGCAATGGGAGTAAGTGGGCAGGCCAAGACCCGGACAGTATTCAGACTTTACTGG ATGTCCTGGGTGACAACGTTCTTGACCCGATGTTTGAGCAGTATCACTGTTATCGCCCATACCCGTTTGA ACCAATGGTGAGGACGGGGCGAAATGGCGAAATGTTCCAGCCTTGGCTTGGGGCAGCCTGCTTCTTTGGG AACTTCCTGACTGTCTCTCATGTTTTCAACATCATCACGAAAGATGACGGTGTTGTTGAGGCCTTAACAG AGGCGATCCGGAAGAATATGGCGACTGAACAGTACCAGCAGAATGCCTATGAGCGTTATGCCGGTTGGTT CTACGCTGAAACCAGCGAAGGGTTAAGGCTAGTCTCTCCAAGTGAGGCTGCCGACATCCGAGCTGGCGCA GTTTCAAAGCTGCGTTACCCAAGAAACTTCGAGGTTATGAAAACTGCGGTTCTCAAAGGTCCTCGATTTG ATACTGAATTAAGCCGCAAGGCTTCTTAACCCAAACATTAACCCCACGGGGGACATCGGTCCCTGAGGGG ATGGTGTCTCCCTCTGAAATTAAGGAGATACCAATGATTAAACAGCATTTTCAAAACGAACTGGTTAAGT GTGGATACCCGGATGATCTGACGATTGAGTACAGTCTCGGATACTGCCAGGGGGATGGCGTAGCCTTCTA CGGGGATTTGAGCGTTGATGACGTCAAAGCTCTCATGAATCGCCTATTCAGCACTGAGCCCGGCCAAGTG GATGCTGTCAGCCGCGTGAAGAACCTGATGGCACAGAAAGACATTGAGAATATGCTTTCTGTCCTCCGCG AATATGGTTCCTGTGACCTGTCCATTACTCGGAATAGTCACGGGCATCACTACAGCCATTGGAACTGCAT GAACATCGACGACAACGTGGACTTCACAGGGATCTTCCCTGATGATGATTCCATGATTGGCACCGGCATT GAAGGGATTAACCAGGATATGGTCGAGCGCTGGCAAGACCTCTGGGAACGCTTTGTGCTGGAGCTGGCGG ATGATGTAAAAAGTCTTTCCAAGAAGCTCGAAGCGGACGGGTACTCGCTGATCGAGGCCTCTCCATGCGA AGATGAAGTGGTTTGGGAACGGGCCACTGAAAACTACCTGGTGCGTGTTACTGAACTCCCTGAGCGGGAT TTCGATATGGGCCACTGGGATGACGAAGTAAGAGACCAAACAATTTGTTCTATCCTGGAAGGGAAAGAGC GAGTGCTTGGCCTACGTGTTGAGGTACTCTCTCGTGAAAACGAGATTGTCCTGGGTGAAGAGAGTCTGCA CGGCTTGACCGTTGCCAGTGATGACAAGAGCTACGCTGGCTACAGACGAGAACTTCTCCGGGGAGCTATC CAGCAAACCAGGGACTTTTTCTCTCGCCACCTCAAAGCGGCATAACAAGGCAGGGGGAAACCCCTGCTTT ACTTCCCAAGTCTTCTTACTCATGGTGAATACCATCAGTAAGCAGATTTTGTTCTCTTCGGAGAGCGAAA AGTGCGATAGCTGGTCGCCAAAAACAAACAGCAAATTAACGTTAATTTATTAATCCCTGCGGGAGTCTAT CTCCTGCTGGAGATACCTCCCGTTATTTCTGGAGGTATCCATGAACAAATTCCAAGACTTTAAGTTGGTT TATCGTCAAGGTGGTCGTCGCTTAGAGCGTGTCTTTACGGACACTCTTTACGCGAATGTGAAGCGTGTCG CTGACTCGTTTCCTCCGACCGTTCTTTGGCGCATTCAGCCAGCGTAAAACTCGGAACCTTAAAGCTCGGC TTTGGCCGTGACCTTTCAATAACCCATGCGGGTACACTTCCCCGCACGGGGTAGGTGTACCCATTAACTT TGGAGTACACCTTATGAACCAAGTAGCTAAATTGGACCTCGCCCAAATCCGTCAACAAGCCATCAATGAT GGTCTGCTGGTGGACCAATCTTCCATCGGTAAACAAGCTGGTTTCCTGACCAATGTGGCAGTGACCCCGG CAATTGTCGATGGAGTATTTGGTGCAGATGGTAAGCACTCGGTAGAAGACTTCCTTTTCATGTTTTTGCA GCTTTGTGTTGCTCAAACAAAGGTCGCTTTTACCGACAACAAGAATTGGGGAAAGATTCGTCTTTATTAC CCCATGCCCACTGTAGATGGCTTTTTCAAACCCACTGAGGTTGTGATTAAGTCAGATCCTGTAACCGCAG ATGTCACAATCATGATGGCCTCGGAAGAGGGCGCTCATTTGTGCTTGTGATATTCACAAAATTCGCCTCC GTTTCGGGGGCGACCTTTTTAAACCCCTCGCCGGGGAGAACTCCCCGGCTGGGGAGCCTCCTTGGCACAT TCTCCCGGTGTCGGGGTTTCCTTAAAACCCTGGCGACGGGGGTTTAAGGAAGCCTCGATGCTGGGGTTCA CGCTAAGGAGAAAACCTATGTCTTACTACAAAGCTGACACCGTTCGTGAAGCTGCAAACGGAAACTGGCT ATTCATCCTGGCGGCCCTAGCGCCCCATCTTGAACCAGCTCTCCGTAAACCTGGTCGTCATGTTTCTTGT CCTATCCACGGCGGGAAAGATGGCTTCCGACTGTTCAAGGATGCCCACCTGACTGGTGGCGGCGTATGCA ATACATGCGGTGCCAATCATGATGGTTTTGAGCTGCTGATGTGGCTCAATAACTGGGACTTTAAACAGTG CCTGAGCGAGGTTGGTGATTATCTGGGCGTTGAGAAAGAGCAACCCCAGTATCAACAAGCCGCTGCACCG ACACGAGCTCCTGTCCAGGCCAAAGCGCCTGTTCAGCAAGAGCCTATGAAGGTGAATAACAAGGTTCTCG ATTCCAAGAATCGTAAAAAATCCATTGCCGGTACTCTGATTGCCCACGGTAAAGCTCCTTATGAGCATAA CGAAGACAACGAGCTCAGCTACTTTGCCTTCATCCGTGACAAGAGCGGTTTGGAACGCACCATCTGGGGC GTGGATCTTGAAAGAGCCATTGGTGAAAGTGAAGCCAAGTATGGGGATGAGATCGTCATGACAAACCTCG GGCGCGAGCCTGTAACTGTCGTCGTTGAAGTTAAGGACGAGCAGGGGAATGTTGTGAGAGAACAACCTAT GCAAACGCATCGCAACACCTGGCTGGTGGAACGTCGCGGCGCTACGGTAACGCAGTTCCGCGCTCGCTCG AACGGTGGTGTTGAGCCGGTGAGTCACCATGTTGAGTCGGCCCCTGTGGTCAACCGCAAGGTAGAAACTC CGGCACCGCAAGTACAACCTGCGGCCACACAACCGGAAGAGCAAAGCAGCGAAAATAAGCCGAAAGTTGT TCCGATGTTTCGTGAACAACCTAAGCCTTGGTTGCTTGAGCTCCAAGAAGAAATGGAGAAGAGAATGGAG CGCGAACGCGCTTACAGTGCTCGTCTCCGTGAGAAAATCGAGAAGGTATGGAACGAGTGTTTGCCGTTCT CCAGTCATGTGACTGAGCCAATGCGTCTGTACTTCAAAAACCGCGAGCTGCTGTTCAAAGTTGATGAAGT AGAAAAAACAGACTGTCTGCGGTTCAATCCGGCTATGGCCTACTACGACGAAGATGGCAATGAAGTTGGG AAATTCCCGGCTATCGTCTGCGCTATCCGAGATGTGGAAGGCAACCTGGTAACGCTCCACCGCACCTATC TCACCCAAAACGGTAAAAAAGCCAAGGTCGGCAACGCCAAAAAGATGATGCCCATTCCTGACGGTTTGGA TGTCAATGGCGCGGCCATCCGCCTCGGTGAACCGACTGAGGGTATCCTGGGTGTTGCAGAAGGGCTGGAA ACAGCTCTGTCAGCTTATCGAGTCACTCAAATCCCGGTTTGGTCAACGGTCAATGCCACCCTAATGGAGT CCTTCGAGGTTCCAGAAGGTGTTCACACCGTACTGATCTGGGCTGACAAAGATAAGTCTGTGACTGGGGA GAAGTCAGCGAACGTGCTGAAAGCCAAGCTGGAGAAGCGCGGCATTCGTGTGTACGTCCTGCTGCCTAAG CTCCCGATCCCGCCCAGAGCGAAAGGGATTGACTGGAACGATGTCCTGATGAGTCAGGGAAGCCTCGGTT TCCCGAATGCTCGCTACCTGCGCGATTTCATTGCGAGAAGGAGAGCTGAGTATGGCCGTCATTGATGTCT CGAAGGTTGATACAACGCCTGGTAACGACGCGGTGTGCCCCTTCTCTCCCCCTGAGGGGTGGGAGGGGGA CTCTGCGGCCTACGTTGAGCTTATGCGGTCTCGGTATCGTCATCTGATGCACGGCCAGAGAATGATGGTG ACAGCCTCCTTCGCAAGAAGGGAGCCTATCCAAGTTACTGGCCCGTTTGCTGATGAAGCGACGAAGATCA TTAACTCAATGAAGATGAACAAGGCGAAGCCAACAGCTTTGTCTGCCTAAAACTTTAACCCTGAGGGGGT GTTCATGCCCTCTCAGGCATGATTCGCCTCCTCTTCAACTATGGAGGTAATCATGAAAAAGTTTTTGCGT ATTAAGACGTGGTTTGTGCGTCTTTTCTCTCCTGACAAGAAGACTCTGGGAGCTATCGGTGAAGACCTGC