Submission Results
Sequence Name: Not Available
GenBank Accession Number: QUCW01000001.1 open_in_new
GenInfo (GI) Number: 0000000000 open_in_new
Download Results: QUCW01000001.1.PHASTER.zip
gi|00000000|ref|QUCW01000001.1| Roseburia sp. AM16-25 AM16-25.Scaf1, whole genome shotgun 762199, gc%: 44.03%
Download summary as .txt file: summary.txt file_download
Total: 2 prophage regions have been identified, of which 0 regions are intact, 2 regions are incomplete, and 0 regions are questionable.
| Region | Region Length | Completeness | Score | # Total Proteins | Region Position | Most Common Phage | GC % | Details |
|---|---|---|---|---|---|---|---|---|
| 1 | 23.3Kb | incomplete | 40 | 11 | 248235-271543 info_outline | PHAGE_Bacill_phiNIT1_NC_021856(1) | 45.20% | Show info_outline |
| 2 | 19.3Kb | incomplete | 10 | 9 | 714923-734254 info_outline | PHAGE_Gordon_Schwabeltier_NC_031255(1) | 38.42% | Show info_outline |
Region DNA
>1 248235-271543 TGCCTTAGACATATTCAATTTTCATTCTCTTGGTCGGTGCATTTATGACCTTAAAAACAA GCTCGTCAACACAATCCGTATATCTGCCTTGCTGAATGAGCTGATTTTTTAACTCTACAA GGCTATGTATTAAAAGTTTTCTTTCGTGGCTATCCAAATACAGATGATTAAATTTCTCTC TCATAAGCACACCTCCACTTCTTTAGCTTCATTATATTGGAAAGCAGGGGAAAGGACAAA TCTGCAAAAAGGGATAAAAATAAGCGTACCACTATTTCTAATGATACGCCTATCCTCATT AAATCACTTCAAAATGCTTCAACGCATCCTTTATGGCTTCCACTTTCTCTGCTGTCGGAT GCTTCCTCGGCTGTTTCAATTCCTCTACCGCATTAGGAGCATCGTACATTGGCAAGCCTA AATCTCTCTTTACCTCTGCGATATATGCGGTATGTACCTTGAAGCCGTATTTAGCTTCTA TGTACTCCTTTATCATTTTGTAGGTCACTCGTTCTTTGGGCTTATATTCTTCGGCTCTTT TAGCGATATTATCAAGCGGAACTTTTCCCTCACCCTCGCCAAACTCAACTTTTACGTTGA TATGTCCGTCTGGCTTTTTGTGGGAAAGCAGTACTACCGTCTCGACATGTGTATCACTGT CCAAACTCATTTCCATATCTTCCTCAATAATCGGAAGCTTGAATTTGATGGATTTGAGCC ACTGACCGTTTGGCTGTCGTTCCTCATAGATATGGATTTCAGAAATCAGCGATTCCATAA TCTGTCGCTTCTCCTGCTCGTCCATGACAGCGTACAGCTTTTCAAAATAAATCAGCACTT TGTAGATATTGTCAGCAGTGAGTTTTTCTGCTTCTATTGCCATTTTCTTTGCTCTGGCTT CAATCAACAGATTCTCCGTATCCTCTATCTTATCATACATTTTATAAAGGCGATCATCAA GGTCTGCTTTACGCTTGATGTAGTGCTTATCATCTGGGTCAAGGGTATCAATCTCATCAA TCAAACGGGACTTCGTAGCATAGCTCTGACGAAGCTGTTTTTCATAATTGGCAATCTCCT GTTCAATGGCGGATGTATCTATCTTCATATTGATTTTTTGCTGCATCATCGCCGCAAACT TCGGATTGCTGACCAGTTTGATAATAACCTCTGCAACAGCACCGTCCAGCAATTCCTCAT TGATTTGCTTCTTGTATTCACACTTATGACCACGGGTCATAGTGCGGTGTTTGCAGCCAT AATAGAAGAAATCCTTATATTTCGTGCCGTCCGGCTTGTGCTTGATGCTTTTGTTGCCGT ACATTCCGGCTCCGCAAATAGGACATTTAAGTAATCCGGTCAGCAGGTGTACCTTGTTGT CTTTACCGTTGTTGACCTTTTCATACTTCTTCGCCTGAGCAAGAAGTTTTACTTGGGCTT CATGCCAGAGTCCTTCTGATACAATGGCTTCATGCAGACCGTCAACTAACAGATAATTTT CCTGCTCCACAAGTCGGTAATCATTGCGAGTTCCATGTACCTTTTCTGTTCTTCTCCTGC CGTAAGCAATTTTACCACAGTAAACGGGATTTTTCAAAATTCTGCGAATCAGGGCTGCAT CAAACAGAGGATTTTTTCCATTCTGCCGCTGAATTTTGTTGATACCGTGATTGGCAAGGT ATTTCGCAAGTCCGTTAGCTCCTATATCGGTATGCACATACTGGTCAAAGATAATGCGGA TTGCCTCGGCTTCTTCCTCGTTGATATACAGCATACCTTTTTCCAATTTGTATCCGTAGG GAGCAAAACCACCGTTCCATTTACCCTCACGAGCTTTCTGGATTCTGCCTTCCATCGTCT GAACACGGATATTCTCACGCTCAATCTCGGCAACCGCAGAAAGCACGGAAATCATCAGCT TACCGGCATCTTTGGAAGAATCAATGCCATCCTCCACACAAATCAGATTGACATCGAAAT CTTGCATCACCTGTAAGGTAGACAGCACATCTGCCGCATTTCTGCCAAAACGTGATAACT TGAACACCAGCACATAGGACACGCCATCTTTACCGGACTTGATATCCTCCATCATGCGGT TAAATTCCAATCTGCCCTCAATGGACTTTCCCGATTTACCGGCATCCTCATATTCACCGA CGATTTCAAAATCGTTGAACTCAGCATAGGCTTTCATTCTTGATTTCTGAGCATCCAAGG AGTAACCGTCTACCTGAACGGCAGTAGATACTCTCGTATAAATATATACTTTTGTTTTTT CTTTCATATCGCCATCCTCATTTGTGCCACAGCCTGTGGCATAATTCAGCTTTCATCGTC TGTTATTTTTTGCCGTCAGTTTTCTGTTCCAACATCTTTATCGAATTTAAATAATCATTT TCCACGTCGCTGAGCGTTCTTGTCTTATATTTTCGATATTCTCCAGTCGCTTTATCAACA GCCTGCTTATGAGTAATGCTTCCATTTCCAATTAAAAGCTGCTCTCCACTCATGGTAAGA ATGCGATCCAGATGCTCTGCCCAGTCCTGCATCGTCATTGCCTGTTCACGCTCTGCCTGA CGTTCCGCAAAATCCAGATACCCGGATACAAGTTGTCCCATAGCACGAAGCTCTTTCTCA TTCAGATAGTTTTTCGCAACAATCGCTTCTTTGAGTGTCGGCTGATTACCGGCAAAGGTG GTAAGTCCCATGAACTCTTTTTCCGCATCCGCTCTTGTATAAATCACTTCTGCCGCAGTC TGTCCGTGAATGGCATAATGAATTTTATTCTGAACCTTTTTGAAAAAACGGATAGAGATT TCCGCTTTCGGGTCGTAGTCAATGCTGGTGGCATAGATTTCAAGCACCTGACGATAAAAC ACCTTTTCCGATGCACGGATGTCTCTGATTCTTTCAAGCAGTTCCTTGAAATATCCACCG CCGCCCAGATTTTTCAATCGTTCATCATCCAAAGCAAAACCTTTTTTCATGTATTCTTTG AGAATGTTAGTTGCCCAGATTCTGAACTGTGTGCCACGCTTGGATTTTACACGATAGCCG ACAGAAATGATAACATCAAGATTATAGTAGTCAACCTGATAGGTTTTTCCATCTGCCGCA GTTGTTGCAAAATTTGCAACAACTGACTCTCGCTGCAGCTCGCCTTCGGAAAATACATTT TTTATATGTCTTGAAATAGTAGATTTATCTCTCTGGAACAACTCTGCCATCTGGTCAATG GATAACCACACGGTATCCTCATCAAATGTGGTTTCAATTTTTGTCAATCCATCTTCTGTT GTGTAAATAATCATATTGGATTTTTGATTCATATCATCATAATTGTTCACCGGAACACCT CATTTCTAATTGTGCAACGGGGTATTGCGCTTTTATTCTATGTAGCTCTATGCGTTGAGA ACAGTAGCTCTCGCATAGAGTTTGGACACTTATTCCACGACTATTATATCATTGCTTTTC CATCAATTCAATAGTGTCACTGGGTTCTTCAGATGTGTTTTCTTCCTCCAAACAAGACGG CGGCTCTGGAAGATTATCAATATCCAGAACCGCCGCATATTTTTCTATTAAATTTGCAAG TAAATCGGCAAAACCATTCCATTTATCTGTCAATAGTGCTCTCCTTTCTTTTTCGTCCAC GTTCCTGCGGAATGTCCTGTTTCTCTTTTCCTCTGGTCAAAACGGCATTAAGAAAAGCCC GTACCCTTTCAGGTGCGAGCTTGACAGCATCCAGATACGGCTGAGCCTGTTCCAGAAGTT TCTCATATCGTTTTTTCCATACCCCAGCATCTTTCTTGGCTGTTTCATATTTTTGCTGGT ATTTTAATTTCTCCGCTTTTTCAGCAAAGCTGCTGACAGCATAATTTTTGAGAGTACGGC ATTCATCGGGTGTCAAGACGATGTTCCCGGTAAAAGATTTCTTACCCATCGACTCCAGCT CCTGAACCGTCACCGCTATTCCGGTTGCCGCCTTAGTCTGTGCTTGCAGGGATTTAAGCT CCTGCTTTTTCTTCTCCGCAGCCTGTGTAGTATCGTCAAGCTGTGCTTCTTTCTGGTTCA GTTCCGCCGTCACAGCTTCCAGTCGCTGCTTTTCCTTTGCCACCTTAAACTGGGTCACAG TCAGATGTTCCTCGGTGCTGTCACGCTCTCCACGTTCCACATCGGTATATCCGGCAGCTC TCATGTGCTGAAAAAAATCATCCTGTAAAACAGAATAGGATTTTCGGAGAACAGGCTTAC CATTGACTTGCAGAATTGGTTTTCCATCTTTGTCCACAGCAGGTTTGGACAGCCACTTTT TACTGCGGCTGACCTGCATAATGGTTTCCTTTACCGTTCCTCTGAGAGCTTCATCCTTGC AGCGTTTCGACCACAAAATCTGTTTCTCCACCACAGGGACATAGACCACATGAAGATGAT AATGGAACACGTCCTTGCCAAGTGCTTCGGACATCGCCCGGTTAATCTCGTCAGCGTGCA TGACTGCCGAGAGGATATACTGTTCACCGCCAACAATCTCCACAGCGGATTTATAGGCTT CCTCATAAAACTGTCTGGCGTATTCATAACCGCCGTGATTGTCGAAGTACGCAGAGTTCA CATCAAAGACCATTTCGTTGAAATGGACGGCATCCGCCTTCAGACCTCTGGTGGAAATGA TGTTGTCAGCTTTCATCTGCTCAAACATTTCAGCGTAGCTCCCGGTAGGTTCTTTGAAGT GTACGTTGAGGGAACTTCTTTCCGGGATAATATCTTCGTTACTGTATATTTCTTTTTCAC GCTCATTGTGTGCCTGTGCATCTCCGATGTCATTATCTGTGACATCCATATTTCTTGCAC AGGTACGGTCAACTCCGTCATTTCTTGCCATATTTTTCCTTCCTTTCTTTGGGATTTGCA GACAGGTAGCTTTGGAGAGGCACTTCTGCGGAAGTGTAATAACCCACTATGACACTTTCA TCCATACTGGCTGCAAAGTGCCGTGGGCTCTCCCGAGGGGCTCTCCGAGGGTAATGCGGT CGCTGCGGCGACCTCTGCCGAACATCAGAAAGTTGTCTGCTCCTCTTTCCAATGTCCGGC ACGGACGGCTGCTGTTTTGCGAAACCGCCCCGTCCGTTGACAGAAAAAAGACTGACTTTT TCCTGTCATTTGGGTACGTCACGAAGGTTTTATACAGGAGTGATTTACGCTCGTACGCTG TGTACGTACGTACCAAAAAATCAATCCCGCCATTCCTCCGGTACGTACGTACACGGCGAA ACGTCGTAAAACCCATTTATATTCGGACGGGCTACGGCTTCAATTCCCATGAATCCCCAC ACCCTGCGCCCGGCAGAGTTTGTGATTTTGTTGGTGTGTTCCAGATTGTAGCGACTTAAA TTTGCCACCACACTGTCACTAAAGCTGCGGGATTTCAGGGGCGGCAGAGAATTTTCCTCA CACCACATCCGATAAATTTCGTACAGCTCCTTGGAGCTGATGGAAGCATCCGCTTTCAGC CGGATATAGCCCTCAGACTCCATGAAGTCGAAAATATTGTTGTTGTCACGCTTGACGGAC TCTCGGTTGGTTTTGGTGCGCTCACTTTCCGTGAATTTGAAATTGTTGGCAACCAGACGC TGCAATCCCTCAAACGCCCAGAGGAAAATGCCCTCCACCTCAGCTTTCATCTTCTGGGCG AGGTCAGGGTCATCCATTCTTCCGGCAGGCTTTTCCTTTGTGGTCAGCACAAGCTGTCTG CGGTAGAAACCGTCACTTCGGTCATACAATGCCTGTAAATCTCCGTTGGAGAAAGCCAGC AGACGGGCGAACATCCAGCCCTGATAGCTCTGTTTGCCCTTGCGCTCCAAATCCATTTTC CCTTGAGCTGTCACAATGGATTTCACATAATTGGTCTGGCGCAAGGCTTCCATTCGCATA TCATCATCCACGCATAGGAGGATATGCTCCAGATCGGCACGGGCAAATCGGTTCTCAGAG ATTTTACCAATGCTTCCGTCCTTCATGGAACTGCCCAGCATTTGCCCCAGCACCGCACCG ATTTGGGATTTACCCTCGCCGCCATTGCCCTTAATGACCATCATCCTCTGTCCTTTATTG GAGGGAATCAGGCAATAGCCGATAAATTCCTGCAAGGTAGGGATGTCCTCCGGGTAAAGC AGACCATTCAGAAAGGAAAGCCACAGCACAGGTTTCGGAGTATCCGGGCGATAGAAAACC GGGAGCCTGTTTCTCACAATATCCGGCTTCCCCTCTGTAAAAGTGCCGTCCAGCATGAGC GTACCGTTTGCCAGATGAATCCTGTCCTGCTCCGGCGGGAAGTCCTCCACATGAGCCGCC AGCTTCATAATCTCAATGATGTTGCTGATTTTGCGGGGAATGTTGTTCACGGCACAATAT TTCAATTCTTCAAAGATTTCGCCACGAAGCGGCAGGTCGTCCGTCACTCGACCATCAGGT GTGAAAAAAGCTCCGTTTGCAAAGATAATCTGACGGGTTCTCAGAAAATCTTCACAAAAC AGAGCTTCATTGATACTCTTGCCGTCAAACCACATCGGCACATTCATCTCAAGCAATTTC CTGTTCTCTGACATGGCAGCGCACCTCCTTTTTCTGCTCGTCCAGTCGTGTTTGCATTCT TGCAATCGTTCCGTCTGTCAAAAGTTCCTTGACGGTATCAGTCCTTTCTTCCTGATCGCT CATAAGGAGCAAATCGTTCAGATACTCCACATATTCCAGCTTGTGGCAAGCTTCCACGAA CCTCTCATCCGGCTCGTCCTCCGGTGCTTCGGGAGCATATCGCTCTTTCCAGTCCTCCAA AAGATGAAGATACCCGGACAGCACATTCATGCAGAAAAGCTCGTCCTGTTTCGACTGATT CACACGGGGACGGTACTTCTTTACCTGTGCCACCACGGACGGCGGCCTGTCCAGTCCGAA ATCCGCAGCCAGTCTCTGCGCTGCTTCATAGGCAGACAGGTCAAGCAGCCTTGCCACAAA GTCAATCACATCTCCCTTGGCACCGCAGCCGAAGCAATAGAAGTAATCCTCGTTCAGCTT