Submission Results
Sequence Name: Not Available
GenBank Accession Number: SLUI01000006.1 open_in_new
GenInfo (GI) Number: 0000000000 open_in_new
Download Results: SLUI01000006.1.PHASTER.zip
gi|00000000|ref|SLUI01000006.1| Anaerospora hongkongensis strain DSM 15969 Ga0310510_106, whole 306653, gc%: 46.70%
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 | 27.5Kb | incomplete | 50 | 14 | 106181-133765 info_outline | PHAGE_Pseudo_nickie_NC_042091(3) | 52.09% | Show info_outline |
Region DNA
>1 106181-133765 ATTAACTTGCTTTCCCGCGTGTTCATGGTAACATGTGCACTGACGAAATGAACAAGGGAG GGCTTTATATGGAAAAGCACGATTTTCAGTTTCATATGCAGGTAACTGGTCGCGAGCGAA AAGAGGTGGCGGCTCTGATTGCCGCCCATTTTGGCACACAGGCGGTTTACCAAGGCACGC GAGGATTTGGGTATCTAATCACCGAGCCTAACGGCAGCGGACGCGAGTGGCTTGTTGACA AGGCTGGCGCAATTGTTACCGAAGGAGTAAAACTAGACAATGTGACCGAAGTGTTCGCGG TCTTGAAAGTTCTTGAAGAGAATGGGATAGAAGCGGAAGGGAGAGCGGCAGTAACGCTCT CGATTGATGGCCACTGGGGGAGGTCGCTGCAGAACCTTGTTAATATCCTTTCAGCCAAGG AACGGCTGATTGCTAAAACGATGGGCACTGGCCAACCCTTTATGATCCCTGAGATTGTGA AGAAAATTAACACCGTTCGTCTCAAAACGATTGAGGATTTTTTGGAAGTGTCAGGTAGCG AAGTCTCACCGGGTCTTGCGATTACTCAGGATAAGATCACCTTACGTTGGTTTGCTGCAA CGCTGAGTTCAGAGATCATTGCTGCCTATATTCAATTTGCCTTTGCAGTAAATGCCATGG CTATGATGCAAAGACATGCTACGCCAAATGAAAAAGAAACAGCCAATGAGAAATATACAT TCCGGGTCTGGCTGCTCCGGCTCGGTTTTATCGGTGAGGAGTACAGCTTTGCTCGAAGGT TGTTCCTTAGCCGATTGGAGGGCAACGGTTCTTTCCGAACGGAGGACCAGGTTCATGAGG CAGTGAAAAGGCGAAAGGCACATTTGGCTACTCCTGAAACCGTCGTCTGAATTACTTAAG ATAGGTATTGTAAGGGCTTGGAAACGGCTTTAAAAGAGTAAAACTGTGATAATTGACGTA AACGTGAATAATATTGATAAAACAAAAGAAAAACATGTAAAAATAGAATAATTGAGTTGA TTTCCTGTGTATTTGGAGGTAACATGACAGTGACCAAAAGCACAGGAGGTTAGCAGCATG AAAAACCAGTACTTCGGCATCGAAATTGAACTCACCGGAATCACTAGATACCAAGCAGCA ACAACCATCGCCGCCTATTTTGGTACAAGCCTCGGCCGCCAGAGCGCCTCATATGGAAGC TATAGGGTAGCTGACCGCCAAGGTCGCACCTGGCAAGTGGTTAAGGACGGCAGCGTTACG GCTCAAAAAAAGGTAAACGGCGCACGGACATCGGCAGGAGACGAATATAAAGTCGAGGTG GTATCACCTAAAAGCCGGTATGAAGATATCGAAGACATTCAGGAACTAATTAGAAGACTT CGCGAGGCAGGCGCGTTCACCAATAGTAGCTGCGGCATCCATATTCATGTCGATGCCGCC