GTAAGGTCGCCGTAACAGCCATCGGTGTCGGTATTGTAGGGGTCGTCTCAGAAAACGGAATCTATGGTCA CTCCCGTTTTTGCAACACCGATTTTGACGATAAATTGGCTTGCTTGAATCTATCCGGCGTCTGAATGGGA TTTTATTCCCGCGCCTCGATGAGTTCCGCGCCTGATGAACCTCCAGAAAATATACGGCTTCAATGAGCCT TTCCGTTTTACAGGTTCCTCAACAGGCCGGTGGGCCGTTAGTATCATCAATATCAGTATTCGCAAAACCA GATCAGTGATTCTTTAAACCGGTGTATTTCTGCCGTTATGCTACATAAGTTTGCTGTCGTGCCGTTAGGG CCCAGGCTATTCTGGCCAGCTTGTTTGCCAGAGCACAAGTGACGACAAAGTTGCTTTTCCTACACAGTAG ATCCCTGACCCAATCGGCCAATTTGCCAGACTGGTGTTCCAGTTTTTGTATGAATACCCTGGCACATTGA ACCAACAAAGTTCGGATCTTTTTGTTACCTCGCTTACTAATTCCCAGCAATGTCGTCCGACCTCCCGTGC TGTACTGTCGAGGCACTAGCCCTGTTGCCGCCGCAAAGTCACGACTGCTGGCGTACTGCTTCCCGTCGCC AATCTCAGTTGAAATAGTACTCGCTGTCAGTGTTCCGACGCAGGGAATGCTCAGCAAGCGCTGTCCAATC TCATCTTCGTCCAACTTTCGTTTCAACTGGGATTCCAAATCTTTAATCTGCTCAACAAGATAGTGATAAT GCTGTTGTAATTTCAGCAATAACTGGCTGAGGTATAGAGGCAAACTATTGTCCTCAAGAAGGGTACTCAG TCGGCTAATAACGGCAGCTCCTCGTGGAACGCTGATGCCAAATTCCAGCAGAAAAGCATGCATCTGATTG GTTGTTTTTACCTTATCCTGAACCAGGGATTCACGGACACGATGCAGCGCACGCATTGCCTGCTGAGATT CAGTTCTGGGCTGTACAAAACGCATAGACGGACGCGATGCAGCTTCACAAATAGCTTCGGCGTCGACAAA GTCGTTTTTGTTACTTTTAACGAATGGACGGACAAATTGTGGTGATATCAGCTTAGGAAAATGCCCCAAC TCTTCCAACTTGCGTGCCATAAAGTGAGAGCCACCACAGGCTTCCATTGCGATGGTTGTAGCGGGGCATG TCGCCAAAAATTCGATTAACTTTGGCCGTGTAAATTTTTTACGGTAAACAGCCTTGCCGCGACGATCTTG GCAATGAATATGGAAAGAGTTTTTACCCAGATCGATACCAATGAGCGCAATGTTTTCCATGATAGTTCTC CGAATGAAAGCCTATCCTCAGCATAGTACCGGGAAGGAGGGAGTGACCATCTCATTAAATAAAGCACGCT AAGCCGGTGGCAGCGGTCGCAATGGCCTAAACTTCCCCGCACCGACCTTGGCGCTGCTGCGCCATAGGTA ATCGCCGGTCAGGTTGATGTGCTCCCACCCCAGCGGCGACAGATATTGCAACAATGTGTCGTCCAGCGCC GTGCCGTTGCCACGCAAAGCACTGGTGGCACGCTCCAGATATACCGTGTTCCACAACACGATGGCCGCCG TCACCAGATTGAGGCCGCTGGCCCGGTAGCGCTGCTGCTCAAAACTGCGGTCGCGGATTTCACCCAATCG GTAGAAGAAGACCGCCCTGGCCAGCGCGTTGCGCGCCTCGCCCTTATTCAGCCCCGCATGGACGCGGCGG CGCAGCTCCACGCTTTGCAGCCAATCCAAAATGAACAGCGTGCGCTCGATGCGCCCCAGCTCGCGCAACG CCACGGCCAAGCCGTTCTGGCGCGGGTAGCTGCCGAGTTTGCGCAGCATCAGCGAAGCCGTTACCGTGCC TTGCTTGATGGAGGTGGCCAGCCGCAGAATTTCATCCCAATGGGCGCGTATTTGCTTGATGTTCAGCCTG TCGCTGCTAATCATCGGCTTGAGCGCGTCATAGGCGGCATCGCCCTTGGGGATGAATAGCTTGGTTTCGC CCAAGTCACGGATACGCGGCGCGAAGCGAAATCCCAGCAAATGCATCAAGCCAAACACGTGATCGGTGAA GCCTGCCGTGTCGGTGTAGTGTTCCTCGATGCGCAAGTCCGACTCGTGGTACAGCAGGCCATCAAGCACG TAAGTTGAATCACGAATGCCCACGTTGACCACCTTGGCACTGAAGGGCGCGTACTGGTCGGAGATATGGG TGTAGAAAGTCCGTCCTGGACTGCTTCCATACTTCGGGTTGATATGACCAGTGCTTTCTGCTTTGCTGCC GGTTCTGAAGTTCTGGCCGTCCGACGATGACGTGGTGCCGTCACCCCAGTTGCCGGCGAAGGGTTGCCGA AACTGCGCATTCACCAGCTCGGCCAGCGCCGTCGAATAGGTTTCATCGCGGATGTGCCAGGCTTGCAGCC AAGACAGCTTGGCGTAGGTGGTGCCAGGGCAGGACTCGGCCATTTTGGTCAGACCCAGGTTGATCGCGTC GGCCAGGATCGTCGTCAACAGCAAGGTTTTGTCCTTGGCCGTGTCGCTGGTCTTCAGGTGTGTGAAGTGG CGGGTGAAGCCCGTCCATTCATCGACCTCCATCAGCAACTCGGTGATTTTGAGGTGCGGCAGCAGCATAG CTGTCTGGTCGATCATGGCTTGCGCGGCGTCTGGTACTGCCGCGTCCAGCGGCGTGATCTTCAGGCCTGA CGCGGTGGTGATGATGGCATCCGGTAAGTCGTTGGCCGCAGCCATGCGGTTGACTGTGGCGAGTTGCGCC TCCAACAATTCCAACCGGTCATGCAGGTATTGGTCGCAGTCGGTGGCCACTGCCAGCGGCAATTCGCTGG CCAGCTTCAAAGTGGCGAACTTCTCGACCGGCACCAGGTATTCGTCGAAGTCCTTGAACTGGCGAGAACC CTGCACCCAGACATCACCGGAGCGCAGCGCGTTCTTCAGCTCCGACAGGGCGCATAACTCGTAGTAACGC CGGTCGATGCCGTCGTCGGTCAGAACCAGCTTTGCCCAGCGCGGCTTGATGAATGCGGTTGGCGCATCGG CGGGCACCTTGCGCGCGCTGTCGCTGTTCATGCCGCGCAGCATGTCGATGGCATCGAGCACACCCTTGGC GGCGGGCGCAGCCCGCAATTTGAGCACGCCCAGGAACTGCGGCGCGTAGCGGCGTAGCGTGGCATAGCTT TCACCGATGTGGTGCAGGAAATCAAAGTCGGCAGGCCGCGCCAATGTTTGCGCTTCGGTGACGCTGGCGG CGAAGGTGTCCCAGGGCATAACGGCCTCGATGGCGGCGAACGGATCGCTGCCGCTTTGCTTGGCCTCAAT CAACGCTTGACCGATGCGCCCATACATCCGCACCTTGTCGTTGATCGCCTTGCCGGAAGCCTGGAACTGC TGCTGATGCTTGTTCTTGGCCGCGTTGAACAGCTTGCCGATGATGCGATCGTGAAGGTCGATGATTTCAT CGGTGACGGTGGCCATGCCTTCGATGGCCAGCGCTACCAGCGTGGCATAGCGTCGTTGCACCTCGAACTT TGCCAGATCAGCAGGCGTCATCTGGCCACCTTCACGAGCGATTTTGAGCAGGCGGTTCTGGTGAACCTGC CGCTCGATGCCTGCGGGCAGATCAAGTGCTTGCCAGGATTTCAGGCGCTCAATATGTTCGAGCATGTGGC GAGAGTTCGGTTTGGCAGGCGACTGGCGCAGCCATGCCAGCCACGTCACTTTACTGCCGTCCTTGCGCTT GAGAAGTTCGTCCAGGCGCTGACGGTGGGGTGATAACAAAGAATCGGTCAGCGCCGCGTAAATGCGTCGG TTGGCACGGGTGATGGCCTCGGCGCTTGCGCGCTCGATGGCATTCATGGCGGGCAGGATAATGCTCTGCC GCCGCAGATTCTCGACAAGTGCGCTCGCCAGCACGATGCCTTTGTCGGTCTGCAAGGCCAGCTCGGTCAA TGTATGCACGGCTTGCCGATAGTGGCTCATGGTGAAGGGCTTGAACCCAAAAACCGTTTGCAGCTCGACC AAGTGCTCCCGCCGTGTCTGTTCGCGCTGGCCGTACTCGCTCCAACTTTCCACTGGCATCTTGAGTTGCG CGGCCACCATGCGCAACAGGGGCGGAAACGGAGGCTCATCGACGCCCAAAAAGGTGCCAGGGAATCGCAA GTAGCAAAGCTGCACAGCGAAGCCCAATCGATTCGCGGCGCCGCGACGCTGACGGATCACCGACAGGTCG GTTTCGTTGAACGTGTAGTGCCGTATCAGTTCGTCTTTGGCATCTGGCAGTGCCAGCAGGCTTTCGCGCT CGGTGGCGGACAGGATTGAGCGGCGTGGCATGGTCAGTCTTCCCGCAGGTACTGGTACAAGGTTTCGCGG CTGATGCCGAAGTCACGGGCCACCAAGGTTTTTTGGTCGCCTGCCGCAACTCGCCGTTTCAACTCGGCAA TTTGTTCGCTGTTCAGCGATTTCTTTCGTCCCCGGTAGGCACCGCGCTGCTTGGCCAGCACGATTCCCTC GCGCTGACGTTCGCGGATCAGGGCGCGCTCGAACTCAGCGAAGGCTCCCATGACCGACAGCATCAGATTG