CAAGCTGGGGTGTCTGTCATCGTGGAAAGGGCAGCAAATCATCCCGGAGCGATTGATTTT CAGCCCGTAGTGTTCGGCGGCTTGCCTAACCGTGACCGCCGCCTTGACTGTTTCAAAAAT GTTCATTTGCATAACCTCCTTGATTTTTCTCGATGATTTTTTCATCTGCCTGAATATACG CAGAAAAACGCTTTCAACCGAAAAATCAGGCACTTCCGCAAGCAAAGCAAAAAGCCGCCC CGAAAACTTGAAAAAATGCAAGTTTCGAGACGGCAGTGTTCACACAAAGTTGGTTGATAT TGTTCCGTAAATAGAATATAATTGAAGTTAATATGAATCAGGAGGGATGATACAGAAATG AAATACCTGTCTACATTTGAAGTTGCCGAGAAATGGGGTATCTCTCCCCGAAGAGTTGGT ATCCTCTGCAACAATGACCGCATACCGGGCGCACAGCGGGCAGGAAGCCGCTGGATCATC CCGGAGGACGCTGAAAAGCCGACAGATGCCCGCATTAAAAGCGGAAAATATATCAAACAG AAAACAGACAGAGGGGAGGAAGCATAATGGCTGATACTTATTTACCCGCCGATGTTCGGA AAAGAATCGTTGATGTAATGAGAGAACGCAAGATGACCCAGCGAGAACTGGCACTTCGGA TTGATGTGAATGAAAGCACCATCAGCCGCTTCCTTAGCGGAAAGACCGAAAAGCTGAGCG AAGAAAGCGTTATCCGCATCGCCAGAGTGTTCAATGTGTCCACGGACTTTATCTTGGGTA CGACCGTAATCCCGGATAAAAAGAACTACGATATTTCAGAACTGGGATTATCTGTTGAAG CTGCAAAGAATCTTTATACCGGAAAGGTCAACAATGATGTAGTCAACCGTCTGCTGGAAA ATCCCCGCTTTGCCATGGTTACTTATATGATTGCACAGTATATGGATGATACCCTTGCAA GAGGATATGCCGCACAAAACCAGATGTTTGCTACCGTTGGCTCTCTGCTGTTGGGACAGA ACCAAGCTCCCGAAGCAGTACAGGCAGCCCGAACCGCTAATGCCATGAAAATTCCCGCTT ATCAGGCAGACCAGACCACGATTCAAAACACCTTTATGACGGTGGTTAAGGAAATCAAGA AAGAAGCAGGCAGCGATTTGGTCGCAGCCAAGGCAATCAGCAAGGAAGCCACCGAAAAGA TGTTTGCCGAGCTGACCAAGGGGCAGGATATGCAGAATCCGACCATCACGCCGGAAGCAG TTGTTGATGCTATTACAGGCAGCATTTCCGGTGTCGATGGAGTCAATCAGGAAGCTCTGG ACAACTTTAACAAAGCCTTGCTGGGGCTGATGCAGACGATGGTGCTGCCGGAAGATGATG GACAAGATAACTAACGAGCAGCTCTGTATTGCGGCGCAGAGCGGTGACAAATGGGCAGAA AACGCCCTTGTAGAGAACAATCTGCGGTTTATCCGAAAGACGGCATACGAGATATGGAGC GCACAGCGGGAGCTGAACGTTGCCCTCGGCATTGAACTGAACGATTTGGTGCAGGAGGGT TCATTGGGGCTTCTGGGCTGCATAAGCAGCTTTCAACCCGACTACGGGAACAAGTTTTTG ACCTATGCTGCCCCGGCTATTCATAATGCCATGCTGGACTACATCCGCAGGCTGAATCCT ACCTTTGAAGCCAAAAATCTGGACTGTATCATTCGTCTGGATGAGGTCAAAAAGGGCGAG AATAAGGGACAACATGAATTTATAGCAGATTCCAGAGTACAGAACCCAGAGCAGATTTTC ATTGCAAAGGAAACCCACGAAGAAATCCATACGGCTCTGGAAATGATTGATGAGCGAGAG AAAGCCTATCTCTGGTATCGCTTTGGCTTTGAGGACGATGTCCTCCATCCTCTGAGCGAA ACGGCGAAGCACTTCCATCTGTCAGAGAGCAGAGCAAAGTCCACGGAGAAATTGGCTCTG GATAACTTCTGGCTGGAACTGCCTTGGTGGTACTAAATATTCAAAGAAAGGGACATGTAA TCATGGAAAAATATAAAATACTCATCATCGAAGATGACCCAATCATTCAAACTGAATTAC AAGTTCTGTTAAACGGAAACGGATATGAGGCATCCGCAGTTACTGACTTTACATCAGTTA TGCAAGCGGTCAAAAATACTCATCCCTATTTGATTTTGCTGGACATAAAGCTGCCACAAG AAAGCGGCTACTCAATCTGTTCTCAAATCCGCAGTTTTTCCAATGTACCGATTATCTTTG TAACAAGCTGCAATACGGACATGGATGAATTGAACAGTATTTTGCTGGGTGGAGATGCTT TTATCACCAAGCCTTATAACACAGCAATTCTGCTGGCAAAGATTTCATCCTTGATGAAAC GAGCTTACCCGATAGAACAAATTGAGCGTCTGAATTGGCAAGGAGCGATTCTTCACTTAG AAAGTAGCACGATTGAATATGACGGTAACCAAGCAGAACTGACAAAGAATGAATTGAAAA TATTATATTATCTTTTCAAACACGCAGGAAAGATTTGTTCCCGTAATGATATTGTAGATT ATCTATGGGACAATCAGCTATATGTGGATGACAATGCTTTGAGCGTCAATATCAACCGCA TCCGGGAAAAACTGGCGGGCATTGGCCTGACGGATTTTATCAAGACAAAGCATCGCCAGG GGTACACGATATGAACAGCAAACGGTATTGGAAAAACAGGCTTCCATTTCTGCTGACGAA CCTTGTTTGCATGGCTGCGCTCACTGTATTTTTGCTGGTGTGCGGCAATTCGGCTTCCGC AGTAGTATTGATCCTGATCGTATGGGCATTGATTTTGCTGATGGGACTTGTCCTCACTTA CTGGAAACGAAAGCGGCAGATGAAAAAACTTCTGGATATGGCGAAGCAGCTCTCCGAGAG ATACCTTATTTCTGAAGTGATGGAACTGCCGGAACAGGCCGAGGATCAGGTTTACTATCA GATTTTGAAAATGGCTGGAAAATCCATGTTGGAGCAGATTGGGGAGGTCGAGCGGGAACG CCTGGAGTACAAGGAATACATTGAACAATGGATTCACGAAATCAAAACGCCCATTACTGC CATGAAACTCCTATGTGAAAACCATCGGACGAACTGGACAAAAGAACTTCTGCTGGAACT GGAAAAGACCAACCGCTTTACGGAACAGGCTCTTTATTATGCCCGCAGTGAGCATACAGA GAAAGATTATTCTGTCCGGGAAATGGCACTGTCCCAAGTGGTGCATCAGGCGATTGCAGA TAACAAATATCTGCTGCTCCAAAGTGGTATGCGCCTGGAAGTGGAGGAAATGCAGGATAC GGTTTATTCAGATGAAAAGTGGGTGCGTTTTATCCTAAATCAACTGATTGTCAATGCGGT CAAGTATCGTACGAAGCAGCCGGTTCTCCGCATTTCTACTCATAAATGGCAGGATCTGGT TGTCCTTGTCGTGGAGGACAATGGAATCGGGATTGCTGCGTCCGATCTGCCCCGTATCTT TGAAAAGGGATTTACCGGTCAGAATGGTCGTCTGATTCAGCAGTCCACGGGCATTGGTCT GTATCTGTGCAAACGGCTCTGTGAAAAGCTGGGCATTGGCATTACGGCGGAGTCGTCGGA ACATGGCACAGCCATTTCCCTTTCTTTTCACATTAACTGTCTGATTCATGAAGTGCAGAA CTGAAAAGCGTTCTGCACTTCTTACATTTTTGTTAGAACTTTGTAAGAAAACTTGATACA AACGAAGCCACTCTTATTTTACAATAGAGATCAGAGGTGATAACAATGAAAGAAATTTTG AAACTGGATCATATCCAAAAATATTACGGAAATGGCGGAAATGTTACAAAAGCAATTCAG GACATCAGCTTTTCCGTTCAAGAGGGAGAATTTGTAGGAATCATGGGAGCATCTGGCTCC GGCAAGACTACCCTGCTCAACTGTATTTCCACCATTGATACCGTCAGTGCGGGACATATC TATCTGGACGGAACCGATGTGACGGAAATCAACGAAAAACAGATTGCCCGGTTTCGTCGG GAGAATCTTGGATTTGTATTTCAGGATTTTAACCTGCTGGACACGCTGACCATTTCGGAA AACATAGCCCTGGCGCTGACCATCAACAAGGTTCCAGCAGGCGAGATTGATGGGCGGGTG CGGGAAATGGCCGGAAAGCTGAATATCACGGATATTCTGGACAAATACCCCTATCAGGTG TCCGGCGGCCAGAAGCAGCGGTGCGCCTGTGCCAGAGCCATTATCAATCAGCCTAAGCTG ATTTTGGCGGATGAACCCACCGGTGCGTTAGACAGTCACTCGTCCCAGATGCTGCTCTCG ACGATCCAGAGTATCAATGAAGATCTCGGAGCCACGATTCTGATGGTGACACACGATGCT TTCTCGGCAAGCTATGCCAATCGTATTCTCTTTATGAGGGACGGGGCAATCTTTACGGAA ATCCGTAAGGGGGGTGATTCCCGCAGGACTTTCTTTGAAAAAATCCTGGATGTCCTTACC ATGATGGGAGGGGGCATGAGCGATGTACGCTAAACTTATTTTCAAAAATGCAAAGCGGTC TGTGAAGGACTATTTGATTTATATTGTGACCATGACACTCTGTGTCACCCTGTTCTATGC GTTTTTGTCTATCAGCAGCACCCATTATCATCCGACCATTGGTGCGGAATATAATATTTC CCTGCTGGCTGGAGGTATGAAACTGGCAATTTGCGGGATTAGTTTGCTTTTGTTGTTTCT GATCCACTATGTCAATCGTTTCATGCTGAGAAAAAAGCAAAAGGAGTTTGCCGTTGAGGC AACCTTGGGAATGGAGCAAAAAACCATAGGCCTGCTCTTTTTTGGAGAGACTTTTTTCCT GCTCATATTCTCTGTGTCGGTGGGAATCCTTCTGGGGATGGTCGTTTCTCAGGTCATTAC GGCTATGCTGCTTGCTTCTTTTGGGGAACCCTACGCTTTTTCTTGGTCGTTTTTCCCGGA TACTGTGCTGTTGACCGTGGGCTTCTTTGTTGTTTGCCAGATTCTGGTTGGAGTCGGGAA TGTCAGAATTCTCAACAAAAGCAGGATTATTGAGCTTATGACGGCAAACCGTCAGAATGA AAAACCGCTTCATAAAAGCAGATGGATGCCGATGATCTGTATTTTCTATGGCATTCTGCT GCTGTGGATGCTGGAGGTAGGTACTGTAAAATATCATTTTTACTTCGATTCCAGACATCC GCTTCCTGTAAAGCTCATGTATTGGGGGAATGTCCTTTTCCCTGCACTGACGCTGCTTTG GGCAATCGCAGGTGCTGTTTTACACAGAAAAATAGGGTTTTCCCGATATCTTTGCGGACT TCTGGCTGGTGCTGTATTGACCGCTATCCCGATTTTTTCCATCGCAGAACTGGAAAAAGC CTACTTCCTTGGATTTGACGCTCCAACTCTGAATCAATATTTGCTGTTTGGGGTTGCGGA TATTTTGTTTATCATTTCCGCAGTCATGTATTTATCGAATGCGGCGCTCCTATACTGGAA GGAGTCTAAAGTGTCCCGCAAATATCATAATACGAGTTTATTTCTGTTTGGACAGCTTTC CTCTAAGCTGGCTACCAATACGAAAACGATGACGATCATTTGTGTGACCCTGACTTTTTC TATCTGCTTGTTTGTCATTGCGCCGGTTTTAACGGGATGGAGTCTGGGCTATTTGGACAG TCGGGCTGTCTATGATATTCAAATTTCAAGCCGCTACAACGATGTTTATGAAGTGGAAAA TCTTCCGGATACAGACTATGGAGAAATTACTGCGTTCATAGAACAAAACAAAATAGCGAT AAAGGACGATTTGACTTTTTCGGAATATCTTCCCAAGCAAAGCGACTTTCACCAGCGAGT AAAGTACAATTTTCCTCCCTTGGCGATCGCACTGAAGGATTATAACGCTGTTCGGAAAAT GTTGGGATATGAACCTATTATCTTACAAACGGATGAATTTGCTACCCACTGGCATCGTGC AGCAGAGGACAAGGATATTGAAAACTACATTGCTGAGCATACCTTATTGGAAACTGACGC AGGCACCCTGAAACTCAGTGAGAACGCCGTGTTTCAGGAGCCTGTGGGGGAATCCATCTA TAATCTTTATACAGATGTGGTGTATATCATACCTGACGAAATAGCGCAAGTCTTGCTTCC GGTACAGCGCAACCGATTTGTGATGACCCAATATCCGCTTCCCTTCAAAACGGCAGAAAT GCTGGAACAGCTTCTTGGGCGTTCTTATCCAGAAGATCCTGATAAAGACAATCTGGCAGG ATACAGTACAACTGTCCATACTACGGAAGTGAACCGTATAATCGCCCTTAACTTTATCCT AAAAGCGTCCTTGATCTATGGTGCAATTGTTCTGATGGTGATGTGTCTTACCGTGCTGGC TCTTCAGCAGCTCCTGGATGCAGAAAAAAACAACTACAGATTTTCGGTTCTGCGAAAAAT GGGAGTGGAAGAGAAGGACCTGCATACTTTGGTTCTAAAACAGCTTGGTGTTTGGTTTGG GATGCCGATCACAGCGGCAATCGTTGTAGCAATTATTGTGATTGGCTATTTTCTTCAAAG TGTTTCTGCTGAAATCTCAGCTTATATTGGCTGCGGAGCCTTGATGGTACAAGTAGGGAT TATCATTGGTATTCTTTTCTTACTGCTGATATGCTACTTCATAAGTACATGGATATTGTT TAAGCGGTCCATTTCGGAGAACTGATAAAGTCACAGTACAAAAAGGAAAAGCCGCCTGTA TGAGCATTTGATATGCCCGCACAGGCGGCTTGCTTTATCTCTGGTAATCAGTCCAAAGGT TTATATTCTGTAACAGTTTTCAGGTATGTTTCCGGGTCGCCGTTGAGAACTAAATCTGCA TAGGCTGCCGGATCGTTGTAAATCAGCCAGTCCAGCTCTGACCGCTGATATATATTATCG GCAACCTCATTCTCTACCGCAATCGTATCAATGGCAATCATGCTGCCATTTGCAAATTTC AGCTCCACACAGGCAGTATCCATATTGAACTCACAAGAAAGTAAACGCTTCATTTTGCCC TCCTTAGATCATGCCGAAGTGCTTGAGCGCCTCCTTGATTGCTTTTTCCTTATCGGGCGG GCATTGGGGCTGTTTTGCATCATCGGACTTCGGTTTGTTGTAATTTTCTCGCTCGATGAT ACCGCATTTCTGCTTCACCTGAGCGATATACAAGCTGCTGACCTTGAGTCCGGTATGCTC CAGCACATATTCCTTGATTTCCGAATAGGTGGCTTTCTTCTCTGCATCGGTGAGATCAAG TTCGTCCATGTGGATGTCTACCTCGATATGTTGCTTTGCATTAAGTTTGGACAATAAACA CACCGTCTCAACATGCATGGAATGGCAAAATTGGTCGACCGGTCGCACGCGCAGCACCTC ATACCCCTTTCCCTGTAAGTACTTCAAGTCTCTTGCCAAAGTAGCGGAATCGCAACTGAC ATAAACGATCCGCTCCGGTGCCATGGCAACCATGGTTTCCAAGCACTTCTCATCACAACC CTTGCGCGGCGGATCCACAACGATCACATCCGGGTGCAGACCTGCATCACCATCATCTGC ATGTTCTTCTACCCATGCCGGCAGCACTTCCTCTGCCTTGCCCACATAAAAAGTTGCATT TTCGATCTGATTATTCTTGGCATTTTCTCTGGCATCCGCAATGGCTTCCGGCACAATTTC CACACCATACACATGCTTTGCCGCCTGTGCCAAAAATAAAGAAATGGTTCCGATACCGCA GTAAAGATCCCAGACGATCTCCTTGCCTGTCAGTCCCGCATACTCCAAAGCAAGACTGTA CAATTTCTCCGTCTGCACCGGGTTCACCTGATAAAAAGATTTTGGCGAGATAGCAAAAGT