AACCATACCGCCAAAACGCTGCGTAACCTGGTCAACCTGATGGCTAGCAAAGAGGACATG CTCTATAAAGCCCTTGAAGTTGACGAGGCACGGATGAGAAGATTTTGCCAAAAGGTGAAT GGCAGCTTGATAGAAGATATTAACCGCACTAAACCTGCGACCATGGAAGCACTAAGAACA CTTTGGTATAAACCCTATAGCGGGGAAACCAACTATCATTATCACGCAAGCAGATATCAT GGCCTGAATTTCCACTCCGTCTTTACGAAAGGGACAGTGGAATTCAGGCTTTTTAATTCC ACCACTCACGCCGGGAAGATAAAAGCGTACATCCAGCTTTGCCTGGCGATCAGCCACCAG GCAATCGCACAAAAGAGCGCGTCGGCCAGAAAAACGGCTACTACGAACGAAAAGTTCACC TTTCGGACCTGGCTTCTACGCCTTGGCCTGATCGGCGACGAGTTCCAAACGGCTAGGCAG CACCTTTTAGCCAAGCTAGAGGGTAACAGTGCTTGGAGATACGCGGCGTCATAAGAAAAT AAGGCAGGGCGGCTTTGCCGCCCTGCCTCAATAAAGAGTGGAGGAATAATGATGACTAAA ATCTATTTGGCTTACGGTAGCAATTTGAATATTGAACAGATGGCAATGCGGTGCCCGACC GCGCGGGTATTGGGACCGGCGAAGCTCAGGGGATACAAAGCAACCTTTCGGGGGATGGAT GGCGGCGCAGTGATGAATATTGAACCGGACGCCGCTGGGATAGTGCCGGTGCTTCTCTGG GAGATTGAGTCCGCCGATGAGGTGGCGCTAGACCGCTACGAAGGCTTTCCCCGCCTTTAT CGTAAGGAAATCGTGACAGTCACCTTTAAGGGAGAGCGGGTCAAGGCGATGGTGTATATT ATGAACGAGGGGCCGCCGCTTGGTACGCCAGGTAATAAATATTACTATATCATCCAGCAA GGTTACCAGGAGGCCGGGTTTGATATCGGCATTCTCCACCGGGCGATCAAGGAATCGGCT TTCCCGGAACAAGAGCCGCGATACAAGCCGAATTTTAACTTTAGGTGGTGATAATAATGC GAGTAATGATGAATGACAGAGTATATAGCGGATCGCCGGAAGCGGTGGTCGATGAAATGT GGAACGAGTGCTTTCACCGGGACACGCTGAATCACATCGAGGAATACATCGCGTATGTGG TCGGTAACGTGTTCAAATTCGCTGGGTTCGGCATTGATATTAACGCCCGGACAATAGAAG AGAAAAGCCGGAGATTGCTGGATGGATTGGTGGCGGCAGGTATTGCTAGTAAAATAGAGA ATTAGAGAGAAAACGTGTGAAAAATAGAGATATTTATTGATTTCCTGTGCTTTCAGAGCT AACATGAACACAACAAAGCACAGGAAGGAGAAAAGAAAATGATACTAGGATACCCCCGCA AACTGGTTTCTAAAGAGCTTCAAAAATTGAATATATTTGTACCACCCAGATATGTAACAG AAAAAGACGTTCTCTTAATTCACAAAATTCGCGAGGAACGGCTCCGGGATAATTTAGCTA GAAGTAGGAGCGTGTAAAAATGAAGTACGCTAAAGGAACTGTTTTTGCATCGTATGATGA ACTGTATACGCTAGTTGGCACAGCCTATATTGTAAATGACAGTTATGTACTGGCGCCACA AGACGAGGAAGACACCGAGGTGATACTATATACCGAGGCCGAGATCGAGGAAGGGCTGGA GGAAGGCTGGCTGGTTATAAAATAATAAGTAAATAAAAAGGAAGCCGACGCCGGTTTCCT TTTTATTTACGTTCAAATACGCAATCGTTAGATAATCGAAGATAATCGAAAATAATCGAT GAAAACAGAAGAAATGAGTTGATTAACTGTGCCTTAAGAGCTATCATGAACACAACAAAA GCACAGGAGGCTAAAACGATGAAATACGCTAAAGGAACCCTTCTTACACTGAAAGGCAGT