GCCATCGGTGAGTCCTCGCCGGTGAACTTCAGCCCTTCTTTGACGAACTCCATGCGCACGCCCCGTTGTG TCAGCCCTTGGACGATGCGGCGCAGGTCATCAAGGTTGCGTGCCAGCCTGTCCATGCTATGCACCACCAC GGTGTCGCCCTCGCGGACGAAGGCCAGCAGCCTTTCCAGCTCGGGACGCTGGGTGTCCTTGCCAGAAGCC TTGTCGGTGAACACCCGCGCCACCTGAACACCCTCCAATTGCCGTTCCGGGTTCTGGTCGAAGCTGCTGA CGCGGACATAGCCGATGCGTTGACCTTGCAAGATGCCTCCAAAGGCAAAAGTGTCAGGATGAAATCTATT ACCTTTGACGGAATATGTCAATCAATAGGAAATTTAACTCTATTCTGACATCGTTTGCACATGGTGTCGT TTTCAGAAGACGGCTGCACTGAACGTCAGAAGCCGACTGCACTATAGCAGCGGAGGGGTTGGATCCATCA GGCAACGACGGGCTGCTGCCGGCCATCAGCGGACGCAGGGAGGACTTTCCGCAACCGGCCGTTCGATGCG GCACCGATGGCCTTCGCGCAGGGGTAGTGAATCCGCCAGGATTGACTTGCGCTGCCCTACCTCTCACTAG TGAGGGGCGGCAGCGCATCAAGCGGTGAGCGCACTCCGGCACCGCCAACTTTCAGCACATGCGTGTAAAT CATCGTCGTAGAGACGTCGGAATGGCCGAGCAGATCCTGCACGGTTCGAATGTCGTAACCGCTGCGGAGC AAGGCCGTCGCGAACGAGTGGCGGAGGGTGTGCGGTGTGGCGGGCTTCGTGATGCCTGCTTGTTCTACGG CACGTTTGAAGGCGCGCTGAAAGGTCTGGTCATACATGTGATGGCGACGCACGACACCGCTCCGTGGATC GGTCGAATGCGTGTGCTGCGCAAAAACCCAGAACCACGGCCAGGAATGCCCGGCGCGCGGATACTTCCGC TCAAGGGCGTCGGGAAGCGCAACGCCGCTGCGGCCCTCGGCCTGGTCCTTCAGCCACCATGCCCGTGCAC GCGACAGCTGCTCGCGCAGGCTGGGTGCCAAGCTCTCGGGTAACATCAAGGCCCGATCCTTGGAGCCCTT GCCCTCCCGCACGATGATCGTGCCGTGATCGAAATCCAGATCCTTGACCCGCAGTTGCAAACCCTCACTG ATCCGCATGCCCGTTCCATACAGAAGCTGGGCGAACAAACGATGCTCGCCTTCCAGAAAACCGAGGATGC GAACCACTTCATCCGGGGTCAGCACCACCGGCAAGCGCCGCGACGGCCGAGGTCTTCCGATCTCCTGAAG CCAGGGCAGATCCGTGCACAGCACCTTGCCGTAGAAGAACAGCAAGGCCGCCAATGCCTGACGATGCGTG GAGACCGAAACCTTGCGCTCGTTCGCCAGCCAGGACAGAAATGCCTCGACTTCGCTGCTGCCCAAGGTTG CCGGGTGACGCACACCGTGGAAACGGATGAAGGCACGAACCCAGTGGACATAAGCCTGTTCGGTTGGTAA GCTGTAATGCAAGTAGCGTATGCGCTCACGCAACTGGTCCAGAACCTTGACCGAACGCAGCGGTGGTAAC GGCGCAGTGGCGGTTTTCATGGCTTGTTATGACTGTTTTTTTGTACAGTCTATGCCTCGGGCATCCAAGC AGCAAGCGCGTTACGCCGTGGGTCGATGTTTGATGTTATGGAGCAGCAACGATGTTACGCAGCAGGGCAG TCGCCCTAAAACAAAGTTGGGCGAACCCGGAGCCTCATTAATTGTTAGCCGTTAAAATTAAGCCCTTTAC CAAACCAATACTTATTATGAAAAACACAATACACAGCATCGTGACCAACAGCAACGATTCCGTCACACTG CGCCTCATGACTGAGCATGACCTTGCGATGCTCTATGAGTGGCTAAATCGATCTCATATCGTCGAGTGGT GGGGCGGAGAAGAAGCACGCCCGACACTTGCTGACGTACAGGAACAGTACTTGCCAAGCGTTTTAGCGCA AGAGTCCGTCACTCCATACATTGCAATGCTGAATGGAGAGCCGATTGGGTATGCCCAGTCGTACGTTGCT CTTGGAAGCGGGGACGGATGGTGGGAAGAAGAAACCGATCCAGGAGTACGCGGAATAGACCAGTTACTGG CGAATGCATCACAACTGGGCAAAGGCTTGGGAACCAAGCTGGTTCGAGCTCTGGTTGAGTTGCTGTTCAA TGATCCCGAGGTCACCAAGATCCAAACGGACCCGTCGCCGAGCAACTTGCGAGCGATCCGATGCTACGAG AAAGCGGGGTTTGAGAGGCAAGGTACCGTAACCACCCCAGATGGTCCAGCCGTGTACATGGTTCAAACAC GCCAGGCATTCGAGCGAACACGCAGTGATGCCTAACCCTTCCATCGAGGGGGACGTCCAAGGGCTGGCGC CCTTGGCCGCCCCTCATGTCAAACGTTAGATGCACTAAGCACATAATTGCTCACAGCCAAACTATCAGGT CAAGTCTGCTTTTATTATTTTTAAGCGTGCATAATAAGCCCTACACAAATTGGGAGATATATCATGAAAG GCTGGCTTTTTCTTGTTATCGCAATAGTTGGCGAAGTAATCGCAACATCCGCATTAAAATCTAGCGAGGG CTTTACTAAGCTTGCCCCTTCCGCCGTTGTCATAATCGGTTATGGCATCGCATTTTATTTTCTTTCTCTG GTTCTGAAATCCATCCCTGTCGGTGTTGCTTATGCAGTCTGGTCGGGACTCGGCGTCGTCATAATTACAG CCATTGCCTGGTTGCTTCATGGGCAAAAGCTTGATGCGTGGGGCTTTGTAGGTATGGGGCTCATAATTGC TGCCTTTTTGCTCGCCCGATCCCCATCGTGGAAGTCGCTGCGGAGGCCGACGCCATGGTGACGGTGTTCG GCATTCTGAATCTCACCGAGGACTCCTTCTTCGATGAGAGCCGGCGGCTAGACCCCGCCGGCGCTGTCAC CGCGGCGATCGAAATGCTGCGAGTCGGATCAGACGTCGTGGATGTCGGACCGGCCGCCAGCCATCCGGAC GCGAGGCCTGTATCGCCGGCCGATGAGATCAGACGTATTGCGCCGCTCTTAGACGCCCTGTCCGATCAGA TGCACCGTGTTTCAATCGACAGCTTCCAACCGGAAACCCAGCGCTATGCGCTCAAGCGCGGCGTGGGCTA CCTGAACGATATCCAAGGATTTCCTGACCCTGCGCTCTATCCCGATATTGCTGAGGCGGACTGCAGGCTG GTGGTTATGCACTCAGCGCAGCGGGATGGCATCGCCACCCGCACCGGTCACCTTCGACCCGAAGACGCGC TCGACGAGATTGTGCGGTTCTTCGAGGCGCGGGTTTCCGCCTTGCGACGGAGCGGGGTCGCTGCCGACCG GCTCATCCTCGATCCGGGGATGGGATTTTTCTTGAGCCCCGCACCGGAAACATCGCTGCACGTGCTGTCG AACCTTCAAAAGCTGAAGTCGGCGTTGGGGCTTCCGCTATTGGTCTCGGTGTCGCGGAAATCCTTCTTGG GCGCCACCGTTGGCCTTCCTGTAAAGGATCTGGGTCCAGCGAGCCTTGCGGCGGAACTTCACGCGATCGG CAATGGCGCTGACTACGTCCGCACCCACGCGCCTGGAGATCTGCGAAGCGCAATCACCTTCTCGGAAACC CTCGCGAAATTTCGCAGTCGCGACGCCAGAGACCGAGGGTTAGATCATGCCTAGCATTCACCTTCCGGCC GCCCGCTAGCGGACCTGGTCAGGTTCCGCGAAGGTGGGCGCAGACATGCTGGGCTCGTCAGGATCAAACT GCACTATGAGGCGGCGGTTCATACCGCGCCAGGGGAGCGAATGGACAGCGAGGAGCCTCCGAACGTTCGG GTCGCCTGCTCGGGTGATATCGACGAGGTTGTGCGGCTGATGCACGACGCTGCGGCGTGGATGTCCGCCA AGGGAACGCCCGCCTGGGACGTCGCGCGGATCGACCGGACATTCGCGGAGACCTTCGTCCTGAGATCCGA GCTCCTAGTCGCGAGTTGCAGCGACGGCATCCATGTCTCGACGATGCCAGCGGAGTGCTTAAGCTACTCC TAGCGCATTGGGCGCTGGGACGGGGCGGGGGTGCATAGCCATGCACCGGCGGATAAGCGTGCGCGCGGCT CGCTCCACCGATTTGGCTAGGGGAGCGCGGTGCTGCGCCAGCTTTCTAGAATGTCGCTTACTTCGCGGCT GACAATTAACCGCGCCTCGGCGCGAGCCATACCGGAGATCGCCAAAAGTCGATCGTAGTCGGTAAGTTGG TGGCGGGCGAAGGTTGAGGCCACAATGCCGACGACCTTGCCTAGCGAGGCTTCTGTCCACCGTTTGGCCA GAATCCGTTCGATGAGGATCTCGCGGTATTCCGGCGGGCAGCGAGCTTGATGTTTGCGAAAATGTCGCTC GACCGTCCGCCGGGTGAATAATGTGCCTTGCTGCATGCGATGCCTCCAAGGAGACGCTCGCATCGGCCTA CGCCAAAAGGGGTCGCATGAGGTGCTTGGGGGCCGCCAAAAGGGTAGCTCAGCGACATGCCTTCCGATGT