CACGCTCTCATCTGTCCTGGTAAATCCCCCAGACTCTTCTTCTCTGACCCGATGAATGGT ATCACGGATACACAGATCTCCCCACAAAAGCTGCACCTTATCACCAAGAATACGGTTGGT CTTTTCCTTATTTACATTATAAGAAATGCTGTGCATGCCCGGGACTTCCGACAAACTCTC CACCAATCGATCTGCCTGCGGCAATTTATCCCCATTGATGATCAGGCAGACCATGACTTG TCCACTATGAAAACCTTTGCGTATCAAGACATGACGCAGCAGACCTTGCCCTGTCGTCTC ATCATAAGGCTTGATATGGCAGGCTTCCATGTACTCTTTGATGACAACCAGGATCTTTGC ATTCTCACTGACCCCCAGCAGGCAGTCATCGATCGGGATGACCTGATGGCTCCTTGCCGC ATAAAATCCAAAGACGATATTGCCGTCCTTATCATATCCACAAGGAAACTGCGCCTTATT GCGATAGCGGAACGGATCCTCCATCCCGACCACTGGCTCCATGACCTTTTCCACTTGTTC CTGTGAAAAGCTGCCGATCCGCCTTAAGTTATTTTCGACTTTTTTCTGTTTGAGAACCAG TTGCTCCTCATAACAGAGATTTTGGATCTGACATCCCCCGCACTGTCTTGCTATCTTGCA GGGAGCCTCCACACGCTTCGGCGATGGTTTCACAATTTCAACAAGGCGGGCGTAGCCATA GCCTTTTTTCAGCTTAGTCACGCCCGCAAGAATCTCGTCTCCAATGACGGCATCTTTGAC AAAAAAGGTCATCCCCTCATATTTGCCAATGCCTTCACCGCCGATGCCCATATCTTCGAT TTTCAGAATAAAGGTATCATTCTTTTTCATATTATTCCTCTGTACTGGTTTTTCTGATAT TGGAATCAAACAAACGGTTGAATCCCTGCCACTTGAGATCGCCCTCTGCCACATTGCCCA AAGCCTCTTTCATGGTCTCCATCTTGGCATCGATATTATCCGCAAAACTAAGTGCCACTG CCTCTGCGATCGCAGGCTTCTTTGGCGAACCAAATTCCAACTCGCCGTGATGTGCCAAAA TACAGTGGATCAGTTCTCTCGCCTTGACCTCCGGAAATCCCTCGATCGTATTGATGCGCT CCTGCACCTTGGTAGCCCCGATCATAATGTGTCCCAACAACTGTCCCTCATCGGTATAGT CATTCTGTGGAAACGAGGAAAGTTCATCCAGTTTTCCGATATCATGGAAAATAGCCGCAG TTAAAAGTAAATCACGATTTAAAATCGGATAAGTCTGTGCATAAAAATCACAATTCTTTG TCACACCCAGTGTATGTTCCAAAAGTCCCCCAACATAGCCATGATGCACGCTCTTGGCAG CGGAATGGAATTTAAAACGCTTGGCAAACTCCTCGTCTGCAAAGAAACTCAAAAGCAACT GCTTCATATATGGTGCCTTGATCGTCCCGATAAATCCCAGCAATTCCTCATACATGAGAT CCACGTCCTTATCAGAACACGGAAGATAATCCTCCGGTATGTATTCGCCCTCCTGCGCAA CGCGCAGTCTCTTGATATTTAACTGGTATGCGCCCTGGAAAGATGTGATATCTCCCTGCA CCCAGATATAATCCAATTCGTCATAGTCATCAATTCCCATGGAACTCGGTTCCCAGATCT TGGCATCCAGTGTCCCGGTCTTATCCTGCAGCATCAGGCTTTCGTATGGCTTTCCTGCCT TGGTCAGTGCCGATTGCTTTTTGCGGCACAAATATATTTCATTGATTCTTTCTCCCTCTG TGAGGTCTTTGATAAATCTCATTACATTCTCCTCTTCTATGCAGAGCGTCTTCTTGCGCC ATACCTCTATATGCCCTTACGCCCTATCTTTACTACATTCATGCAGTTTTTATTATACGG TTGAATGACTGGTCTTTCAATATATTTTTGTGTATAATACATTTTATGAATAAGAAAGCA TTAAAAACACTCGAATACAACAAAATAATCGCTCTGTTGGAGCAATGTGCTGGCAGTACA CAGGGAAAGGCTTATTGCCGTGAACTTCTGCCCGTTTCCGATCTTTCACAGATCAAACGC ATGCAGGCAGAGACCAAGGATGCTCTCAGCCGTATCTTTAAACGGGGAAGTGTCTCTTTC TCCGGCATTACGGATGTACGTCCTTTCCTAAAACATCTGGAGATCGGGTCTTCTTTGACG ATTTCGGAACTATTGGCGATTGCCTCTCTTTTAGAGGTTGCCAAGCGGGTCAAGACCTAT GGACGCAGTGAAAATGATCTGTCGATCGAGGGCGATCATCTGGCTCATTTCTTTAACAAT CTGGAACCACTCACACCGGTCTGTCAGGAGATCCGCCACTGTATCTTATCGGAAGATAGC ATCGCGGACGATGCCAGTCCTGGGCTGAAAAATATCCGCAGGCAAAAGAATGTCATCGGC GAGCGTATCCGCACCCAGATGAATACCATGTTAAACAACAATACGACACGTTCTTACTTA CAGGATGGCGTGATCACAGTCCGTGGCGGGCGCTATTGTCTGCCGGTCAAGGCAGAGTAC AAGAACTACGTTCCCGGCATGGTACATGACCAGTCCTCCAGTGGCTCTACCCTATTTATC GAGCCTATGTCCGTCGTCAATCTCAACAACTCCCTGCGTGAACTGGAATTGCAGGAGGCA GAGGAGATTGAAAAGATCTTAGCCGACTTGTCCAATCTTGTCGCAGAACATACAGAGGAG ATCTCACAGGACTTTATGATCTTGGCAGAACTGGATTTCATCTTTGCCAAGGGAGAACTC GCCCGCAAGATGAACGCCGTTGAGCCGGAGTTTCATACCGATGGCATCATCCATCTGCGC GCGGCAAGACATCCGCTTTTGGATCCCAAACATGTCGTACCGATCGATCTGACACTGGGC AAGGATTACAATCTTCTCATCGTGACCGGTCCAAACACCGGTGGTAAGACGGTCTCCCTC AAGACCTGCGGACTTCTCAGCCTGATGGGGCAGGCAGGACTGCATATCCCGACCAAGGAT CGAAGCCAGTTATCTATATTTGATGATGTCTTTGCTGACATTGGAGATGAACAGAGTATT GAACAGTCCCTCTCGACTTTCTCCTCACATATGACCAACATTGTGCATATCTTGCGGGAA GTGGAAAGATCCAGTGGACATTATCTCTGTCTTTTCGATGAATTGTGTGCCGGTACGGAT CCAAAAGAAGGCGCAGCCCTTGCGACTGCCATCTTATCCAGTTTACATGAGCGCGGTGTC CTCACCATGGCAACTACCCACTACAGTGAACTGAAAATGTATGCTTTATCCACACCGGGC GTAGAAAACGCCTGTTGTGAGTTTTCCGTAGAGACCCTGAGCCCGACCTACCATCTGCTC ATCGGTATTCCGGGAAAAAGTAATGCTTTCGCCATTTCCAAAAAACTCGGTCTGTCCGAC GACTTGATCGCAGACGCTAAGACTCACGTCACGGAAGATGATCAGAACTTTGAAGACCTC ATGGTCGATCTGGAACAAAGACGGGTCTCTATGATGCGTGACAGTGAGGGAATTGCCCGG CAGAAAAGAGAAATGGAAGACCTGCAAAAGAAACTAAAAGAGCGCGAAGATCGTCTGAAT GCCTCCAAGGATAAGATCCTGCGTCAGGCAAATGAGGACGCTTCCCACATCTTACAGGAA GCCAAGCAGATCGCAGACGAAACCATCCGCGACTTCAACAAATACAGTCATTCCAACCCG GACATTGCCAAGATGGAAGCCAAGCGTGCTGCTGTCGGTAAGAAATTGGCAGACAGCCGA AAGAAGGCCTCTGTTGCTGCCAAGGATAACGACAAGCCAAAGAACCACAAAGTACCAAAG AATCTGCGCGTAGGGGATCCAGTCAAGGTGCTCTCCATGAACATCAACGGAACCGTCTAC TCCCTGCCAAACGCCAGAGGCGATCTGCAGGTACAGATGGGCATTATGCGATCCAAGGTC AATATCAATGATCTGATCCTTTTGGAGGACAACGATACAGCCGCTAAGACAACCGGCAAA AAGAGCCGTTACACAGGCAATGGTGGCTTTAGCAAGGCTGCTACCATCTCCCCGGAGATC AACCTCCTAGGACTCAACGGCGACGAAGCCGTAGCCAAACTGGATAAGTATCTGGATGAT GCCTATGTATCGCATTTAAAATCGGTCCGTGTCGTCCACGGCAAGGGAACCGGTGCTCTG CGTAAGGCAGTACATCAATATTTAAGAAAACAAAAGATCGTCGACGAATTCCATCTCGCC GAATTTGGTGAGGGCGATGCCGGTGTCACCATCGTTACTTTCAAATAACTTGGTTTAACG ACAAAAAACCTCCCGCAGCATTTCAAACTACGGGAGGTTTTCTACGTTCATAAATGGATT ATACTAACTCAAGAACTACTTCCAAAGCACCGTCACCCTTACGAGTTCCGATCTTTACGA TTCTTGTGTAACCACCGTTACGGTCAGCATACTTAGGAGCGATTTCCTCGAATAACATCT TAGGCATATCAACTTCCTTGATCTCCTTCTTAGTCTTACCAGCAGACTTTACAGGATATA ATACCTTAAGCATTTCTCTTCTTGCATGAAGACGGGATGGCTGATCCTTCTTGATCTTCT TTTCTACTGTATCATATACAGTAACCTTCTTGCCATCAACAACTTCCTTTACACGCTTGC CGTCTTTGTCCTTGCGGGCAACCTTAGCCTGTACGGTAACTTCATCGAAGTTGTCCTTTT CTCTAACAGCCATAGCAATGATTCCTTCAGCGATCTTCTGAACTTCCTTTGCCTTAGCCT CTGTTGTAACGATTCTTCCATGATATAAAAGGTTTGTTACCTGATTTCTCAGTAATGCCT TTCTCTGTGAAGATGTTCTGCTTAACTTTCTATACTTTGCCATTTCATTTTCCTCCTTAT GTGATGGCTCACTTCGCGATGCCTTTTGGTCTTATTCGCGAGGTGCATGGTATGCCATCC ATGATATTATGAGAGTTCCGTGCCTTTTGGTCTTACCGGTTCTCCCTATGTGACTTTTAT TCGTCTCCAGTTCTAAGCTGGAGTCCTAACTCGCTTAACTTACCTAATACTTCTTCCAAA GACTTGCGTCCAAGGTTGCGAACCTTCATCATATCATCTGCTGTCTTGTTGCATAACTCC TCAACAGTGTTGATGCCTGCTCTCTTCAAGCAGTTGTAAGAACGAACAGATAACTCTAAT TCATCGATGTTCATATCCATGACTTTGCCCTTTGGATCCATTGGCTTGTCAGCCATAACC TGAGCCTCGATTCCACGATCAGAAAGATCGATGAAGAGGCTTAAATGCTCATTTAATACC TTAGCGGCTAAACTTACTGCCTCGTCTGGCTGAATTGTACCATTTGTATATACGTCCAAG GTAAGTTTGTCATAGTCAGTAATCTGACCTACACGAGTATTCTCAACCTTCAGATTTACT CTTTCGATTGGTGTGTAGATAGAATCAACAGCGATAACACCGATTGGTGTGTCCTCTGAC TTATTCTTATCTGCGCTGATATATCCTCTACCCTTCGTAATGGTCAACTCCATGTAGAGT TTGCTGTCAGCACCACCATTTAAATTAGCGATCACAAGATCCGGATTCATGATCTCAATG TCAGAATCCACCTGAATATCACTTGCTCTTACAACACCTTCGCCCTCGAACTCAATGTAT GCGATCTTCGGGTCGTTGCTTGCGCTGTTGTTGCGGATTGCAAGATTCTTGATGTTCATG ATGATCTCTGTTACATCTTCCTTAACACCAGGAATAGATGAGAACTCATGTAATACGCCT TCGATTTTCACCTGACTTACTGCCGCACCTGGCAATGAAGAAAGCATGATTCTTCTAAGT GAATTACCAAGTGTAGTTCCGTAGCCTCTCTCTAAAGGTTCTACAACAAATCTTCCATAC TTTTTGTCTTCTGAGATTTCAGCAATCTCAATGTTTGGTTTTTCGAAATCGAACACTAGG TGGCCCTCCTTATACTGGTTTACCTTGCTAAATTGTGTCTAATTACTTAGAGTACAACTC GACGATAAGCATTTCATCGACTGGTACGTCGATCTGCTCTCTTGTAGGTAACTCTTTTAC AGTTCCCTGTAACTTCTCAAGGTCAACATCGATCCAATCCGGAACGAGTCTGCCGTTTGT TACCTCAACGATATCCTTAAATCTCTGAAGGCTCTTCTTTGCTTCGCGAACTTCGATAAC ATCGCCAGCCTTTACCAAGTATGATGGTACGTTTACAGGCTTGCCATTAACCAAGAACAT CTTGTGGTCTACAACCTGTCTAGCTTCTCTACGTGTTCTGGCAAATCCCATACGGAATAC AACATTGTCCAGACGGCTCTCAAGGATAGTCATAAGGTTTTCACCAGTCATACCCTTCTT TCTGTCTGCAATGTCGAAATACTTATGGAAAGGCTTCTCTAATACGCCATAGATAAACTT AGCCTTCTGCTTCTCTCTCAACTGGAGACCATACTCGGAAGTCTTTCTTCCTGATCTCTT TAACTGTCTATTTGATTTTTTATCCACTCCTAAATATACAGGATCCAAACCAAGTGATCT GCATCTTTTAAGAACTGGGGTTCTATTTACTGCCATCTTAGATTATCCCTCCTATTAAAC TCTTCTACGCTTTGGTGGACGACATCCATTATGTGGTACTGGAGTTACGTCTGTGATGCT GGTTACATCGATTCCGCATGCAGAAAGTGCACGAATTGCTGCTTCTCTACCTGATCCTGG TCCCTTAACCATAACATCTACTGTCTTTAATCCATGAACGAGAGCAGCCTTTGCTGCTGT TTCAGCTGCCATCTGTGCAGCATATGGAGTAGATTTTCTTGAACCTCTAAATCCAAGACC ACCGGCACTTGCCCATGATAAAGCATTTCCCTGTGCATCTGTAATTGTTACAATTGTATT GTTGAAAGATGCCTGAATATGTGCCTGTCCGTGTTCAACGTTTTTCTTTACACGCTTTTT TGTTACTTTCTTTGCAACTTTAGCCATATCTAAACTAACCTACTTTCTGAAATTATTTCT TCTTGTTTGCTACAGTTCTCTTAGGACCCTTTCTTGTTCTAGCGTTGGTCTTTGTCTTCT GACCACGAACCGGAAGTCCCTTTCTGTGACGGATACCACGATAGCATCCAATCTCCTGCA GTCTCTTGATATTAAGAGCTACGTCTCTTCTCAAATCACCTTCTACCATCATTGTTTCGT CAATGACAGCACTGATTCTCTTAACTTCGTCGTCTGTCAAGTCCTTAACACGAGTGCTAG GATCAACATTTGCTGCTTCAAGAATCTTGTTAGAACTTACTCTACCAATTCCGTAAATGT AAGTTAAACCAATTTCTACGCGTTTTTCTCTTGGTAAATCTACACCTGCGATACGAGCCA TGTGTGTTTACACCTCCATAAAATTTTCTGATTAACTACTACCATCCCCAAATAGAACCT ATACAGCTCCGTTGCCGGCCTGAAATGTGTGTATATGCCTTATTTGGTTCTTTTCTTCCT AAACATATAGTAAGGAAGAGTTCCGAATCCACGAAACTAACCACCCTCGGTATGTAGGGT GATCCGCATATATTATGAAAATGTTGCCTAATTATTTACTAATCATCGGGAACATCAGCC GCACATAACATATACAAATAACACTAATCCTTATGAATTAGCCCTGTCTCTGTTTGTGTT TCGGGTTCTCGCAAATAATACGAACACTACCTTTTCTCTTGATTACTTTGCACTTTTCGC AAATAGGTTTTACTGATGATCTTACCTTCATTGTAGGAAATGCCTCCCTTCTCATCATTT TCGTGTTCCTTGTACGCATGTACAAGTCTTTTATCTACTGCATTTATAGGCGCGCGAAAA GAAATGCCCATAAACGCACTTGATAGTATAGCAAAAGTATCAAACTCTTGTCAACAACTT TTTACTTATCTCTCCAAATGATTCTGCCCTTTGTCAGATCATATGGTGACATCTCGATCG TAACCTTGTCACCCGGTAAAATACGGATATAATTCATACGAAGTTTTCCGCTGATCGTTG CTAAGATCTGGTGACCATTTTCCAGTTCCACTTTAAAGAAAGCATTTGGTAATTTTTCTA CTACAACACCTTCTACTTCGATTACATCT