AAACAGAACTATAGGCTAGTTGGCAAATGGCATAACGCCTGGGTATTGGCTTCCGAAGAC CCTCGGGATACCGAGATAGTGATGTATACTGAGAACGAAATCGAGGAGGAAATCGAAGCA GGCCGGATCACAGTAATATAATAGAAGGAAAGTTCAGCAAGAAGCCGTAAAGGGCTTCTT TTTTTATGGGCGGAAAGGAGGGAGCGACCGATATGGCAGACGAGTGGGGGCGCGTGATTG GTGGGAAAAAATGTATTTCCACCTCAGACCTATGCGAATTATTGGGCATAGATAAATCCA CCCTGACCTACTGGGTCCGAGATGGATGCCCCAAAGAAGAACACGGCTGGTGGTGCCTCA AAGATATTCTTCGCTGGCGGGGGCTGGTAGGGAGCGGCATCCGTACCGAGGGGCAGGCGG ACGCCGTAGCGCTGAAGGAGCAAAAGCTAAAAGCAGACACCGATTTAAAGAAGCTAGCTG CTGCCTCGGCCGCTATCAAGCTCGGGGAGCTAAAGGGCAAATATGTCAGTGCGGAAGAAA CCACCGACACCTTGCAGCGATTTTTCATTGTCCTGAAACGTTCGCTCCTGACACTGGGCC GGCGGGTATCGGTGGAAGTGGCCTCGCATGTGGATGCGGTAACTGCGAGGAGGATAGAAA GAATGGTCAATGAGGTAATAACCGATGGGCTCGAACAAATCAGCATTGACGGAGTCTACA CTCCGCCGCGCCGGTCAAAGAAAAAGAACACCTCTTGAGTGGCCGGCGTGGCTGAAAGAT GCCATCGCCATACTGAAACCGCCGGACCTCCTAACCGTAACCGAGTGGTCGGATCGCTAC CGGATTTTAGATGAAAAAACAGCCGCCGTGCCCGGTAGATGGCAAACCAGCCGCACACCG TACCTGCAGGAAATTATGGATGCCTTCACCCATCCAGATATCGAAGAAATTATCTTTTGC AAGGCGTCCCAGATCGGAGGCACTGAAGCGCTCCTAAACATTCTCGCCTATATCGTCGCT CAGGACCCCAGTCCGACGCTTCTGGTTTATCCGACCCTGGAACTGGCCGAGTTCGCTAGT TCCAACCGCATCCAGCCCATGGTCACGCTGATACCGGAAACCGATGTACGCTATAACAGC AAGGATTCGAAAACGCTGGAACTGCAATTTGACGGCATGTACCTGGCGCTGTCCGGGGCT AACTCGCCGGCGTCGTTGTCGTCACGGCCCATCCGATACCTGCTCCTTGATGAGGTGGAC AAATATCCGGCGAACGCCGGCAAGGAAGCTGACCCGATCAGCCTGGCGCGAGAGCGCACC AAGACCTTCCACAATAAAAAAATTGTCTTGATATCCACCCCGACCCTGGAGACGGGTGCT ATCTGGCAAGCCTTCGAGAGCGCCGACGAACGGCGCTATTTTTATGTGCCTTGTCCGCAT TGTGGCAAGCATCAGATATTGAAGATGAGCAACGTCCGATGGCCCAAGGAAATGCGGGAG CCGGCTCAGGTCAGGGAGGTGGCGTGGTATGTTTGCGAGCATTGCCAGGAAATCATCCGG GACCATCACAAGCCGGATATGCTGCGCGGTGGCCGTTGGATATCCGACAACACCACGGGG CGAGTTTCCCGCCGGGTGGCCTTTCACCTTTCCAGCATCTATTCGCCCTGGCTCACCTTT GGCGATATCGCCGCCGAATTTCTTAAATCCAAAGCGTTTCCTTTCCTTCTACAGAACTTT GTCAACTCCTGGTTGGCAGAACCCTGGAAAACCGAGGCCAAGCGTCACAACTCCGATCTC GTCTTGGCCAGACGCGCCGCTTACCCGAAAGGCAGAGTTCATCAGGACGCACAGCTGCTT GTGGCTGGTGTCGACGTGCAGCTCAATCACTTTTGGTGGGGCGTGAGAGCATGGGGGCCT