TGCCGTCAGCTAATCGCCAACCTTGGGGGGCGGCAGTTCGTTCGGCGTTCCCCACGACAATAGCCAGGCT TTCACAGCCTCGTGGCTGATAGTCCGGCCTGCCTCAATGTCGGCAATGCCCTCGGCGGTCGCTTCCTGGT CGTCGTCAAAGTTGTCGGCTTGGGAGTTCACGCAGTCCAACTACCACAACACCCGACCGCCCGGCCACAC CGGTCCGACGCCTACGCCTTTACGGCCACACGGTGTAATGGAGGAGAGAGAGCCAACACATGCGCCAGCG CGAATGGCTTGGCGGCGGTCCGCAGGATTTCAGTCGCCGCCTCGTAGGCTTCAGACGGGACCACTCGGTC CGGAGGCGTTGCGGCGGGACCCCTAGTGTGCGCCCTTCACAGACCCTGAGGAGCGCACCGCTCGCCTTCT TGCTGCCCATCGCGATAGCGGGGACATCACAACTGAGCAAACTCAGGGACGCCCAGTGTTGCGGCGGGAC ATCCACTTCTGCGTTTTTACAGCTGCGCGCCGGCGGGCATCGCAACAGCCATGCGAACGCCGGTGTCGTA CCCGCCATCGCTTTCGCGCAGAACAACCGTGGTGAAGTGCGCTTCGAGTCGGGCCATGGCCAGGTGGCTT GCACCGTGCTGTCCAACGGCAAGCCGGGCTACGGCGTGCCGATGGTGGCCTGCGTGTCTCTGCGCGGCCG CGAGCAGGGCCTTGCAGCGGAGCTGGGCGGCAGCGTAGCGGCCACACTGCGTACCAGCGGCGGCGGCGCG GACAAGCCCCATGTGCTGGCCCCCGACTTCGAGGCGCATTTCCGCTACGACTGGAACGACCCCGGCCCCG GCGACTGGTCGCACTGGCGGGTGCGGCGGCTGATGCCGACGGAGTGCGAGCGGCTGCAAGGCATGCCCGA TGACTACACGCTGATCCCCTACCGCGGCAAGCCCGCCGCGGATGCGCCGCGCTACAAAGCAATCGGCAAC TCCATGGCCGTCCCGTGCATGGCATGGCTGGGCCAGCGCCTGGTGCAGTGCCTGCACAAGACGGGCTCGA CCGCTTCGGATTGATCGGCGACGCAGCCTGCGGGCCGCGCCATTCTCCCTCCTGCATTGCCGACGTATCG GCAGCAGCCCGCAGCCAGGGTGTCAAGGCTGCCGTGGGTTCCCCCCGCGCCACCCGCCAGTTCGCCTCGG CATCTCACCGGCGAACGCTGCCCACCGGGGCATCGATGCCTCTTTTCTCCAACCCACGGGATGGCCGCCA CGTCCCGTCAGGGGCATGTCGCCACCCGGTCGATTTCAGGAGAATTTTAAAGTTTTTACCATCATTCTTG TCACTGTTACCTTTCGAACTCACATTAAATTCTTTCATCTTCTAAAAATTAATATTAACTAATGTATAAT CCTACTGTGAACAAGAAAACGCGTGCAAAATATGTATTAGAAGAGATGGAAAAGCTTTTTCCGGATAGTA GCTCAGAGTTGAGGAACTGGGAAACAGATTTCCAATTTCTTCTTTGCATCATTTTATCAGCTCAGACGAC TGATTTGCAGGTGAATAAAGTGACTCATAATCTATTCGCTAAATATCCTGATCCGGCTTCACTTTCGGAG GCGGAAGTCGGAGAGGTAGAGAAGATATTAAGCTCTATAAATTACTATCGCACTAAATCTAAGAATATTG TAAATGCGGCTAAGGTTGTGAAAACTAGGTTTCACGGCCGAGTTCCTAGGAGTGTAGAAAAATTGATCGA AATCCCAGGCGTCGGATTGAAGACTGCTAATGTATATTTGAATAGTATGTATCAAGCGAATCAGGGAGTG GGAGCAGACACTCATGTGATGCGAGTTTCGAGGAGACTTGGTTTCACGGATAGTCGTGACCCTAGGAAGG TCGCAATCGCGCTACAAAAGCTGTATCCGAAAAAAGATTGGTACCGAGTTACGGCGTTATTTGTCTTGTA TGGGAGGTACTATTGCAAGGCTAGAGTCAAGCCAGAAAATAGCAAATGTATTTTTAAGGAATTTTGTACT CACTGTAGTGGTTTGGATCCTTATAGCTAGGCGAGGTGTGTTAGAATTTGCCTTCGTAGAGGCGGAAGTT ACACATGCACGACTTACGTATTATACACCTCAAAGAAAAATCTTCTCCACCCTAAAGTTACAATCTCGAT ACGATAAAATACATCTCGTTTCCTAATTTCAATTTTTGCATGATTCTCAGATCTGACCCAACAAGATCAT TCTCGAACTTAACAGTGTAATTCTCTTCCATCCCAACATCTCTCCCACTTATAGTTTTAATAGGAAAAGA GATCACAGCATTTTTGTATTTCCACTCTTGAAGAATTTTCAAACCAGAGGCCTCTTCCTGCCGATCGAGT AGAGTATATAGCTTGAACATAAGTAGAAGATCACTCTCGCCTGACGGATCGGATAATATATCTCCCTGTT TGACAACAATACCCTCTGGGGCGTTAAGCGTTCTCAACGAGTGTTCGATCGCTTCGATCATACCTTTATC AAGATCGAAACCTATGTATTGCCCAAGCATGCCAGCCTCCGTAAAGAATGGAAAAGAAAATGGATTCAAA GCGCAACCTGCATCGGTGATACTTGTTGGAACCCCTGTTACCTCAAAGATCTTTTGGTAAAGCTCATCGT AAGCCACCGTTCGCTCATTTGTTGAAGTGTGCAAGTTCAATATTTTCAGGCAGATCTCTTTTTCCCACTC CGTACGAGTTGCTTCATCCGTAGTTGGATTTGGTATCTCATGAATTATCTTCTCAATCTTCTTCTCCAAC CTTTTCCCATCGATCCCACCAATATAAGCACCATATGCTTGATGCAATTTCTTGCGAACCTCCTTCTCTA GCTGCTTGGGAGGGTATCGATCGAAAAGCCTCTCAGTTACACGTCGTACAGTTGGTGGATAAAGTGTGGA GTATTTACCACTTGTGAGTACTTTGGCTGTTACTTCTTCGATATAATTATCGTTGGTTTTCATATATGGT CTGTGAAAAAGGATTATTTTAATCCTAAATTCCACGTGTGTTTTTTATTAGCTTCAAAAATCACTATTTC ACGAAGAATTTAGACTGCTTCTCACACATTGTAACATTATTTACAACCACCTTTCAATCATTTTTGATAA ATCATTGATTTCATCTTTGCTGCAATGATACTTAATAAACTCTGCAAGTTATCCACAGAGCAACACTCAA TTTTATTGATGATATTCTTATTATACCAGACATTTTTGGTGATGCTACCAACTTGCTGATTTAGTGTATA ATGGTGTTTTTGAGGTGCTCCCGTGGCTTCAGTCTCCGTCTGCTGTCCCTCCTGTTCCGCTACTGAAGGC GTGATGCGTAATGGCAAAAGTACTGCCGGGCATCAACGTTATCTCTGCTCTCACTGCCGTAAAACATGGC AGCTCACCTTCACTTATGCCGCTTCTCAGCCCGGTACACACCAGAAAATCATTGATATGGCTATGAACGG CGTCGGTTGCCGTGCCACCGCACGACTAATGGGCGTGGGCCTCAACACCATTTTGCGCCATTTAAAAAAC TCAGGCCGCAGTCAGTAACCTCCCGGATACAGCCGGGCAGTGATGTCATTGTCTGTGCGGAGATGGACGA GCAATGGGGCTACGTCGGTGCAAAATCACGTCAGCGCTGGCTGTTTTACGCGTATGACAGGATACGCAGG GCGGTGGTAGCCCACGTTTTCGGTGAACGCACTATGGCCACACTGGAGCGTCTTCTGAGCCTGCTGTCAG TTTTTGACGTGGTGGTATGGATGACGGACGGCTGGCCGATGTATGAGTCACGTCTGAAGGGAAAACTGCA CGTCATCAGTAAGCGTTACACGCAGCGAATTGAGCGACACAACCTGAATCTGAGACAGCATCTGGCAAGG CTGGGCAGGAAGTCCCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAAAGTCATCGGGCACTATCTGA ACATAAAACACTATCAGTAAATTGGAGTCATTACCAGATTGGCTTACACCATTAGAGAAATTTGCTCAGC TTGTTGATTATCATATGGCTTTTGAAACTGTCGCACCTCATGTTTGAATTCGCCCCATATTTTTGCTACA GTGAACCAAATTAAGATCATCTATTTACTAGGCCTCGCATTTGCGGGGTTTTTAATGCTGAATAAAAGGA AAACTTGATGGAATTGCCCAATATTATGCACCCGGTCGCGAAGCTGAGCACCGCATTAGCCGCTGCATTG ATGCTGAGCGGGTGCATGCCCGGTGAAATCCGCCCGACGATTGGCCAGCAAATGGAAACTGGCGACCAAC GGTTTGGCGATCTGGTTTTCCGCCAGCTCGCACCGAATGTCTGGCAGCACACTTCCTATCTCGACATGCC GGGTTTCGGGGCAGTCGCTTCCAACGGTTTGATCGTCAGGGATGGCGGCCGCGTGCTGGTGGTCGATACC GCCTGGACCGATGACCAGACCGCCCAGATCCTCAACTGGATCAAGCAGGAGATCAACCTGCCGGTCGCGC TGGCGGTGGTGACTCACGCGCATCAGGACAAGATGGGCGGTATGGACGCGCTGCATGCGGCGGGGATTGC