Region Details
| Region | 1 |
| Region Length | 23.3Kb |
| Completeness(score) | incomplete(40) |
| Specific Keyword | integrase,recombinase,transposase |
| Region Position | 248235-271543 |
| # tRNA | 0 |
| # Total Proteins | 11 |
| # Phage Hit Proteins | 7 |
| # Hypothetical Proteins | 0 |
| Phage + Hypothetical Protein % | 63.6% |
| # Bacterial Proteins | 4 |
| Attachment Site | yes |
| # Phage Species | 7 |
| Most Common Phage Name(hit genes count) | PHAGE_Bacill_phiNIT1_NC_021856(1) PHAGE_Bacill_Grass_NC_022771(1) PHAGE_Bacill_Moonbeam_NC_027374(1) PHAGE_Bacill_Eldridge_NC_030920(1) PHAGE_Staphy_phiETA_NC_003288(1) PHAGE_Bacill_BM5_NC_029069(1) PHAGE_Bacill_Mater_NC_027366(1) PHAGE_Staphy_Pvl108_NC_008689(1) PHAGE_Salmon_9NA_NC_025443(1) PHAGE_Plankt_PaV_LD_NC_016564(1) PHAGE_Bacill_phBC6A51_NC_004820(1) PHAGE_Lactob_phiPYB5_NC_027982(1) PHAGE_Rhodob_RcRhea_NC_028954(1) PHAGE_Rhodob_RcCronus_NC_042049(1) PHAGE_Proteu_VB_PmiS_Isfahan_NC_041925(1) PHAGE_Strept_P9_NC_009819(1) PHAGE_Bacill_SPbeta_NC_001884(1) PHAGE_Geobac_E2_NC_009552(1) PHAGE_Entero_IME_EFm5_NC_028826(1) PHAGE_Bacill_G_NC_023719(1) PHAGE_Lactoc_28201_NC_031013(1) PHAGE_Helico_KHP30_NC_019928(1) PHAGE_Bacill_phIS3501_NC_019502(1) PHAGE_Gordon_Waits_NC_042123(1) PHAGE_Lactob_iLp84_NC_028783(1) PHAGE_Salmon_SSU5_NC_018843(1) PHAGE_Strept_315.6_NC_004589(1) PHAGE_Helico_KHP40_NC_019931(1) |
| First Most Common Phage # | 1 |
| First Most Common Phage % | 9.09% |
| GC % | 45.20% |
| 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. |
Region DNA
>2 714923-734254 CTTCCTCCTTTAAGCAATAAGATATTCTCCATTTATTACTCAACGGACCAAAGGGAAATC AAATCCGCCTTATGAGCATCATGCCATCCATTCCGTAAGTGCCAAAGCTACACGAACAGC ACGATTTCTATTCTGATCAGATCTGCTTTGTCGATCTGTGCATCCTTTTTTATCCTTTCA CCAGCTACCACTCACTCTTTCCGGTATAAAAAATTCCGCTGTGATTAATTAACATGATAT TTCAATAGTTTCAAATACATCACCAGTCAGATCACAGATGTCCTGGATCTGGATCTCGGT ATCATCAATCCGTAAGTGGACTGATGGATCAAAAAATTCTACGGTTCCAGATAATGTATG GTACTGACCAATTAATGGATTCTTCCATGACTTTTGAAAATAAGTTGCCTGTATCTTCAT TCCATATGCCAGGATTCTTAATTTCATATCCAGCTCATTTTTCTTTTCCTCAGATAAATC TCTTTTCGGTTCATAAATGATTTCCTGTTGCCGGATTGTTTCATCCAATCCACGAAGTGC CGCAAATGGAGCAAACTGTTTTGCTCTGCGTCCTACATCCATGGGATGTCTCCTGGAAAC CGGTCTTGGTAAATATAAATACGGTTGATATGCACTTGCTAGCACTTTTTGCACCTCCTC TAAGCACGGTGACCACCTATTTGCTCGTTGCGTTCTCTATAAGTAGAACACTCTAGCAGG TTGGATCCCCGCATGATCGCATTCTTTCCATAACGCTGCTTTACATTCAATACTGCTTCC TGTAAATGCCGTTCCTTATCGGTCTGTTTGGGATCATCAAACAGGCTGTACTGCACATAA TTTTCAGAAGCAACCCTGTTCGCACACACCTCGATTCTTCGGATTCCGGTATATCTGTCT GCAATCCTGCGATATAAATCTTCCACTGCATCTATGATCTTTTTGGAACTGTTACTTTCT CTTTCGAGTTTTACGGTTCCTTTGGATGCCTCATGCTCATACCTGTGGTCATAGGCAATC CATAAGGTGAGAGAGTTTGTTACCAGTCCTTTTTCAAACAGATCCAGGACCAGATTGTCT GTCATTTCCCTTACGATCACAAGTGCTTCGTCAAAAGAATAATTTCGCATCAGCACCTGG CCATTCGATAGGCTGTGCTCTTCTGAATGATAGTTCTTGATGTCACTCATCCGGCATGTT TCATAACCCCATGCATGATCGATCAACAGCTCTGCATCAATCCCAAACATCTTATACAGC CAGTCTTCGGATCTTAAAGAAGCCATTGCGATATCGCCCATCGTATGGATCCCGTAACCA GCCAGTTTCTTTTCAGTCCGGGATCCAATCCTCCAGAAGTCACTTAATGGTTTATGATCC CATAGCTGCTCTCTGTAAGAGAATTCATTCAGGATTCCAATATGGTCATCCACATGCTTT GCTACGATATCCATTGCGATCTTAGCAAGATACAGATTGGTTCCCACACCTGCAGTTGCA GTGATGCCAGTTTCCTCCATGACTGCCTGCATAAGCTTTACCGCCATTTCTTTTGCAGTG AGATGATAAAGCTGCAGATAGTTTGTCACATCAATAAAACATTCATCGACACTGTACACA TGGATATCTTCTTTTGAGACATACCGCAGATAGATTCCATAGATCTTTGCGGAATAATCC ATGTACAGCTGCATCCTCGGCATGGCTGTAATGTACTTCACACAATCCGGTATCTCATGG ATCCGGCACCGGTTCTTGATGCCAAGAGACTTCATAGCCGGAGTGATTGCCAGGCAGATT GTTGACTTTGATCTGGTCGGATCTGCAACCACCAGGTTTGTTTTAAATGGATTCAGCCCA CGTTCTACGCATTCTACAGAAGCATAAAAGGACTTCAGATCAATACAGATAATAGAAGTC TGATCCTGACTCACATTGCCACCTCCCATACGTCTTTCCTCTTTTTGTAACATGTATCCC ATTTTGACTATCAATGATTGTCTATCCTTCCTGTTTTCATTGAATTACAGGAAATTCATT TCACATATTCATTGACAAAAGAGGAAATATTGTGTATCTTATAGGAAAGATGTTTCCCTT ATCTGTGATTCACATTATAGGAGAGATATTTCCCTTTGTCAAGATTAATTTTTAATTTTT AGGAGACACATTTCCCGTTTTGCCTTGAGGCGGCTAATGAAACTTATAAGACAAGGCTTA GAAAGAGGTATGTTTATGACATTCGGTGAAAAAGTAAGATCATTAAGAAAAGAAAGAAAA ATGAGCCAGCAGGAACTGGCCAGCATGGTTGGTGTTTCATATAGGACCATTCGATCCTGG GAAGTAGAAGGACGTTTTCCAAAACAAAATGTTCTGTATCAGAAACTGGCAGATGCATTA CAGTGTGACGTTTCTTATCTCATGAGTGAGAATGAAGCTTTTATCACAGAAGCATCCGAA CAGTTTGGTAACCGTGGTGCCAGACAGGCTCAGCAGATTCTGGAACAGGCTGCAGCTATG TTTGCCGGTGGATCACTGACAGACGAAGATAAAATAGCTTTTATGGATGAGATCCAGAGC CTTTATCTGGATTCCAAAAGACGTGCAAAGAAATTTACACCGAAAAAATATCTGAAAAAC CAAGAGGAAAAATAATAGAAGGCGGGATTATTGTACACCTAATCTGTTACCTTATAGTTA CAAGGATATTTCTGCCCTTTTTATTTTTTACTTTTGAGGTGATTTATTTGAGAAACACTT ACATATATACAGAAACAAAGAAATTAATCAAGAAATATGGAACCCGAGATCCATTTGAGA TCATGGATCAGATGAACATTGTGGTCGGTGAAACTTCCAGATATAAGACACTGAAAGGAT ACTGTTTTATGAGCTGTAAGACAATCTATGTCATGATCAGCAGTTTCCTTTCAGAAGAAG AAAAGATGATCGTTGCCGCCCATGAATTAGGGCATATCATCCTGCATCGTTCCCAGCTGA AAATGGCTCCAATGCAAGATGATACCCTCTACAATATGACGGATAATACAGAATACCAGG CCAATCTGTTTGCTGCCGATCTTCTGATTGATGATGAGGAGATCGAAGATATGGTTCAAA ACGAAGACCTGGATTATTTCGGACTCTGCAGCTCTTTGAATGCGACTCCGGAACTCATGA GCTTTAAACTATACAGCCTGACAAAACGAGGCCAGGCTTATCATATGCCGATGGAGATAC AGAGTAATTTCCTGGCGAAATAATAGCGGATAAGATTATTCTACAATAGAAAAACTATAG ATTTATCTCACTGAAAGGAGGATCATTTATGTCAAGACATCATATAGAAAAGGTAACTTG TCCTTCCTGCCATCATGAGGGAGATTTTGAGCTCTGGGACAGTATTAATACCGCACTGGA TCCTGAAATGAAAGAGAAGGTACTTAATCAATCTATTTTCCTTTATACTTGCCCGAACTG TGGAGAGACCTTCCGTTTAAACTACCCTACACTCTATCACCAGATGGAAGATCTTATCAT GATTTATCTGGTTTCTGAATCAGAAGTAAAGAAGACATATGAAATATTTTATGAAAAAAA TGCTTTGGCTGATTATCGTACCGAAAAGTACTTATACCGGATTGTGACATCAGCAAATCA GCTCGTTGAAAAGATCCAGATCTTTGATGCAGGTAAAGATGACAGGGTAATGGAACTTGT TAAATTACTTGCGACAGATTCTATTCTCAAAAATGATCCCGATATAGAATTTGATGAACT GCGCTTTGCTGTCGACGACGACGGAACAAATATTCTTGTAATCATTAATAAGGGTGAGAT TACTGGTGCAGTTGACATTGACAATATGTATGAATTTGCTTCTTCACACTGCAATGATTT CAAGGATCTCCGCGATGATGATGAAATAGTTATCAATAGGGAGTGGATCCTTAACAAACT TGCCGAAGCAGAAAACGAATAGTATATTTGGTGGCTACACCCCCCAAGCCCCTGTAGAAT AAATAACGCCAGTACTGGATATCAAAAATCCCGCACCGGCGTTATTTATTAAAATATTTT GTTTTTTAATCTTCAACACTCTCTACTGAAACTTCTTTTTTCTTCCTACTTTTACCAGAA ATCATCTTGTGTCCTGTATAAATAGCCATAATCATGCAAAGCAAAGAACTTGCTGCAAAG TACTTATGGCCTTCTTTTGATCCCTTATAACCTGTATAAAAAGTTCCAAGCATTGTAATC AGTGCACCGATAGACCAATATTTATGTGATTTCATTCAGATGCCTCCTGCCGTTTTTCTT AATCATATACCTTTTAAAAGATATATACAAACTGGTATTTTGAATCAATCGACAAGCAGC TCGGATCTTCCACTATAAATTCATACCTTCAGCAAATAGGATATGGCAATAAAAATATAT CCGGAGATTTCTCTTCCTACTGGATGCAGTCATCCTTAAAGATTTCACCAGTAGAACAAG TTGAACTTTTGAAAAATTTATATCGAAACAACTTCAACTTTACTCCTGCTAATATTCATG CCGTCAAAAATTCCATCCATCTTACCGCCTCTGAAAATGGAGAATTTATGGAAAAACCGG AACCGGACGAGTGAACGGGCAGGATATAAATGGCTGGTTTATAGGTTTTATAGAAAGCCA AAATAATACATACTTTTTCTCCACAAATATTCAAAGCGAACAACGTGCAACTGGTAGTAA AGCATATGATGGTGCTTTATCTACTCGTATTGATTCGTCACATAAATATAAGCATCTTCC AACGTTGCAGGAATTGACATACACTCCAATTCTGGCTGTATTTCAGAAATCACTCTTAAC TGCAATCCCCCCTCAACATACTGTTTAGATGTAATACGATACTTCTGTTCCACTTCTCTT GCTTTTCTCTCATCAGGTACTTTGCAAATCCAGATTTTCCCCTGTGCTTCTTCTGTCAAA TTCTTCATAGAACCCGCATACAGAAATCGACCTTTATGCATAATTGCAAGCTGATTGCAG GTGGCAGCTAAGTCTTCTACCACATGAGTTGAAAACAAAACCGTTCTGTTTTCAGAAAAA TCTACTAACAAATTGCGGATGCGAATACGTTCCTCCGGATCTAAACCGGTAGTTGGCTCA TCCACAATTAAAAATTCCGGTTCATTTAAAAGCGCCTGCACCAATCCTACCCGTCGCTTC ATACCGCCTGATAACTGCTTCATTTTCTTCTTACGATGTTCTATAAGACTGGTCTTTTTC AAATAATAATCTATCCGCTTTCTACATTCTGCTTTCGGAACACCTGCCAGATCTCCCATA TACTCCAAACACTCCTGAACCGTCAAATTAGGATACAGTTCAATTTCCTGTGGTAAATAC CCTATCTTTCTTTGGATTTTTTCATAGTTTCCTTCGCTATACAAAATTCCGTCTAATGCA ACCATTCCGTTTGTAGGTTTAAGCACAGTGGTCAAAACTCTCATCAAAGTTGTCTTTCCC GCTCCATTTTCTCCCAATAGTCCAAATATCCCATTTGGTATATCTAAATCTGCATGGTCG ATTGCTGTGACACTATTCTTAAATCTTACCGTTAAATCCTCAATATGAATACTCATAAAT TTACCCTCTCTTTCTTACGATCTTCGGCAATGCCAGTAACAAAATCAGTCCGATACAAAT ACACAAGCCTTTCCCATACAGCCATGTAATATCGGCAGTATTTTCTATATCTCTAAAAGA ATAAGAAAACAGATTCCATGCTCCAAAAAGTTTATCTCCACCTGTGGAATTTGTTGCTAC CCATATCAAAAGACTGCTACCAATTCCCATCCACATATTGCGAAAAAGCATAGACAATGT ATTAGCCAATATTCCCCAAAAGAAAATAGTTACTACAATCGCCCCAAAACAGGTAATAAA CTGAAGTATTTCACTTTCTGTTACTGGATGTGTAATTGGTTTCTGAAACGCAAAAAACAA TCCATATCCAAGAACAGCGAGCAGCAGCAAAAAAGTTCCCTGTATCATCAGTCTCTGTAT AATAGAATAGATTCTCTTTTTTATCTGATACAGTCTCTGAACTTCGGAACGGTTGCTTGT AATTTCCTGCACATAAGTATCTGCACAAAAAACAGCAGTCAATATCGCAAAAGGCGGCTC TATGGATAGTCCTATTTCATACGTGAAAACAACTGCACGAATCACACTTAAAATTACAAC