GACTTATGCCAATGCGTTGTCGAACCAGCTTGCCCCGCAAGAGGGGATGGTTGCGGCGCAACACAGCCTG ACTTTCGCCGCCAATGGCTGGGTCGAACCAGCAACCGCGCCCAACTTTGGCCCGCTCAAGGTATTTTACC CCGGCCCCGGCCACACCAGTGACAATATCACCGTTGGGATCGACGGCACCGACATCGCTTTTGGTGGCTG CCTGATCAAGGACAGCAAGGCCAAGTCGCTCGGCAATCTCGGTGATGCCGACACTGAGCACTACGCCGCG TCAGCGCGCGCGTTTGGTGCGGCGTTCCCCAAGGCCAGCATGATCGTGATGAGCCATTCCGCCCCCGATA GCCGCGCCGCAATCACTCATACGGCCCGCATGGCCGACAAGCTGCGCTGAGCCATGGCTGACCACGTCAC CCCCAATCTGCCATCGCGCGATTTCGATGTGACAGAGGCGTTTTATGCGAAGCTGGGCTTTGCGACGAGT TGGAAGGATCGCGGCTGGATGATCCTGCAGCGCGGCGGTTTGCAGCTCGAATTCTTCCCCTATCCTGACC TCGACCCAGCTACGAGCTCGTTCGGCTGTTGCCTGCGGTTGGATGATCTCGATGCCATGGTGGCATTGGT GAACGCGGCGGGAGCCGAGGAAAAAAGCACCGGCTGGCCGCGCTTCAAAGCTCCGCAACTGGAGGCGAGC GGCCTGAGGATCGGCTACCTGATCGATCCCGACTGCACGCTGGTGCGGCTGATCCAGAACCCCGACTGAC CGCATGCCCGCGAAAATCAAGATTTGCGGGATCAGCACACCCGAGGCGCTCGATGCGACCATCGCGGCGC GGGCGGACTATGCCGGGTTGGTGTTCTATCCAGCGTCGCCCCGTGCGGTTACGTCGAATGTCGCGGGCGC TTTGACATCGCGCGCAGCTGGCCAGATCGCCATGGTCGGTTTGTTCGTCGATGCGGATGATGCTGTCATC GCCGACGCACTGGTGGCAGCCAAGCTGAACGCGCTGCAGCTGCACGGTTCGGAATCGCCCGAACGCGTGG CCCAGTTGCGCGCGCGGTTTGGCAAGCCGGTGTGGAAGGCGCTGCCCGTCGCCAGCGCCAGCGATGTCGC ACGCGCCGCAGCCTATGCCGGGGCGGCGGACTTGATCTTGTTCGACGCCAAGACCCCCAAAGGCGCGCTG CCCGGCGGCATGGGGTTGGCGTTCGACTGGTCGCTGCTGGCCGGATATCGCGGTGCCTTGCCGTGGGGGC TGGCAGGCGGGCTAAATCCGACGAATGTTGCCGAGGCGATTGCGCGCACCGGAGCGCCGCTGGTCGATAC CTCCAGCGGCGTCGAAAGCGCGCCGGGCGTCAAGGATACCGACAAGATTACCAATTTCGCCTTTGCGGTG CGCTTGGCCTAAATCGCGTCGATCAATAGGCGTCGTTCAGCGCAAAGATCGGCTTGCGGGTGCGCCACTG CCCTCGGGTGAAGTCGGGAAAATCTAACGTGCGATTGCCCTCAGCAATCGATTGTTCCGACAGAGGCGTG ATCGCGCTCCAGGCCAGCGCGTCGTAAATGTCGATTGGCATCGGGGCCTTGGCCTTCAGCGCCTCGACAA AAGCGTGGATCACGAACCAGTCCATCCCGCCATGCCCGGCCCCTGCCGCCAGATCGGCGTAGCGTTTCCA TAGCGGGTGATCGTATTTCGCAAACCAGCCCTCGGCAGGCTCCCAGCGGTGCGGCTGTGGGCTCTTGCCC TCCAGATAGATCGACTTGTTGACGTCCATCCACAGCCCCTCGGTGCCTTGCACCCGAAAGCCGAGAGAAT AGGGGCGCGGCAGCGAGGTGTCGTGGCACAGCATGATCGTTTCACCATTAGTGCAGCCGATCATGGTGTT GACCACATCACCCAGTGCGAATTTCACCTCGGCGTTGGGATGATCGGCAGAGCCGTTCTTGACGACATAA TCATGCAGCCCGCGCGCCTTACAGCCGAAGCCGCCAGCGCCCGCTTCGCCCGGCAACGCGACCTTCAGGG TGCGGGTCTGCGGCGGGTAGCACACGCCGGCATCGGCGCAGCCCTGGTACTTCACGGTCAGGGTGGTCGC GCTCGCGCCGGCCGCGGGCGTGCCGGTGAGGGTGCCGAGCAATTCCTTGCGGTAGGTTTCGACGTCGCCG AAGAATTCGTCGCGGTAGGCCTTGCCCTTCGGCAGCGCCATGGTCGCGCCGGTGAAGGCGGCATCGGCCT TGACCGAGGTGCGGTGCCGGTACAGGTAATAGCCGTCGGCGATCCGCCAGCGCACCTCGATGCGGTCCGG CGCGGTGGCCTGCGCGGACAGGACGAAGACCTCGTCGACCGGCGGCAGTTCGAAGTCCTGGGCGACGGCC GAGGTCGCGGGCAGCGCAAGCAGCAGGGCGAGCCCGGCCAGCCAGCGGCGCAGGCGGATCGTGGATGCGG TCATTGGCTCAGTTTACCGGTCGGCTCTCGGCGGCCAGCCATTGCAGGTATTCGGGCAGGCCGGACGCGG CTTCGACCGCGAGCAGCTCCGGGAGTTCGTAGGGATGCAGTTGGCGCAGGCGTTCCTGCAGGGCGGGGTA GGCCTCGGCACTGGTCTTGACCAGCAGCAGGACCTCGGCCGCGGCCTCGACCTTGCGTTGCCAGCGATAG ACCGAACGCAGGCCGGGCAGGAGGTTGACGCAGGCGGCCAGGCGCTCGGCCACCAGCGCGGTGGCGATGC GCTCGGCGCTGTCGGCGTCGGGACAGGTGCAGAAGCAGATCAGGGCGCTCACCGGCATAGGGTAGCGGCT GCCCCGATCCGGCGGGCCTGGCGGACATCCGCGTGCGGCCCTTGAAAGTCGGCGGGCCCGCCCCATCTCG GTGGCATGCCGGGTTCGCCCGGTTCTGTTGTCCGCGGTTTGGCACTCGCTTCGCGCGACTGCTAAAATCG CCGGGTTTTTCCACGTCAATCAACCATTTACCGAGGTTGCCATGTCCAATATCAAGCCGCTGCACGACCG CGTGGTCATCAAGCGCATGGAAGAAGAGAAGCTGTCCGCCGGCGGGATCGTGATCCCGGATTCGGCCACC GAGAAGCCGATCAAGGGCGAAGTCGTCGCCGTCGGCACCGGCAAGGTGCTGGACAACGGCCAGGTCCGCG CGCCGCAGGTCAAGGTCGGCGACAAGGTGCTGTTCGGCAAGTACAGCGGCACCGAAGTGAAGCTGGACGG CGTCGAGCTGCTGGTGGTGAAGGAAGACGACCTGTTCGCGATCCTCGGCTGATCGCGCGTCGCTCCCACA CATTTCTCATCCGAATAATTTTTCGAGGTAATTCGCAATGGCTGCCAAGGACATTCGTTTCGGCGAAGAC GCGCGCTCCAAGATGGTGCGCGGCGTCAACGTGCTCGCCAACGCCGTGAAGGCGACCCTCGGCCCGAAGG GCCGCAACGTCGTGCTGCAGAAGAGCTACGGCGCGCCGACCATCACCAAGGACGGCGTCTCCGTCGCCAA GGAAATCGAACTGGCTGACGCGTTCGAGAACATGGGCGCGCAGATGGTGAAGGAAGTCGCTTCCAAGACC TCCGACAACGCCGGCGACGGCACCACCACCGCCACCGTGCTGGCGCAGGCGTTCATCCGCGAGGGCATGA AGGCGGTCGCCGCCGGCATGAACCCGATGGACCTGAAGCGCGGCATCGACCAGGCGGTGAAGGCCGCGGT CGGCGAACTGAAGTCGCTGTCCAAGCCGTCGTCGACCAGCAAGGAAATCGCCCAGGTCGGCGCGATCTCC GCGAACTCGGATGCCAACATCGGCGACCTGATCGCGCAGGCGATGGACAAGGTCGGCAAGGAAGGCGTGA TCACGGTCGAGGAAGGCAGCGGCCTGGACAACGAACTCGACGTGGTCGAGGGCATGCAGTTCGACCGCGG CTACCTGAGCCCGTACTTCGTCAACAACCAGCAGTCGATGTCGGCCGACCTGGATGATCCCTTCATCCTG CTGTACGACAAGAAGATCTCCAACGTGCGCGACCTGCTGCCCGTCCTCGAGGGCGTGGCCAAGGCCGGCA AGCCGCTGCTGATCGTGGCGGAGGAAGTCGAAGGCGAAGCGCTGGCGACCCTGGTGGTCAACACCATCCG CGGCATCGTCAAGGTCTGCGCGGTGAAGGCCCCGGGCTTCGGCGACCGTCGCAAGGCGATGCTGGAAGAC ATGGCGATCCTGACCGGCGGCGTGGTGATTTCCGAGGAAGTCGGCCTGTCGCTGGAGAAGGCCACCATCA AGGACCTCGGCCGCGCCAAGAAGATCCAGGTGTCGAAGGAAAACACCACCATCATCGATGGCGCCGGCGA AGGCGCGGGCATCGAGGCGCGCATCAAGCAGATCAAGGCGCAGATCGAGGAGACCTCCTCCGACTACGAC CGCGAGAAGCTGCAGGAGCGCGTGGCCAAGCTGGCCGGCGGCGTTGCGGTGATCAAGGTCGGTGCCGCCA CCGAAGTCGAGATGAAGGAAAAGAAGGCGCGCGTCGAAGACGCCCTGCACGCGACCCGTGCGGCCGTCGA GGAAGGCATCGTCCCGGGCGGCGGCGTCGCCCTGATCCGTGCCAAGGCGGCGATCGCCGGCATCAAGGGC GTGAACGAAGACCAGAACCACGGCATCCAGATCGCCCTGCGCGCGATGGAAGCCCCGCTGCGCGAGATCG TGACCAATGCCGGCGATGAGCCGTCGGTCATCCTCAACCGCGTGGTCGAAGGTTCGGGTGCGTTCGGCTA CAACGCCGCCAACGGCGAGTTCGGCGACATGATCGAGTTCGGCATCCTGGACCCGACCAAGGTCACCCGC ACCGCGCTGCAGAACGCCGCGTCGATCGCGGGCCTGATGATCACCACCGAAGCGATGGTGGCCGAGGCCC CGAAGAAGGACGAGCCGGCGATGCCGGCCGGCGGCGGCATGGGCGGCATGGGCGGCATGGATTTCTAAGC CCCGCGATCCATCAAGCAAGACCACAAAGCCCGGCCTCGTGCCGGGCTTTGTGCGTTCTGGCGTCCGAGG CGGGAGACTTCCTACCCGCCCCGCGGCAATGTCTGACGCGAAGATCAGAAAACGCCGATATGAACGCGTG CTCGCGGGCGCAACCCTGAGCAGCCGTCCCTGCAACGGAGCGCTGCGTGCCGCGCCTGACCGCACCCCGG CGGCAGGCCGAGGTGTGCGCGCCACTGCCGGCCGCCCACGCCGCTGCGCGTTACGCGCGCCACCTGCCCG AGCGCACGCTGCTGTACGCGCTAGTGCAGGCGCACTACCCGGACTTCATCGCGCGTCTTGAGGCCGAAGA CCGCCCGCTGCCCGAGTATGTGCGCGAGGAGTTCGAGACCTACCTGCGCTGCGGCGTGCTCGAGCACGGC TTCCTGCGCGTGGTCTGCGAGCACTGTCGTGCCGAGAGGCTGGTGGCGTATTCCTGCAAGAAGCGCGGGC TGTGCCCGAGCTGCGGCGCACGGCGCATGGCCGAGTCGGCGCGGCATCTGGTGGACGAGGTGTTCGGCCC GCGGCCGGTGCGGCAATGGGTGCTGAGTTTCCCGTACCCGTTGCGCTTCCTGTTCGCCAGCAAGCCTGAG GCGATCGGCCCGGTGCTGGGCATCGTGCATCGTGTGATCGCCGGTTGGCTTGCCGATCAGGCCGGCGTGC CGCGGGATACGGCGCAATGCGGCGTGGTGACCCTGATCCAGCGCTTCGGCAGCGCGCTGAATCTCAAGTG TAACCCAAACCCTCACCTATGACGCCAGAGGAAGACTTGTCAGCTCCACTGGGCCAGAAGGAACCACGGT CTACAACTATGATGCTGTGGGCCTCCTGAGTTCGCTGACCAAGCCAAATGGTGCAACCGTCAGCTATGAG TACGACGCTGCACATCGGCTGGTGGCGGAAACAGATGCACAGGGCAACCGGCGCGAGCTTGAGCTCAATG ACCTCGGGAACCCAGTAGAAGAGCGACTGCTCGATGCGCTGGGCCAGACCCGTTGGATAGAGCGCCGGAT CTTCAACGAAATCGGCTGGCTCTCCAGTGTCTCCGACGCCTATAGCAATCAGTCATCGTTTTCCTACGAT GTGGTGGCAAACCTGATACAGGAGACCAGTCCCTCTGGTAACACACACTCCTACAAGTACGACGGCTTCC ATCACCGGACACAAACGACCGATCCCCTCGGGAAGGTCACGCAGGTGCTCTACAAGGATACCGGCGATGT TTACCGTGTCTCCGACCCTCGTTCGCGCCTGACCTACTACAGCTACAACGGCTTTGGCGAAGTGACCCAG GTCCGGAGCCCGGACACCGGCACCACCGACATTACCTATGACGAAGCCGGTAACGTGGCAACGCGCAAAA CGGCCAAGGGGCAAACCACAAGCTACAGCTATGACGCGCTGAACCGGATCATCGAAACCTCCAGCGATGT CGCTGGCGAATCGCCAATTCTGTACGGGTACGACGAAGCAACCTCACCATACGGCATAGGCCGCTTGACC TCAGTCGATGATGGCAACGGTGTCCGGAGATTTGGCTACACCCCCGAAGGATGGCTGGCTTACGAAACCT GGGAAACCCACGGGCAGAGCCTGACTACCCAGTACCAATACGATGGTGCAGGCCTCGTCACGAAGATCAC GTATCCCAGTGGCCGTGAGGTCTCCTACACCCGTGACTCAGCCGGTGACGTCATCGAGGTGACAACGACA CAAGCAGGCACCACAACAAACCTGGCAAGCCAGATTGAGCGAGCGCCCTTTGGCCCCGTCACCAGTATGG TCAGAGGGAACGGCATTTCAGAAAGCCGCACTCTGGATCTCGATTACCGTGTCACCGGCATCGACGCTGC TAGGGTGCATTCGCTGGTCTATCGGTACACGCCAGACTCGTTGATTTCAGCCATAGACGACAATCTCAGC TCATCAGTCAATCAGTCACTCGGTTATGACGCGGTTGGCCGCATCACCTCTGCTGAGGGGATCTATGGCG TTTTGGGCTATGGCTATGACGCCACCGGCAACAGGACCTCGATCACGACCGATGGCCTGAGCCAAAGCTA CACCATCAACTACATGAACAACTGGTTGGTGAAGGCCGGGCAAACCTCCAGAAGCTATGACGCCAATGGC AACCTGACGAAGCAGGGGGCGGATACCTTCACCTATGACAGCCAGAACCGGCTGGTGGCCGCAACGGTCG CGGGAGTGACTGTAAGCTACACATACAACCATCTGGATCAGCGTGTAACCAAGACCCTAAACGGGCATAC CCGGCTGCTGGTTTACGACCTGGCAGGAAACCTCATCGAGGAGCTGGACGCGGCCACTGGAGACGTGCTG GCGGAGTACATCTGGCTCGATGGGACACCCTTGGGCTTTGTTCAGTCAGGACAGACCTACCAAGTCCACG TCGATCACCTGGGCACCCCGAAGGCACTGACCGACGTCAGCGGCCAAGTCGTTTGGAAGGCGAGCTACAG CCCGTTCGGTAAGGCCAGCATCATCATCCAGGGGCCAACCTTCAACCTGCGATTCCCAGGACAGTATTAC GACGCGGAGACCGGGTTCCACTACAACTGGCGGCGTTACTACGACCCAGCGACCGGGCGGTACATTACCA GCGACCCTCTTGGCCTGATCGATGGAGTAAACACCTACGGGTATGTGCATGGAAACCCTATGTCCAATAC CGACCCGACGGGTGAATTTGCGTTTGTTGGTGCAGGTATTGGAGCTGGGTTGGAGCTACTTAGCCAACTA ATCGAAAATAATGGGAGTTGGAAATGTGTTAGTTGGTCAAAAGTTGGAATCGCCGGAGCGATTGGGGCTA TAGGTGGCGGCTGGGCGTCAGGAGTTTTCAGACATGCCAGCTCCGGTAAATCGTGGTTCAAATTAAGCCA AAAATGGAGCAATGTCTCACCCAGAGTAAGGAAAGTTCAAGGGGTTCCACGAGGTAATGAGCTTCACCAT TGGGCTATTCAGAGAAATGGCAAGTTTGGCAAATATGTTCCTGACTCAATAAAAAACCATCCTTGGAACT TGAAGTCCATTCCAAGAGATATTCACCAAAACATTCACGGCAATGGACCTACCCCATATAGCGCATTTGG TCGTTGGTGGCACGGGACGCCTGAATGGGCAA
Region Details
| Region | 1 |
| Region Length | 32.3Kb |
| Completeness(score) | incomplete(40) |
| Specific Keyword | transposase,head |
| Region Position | 85772-118073 |
| # tRNA | 0 |
| # Total Proteins | 9 |
| # Phage Hit Proteins | 8 |
| # Hypothetical Proteins | 0 |
| Phage + Hypothetical Protein % | 88.8% |
| # Bacterial Proteins | 1 |
| Attachment Site | yes |
| # Phage Species | 6 |
| Most Common Phage Name(hit genes count) | PHAGE_Salmon_SJ46_NC_031129(3) PHAGE_Mannhe_vB_MhS_587AP2_NC_028743(1) PHAGE_Acinet_Acj9_NC_014663(1) PHAGE_Mycoba_Shipwreck_NC_031261(1) PHAGE_Salisa_1_NC_017983(1) PHAGE_Acinet_Acj61_NC_014661(1) PHAGE_Burkho_Bcep22_NC_005262(1) PHAGE_Vibrio_vB_VchM_138_NC_019518(1) PHAGE_Mycoba_Charlie_NC_023729(1) PHAGE_Staphy_SPbeta_like_NC_029119(1) PHAGE_Mycoba_Malithi_NC_026605(1) PHAGE_Shigel_Ss_VASD_NC_028685(1) PHAGE_Vibrio_CP_T1_NC_019457(1) PHAGE_Vibrio_PWH3a_P1_NC_020863(1) PHAGE_Brevib_Jenst_NC_028805(1) PHAGE_Escher_TL_2011c_NC_019442(1) PHAGE_Mycoba_Butters_NC_021061(1) PHAGE_Escher_P13374_NC_018846(1) PHAGE_Clostr_vB_CpeS_CP51_NC_021325(1) PHAGE_Pseudo_PS_1_NC_029066(1) PHAGE_Acinet_ZZ1_NC_018087(1) |