AAAGGATACTGCATAAGCAATTTTATAAAATGGCAGAACAATCTTCATTTCCTTCTTCAT TTATATTCGCCTCCGCTTCCAAATCTGTATCGAAATCAGTATAATTACTACCGATACAAT AATAAGAAAACTTTGATTTAAGAGCGCCATCGGGGGCGGTGTCGTATCAAAAAGCTGCCC CGGAAATCGTACCATGATTGCCAAAGGTTTGCCCCAATATCCGTAAACTCCCTCTGCATT AGTTCCGCCCAAATTGGAATACACCATATAAAGAATCAAAAGTGGTACACCCGGAAGTGG ATTTTTAAATATGAGTGAAATCAATGTATATATACTCACAATCATCAGCATATTAGGCAA TATATAAAGTACCGTAGAAGCCACAAAATCCCATAGTCGCACTTCAAATCCACTATCCTT TGTATAGATGCGGCACAATACCCAAAACAGTATATTCAAAATAGTTAGCACAAGCAAACA AATTGTAAATCCTGCACTCACTTTTCCCATTACATACTTCCCGGCAGTCACAGGCTTTGT ATGCAACAATTCATAAGTATGCTTTTTTGTATCTTGTAAAAATAAAACCGCCAACATAAT AATTGCAAAAAACACCATATACAGACCCGCAAAATCAGCAAATTTTCTTGCGTAATAAAA AGAAAATGTCTTATCTTCCAATTTTTTATCTAGATATGCGTTGATTTCTTCTGCCGTTCC CTTATAATACGTACTGTCCTCGTATAAATACCTTGCCCCGTACCAGTCATATTCCTGCTC CAAATACGCATAGGCCTCTTTTAAATTCATGCTTTCCAGCTTTTCAATGACATTCTGTGC TTCTGAATCCGTCAATCCAAACACATCCGTTAATTTTATTTTTACCTTTTCATGCCATAC CTCTCTGTGTTTTTCAGGCGTGGCTGGAATATAGCCCTCATACACTTCTCCTTCAACCGA AGTGTTGGACTGATCATTGATGATTTCCTCCCCCGTTGTAAGATAATGTGTGGTTAAATA TGGACTTGTCGCATTAAACACACCATAAATCACAAGCAGAACACCTACCCAAAATAACGG TCGCTTTAGATAATTCCTAATCTCTCTTTTAAAAATAGCAATCATACGTATTCCTCCTTT CCTTCGTTATAGACATCATAAAATATAAATCACAACAAAAAGACAACAGCATAAAAAAAT CGGACCGCTCATGCAATCCGATGAAATACTGCTGTTATTACAGCTCCACTCTGTTTTTCA TTTTCTATCAGTAACTGACCACCATGCTTTTCACAATACAATCTGCTGATATACATGCCC ATTCCTGAATGTTTCAAACTGTCTTTCACATTTTGCTGATAAAAAAGCTCTGTTGCCTTT TGCTTATCTATTGTAAATCCCACTCCATCATCCTTTATTCTGATCTGTAATTCAGAACAG GTAAGAAACACTTCCATTTCCACTTTTGTCTTGGCGTAACGAAAGGCATTTGACAAAAGG TTTTCTATAACCTCTAAAATCACTTCCTTATCTCCTGAAAATTTTTCTTCTGTTTCCGAA CATTCTAATTCATATAGCTTTCCAAATTTTTTCCTAAACACGTTCATCTCTGCCCGTACG TCTATTTCTACCTGTTTACTGGTAATTTCTTCTGCTACTAACTCCCTTGTATCTAAACTG CTCATCTTTCGCATAGTTTCCACAAAGATATCCATACGTTCAATCTGTTTTTTGCTTTCA TTTACCATTTCTAAGGCTTGCTCCATATTTATCTCTTTCTTCGGAAGATATTCTGAAAGC ATTTCCTGATACCCCTCCAGCACAGAGAGCGGAGAACGTATATCATGTGCAATGGCAGCC CGCAAAGCCTTTTCTTCCTCAAGCATTTTCCATAACTGTTGATTATTCTCTGCCAGCTGT CCTCTCATTCGTTCAAACTCTTTGCACAATCCGCCCATCTCATCTTCATTTTCATAAGTG ATATGGAAATCTAAATTATTTCGACCAACTTGTCGGGAAGCCAGTTCTAATTCTTCGATA GGGCATTTCAGTTTATGCTTATAAAAAAGAAATACCGCTATAATACTCCCTGCAACAGAT ACGATAAGCACTGTAAATGTCTGAAGAAAATCACATATTTCCGATACATGATAATCAAAT TCTTTCATTTCATAAGAATGTGGTCTCGGAACATCTGGCAAATACCTTCTACCATCCCCT TCAGCCATTTCAAAATATTCTTCTTGGTCTACATAATTCCACCAAATGTTGTTTTGTACT GTGCTTGCTATTCGCATAATTAGTGCTGAAAGATAAAAACTAATTATTAAACTAATTATC ATATACAAAACAATGGTTTTCCTTAACGAAAGATTTTTTATTTTGCCCATTTATATCCCC TCCCCCATACCGTTGCAATATATTCGTGTTCCGAATACATTTTCATTTTCTTGCGGATTC TGCGAATCAACTCCGTAACCACCCGGCTGTCCCCTTCTGCATCATATCCGCCAATCTTCT CATAGATTCGTTCTTTATCAAATACCATTTCAGGGTTCATAGACAAAAATTCTATGATCT CATACTCTAATTTCGTAAGCTCTAAAGCATTCCCTTTAATATGTACACATTTACTGGCAT AGTCAATCACTAATTCTCCATAAAACCTTTGTTCTTTTTTCCTATGTAAACGTTCTTCAC GTTTCAAATGGGCAATAATTCTAGCATCTAATTCTTTCAAACTGAATGGTTTTAAAACAT AATCATCACCACCAGACAACAATCCCATTACTCGATCCTGTTCTTCTACTTTTGCAGTCA AAAAAATAATCGGACAGGAAACCATATCTCTGATTCTTCTGCACACTTCAATTCCGTCCA TTCCCGGCATATTTACGTCCAATAAAATAATATCGGGATTTGCACTTATCTTTTCCATTG CTTCTATGCCATTTTCTGCAATCATTACCGTATAATTCTTCAATGTAAAGTATTGATTCA GCATTTTTAGCAATGCTCTATCATCATCAACCATTAAAATTTTATAGTTCATAAATTTCA CCTCTGGCTCTAATGTTATCTTTTCCTTATAGTATAGCTTATAAAAAACAACAAATAAAC AACAATTCCTAAAAGGCAACAGCCTTTCTAAACTGCCGCCTTTTCTCCTTCATTTTATTT CCATTATTGATAAACCATCTCTGTATCCACAATCTCCCTTGCACACGATTATATATTGTT CATTCTCGCTACCCATTCCATCTGATTTTCTGCCTTTAACTGTTCCGTGATCCCCTGTGC CTGTTTCATCTGCTCTACAATTTAACTAATTTTTATATCTAATTTTGGATTATTCGCATA ACCACTATACTTTCAAGCATTTTGGAGTATAGAAAACCATTCATTTTACCACTAATTTAC CACGATTGAATGAGCCTTGATATGACTATAAAATAACACCCAAAAGACATCATTACACCT AAATGGTGTCTTTTTAAAAAGCAGTCAATCATAAGACTAACTGCTTTGTATGTAGGGATA TAAAATTGTAAAACTAAGATTGCATTTCAGATATGGATTTGAAACCCCTCATAGCTGAAT ATACCATTCCCTTGTTTTAATTTCCCTTCATTTGACAAGTTGTGAAAAGCTGTCTCTATC TTGTCAATTATAGTAACTGGAATAGATAAATGATGATGTCCTGGCAAAATTCGACTTATC TTTAAAGATTGAATTTTTCTAACAGACTTCCAAAATTCTTGTGGGTTTGTTGATGGATAA AAAGCATCAAGGCAACCGCTATATATCAAATCGCCGGAATACAGATATTTTCTATCCGCT TCATAGAAACAACAATGTCCGGGAGAATGACCGGGCGTGTGAATAACTACCAACTTTCTG TTCCCTAAGTCAATACAATCTTCATCATGTAAAATCATTTGCGGAACCCCTTGAAAAATC TGATATTTCTCTACCTTAAAATCCGAGGGGAAATCACATGGATTGCACATAATATTGTTT TTTACCACTTGCAAAGGTATAGGGAATTTGACCGATAGCCATTCTTTTTCTGCTTCATGA ACTGCAATAGACCGAAAATATTTATGTCCACCGATATGATCCCAATGAACATGAGTAGTG ATTACTGTAACGGGCAGTTTCGTCAATCCATCAATAACCTCTCTGATGTTGGAAACACCT AAACCTGTATCAATCAGAATGGCTCTTTTTGTCCCACACAATAGATAACAATGTGTTTCT TCCCAGTGTTTGTATTCGCTGATGACGAATGTATCTTGGTCTATTTGTTCGACGGTAAAC CAACTGTCCATATACTATTCTCACTCCCTAAAAATTTTAATTTGTCGCTTTCTTCATACC CATATTATAACAGTTCCATATATCCGCCACAATAAAAATCAGCATACCCTTTGAATATTT TCTGCATTGAACATACACACTTTTTCTTTCTTCCTCTTGATTACCCACCACAGAAAAGAA AAAGCCCTGTCAAGAGCCTTGCCACCAATGGTGGTGCTTTGCACTCTTTACTGGGCTTTT TGTTTGCTGTATCTTCCATTCAAGAGGAAATTAAAGACCTCTGTTCCATTTCGCCTTTAG ATAATCTTCATAATCTCCCTCGTTAAAGTCTACTTGTGGAGAAGTATTAGGAATGTTTTT TCTGTTATCTACATCTGCAAGTTGACGGAATATCCAGTCATCATAAGGGTTGTGATATTT ATACTCTTTCGGTTGTTCTCTGTATCGGTCTAAACCTCGCATTTCCTTATGTACTTTCAT CATGCGTTCTATTTTTTGACGCTGTATCAACTGTTTGATTTCCATAAGTTCTTCCACTTC TACAACCTCATTAGAAAGATAATTGCTGATGTACCTAATCAATATGGTTTCCATGTAAAA TTTGTATTCGTTTTCATCATCGAAAAATTCATTTTCAGACAGATAATCTAAGGAAACATT GAAGTCCTGTTCCCGTTTAATAATATCCATAATATATGGCTCGGTATGGTCGATATACTT CCATTCTCCCGACAATAATTCATTGGGCGTTACACCCAGCACGTCCATTATCTTCTCTAA TGTATCAAAGGTAGGATAATTCACACCACGTTCAATCTTGGAAAGGCTCTGCATATTGAT ACCGATTTTGTCCGCAAGTTCCTGTTGTTTCATTCCTCTGTGTTTTCTTATGGTCTGTAT GTTTTCTCCTAAGAAACTGATTTTCTTTTCATAATGCTCCATAACTTAGTATAACCGCTC CTTTCGTTGCTTCTCTTGGCATTTATAAGCATATCATACTTAATATATATCCAAAAGTCA ACAAAAACTTCTTGACAAGTAATTCTAATGGCGTTATTATCGTATCAGATGGAGTGATTA AGCACGCTAGGGTCAATCACACGCTTGAGTAAGCATAGAGAAGATATATTTTCACTTTGA TAGCATGAATAAGCATGGACTGTCAGACCGAAAATAGTGGTTTCCAAAAGGGGCTGGCTG GACGGGGCACGTCCCCCAGACGTGTTCGGACAGACAGTTCCTTTTGGAAAGGGAACGCCT TTAGGCGTTCGTAAAGGGCGTATATGTAACACCGCCCTGCGCATACATGTCATAGTACCT AGAAACTGTGATAAATAAAGGAAAAAACACGATTTTTACTCCGCAAAAAAACGGGAAGTA CGAAAGGAGAAATGCACTATAACTACACACAAAAATTTATCCGTTAAGATTGATTACATC AGCATTGTATTTGATACTGCAACCACTGAAGATGTAATCATGCACATTTTAGGTTTACCG ACTGATATTTTCAATGTCTATCCGGCAAGCATTAAATACAAAACCTATCAAGCACGCTGG CAGATTGGAGATATTTATGTATCGGGGGACGCAAGAAAAACAGAGGATAACCCACAAGGG TTAGGCTGTTATCTTGTTATGACTGGCAGAGGGTGTGATGATATTTTCCGTATTCTCGAC AGTAGGAATTATACCTTTGGGGATATGTTCCGACGCTGTGAGCGAAGATACGGACGGGAT AATTTCCATTTCACAAGACTTGATATTGCCATTGATGATAAGAACGAAAAACCATTTTTT ACCATAGAGCAGATAAAGAAGAAATGCGAAAAAGAGGAATTTATCTCGAATAGTGAGGGC TACCACTTTGATGAAAGTAAGTTTGATGATTTCGACACCGCAAAGACTGTTTATATCGGT GCTGGAAAATCGGGATTGTCCTACCGCTTTTATGATAAGGATAAGGAAGTCTGTTCAAAA CATAATAAGACACTTGATGAAGTCGGCAGTTGGAAACGGACAGAAATGCAACTGCGTGAT GATAAGGCTCATGCTTTTGCCATGACATTCAAGGAAAGACCGCTGGAACTTGGAGAACTG GCTTTCGGTCTATTGGCAAACAACCTACGCTTTGTCGTACCAAACAGAAACGAAAGCAAT AAGAGCAGGTGGAAAACTTGTCGGTTTTGGGAACGCTTTTTAGGGGCTGTGGAAGTCTTA AAACTGCAAGTACCAAAACAGCAAAATTCCCTTGAGGAAACACAGCAATGGCTCACAGAG GGTGGCGTGATTTCCGCTGTCAAAAGTTTTTACTTCTTGGAAGAACATGACGCATTAGGT GGACTGGAAAAAGTGGGAACTATGCTTGATAAGGCAAGATACAGCAATTCCCTTTCCAGT AAATTAACCGCCCATTTACAGAGGATAAACCGTACCGACCTTATCCCTTATATCCAGTAT GACACGAAACATGGGAAAGGGGGTATCTGATGAATAACAACGATATTCCCGTATGGGAAA AATACACCCTTACCATTGAAGAAGCGTCAAAGTATTTCCGTATCGGAGAAAACAAGTTAA GACGATTGGCAGAGGAAAACAAGGACGCTGGCTGGCTCATTATGAATGGCAACCGCATAC AGATTAAACGCCGACAGTTTGAACAGGTTATCGACAAATTGGACGCAATCTAATGCAAAT GAGCCTTGTATGTGTTATGATGAACACAAGTCATATCAAGGCTCTTTCCAACAAGGAAAG GAGCAGACACCATGAAAGAAAAAAGACGGGATAACAAAGGTCGTATCCTGCATACTGGAG AGAGCCAACGAACAGACGGAAAATACTTATATAAATATGTAGACGCATTTGGAAACACAA AATATGTGTATGCTTGGAGATTGACACCAACAGACCCGACACCAAAGGGAAAGCGGGAAA AACCCTCACTTCGAGAACTGGAACAGCAGATAAGACGGGATATTGAGGACGGTATCGACA GCACAGGCAAGAAAATGACGCTTTGCCAACTTTATGCCAAACAGAACGCACAGAGGGCAA ATGTGAAGAAAAGCACACAGAAACAACGGGAACAACTCATGCGGTTATTGAAAGAGGACA AGTTAGGTGCTAGGAGCATTGATACAATCAAACCCTCTGACGCTAAAGAATGGGCGTTAC GCATGAAAGACAAAGGCTTTTCCTACAATACCATTAACAATCATAAACGCTCATTAAAAG CGTCATTCTATATCGCCATACAAGACGATTGTGTAAGGAAAAATCCCTTTGATTTCAAGT TAAGTGAAGTCCTAGAAAATGATACCAAAGAGAAAGTCGCATTGACAGAGGAACAGGAAC AAGCCTTACTCTCATTTATCAAGACGGACAATGTGTATCACAAGCATTATGATGATGTGC TGATATTATTAAAAACAGGACTTCGTATCTCGGAACTGTGCGGACTGACAGTAGCCGATA TTGATTTCAAGAATGAAGTTGTGATAATTGACCACCAGTTACTAAAGAGCAAGGAACAAG GCTATTACATTGAAACGCCTAAAACAAAGAGCGGAATAAGGCAAGTGCCATTAAGCAGAG AAACAATACAGGCATTTCAACGAGTTATGAAGAAACGCCCAAAGGCAGAACCATTTGTGA