| First Most Common Phage # | 3 |
| First Most Common Phage % | 33.33% |
| GC % | 55.89% |
| 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|MH995507.1| Klebsiella quasipneumoniae subsp. quasipneumoniae strain KQN17277 138998, gc%: 51.88%
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 11 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | 85772..85783 | attL | 0.0 | Showinfo_outline |
| 2 | 93879..95636 | PHAGE_Pseudo_PS_1_NC_029066: DNA primase; -; phage(gi985757675) | 7.20e-25 | Showinfo_outline |
| 3 | complement(96377..97381) | PROPHAGE_Shewan_MR-1: IS110 family transposase; -; phage(gi24375433) | 1.28e-58 | Showinfo_outline |
| 4 | complement(97460..100432) | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; -; phage(gi100060) | 0.0 | Showinfo_outline |
| 5 | complement(100435..100806) | PHAGE_Salmon_SJ46_NC_031129: prohead core protein protease; -; phage(gi100061) | 7.31e-66 | Showinfo_outline |
| 6 | complement(101298..102311) | PHAGE_Mycoba_Shipwreck_NC_031261: hypothetical protein; -; phage(gi100032) | 1.63e-11 | Showinfo_outline |
| 7 | 102473..103096 | PHAGE_Staphy_SPbeta_like_NC_029119: bifunctional AAC/APH; -; phage(gi985761240) | 7.29e-16 | Showinfo_outline |
| 8 | 103265..103612 | PHAGE_Acinet_Acj61_NC_014661: putative quaternary ammonium compound-resistance protein qacE; -; phage(gi311992758) | 9.11e-09 | Showinfo_outline |
| 9 | 103606..104445 | Sul1 dihydroteroate synthase; - | 0.0 | Showinfo_outline |
| 10 | 105571..106365 | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; -; phage(gi100122) | 1.36e-15 | Showinfo_outline |
| 11 | 118073..118084 | attR | 0.0 | Showinfo_outline |
Sequence
>85772..85783
AAAGTAGCTCAA
Sequence
>93879..95636
[Klebsiellaquasipneumoniaesubsp.quasipneumoniae]
Sequence
>complement(96377..97381)
[Klebsiellaquasipneumoniaesubsp.quasipneumoniae]
Sequence
>complement(97460..100432)
[Klebsiellaquasipneumoniaesubsp.quasipneumoniae]
Sequence
>complement(100435..100806)
[Klebsiellaquasipneumoniaesubsp.quasipneumoniae]
Sequence
>complement(101298..102311)
[Klebsiellaquasipneumoniaesubsp.quasipneumoniae]
Sequence
>102473..103096
[Klebsiellaquasipneumoniaesubsp.quasipneumoniae]
Sequence
>103265..103612
[Klebsiellaquasipneumoniaesubsp.quasipneumoniae]
Sequence
>103606..104445
[Klebsiellaquasipneumoniaesubsp.quasipneumoniae]
Sequence
>105571..106365
[Klebsiellaquasipneumoniaesubsp.quasipneumoniae]
Sequence
>118073..118084
AAAGTAGCTCAA
Klebsiella quasipneumoniae subsp
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: 138998 bps
Phages: 1
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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: 85772
ORF Stop: 85783
Strand: Forward
Protein Sequence: AAAGTAGCTCAA
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 2: PHAGE_Pseudo_PS_1_NC_029066 DNA primase (Region 1)
Locus: PHAGE_Pseudo_PS_1_NC_029066 DNA primaseORF Start: 93879
ORF Stop: 95636
Strand: Forward
Protein Sequence: MLGFTLRRKPMSYYKADTVREAANGNWLFILAALAPHLEPALRKPGRHVSCPIHGGKDGFRLFKDAHLTGGGVCNTCGANHDGFELLMWLNNWDFKQCLSEVGDYLGVEKEQPQYQQAAAPTRAPVQAKAPVQQEPMKVNNKVLDSKNRKKSIAGTLIAHGKAPYEHNEDNELSYFAFIRDKSGLERTIWGVDLERAIGESEAKYGDEIVMTNLGREPVTVVVEVKDEQGNVVREQPMQTHRNTWLVERRGATVTQFRARSNGGVEPVSHHVESAPVVNRKVETPAPQVQPAATQPEEQSSENKPKVVPMFREQPKPWLLELQEEMEKRMERERAYSARLREKIEKVWNECLPFSSHVTEPMRLYFKNRELLFKVDEVEKTDCLRFNPAMAYYDEDGNEVGKFPAIVCAIRDVEGNLVTLHRTYLTQNGKKAKVGNAKKMMPIPDGLDVNGAAIRLGEPTEGILGVAEGLETALSAYRVTQIPVWSTVNATLMESFEVPEGVHTVLIWADKDKSVTGEKSANVLKAKLEKRGIRVYVLLPKLPIPPRAKGIDWNDVLMSQGSLGFPNARYLRDFIARRRAEYGRH
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: PHAGE_Pseudo_PS_1_NC_029066 DNA primase, -, phage(gi985757675), PHAGE_Pseudo_PS_1_NC_029066
Homolog/Ortholog E-Value: 7.20e-25
Locus 3: PROPHAGE_Shewan_MR-1 IS110 family transposase (Region 1)
Locus: PROPHAGE_Shewan_MR-1 IS110 family transposaseORF Start: 96377
ORF Stop: 97381
Strand: Backward
Protein Sequence: MENIALIGIDLGKNSFHIHCQDRRGKAVYRKKFTRPKLIEFLATCPATTIAMEACGGSHFMARKLEELGHFPKLISPQFVRPFVKSNKNDFVDAEAICEAASRPSMRFVQPRTESQQAMRALHRVRESLVQDKVKTTNQMHAFLLEFGISVPRGAAVISRLSTLLEDNSLPLYLSQLLLKLQQHYHYLVEQIKDLESQLKRKLDEDEIGQRLLSIPCVGTLTASTISTEIGDGKQYASSRDFAAATGLVPRQYSTGGRTTLLGISKRGNKKIRTLLVQCARVFIQKLEHQSGKLADWVRDLLCRKSNFVVTCALANKLARIAWALTARQQTYVA
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: PROPHAGE_Shewan_MR-1 IS110 family transposase, -, phage(gi24375433), PROPHAGE_Shewan_MR-1
Homolog/Ortholog E-Value: 1.28e-58
Locus 4: PHAGE_Salmon_SJ46_NC_031129 hypothetical protein (Region 1)
Locus: PHAGE_Salmon_SJ46_NC_031129 hypothetical proteinORF Start: 97460
ORF Stop: 100432
Strand: Backward