TAGACGGACAGAGCAATTTCTTATTTGTCAATCATAAAGGCAAGCCCAAAGTTGCGATTG ATTACAACGCCTTATTTGTCCGTATGGTAAAGAAATATAACAAGCACCACAAGGACAATC CCTTGCCACATATCACACCGCATACGCTACGCCATACATTCTGCACAAGACTGGCAAGCA AGAACATGAACCCAAAAGATTTACAGTATATCATGGGACATTCAAACATTAGTATCACAA TGAACTGGTACGCTCATGCGTCCATAGATACCGCAAAATCAGAGGTTCAGCGTCTAATCG CATAGAAGTATTTACCACGATTTTAACCACGATTGACAGGGAAAATATAAGAAAATAGAC CTAGATATGCGAGGTTTACCACAAAAGCAAAATGCCCGTAGAGCCGATAAAATAAGGCTT TGCGGACATTTAGGAAGATATAAAAAGATAGTCAAAAAGACATATATAATTTCTTTCAAA CCTTAAATACTTATAGTCATCTGTATCCAAACAAACAAGCCGAAGTCGCACAACAACTTG AAAATCTTATCAACGGAACAACAGTCCCAGATAGTAGCCAACTGGCAGATGTAGCCAATA AAAAGAAAAATCTCTGAAAAACCTTATCAAGGCTTTCCAGAGATGTAGTAACTATTCATA TTCAATGGATCTCTTTTTAAATTTACCAGGAAGTCTTTTGTAAATCCTTTACCTCTTTTG ATTCGTAATCATACTGGTACATATCTAAAATTTCAGCATCCATCATACTCCATGATCCAT CTGTACTTTTTATATTTTTATAATACACATATGTCAGCTATGGTTTTGCGTATAAGCTCT TCAAATTCAGTAATTTCTTCTTTTGGGACAACATCATACAGGGTTGGTGCCTGATGACTT AATTTTACTCCATTTTCATTTGCATCTTTAAGCAGATTCTTAACTTTTTCTCTTGAATTC TCCGGTACTTTCATGTACTTCCACATAAATGCTACCACATCAGATGGTGTGTCTTTTTTT AGTGGTGGTAACTGAATATAATCATTGTTTTCACTCATTTTCATATTCTCCTCACGATAT AATAAAATCAATAATACGTTCTCTTGTCATGTCCAGTACAGTATCTACGAACACTCCTGC AAAAAGGATCAGATACAGAATAACACTCAGCGAAAACAGGAATGCAACCTGTACCCAATC ATGGTAACAGTATGCAGTCGCTATGATCAATAAAGTGAATATAAACCCAAGGATTCCTCT GACAACCGCATAAGTCTGTACTGTCATTTTTACTGCCAAGCCGATCACAAAAAGGATCAG CCATACCGGCAGTAATAATATCTTCCCAACAAGTTTTAAAATAAACATGTGCACCTCCTA TCTTACCAGTCCTGGCATATCATGGTTCACCTCTGCCTGATAATACCCGTTCATCGTTGA CGGTGCATTAAACAAAGCTGCTAATAAATATTTCTTGATGTTCTTCACCTTTGTGGTGTT ACCACTCATACAGTGTAATACATACTCGATATGTGAATAGGTCAGCATCAGAAATTTTTT CTTCACCAGTGATGCCGGATACCAGTTGCTGGCAATCAAGATCTTGTCATTTTTACACAT CACAGTCTCTACGATCAGGTTCACGATTTCATCTACCTGCCGCATATCGTCATGATGGGT TACTTCCAGTGATTCATAATCAATGGTCTCTTTGACAAGGTTTTCATAAGCCTGATAATC CTCAGAGCGATTATCGCTATCAAATCTTTTCTCATCCACAGATATGATAGGATTAGATTT ATTATCATTCATTTCAGTATCACTAAGATTAGTATTATTAGGGTTTGAAATGTAAACTTC TTGAAGTTTGTTTTCGGGACTTCTAGAAGTTTGATTTTGGGACTTCATGAAGTTTGAATT GTAAACTTCTGCGGGTTCCTCATTTTCCACAGAAGTTTGTTTTTTAAACTTCTTTAATTC CTCTTCAAATTTTTTCTCATCTGTTTTCTCAGGCATAAAGGTTTTCACGTAGATGACGTT CACCTTTCCAAATCCCTGTCTGCGTTTCTCAATCAGGCCAATCCCTGTTTCGTCATCCAG TTCTCTCATGGATTTGATGGCTTTATTTCTGCCACAGTTCAGTAATTCCATAATATCTTC GATGGAAAAGTAGATATATGCTCTATTTTTGTCGTCAAACCACTGATTCTTGATGGAAAG AGACATTCGATCCAACATCAGTCCATATAAAATTTTAGCATCGCTTGATAAATCTTTAAA GTAACTGTCTGTAAATAATGCTTTTGGTATGCGGTAGAAGCTGAACTGATCAGCTTCAGT ACCGTAAAAATAATTAAATGTCATTTTTTTCTCCATATTTTCCTCCTTTCATTTTCTGCT AAGAAGTCCTCTTTTTAAACTTCTTTGACTTTGTTTTCTTAGCTTTTTCTATCCTTAACA GGACTGTTCCTGCATCCATTTTTCTAATAATGATTCAATCACCTGCTCCATATCTTTGGC TGTATAATCATCCGGAAAGTACTTTGTCAGTTTCTTTTCTGAGAAAGTAAGAGACCGGGA TACTTTCTTTGCCATCACACAGTTATTGAAAATTGATAACATCTGGATCTGATTGATTGG TCCATCATTCAGCTGATTTCTGAGTGCTGCAATCTGTTTTGGCTTGATAAATCCGGTGTC GCTGATATATTCGTAAATCCATTCCTGTACTTCCTTGTCGATATAGGAGATATCGACAGC AACCGTGAATTGAAGCTTTTTGTTATCTACCAGATCAAGAAGTTCCGGAATTAATTCTGT CAGTCGGATATACCGCTGAACACTTCGTGCACTTTCTCCAACCTGTTCTCCTAATAACTG ATCTGTTCTCGACTTCGTGCCACTTTGGCACAAAGTTAAATCTGTCCGACTCCCCTGTCT TTTCATTGCATCAAGTTTCATCTTATAAGCAAAGGCTTTCTCACTGGGCAACAGTTCCTC TCGCTGAATGTTAGCATCCACCATCGCCACAATGGCATCATCATCTGATAATTCTCTTAC GATTGCCGGAATAGTTGTGAGTCCTGCAAGCTGTGCTGCATGCATTCTTCTGTGACCGGA TACCATTTCATATTCTTCATTTTCATCCATGCGAAGCAGTACCGGAGTCAGCACTCCATT AATCTTTACGCTTTCTACCAAGTCCTGCATCTTTTCATCATCCAGCACCTTGAACGGATG ATTTTTAAATGGATGGATCTTACTGATCTCTATCTCCATTGCAGATTCTTCATTTACCAC ACCAAGCAATTCATCAATACTAGCCAGTTTAATCTTTTCGCCACTTCTATTTTTCATTAT TCAAAACCTCCTGTGTCAATTTCATATATGCCTCAGCAACTTTTCCTTTCGGACAGTGCA TGTAGATACTTTTTCCCTCTGCACTGGTCTCAGCTGCTTTTACGGACATCGGAATCACAT TTTCAAATACTTCTATCTGGCTTCCGTATGTTGTATGTACTCTCGATGCAATGTCCCTTG CGTAATTGGTTCTGAAATCTACCATAGTCAACAGAATGCCCTCTATCGCCAGTTTCCGGT TCAGTCTTTTCTTTACTGTAAGAATGGTCTTGATCAGCTGCTGAAGTCCTTTAACAGGCA GATATGCAGCCTGCACAGGTATCAGAACAGAATCAGAAGAGACCAGTGCATTGATCGTCA TCATACCAAGGCTCGGCATACAGTCGATCAGGATATAATCGTATCGGCATCTTATCGCAT CGATATATTCCTTCATGATCATTTCTCTGCTCATAACATTTCCCATCGTTACTTCCAATG CGGAAAGCTCAATATTTGCCGGAAGAAGATCTACATTTTCCTGGTGATGTAAGATCCCAT CTTCTAAAGAGATTTCTTCTTCGTTGATGACATCCATCATGATCGTTGCCAGTGTGATGC GAAGATCATCCGGTTCCTCATACCCAAGACTTGCTGTTAAACTTCCCTGTGGATCCGCGT CGATCAGCAACACTTTCTTTCCTTCTCTTGCCAGTCCAATACCTACATTTACGGTTGTGG TGGTCTTGCCGACTCCACCTTTCTGGTTTACTACGGATATAACTTTACACATGATTTCTT CCTCCTTTAACTTTCCCATGATTCTTTTTTCCATAATTTTAGCAGTGCCAGTATTTCCCG TTTCATCATTGCCGGTGTATAAGAATTTGGAAAATACTTGTGTAGCTGCTCATTGGTAAA TGCTACTCTGGTGATCTCACCTTTTTTAACTTCACACATGATTTCTTCCATCTTTTCCAG CGATAACTGTTTTTCTTTACTCAGCTGCTTTATCCGCTGAGCCTGTGAGAGTGACGGAAT CGCCTGTGCATAATCCATTGCTTTAAGCAGTTCTCTTTGTTCATTTTCTTTCAATGCAGC AATCTCTACTGCCGGACAAAAAGAAATAATCTCATCATCCAGTTTCTGCAACATTTCCGG TATAAGCTTTGTCAGTGATATATAACGCTGCACTTGTTTTGGGCTATCACCACAATCCTC ACTGATAATATCTATCGATCGTTTTCTTGGTGTTTTGTGGTCAACTTGGCTCTTTTTTCG ACCACTTTTTCTTTTTAGTACGTCATTCTTCAGTTTGTAAGCAAAAGCTTTTTCGCTGTA GCTGATCCGTTCTCTGTGAAGATTAGAATCCACCATACTTAAAATGGAATCATCTTCACT TAATACCCGGATAATCACTGGTACTTTACGATATCCCAGTTTCTCCGCAGCATGTTTTCT TCTGTGGCCGGATATGATCTCATAGTAACCATCCGGTACTGGTCTGACGATCAGCGGATT TAAAATGCCATACTTCTCAATGCTTTCCTGCAGAAGAAACATTTCCTTATCATCTTTTAC TTGAAATGGATGTTCCTTAAAAGGGCGAAGACGCTCAATCTCAATTTCTATGATTCTTTC TTCTTTTTCTCCTGATTGTCTGTTTGGCTCAGTCATCTTGACTCCTTTCCTCCAGGATTC AGGAACTAAAAAATGCCTGCCTGGAACTTTTATAGATAGTAAAGTTCCAAACAGACATTG CTGTTTGACCAT
Region Details
| Region | 2 |
| Region Length | 19.3Kb |
| Completeness(score) | incomplete(10) |
| Specific Keyword | NA |
| Region Position | 714923-734254 |
| # tRNA | 0 |
| # Total Proteins | 9 |
| # Phage Hit Proteins | 5 |
| # Hypothetical Proteins | 2 |
| Phage + Hypothetical Protein % | 77.7% |
| # Bacterial Proteins | 2 |
| Attachment Site | yes |
| # Phage Species | 5 |
| Most Common Phage Name(hit genes count) | PHAGE_Gordon_Schwabeltier_NC_031255(1) PHAGE_Strept_phiARI0746_NC_031907(1) PHAGE_Gordon_Bowser_NC_030930(1) PHAGE_Lactob_jlb1_NC_024206(1) PHAGE_Strept_315.4_NC_004587(1) PHAGE_Strept_9874_NC_031023(1) PHAGE_Bacill_1_NC_009737(1) PHAGE_Thermu_OH2_NC_021784(1) PHAGE_Natria_PhiCh1_NC_004084(1) PHAGE_Gordon_Nyceirae_NC_031004(1) PHAGE_Strept_9872_NC_031094(1) PHAGE_Entero_EF62phi_NC_017732(1) PHAGE_Halovi_HHTV_2_NC_021340(1) PHAGE_Brevib_Sundance_NC_028749(1) PHAGE_Mycoba_Adler_NC_023591(1) PHAGE_Lactob_LF1_NC_019486(1) PHAGE_Stenot_vB_SmaS_DLP_5_NC_042082(1) PHAGE_Strept_7201_NC_002185(1) PHAGE_Bacill_phBC6A52_NC_004821(1) PHAGE_Geobac_GBSV1_NC_008376(1) |
| First Most Common Phage # | 1 |
| First Most Common Phage % | 11.11% |
| GC % | 38.42% |
| 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|QUCW01000001.1| Roseburia sp. AM16-25 AM16-25.Scaf1, whole genome shotgun 762199, gc%: 44.03%
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 13 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | 248235..248246 | attL | 0.0 | Showinfo_outline |
| 2 | complement(248533..250521) | PHAGE_Lactob_phiPYB5_NC_027982: putative integrase; DW183_01200; phage(gi937456185) | 6.43e-36 | Showinfo_outline |
| 3 | complement(250577..251584) | cell filamentation protein Fic; DW183_01205 | 0.0 | Showinfo_outline |
| 4 | complement(251857..253125) | recombinase; DW183_01210 | 0.0 | Showinfo_outline |
| 5 | complement(253475..254848) | PHAGE_Strept_315.6_NC_004589: putative DNA primase/helicase; DW183_01215; phage(gi28876472) | 1.80e-23 | Showinfo_outline |
| 6 | complement(254823..255440) | PHAGE_Helico_KHP30_NC_019928: putative primase; DW183_01220; phage(gi431810549) | 3.79e-08 | Showinfo_outline |
| 7 | 255672..255881 | PROPHAGE_Clostr_E88: putative transposase; DW183_01225; phage(gi28211552) | 1.20e-10 | Showinfo_outline |
| 8 | 255881..256708 | PHAGE_Lactob_iLp84_NC_028783: repressor; DW183_01230; phage(gi971743094) | 1.31e-05 | Showinfo_outline |
| 9 | 256689..257330 | PHAGE_Bacill_phiNIT1_NC_021856: putative sigma factor; DW183_01235; phage(gi526118575) | 6.41e-09 | Showinfo_outline |
| 10 | 257357..258028 | DNA-binding response regulator; DW183_01240 | 0.0 | Showinfo_outline |
| 11 | 258025..259038 | sensor histidine kinase; DW183_01245 | 0.0 | Showinfo_outline |
| 12 | 259140..259907 | PHAGE_Plankt_PaV_LD_NC_016564: ABC transporter; DW183_01250; phage(gi371496158) | 2.94e-44 | Showinfo_outline |
| 13 | 271543..271554 | attR | 0.0 | Showinfo_outline |
Sequence
>248235..248246
TGCCTTAGACAT