Protein Sequence: MPRRSILSATERESLLALPDAKDELIRHYTFNETDLSVIRQRRGAANRLGFAVQLCYLRFPGTFLGVDEPPFPPLLRMVAAQLKMPVESWSEYGQREQTRREHLVELQTVFGFKPFTMSHYRQAVHTLTELALQTDKGIVLASALVENLRRQSIILPAMNAIERASAEAITRANRRIYAALTDSLLSPHRQRLDELLKRKDGSKVTWLAWLRQSPAKPNSRHMLEHIERLKSWQALDLPAGIERQVHQNRLLKIAREGGQMTPADLAKFEVQRRYATLVALAIEGMATVTDEIIDLHDRIIGKLFNAAKNKHQQQFQASGKAINDKVRMYGRIGQALIEAKQSGSDPFAAIEAVMPWDTFAASVTEAQTLARPADFDFLHHIGESYATLRRYAPQFLGVLKLRAAPAAKGVLDAIDMLRGMNSDSARKVPADAPTAFIKPRWAKLVLTDDGIDRRYYELCALSELKNALRSGDVWVQGSRQFKDFDEYLVPVEKFATLKLASELPLAVATDCDQYLHDRLELLEAQLATVNRMAAANDLPDAIITTASGLKITPLDAAVPDAAQAMIDQTAMLLPHLKITELLMEVDEWTGFTRHFTHLKTSDTAKDKTLLLTTILADAINLGLTKMAESCPGTTYAKLSWLQAWHIRDETYSTALAELVNAQFRQPFAGNWGDGTTSSSDGQNFRTGSKAESTGHINPKYGSSPGRTFYTHISDQYAPFSAKVVNVGIRDSTYVLDGLLYHESDLRIEEHYTDTAGFTDHVFGLMHLLGFRFAPRIRDLGETKLFIPKGDAAYDALKPMISSDRLNIKQIRAHWDEILRLATSIKQGTVTASLMLRKLGSYPRQNGLAVALRELGRIERTLFILDWLQSVELRRRVHAGLNKGEARNALARAVFFYRLGEIRDRSFEQQRYRASGLNLVTAAIVLWNTVYLERATSALRGNGTALDDTLLQYLSPLGWEHINLTGDYLWRSSAKVGAGKFRPLRPLPPA
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: PHAGE_Salmon_SJ46_NC_031129 hypothetical protein, -, phage(gi100060), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 0.0
Locus 5: PHAGE_Salmon_SJ46_NC_031129 prohead core protein protease (Region 1)
Locus: PHAGE_Salmon_SJ46_NC_031129 prohead core protein proteaseORF Start: 100435
ORF Stop: 100806
Strand: Backward
Protein Sequence: MDRLARNLDDLRRIVQGLTQRGVRMEFVKEGLKFTGEDSPMANLMLSVMGAFAEFERALIRERQREGIVLAKQRGAYRGRKKSLNSEQIAELKRRVAAGDQKTLVARDFGISRETLYQYLRED
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: 7.31e-66
Locus 6: PHAGE_Mycoba_Shipwreck_NC_031261 hypothetical protein (Region 1)
Locus: PHAGE_Mycoba_Shipwreck_NC_031261 hypothetical proteinORF Start: 101298
ORF Stop: 102311
Strand: Backward
Protein Sequence: MKTATAPLPPLRSVKVLDQLRERIRYLHYSLPTEQAYVHWVRAFIRFHGVRHPATLGSSEVEAFLSWLANERKVSVSTHRQALAALLFFYGKVLCTDLPWLQEIGRPRPSRRLPVVLTPDEVVRILGFLEGEHRLFAQLLYGTGMRISEGLQLRVKDLDFDHGTIIVREGKGSKDRALMLPESLAPSLREQLSRARAWWLKDQAEGRSGVALPDALERKYPRAGHSWPWFWVFAQHTHSTDPRSGVVRRHHMYDQTFQRAFKRAVEQAGITKPATPHTLRHSFATALLRSGYDIRTVQDLLGHSDVSTTMIYTHVLKVGGAGVRSPLDALPPLTSER
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: PHAGE_Mycoba_Shipwreck_NC_031261 hypothetical protein, -, phage(gi100032), PHAGE_Mycoba_Shipwreck_NC_031261
Homolog/Ortholog E-Value: 1.63e-11
Locus 7: PHAGE_Staphy_SPbeta_like_NC_029119 bifunctional AAC/APH (Region 1)
Locus: PHAGE_Staphy_SPbeta_like_NC_029119 bifunctional AAC/APHORF Start: 102473
ORF Stop: 103096
Strand: Forward
Protein Sequence: MLAVKIKPFTKPILIMKNTIHSIVTNSNDSVTLRLMTEHDLAMLYEWLNRSHIVEWWGGEEARPTLADVQEQYLPSVLAQESVTPYIAMLNGEPIGYAQSYVALGSGDGWWEEETDPGVRGIDQLLANASQLGKGLGTKLVRALVELLFNDPEVTKIQTDPSPSNLRAIRCYEKAGFERQGTVTTPDGPAVYMVQTRQAFERTRSDA
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: 7.29e-16
Locus 8: PHAGE_Acinet_Acj61_NC_014661 putative quaternary ammonium compound-resistance protein qacE (Region 1)
Locus: PHAGE_Acinet_Acj61_NC_014661 putative quaternary ammonium compound-resistance protein qacEORF Start: 103265
ORF Stop: 103612
Strand: Forward
Protein Sequence: MKGWLFLVIAIVGEVIATSALKSSEGFTKLAPSAVVIIGYGIAFYFLSLVLKSIPVGVAYAVWSGLGVVIITAIAWLLHGQKLDAWGFVGMGLIIAAFLLARSPSWKSLRRPTPW
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: PHAGE_Acinet_Acj61_NC_014661 putative quaternary ammonium compound-resistance protein qacE, -, phage(gi311992758), PHAGE_Acinet_Acj61_NC_014661
Homolog/Ortholog E-Value: 9.11e-09
Locus 9: 103606 (Region 1)
Locus: 103606ORF Start: 103606
ORF Stop: 104445
Strand: Forward
Protein Sequence: MVTVFGILNLTEDSFFDESRRLDPAGAVTAAIEMLRVGSDVVDVGPAASHPDARPVSPADEIRRIAPLLDALSDQMHRVSIDSFQPETQRYALKRGVGYLNDIQGFPDPALYPDIAEADCRLVVMHSAQRDGIATRTGHLRPEDALDEIVRFFEARVSALRRSGVAADRLILDPGMGFFLSPAPETSLHVLSNLQKLKSALGLPLLVSVSRKSFLGATVGLPVKDLGPASLAAELHAIGNGADYVRTHAPGDLRSAITFSETLAKFRSRDARDRGLDHA
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: 103606, Sul1 dihydroteroate synthase, -
Homolog/Ortholog E-Value: N/A
Locus 10: PHAGE_Salmon_SJ46_NC_031129 hypothetical protein (Region 1)
Locus: PHAGE_Salmon_SJ46_NC_031129 hypothetical proteinORF Start: 105571
ORF Stop: 106365
Strand: Forward
Protein Sequence: MRQREWLGGGPQDFSRRLVGFRRDHSVRRRCGGTPSVRPSQTLRSAPLAFLLPIAIAGTSQLSKLRDAQCCGGTSTSAFLQLRAGGHRNSHANAGVVPAIAFAQNNRGEVRFESGHGQVACTVLSNGKPGYGVPMVACVSLRGREQGLAAELGGSVAATLRTSGGGADKPHVLAPDFEAHFRYDWNDPGPGDWSHWRVRRLMPTECERLQGMPDDYTLIPYRGKPAADAPRYKAIGNSMAVPCMAWLGQRLVQCLHKTGSTASD
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: PHAGE_Salmon_SJ46_NC_031129 hypothetical protein, -, phage(gi100122), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 1.36e-15
Locus 11: attR (Region 1)
Locus: attRORF Start: 118073
ORF Stop: 118084
Strand: Forward
Protein Sequence: AAAGTAGCTCAA
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