Sequence
>complement(248533..250521)
RoseburiaspAM1625MKEKTKVYIYTRVSTAVQVDGYSLDAQKSRMKAYAEFNDFEIVGEYEDAGKSGKSIEGRLEFNRMMEDIKSGKDGVSYVLVFKLSRFGRNAADVLSTLQVMQDFDVNLICVEDGIDSSKDAGKLMISVLSAVAEIERENIRVQTMEGRIQKAREGKWNGGFAPYGYKLEKGMLYINEEEAEAIRIIFDQYVHTDIGANGLAKYLANHGINKIQRQNGKNPLFDAALIRRILKNPVYCGKIAYGRRRTEKVHGTRNDYRLVEQENYLLVDGLHEAIVSEGLWHEAQVKLLAQAKKYEKVNNGKDNKVHLLTGLLKCPICGAGMYGNKSIKHKPDGTKYKDFFYYGCKHRTMTRGHKCEYKKQINEELLDGAVAEVIIKLVSNPKFAAMMQQKINMKIDTSAIEQEIANYEKQLRQSYATKSRLIDEIDTLDPDDKHYIKRKADLDDRLYKMYDKIEDTENLLIEARAKKMAIEAEKLTADNIYKVLIYFEKLYAVMDEQEKRQIMESLISEIHIYEERQPNGQWLKSIKFKLPIIEEDMEMSLDSDTHVETVVLLSHKKPDGHINVKVEFGEGEGKVPLDNIAKRAEEYKPKERVTYKMIKEYIEAKYGFKVHTAYIAEVKRDLGLPMYDAPNAVEELKQPRKHPTAEKVEAIKDALKHFEVI
Sequence
>complement(250577..251584)
RoseburiaspAM1625MNNYDDMNQKSNMIIYTTEDGLTKIETTFDEDTVWLSIDQMAELFQRDKSTISRHIKNVFSEGELQRESVVANFATTAADGKTYQVDYYNLDVIISVGYRVKSKRGTQFRIWATNILKEYMKKGFALDDERLKNLGGGGYFKELLERIRDIRASEKVFYRQVLEIYATSIDYDPKAEISIRFFKKVQNKIHYAIHGQTAAEVIYTRADAEKEFMGLTTFAGNQPTLKEAIVAKNYLNEKELRAMGQLVSGYLDFAERQAEREQAMTMQDWAEHLDRILTMSGEQLLIGNGSITHKQAVDKATGEYRKYKTRTLSDVENDYLNSIKMLEQKTDGKK
Sequence
>complement(251857..253125)
RoseburiaspAM1625MARNDGVDRTCARNMDVTDNDIGDAQAHNEREKEIYSNEDIIPERSSLNVHFKEPTGSYAEMFEQMKADNIISTRGLKADAVHFNEMVFDVNSAYFDNHGGYEYARQFYEEAYKSAVEIVGGEQYILSAVMHADEINRAMSEALGKDVFHYHLHVVYVPVVEKQILWSKRCKDEALRGTVKETIMQVSRSKKWLSKPAVDKDGKPILQVNGKPVLRKSYSVLQDDFFQHMRAAGYTDVERGERDSTEEHLTVTQFKVAKEKQRLEAVTAELNQKEAQLDDTTQAAEKKKQELKSLQAQTKAATGIAVTVQELESMGKKSFTGNIVLTPDECRTLKNYAVSSFAEKAEKLKYQQKYETAKKDAGVWKKRYEKLLEQAQPYLDAVKLAPERVRAFLNAVLTRGKEKQDIPQERGRKRKESTIDR
Sequence
>complement(253475..254848)
RoseburiaspAM1625MSENRKLLEMNVPMWFDGKSINEALFCEDFLRTRQIIFANGAFFTPDGRVTDDLPLRGEIFEELKYCAVNNIPRKISNIIEIMKLAAHVEDFPPEQDRIHLANGTLMLDGTFTEGKPDIVRNRLPVFYRPDTPKPVLWLSFLNGLLYPEDIPTLQEFIGYCLIPSNKGQRMMVIKGNGGEGKSQIGAVLGQMLGSSMKDGSIGKISENRFARADLEHILLCVDDDMRMEALRQTNYVKSIVTAQGKMDLERKGKQSYQGWMFARLLAFSNGDLQALYDRSDGFYRRQLVLTTKEKPAGRMDDPDLAQKMKAEVEGIFLWAFEGLQRLVANNFKFTESERTKTNRESVKRDNNNIFDFMESEGYIRLKADASISSKELYEIYRMWCEENSLPPLKSRSFSDSVVANLSRYNLEHTNKITNSAGRRVWGFMGIEAVARPNINGFYDVSPCTYVPEEWRD
Sequence
>complement(254823..255440)
RoseburiaspAM1625MNIFETVKAAVTVRQAAEHYGLKINRSGMICCPFHDDRHPSLKLNEDYFYCFGCGAKGDVIDFVARLLDLSAYEAAQRLAADFGLDRPPSVVAQVKKYRPRVNQSKQDELFCMNVLSGYLHLLEDWKERYAPEAPEDEPDERFVEACHKLEYVEYLNDLLLMSDQEERTDTVKELLTDGTIARMQTRLDEQKKEVRCHVREQEIA
Sequence
>255672..255881
RoseburiaspAM1625MKYLSTFEVAEKWGISPRRVGILCNNDRIPGAQRAGSRWIIPEDAEKPTDARIKSGKYIKQKTDRGEEA
Sequence
>255881..256708
RoseburiaspAM1625MADTYLPADVRKRIVDVMRERKMTQRELALRIDVNESTISRFLSGKTEKLSEESVIRIARVFNVSTDFILGTTVIPDKKNYDISELGLSVEAAKNLYTGKVNNDVVNRLLENPRFAMVTYMIAQYMDDTLARGYAAQNQMFATVGSLLLGQNQAPEAVQAARTANAMKIPAYQADQTTIQNTFMTVVKEIKKEAGSDLVAAKAISKEATEKMFAELTKGQDMQNPTITPEAVVDAITGSISGVDGVNQEALDNFNKALLGLMQTMVLPEDDGQDN
Sequence
>256689..257330
RoseburiaspAM1625MMDKITNEQLCIAAQSGDKWAENALVENNLRFIRKTAYEIWSAQRELNVALGIELNDLVQEGSLGLLGCISSFQPDYGNKFLTYAAPAIHNAMLDYIRRLNPTFEAKNLDCIIRLDEVKKGENKGQHEFIADSRVQNPEQIFIAKETHEEIHTALEMIDEREKAYLWYRFGFEDDVLHPLSETAKHFHLSESRAKSTEKLALDNFWLELPWWY
Sequence
>257357..258028
RoseburiaspAM1625MEKYKILIIEDDPIIQTELQVLLNGNGYEASAVTDFTSVMQAVKNTHPYLILLDIKLPQESGYSICSQIRSFSNVPIIFVTSCNTDMDELNSILLGGDAFITKPYNTAILLAKISSLMKRAYPIEQIERLNWQGAILHLESSTIEYDGNQAELTKNELKILYYLFKHAGKICSRNDIVDYLWDNQLYVDDNALSVNINRIREKLAGIGLTDFIKTKHRQGYTI
Sequence
>258025..259038
RoseburiaspAM1625MNSKRYWKNRLPFLLTNLVCMAALTVFLLVCGNSASAVVLILIVWALILLMGLVLTYWKRKRQMKKLLDMAKQLSERYLISEVMELPEQAEDQVYYQILKMAGKSMLEQIGEVERERLEYKEYIEQWIHEIKTPITAMKLLCENHRTNWTKELLLELEKTNRFTEQALYYARSEHTEKDYSVREMALSQVVHQAIADNKYLLLQSGMRLEVEEMQDTVYSDEKWVRFILNQLIVNAVKYRTKQPVLRISTHKWQDLVVLVVEDNGIGIAASDLPRIFEKGFTGQNGRLIQQSTGIGLYLCKRLCEKLGIGITAESSEHGTAISLSFHINCLIHEVQN
Sequence
>259140..259907
RoseburiaspAM1625MKEILKLDHIQKYYGNGGNVTKAIQDISFSVQEGEFVGIMGASGSGKTTLLNCISTIDTVSAGHIYLDGTDVTEINEKQIARFRRENLGFVFQDFNLLDTLTISENIALALTINKVPAGEIDGRVREMAGKLNITDILDKYPYQVSGGQKQRCACARAIINQPKLILADEPTGALDSHSSQMLLSTIQSINEDLGATILMVTHDAFSASYANRILFMRDGAIFTEIRKGGDSRRTFFEKILDVLTMMGGGMSDVR
Sequence
>271543..271554
TGCCTTAGACAT
Region 2, total 11 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | 714923..714935 | attL | 0.0 | Showinfo_outline |
| 2 | 727972..728175 | excisionase; DW183_03640 | 0.0 | Showinfo_outline |
| 3 | 728254..729447 | PHAGE_Strept_phiARI0746_NC_031907: sliding clamp DNA polymerase; DW183_03645; phage(gi100042) | 3.51e-17 | Showinfo_outline |
| 4 | complement(729454..729615) | cobalamin-binding domain-containing protein; DW183_03650 | 0.0 | Showinfo_outline |
| 5 | complement(729952..730206) | hypothetical protein; DW183_03655 | 0.0 | Showinfo_outline |
| 6 | complement(730214..730510) | hypothetical protein; DW183_03660 | 0.0 | Showinfo_outline |
| 7 | complement(730520..731518) | PHAGE_Strept_9872_NC_031094: hypothetical protein; DW183_03665; phage(gi100030) | 5.11e-21 | Showinfo_outline |
| 8 | complement(731597..732499) | PHAGE_Gordon_Bowser_NC_030930: hypothetical protein; DW183_03670; phage(gi100051) | 5.42e-08 | Showinfo_outline |
| 9 | complement(732489..733274) | PHAGE_Natria_PhiCh1_NC_004084: putative plasmid partitioning protein Soj; DW183_03675; phage(gi22091150) | 7.25e-33 | Showinfo_outline |
| 10 | 733280..733292 | attR | 0.0 | Showinfo_outline |
| 11 | complement(733289..734254) | PHAGE_Gordon_Nyceirae_NC_031004: late promoter transcription; DW183_03680; phage(gi100046) | 1.01e-09 | Showinfo_outline |
Sequence
>714923..714935
CTTCCTCCTTTAA
Sequence
>727972..728175
RoseburiaspAM1625MNNNDIPVWEKYTLTIEEASKYFRIGENKLRRLAEENKDAGWLIMNGNRIQIKRRQFEQVIDKLDAI
Sequence
>728254..729447
RoseburiaspAM1625MKEKRRDNKGRILHTGESQRTDGKYLYKYVDAFGNTKYVYAWRLTPTDPTPKGKREKPSLRELEQQIRRDIEDGIDSTGKKMTLCQLYAKQNAQRANVKKSTQKQREQLMRLLKEDKLGARSIDTIKPSDAKEWALRMKDKGFSYNTINNHKRSLKASFYIAIQDDCVRKNPFDFKLSEVLENDTKEKVALTEEQEQALLSFIKTDNVYHKHYDDVLILLKTGLRISELCGLTVADIDFKNEVVIIDHQLLKSKEQGYYIETPKTKSGIRQVPLSRETIQAFQRVMKKRPKAEPFVIDGQSNFLFVNHKGKPKVAIDYNALFVRMVKKYNKHHKDNPLPHITPHTLRHTFCTRLASKNMNPKDLQYIMGHSNISITMNWYAHASIDTAKSEVQRLIA
Sequence
>complement(729454..729615)
RoseburiaspAM1625EIIYVFLTIFLYLPKCPQSLILSALRAFCFCGKPRISRSIFLYFPCQSWLKSW
Sequence
>complement(729952..730206)
RoseburiaspAM1625MKMSENNDYIQLPPLKKDTPSDVVAFMWKYMKVPENSREKVKNLLKDANENGVKLSHQAPTLYDVVPKEEITEFEELIRKTIADI
Sequence
>complement(730214..730510)
RoseburiaspAM1625MFILKLVGKILLLPVWLILFVIGLAVKMTVQTYAVVRGILGFIFTLLIIATAYCYHDWVQVAFLFSLSVILYLILFAGVFVDTVLDMTRERIIDFIIS
Sequence
>complement(730520..731518)
RoseburiaspAM1625MEKKMTFNYFYGTEADQFSFYRIPKALFTDSYFKDLSSDAKILYGLMLDRMSLSIKNQWFDDKNRAYIYFSIEDIMELLNCGRNKAIKSMRELDDETGIGLIEKRRQGFGKVNVIYVKTFMPEKTDEKKFEEELKKFKKQTSVENEEPAEVYNSNFMKSQNQTSRSPENKLQEVYISNPNNTNLSDTEMNDNKSNPIISVDEKRFDSDNRSEDYQAYENLVKETIDYESLEVTHHDDMRQVDEIVNLIVETVMCKNDKILIASNWYPASLVKKKFLMLTYSHIEYVLHCMSGNTTKVKNIKKYLLAALFNAPSTMNGYYQAEVNHDMPGLVR
Sequence
>complement(731597..732499)
RoseburiaspAM1625MKNRSGEKIKLASIDELLGVVNEESAMEIEISKIHPFKNHPFKVLDDEKMQDLVESVKINGVLTPVLLRMDENEEYEMVSGHRRMHAAQLAGLTTIPAIVRELSDDDAIVAMVDANIQREELLPSEKAFAYKMKLDAMKRQGSRTDLTLCQSGTKSRTDQLLGEQVGESARSVQRYIRLTELIPELLDLVDNKKLQFTVAVDISYIDKEVQEWIYEYISDTGFIKPKQIAALRNQLNDGPINQIQMLSIFNNCVMAKKVSRSLTFSEKKLTKYFPDDYTAKDMEQVIESLLEKWMQEQSC
Sequence
>complement(732489..733274)
RoseburiaspAM1625MCKVISVVNQKGGVGKTTTTVNVGIGLAREGKKVLLIDADPQGSLTASLGYEEPDDLRITLATIMMDVINEEEISLEDGILHHQENVDLLPANIELSALEVTMGNVMSREMIMKEYIDAIRCRYDYILIDCMPSLGMMTINALVSSDSVLIPVQAAYLPVKGLQQLIKTILTVKKRLNRKLAIEGILLTMVDFRTNYARDIASRVHTTYGSQIEVFENVIPMSVKAAETSAEGKSIYMHCPKGKVAEAYMKLTQEVLNNEK
Sequence
>733280..733292
CTTCCTCCTTTAA
Sequence
>complement(733289..734254)
RoseburiaspAM1625MVKQQCLFGTLLSIKVPGRHFLVPESWRKGVKMTEPNRQSGEKEERIIEIEIERLRPFKEHPFQVKDDKEMFLLQESIEKYGILNPLIVRPVPDGYYEIISGHRRKHAAEKLGYRKVPVIIRVLSEDDSILSMVDSNLHRERISYSEKAFAYKLKNDVLKRKSGRKKSQVDHKTPRKRSIDIISEDCGDSPKQVQRYISLTKLIPEMLQKLDDEIISFCPAVEIAALKENEQRELLKAMDYAQAIPSLSQAQRIKQLSKEKQLSLEKMEEIMCEVKKGEITRVAFTNEQLHKYFPNSYTPAMMKREILALLKLWKKESWES
Roseburia sp. AM16-25 AM16-25
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: 762199 bps
Phages: 2
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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.
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Click on a sequence to see details.
Locus 1: attL (Region 1)
Locus: attLORF Start: 248235
ORF Stop: 248246
Strand: Forward
Protein Sequence: TGCCTTAGACAT
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 2: DW183_01200 (Region 1)
Locus: DW183_01200ORF Start: 248533
ORF Stop: 250521
Strand: Backward
Protein Sequence: MKEKTKVYIYTRVSTAVQVDGYSLDAQKSRMKAYAEFNDFEIVGEYEDAGKSGKSIEGRLEFNRMMEDIKSGKDGVSYVLVFKLSRFGRNAADVLSTLQVMQDFDVNLICVEDGIDSSKDAGKLMISVLSAVAEIERENIRVQTMEGRIQKAREGKWNGGFAPYGYKLEKGMLYINEEEAEAIRIIFDQYVHTDIGANGLAKYLANHGINKIQRQNGKNPLFDAALIRRILKNPVYCGKIAYGRRRTEKVHGTRNDYRLVEQENYLLVDGLHEAIVSEGLWHEAQVKLLAQAKKYEKVNNGKDNKVHLLTGLLKCPICGAGMYGNKSIKHKPDGTKYKDFFYYGCKHRTMTRGHKCEYKKQINEELLDGAVAEVIIKLVSNPKFAAMMQQKINMKIDTSAIEQEIANYEKQLRQSYATKSRLIDEIDTLDPDDKHYIKRKADLDDRLYKMYDKIEDTENLLIEARAKKMAIEAEKLTADNIYKVLIYFEKLYAVMDEQEKRQIMESLISEIHIYEERQPNGQWLKSIKFKLPIIEEDMEMSLDSDTHVETVVLLSHKKPDGHINVKVEFGEGEGKVPLDNIAKRAEEYKPKERVTYKMIKEYIEAKYGFKVHTAYIAEVKRDLGLPMYDAPNAVEELKQPRKHPTAEKVEAIKDALKHFEVI
Homolog/Ortholog Species: Integrase
Homolog/Ortholog Protein: DW183_01200, putative integrase, phage(gi937456185), PHAGE_Lactob_phiPYB5_NC_027982
Homolog/Ortholog E-Value: 6.43e-36
Locus 3: DW183_01205 (Region 1)
Locus: DW183_01205ORF Start: 250577
ORF Stop: 251584
Strand: Backward
Protein Sequence: MNNYDDMNQKSNMIIYTTEDGLTKIETTFDEDTVWLSIDQMAELFQRDKSTISRHIKNVFSEGELQRESVVANFATTAADGKTYQVDYYNLDVIISVGYRVKSKRGTQFRIWATNILKEYMKKGFALDDERLKNLGGGGYFKELLERIRDIRASEKVFYRQVLEIYATSIDYDPKAEISIRFFKKVQNKIHYAIHGQTAAEVIYTRADAEKEFMGLTTFAGNQPTLKEAIVAKNYLNEKELRAMGQLVSGYLDFAERQAEREQAMTMQDWAEHLDRILTMSGEQLLIGNGSITHKQAVDKATGEYRKYKTRTLSDVENDYLNSIKMLEQKTDGKK
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: DW183_01205, cell filamentation protein Fic
Homolog/Ortholog E-Value: N/A
Locus 4: DW183_01210 (Region 1)
Locus: DW183_01210ORF Start: 251857
ORF Stop: 253125
Strand: Backward
Protein Sequence: MARNDGVDRTCARNMDVTDNDIGDAQAHNEREKEIYSNEDIIPERSSLNVHFKEPTGSYAEMFEQMKADNIISTRGLKADAVHFNEMVFDVNSAYFDNHGGYEYARQFYEEAYKSAVEIVGGEQYILSAVMHADEINRAMSEALGKDVFHYHLHVVYVPVVEKQILWSKRCKDEALRGTVKETIMQVSRSKKWLSKPAVDKDGKPILQVNGKPVLRKSYSVLQDDFFQHMRAAGYTDVERGERDSTEEHLTVTQFKVAKEKQRLEAVTAELNQKEAQLDDTTQAAEKKKQELKSLQAQTKAATGIAVTVQELESMGKKSFTGNIVLTPDECRTLKNYAVSSFAEKAEKLKYQQKYETAKKDAGVWKKRYEKLLEQAQPYLDAVKLAPERVRAFLNAVLTRGKEKQDIPQERGRKRKESTIDR
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: DW183_01210, recombinase
Homolog/Ortholog E-Value: N/A
Locus 5: DW183_01215 (Region 1)
Locus: DW183_01215ORF Start: 253475
ORF Stop: 254848
Strand: Backward
Protein Sequence: MSENRKLLEMNVPMWFDGKSINEALFCEDFLRTRQIIFANGAFFTPDGRVTDDLPLRGEIFEELKYCAVNNIPRKISNIIEIMKLAAHVEDFPPEQDRIHLANGTLMLDGTFTEGKPDIVRNRLPVFYRPDTPKPVLWLSFLNGLLYPEDIPTLQEFIGYCLIPSNKGQRMMVIKGNGGEGKSQIGAVLGQMLGSSMKDGSIGKISENRFARADLEHILLCVDDDMRMEALRQTNYVKSIVTAQGKMDLERKGKQSYQGWMFARLLAFSNGDLQALYDRSDGFYRRQLVLTTKEKPAGRMDDPDLAQKMKAEVEGIFLWAFEGLQRLVANNFKFTESERTKTNRESVKRDNNNIFDFMESEGYIRLKADASISSKELYEIYRMWCEENSLPPLKSRSFSDSVVANLSRYNLEHTNKITNSAGRRVWGFMGIEAVARPNINGFYDVSPCTYVPEEWRD
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: DW183_01215, putative DNA primase/helicase, phage(gi28876472), PHAGE_Strept_315.6_NC_004589
Homolog/Ortholog E-Value: 1.80e-23
Locus 6: DW183_01220 (Region 1)
Locus: DW183_01220ORF Start: 254823
ORF Stop: 255440
Strand: Backward
Protein Sequence: MNIFETVKAAVTVRQAAEHYGLKINRSGMICCPFHDDRHPSLKLNEDYFYCFGCGAKGDVIDFVARLLDLSAYEAAQRLAADFGLDRPPSVVAQVKKYRPRVNQSKQDELFCMNVLSGYLHLLEDWKERYAPEAPEDEPDERFVEACHKLEYVEYLNDLLLMSDQEERTDTVKELLTDGTIARMQTRLDEQKKEVRCHVREQEIA
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: DW183_01220, putative primase, phage(gi431810549), PHAGE_Helico_KHP30_NC_019928
Homolog/Ortholog E-Value: 3.79e-08
Locus 7: DW183_01225 (Region 1)
Locus: DW183_01225ORF Start: 255672
ORF Stop: 255881
Strand: Forward
Protein Sequence: MKYLSTFEVAEKWGISPRRVGILCNNDRIPGAQRAGSRWIIPEDAEKPTDARIKSGKYIKQKTDRGEEA
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: DW183_01225, putative transposase, phage(gi28211552), PROPHAGE_Clostr_E88
Homolog/Ortholog E-Value: 1.20e-10
Locus 8: DW183_01230 (Region 1)
Locus: DW183_01230ORF Start: 255881
ORF Stop: 256708
Strand: Forward
Protein Sequence: MADTYLPADVRKRIVDVMRERKMTQRELALRIDVNESTISRFLSGKTEKLSEESVIRIARVFNVSTDFILGTTVIPDKKNYDISELGLSVEAAKNLYTGKVNNDVVNRLLENPRFAMVTYMIAQYMDDTLARGYAAQNQMFATVGSLLLGQNQAPEAVQAARTANAMKIPAYQADQTTIQNTFMTVVKEIKKEAGSDLVAAKAISKEATEKMFAELTKGQDMQNPTITPEAVVDAITGSISGVDGVNQEALDNFNKALLGLMQTMVLPEDDGQDN
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: DW183_01230, repressor, phage(gi971743094), PHAGE_Lactob_iLp84_NC_028783
Homolog/Ortholog E-Value: 1.31e-05
Locus 9: DW183_01235 (Region 1)
Locus: DW183_01235ORF Start: 256689
ORF Stop: 257330
Strand: Forward
Protein Sequence: MMDKITNEQLCIAAQSGDKWAENALVENNLRFIRKTAYEIWSAQRELNVALGIELNDLVQEGSLGLLGCISSFQPDYGNKFLTYAAPAIHNAMLDYIRRLNPTFEAKNLDCIIRLDEVKKGENKGQHEFIADSRVQNPEQIFIAKETHEEIHTALEMIDEREKAYLWYRFGFEDDVLHPLSETAKHFHLSESRAKSTEKLALDNFWLELPWWY
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: DW183_01235, putative sigma factor, phage(gi526118575), PHAGE_Bacill_phiNIT1_NC_021856
Homolog/Ortholog E-Value: 6.41e-09
Locus 10: DW183_01240 (Region 1)
Locus: DW183_01240ORF Start: 257357
ORF Stop: 258028
Strand: Forward
Protein Sequence: MEKYKILIIEDDPIIQTELQVLLNGNGYEASAVTDFTSVMQAVKNTHPYLILLDIKLPQESGYSICSQIRSFSNVPIIFVTSCNTDMDELNSILLGGDAFITKPYNTAILLAKISSLMKRAYPIEQIERLNWQGAILHLESSTIEYDGNQAELTKNELKILYYLFKHAGKICSRNDIVDYLWDNQLYVDDNALSVNINRIREKLAGIGLTDFIKTKHRQGYTI
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: DW183_01240, DNA-binding response regulator
Homolog/Ortholog E-Value: N/A
Locus 11: DW183_01245 (Region 1)
Locus: DW183_01245ORF Start: 258025
ORF Stop: 259038
Strand: Forward
Protein Sequence: MNSKRYWKNRLPFLLTNLVCMAALTVFLLVCGNSASAVVLILIVWALILLMGLVLTYWKRKRQMKKLLDMAKQLSERYLISEVMELPEQAEDQVYYQILKMAGKSMLEQIGEVERERLEYKEYIEQWIHEIKTPITAMKLLCENHRTNWTKELLLELEKTNRFTEQALYYARSEHTEKDYSVREMALSQVVHQAIADNKYLLLQSGMRLEVEEMQDTVYSDEKWVRFILNQLIVNAVKYRTKQPVLRISTHKWQDLVVLVVEDNGIGIAASDLPRIFEKGFTGQNGRLIQQSTGIGLYLCKRLCEKLGIGITAESSEHGTAISLSFHINCLIHEVQN
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: DW183_01245, sensor histidine kinase
Homolog/Ortholog E-Value: N/A
Locus 12: DW183_01250 (Region 1)
Locus: DW183_01250ORF Start: 259140
ORF Stop: 259907
Strand: Forward
Protein Sequence: MKEILKLDHIQKYYGNGGNVTKAIQDISFSVQEGEFVGIMGASGSGKTTLLNCISTIDTVSAGHIYLDGTDVTEINEKQIARFRRENLGFVFQDFNLLDTLTISENIALALTINKVPAGEIDGRVREMAGKLNITDILDKYPYQVSGGQKQRCACARAIINQPKLILADEPTGALDSHSSQMLLSTIQSINEDLGATILMVTHDAFSASYANRILFMRDGAIFTEIRKGGDSRRTFFEKILDVLTMMGGGMSDVR
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: DW183_01250, ABC transporter, phage(gi371496158), PHAGE_Plankt_PaV_LD_NC_016564
Homolog/Ortholog E-Value: 2.94e-44
Locus 13: attR (Region 1)
Locus: attRORF Start: 271543
ORF Stop: 271554
Strand: Forward
Protein Sequence: TGCCTTAGACAT
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attR
Homolog/Ortholog E-Value: N/A
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Locus 1: attL (Region 2)
Locus: attLORF Start: 714923
ORF Stop: 714935
Strand: Forward
Protein Sequence: CTTCCTCCTTTAA
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 2: DW183_03640 (Region 2)
Locus: DW183_03640ORF Start: 727972
ORF Stop: 728175
Strand: Forward
Protein Sequence: MNNNDIPVWEKYTLTIEEASKYFRIGENKLRRLAEENKDAGWLIMNGNRIQIKRRQFEQVIDKLDAI
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: DW183_03640, excisionase
Homolog/Ortholog E-Value: N/A
Locus 3: DW183_03645 (Region 2)
Locus: DW183_03645ORF Start: 728254
ORF Stop: 729447
Strand: Forward
Protein Sequence: MKEKRRDNKGRILHTGESQRTDGKYLYKYVDAFGNTKYVYAWRLTPTDPTPKGKREKPSLRELEQQIRRDIEDGIDSTGKKMTLCQLYAKQNAQRANVKKSTQKQREQLMRLLKEDKLGARSIDTIKPSDAKEWALRMKDKGFSYNTINNHKRSLKASFYIAIQDDCVRKNPFDFKLSEVLENDTKEKVALTEEQEQALLSFIKTDNVYHKHYDDVLILLKTGLRISELCGLTVADIDFKNEVVIIDHQLLKSKEQGYYIETPKTKSGIRQVPLSRETIQAFQRVMKKRPKAEPFVIDGQSNFLFVNHKGKPKVAIDYNALFVRMVKKYNKHHKDNPLPHITPHTLRHTFCTRLASKNMNPKDLQYIMGHSNISITMNWYAHASIDTAKSEVQRLIA
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: DW183_03645, sliding clamp DNA polymerase, phage(gi100042), PHAGE_Strept_phiARI0746_NC_031907
Homolog/Ortholog E-Value: 3.51e-17
Locus 4: DW183_03650 (Region 2)
Locus: DW183_03650ORF Start: 729454
ORF Stop: 729615
Strand: Backward
Protein Sequence: EIIYVFLTIFLYLPKCPQSLILSALRAFCFCGKPRISRSIFLYFPCQSWLKSW
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: DW183_03650, cobalamin-binding domain-containing protein
Homolog/Ortholog E-Value: N/A
Locus 5: DW183_03655 (Region 2)
Locus: DW183_03655ORF Start: 729952
ORF Stop: 730206
Strand: Backward
Protein Sequence: MKMSENNDYIQLPPLKKDTPSDVVAFMWKYMKVPENSREKVKNLLKDANENGVKLSHQAPTLYDVVPKEEITEFEELIRKTIADI
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: DW183_03655, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 6: DW183_03660 (Region 2)
Locus: DW183_03660ORF Start: 730214
ORF Stop: 730510
Strand: Backward
Protein Sequence: MFILKLVGKILLLPVWLILFVIGLAVKMTVQTYAVVRGILGFIFTLLIIATAYCYHDWVQVAFLFSLSVILYLILFAGVFVDTVLDMTRERIIDFIIS
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: DW183_03660, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 7: DW183_03665 (Region 2)
Locus: DW183_03665ORF Start: 730520
ORF Stop: 731518
Strand: Backward
Protein Sequence: MEKKMTFNYFYGTEADQFSFYRIPKALFTDSYFKDLSSDAKILYGLMLDRMSLSIKNQWFDDKNRAYIYFSIEDIMELLNCGRNKAIKSMRELDDETGIGLIEKRRQGFGKVNVIYVKTFMPEKTDEKKFEEELKKFKKQTSVENEEPAEVYNSNFMKSQNQTSRSPENKLQEVYISNPNNTNLSDTEMNDNKSNPIISVDEKRFDSDNRSEDYQAYENLVKETIDYESLEVTHHDDMRQVDEIVNLIVETVMCKNDKILIASNWYPASLVKKKFLMLTYSHIEYVLHCMSGNTTKVKNIKKYLLAALFNAPSTMNGYYQAEVNHDMPGLVR
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: DW183_03665, hypothetical protein, phage(gi100030), PHAGE_Strept_9872_NC_031094
Homolog/Ortholog E-Value: 5.11e-21
Locus 8: DW183_03670 (Region 2)
Locus: DW183_03670ORF Start: 731597
ORF Stop: 732499
Strand: Backward
Protein Sequence: MKNRSGEKIKLASIDELLGVVNEESAMEIEISKIHPFKNHPFKVLDDEKMQDLVESVKINGVLTPVLLRMDENEEYEMVSGHRRMHAAQLAGLTTIPAIVRELSDDDAIVAMVDANIQREELLPSEKAFAYKMKLDAMKRQGSRTDLTLCQSGTKSRTDQLLGEQVGESARSVQRYIRLTELIPELLDLVDNKKLQFTVAVDISYIDKEVQEWIYEYISDTGFIKPKQIAALRNQLNDGPINQIQMLSIFNNCVMAKKVSRSLTFSEKKLTKYFPDDYTAKDMEQVIESLLEKWMQEQSC
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: DW183_03670, hypothetical protein, phage(gi100051), PHAGE_Gordon_Bowser_NC_030930
Homolog/Ortholog E-Value: 5.42e-08
Locus 9: DW183_03675 (Region 2)
Locus: DW183_03675ORF Start: 732489
ORF Stop: 733274
Strand: Backward
Protein Sequence: MCKVISVVNQKGGVGKTTTTVNVGIGLAREGKKVLLIDADPQGSLTASLGYEEPDDLRITLATIMMDVINEEEISLEDGILHHQENVDLLPANIELSALEVTMGNVMSREMIMKEYIDAIRCRYDYILIDCMPSLGMMTINALVSSDSVLIPVQAAYLPVKGLQQLIKTILTVKKRLNRKLAIEGILLTMVDFRTNYARDIASRVHTTYGSQIEVFENVIPMSVKAAETSAEGKSIYMHCPKGKVAEAYMKLTQEVLNNEK
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: DW183_03675, putative plasmid partitioning protein Soj, phage(gi22091150), PHAGE_Natria_PhiCh1_NC_004084
Homolog/Ortholog E-Value: 7.25e-33
Locus 10: attR (Region 2)
Locus: attRORF Start: 733280
ORF Stop: 733292
Strand: Forward
Protein Sequence: CTTCCTCCTTTAA
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attR
Homolog/Ortholog E-Value: N/A
Locus 11: DW183_03680 (Region 2)
Locus: DW183_03680ORF Start: 733289
ORF Stop: 734254
Strand: Backward
Protein Sequence: MVKQQCLFGTLLSIKVPGRHFLVPESWRKGVKMTEPNRQSGEKEERIIEIEIERLRPFKEHPFQVKDDKEMFLLQESIEKYGILNPLIVRPVPDGYYEIISGHRRKHAAEKLGYRKVPVIIRVLSEDDSILSMVDSNLHRERISYSEKAFAYKLKNDVLKRKSGRKKSQVDHKTPRKRSIDIISEDCGDSPKQVQRYISLTKLIPEMLQKLDDEIISFCPAVEIAALKENEQRELLKAMDYAQAIPSLSQAQRIKQLSKEKQLSLEKMEEIMCEVKKGEITRVAFTNEQLHKYFPNSYTPAMMKREILALLKLWKKESWES
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: DW183_03680, late promoter transcription, phage(gi100046), PHAGE_Gordon_Nyceirae_NC_031004
Homolog/Ortholog E-Value: 1.01e-09
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