GATCTGACCTCGTGGCTGGTGGACTACGGGCGCACAGAGACTTGGGCGGACATCGAGAAT ATCCTTCGGCGTCCCTATCCGACAAACGAAAATGGCGAGGTTGCCTACATTGCCAAAGCC TGTATTGACTCTGGGTATAACACCGACGAAGTTTATAAATTTTGCGCCTATAACCAGGAC ATCTGTGTGCCGACCAAGGGGGCCTCCCGGCCGCTTCGGTCTCGCTATGTACAGACGAAA ATTGAAAAAGACATGGGCCTGGGCCTGATCCTGTATATCTTTGACCCCAACCAGTTTAAA GACTTTTTGGCTGGCCGGCTGGCTCATGAGGTCAATATGCCTGGCGCCTGGATGGTGCCC GAGGATATCGACCGGCTGTATGCTGATCAAATCGTATCCGAACAACGAATTGAGAAAAAA AGCAAAGCGGGCATTATCAGCTATGAATGGGCGAAGGTCAGCACCCATGCTCAGAACCAT CTTCTCGATGTGGAGGTAAACTGCGCCCTAGCCGCCGAGATTTGCGGCGCCCGGTATTTG CAAAAGCCGGTGATCATCCGTCCCTCGGCGGCACAGCCCGTAATAAGCGGCAACAAGTGG CTGGGGAATACGAGCAACTGGATGAAACGGTAAGTGGGCGACCTTGTGTCGTCTTTGTTA ATTTTTAGGAGGTGAGCGAGTATGAGTATTGTCCGGGAGCTTTTATTACAGGTGGAGACG GCGATAGCCGCTTTGATTACCGGAGCAGAAGAAATGCAAATTAGTGGTCGAAGATACCGC AAAACGGATATGGAAAAACTCAGGGTCATGCGTAAAAGCCTGCAGGAAGAGCTCTTTTAT GAACAGTTTGCGGCTGGCGGCACAACTCGCGCTTATGCGGCCTGGCCACTGCGCAAAGGG GGGATTCCCCCTTGGGATTAGGCCAATCGATTGACCGGCTTGTAAGCTGGATATCCCCGA AAGCAGCCTTTGAACGGCAAGCCTATCGTGAGGCGCTGGACATTAAGCAGCAGCAGGACA TGCAGCGGAACTACGATGCCGGCATGCTAGGGCGCTTCAACAGCCGGGCCAATGCCGCCT GGGGTAGCGGCGAGTTGGTGGACAAGCCCTATCGCCAACGGATTCTTCTGATTGCCCGTG ATTTGGAGCGCAACAACGATATTGCCAAATCTATCATTAATCCGTTTGAGCGCAATGTCA TTGGCCTCGGCATTAACGTCCAGGCCAAGACCGACGATGATGCCTTAAATCAAGAACTGG AAGAGGTGTGGAACGAATGGTGTGAACAGGAAAATTGTGATGTCACAGGCCAGCTAACCT TTACGGAAATGCAAAGGATGAACTTAAGACGCATGATCGTCGATGGGGATATCGTCGCGG TCAAAATCCATGATCCACATGCTCCATTTATCCCGTTTCGGCTGCAACTGATTGAGGCAG ACATGTTTGACACCACCCTGTTTGAAAACAGCGAGAACGGTAATCGAATTTATTCGGGTG TGGAGGTGGATGCCATGCTGCGTCCCGTGGCTTACTGGTTCCAGCAGTCGACGCTGGATC ACTATCTTCATAACCTCCAGTCGCTTAGAATTCCGGCGGATCAGGTGCTGCACCTGTTTA CCAAACAGCGGGTTACCCAGGTACGCGGCATGTCGCTGCTGGCGTCTAGCATTGATGCCA TTCAGGACATTGGTGATTACCTGGAGGCCGAGCGAGTTAAGGCGCGGATATCCGCCTGTT TTGCCGCGTACGTCGAAACCACGCCCCAAGGGGTTGCCGGTCGGCTCGGTCAGATGCCCC AGGATCACCAACGGCAGCGCCGGAATTACCTTGAGCCCGGCATCATCGAGTACCTGCTGC CCGGTGAAAAAATGGATGTGGCCAGCCCGTCGGGGATCAACAGCAATACCCGCGATTTCG TCCAGACGAATTATCGTATCTCCTCGGCCGGTCAGGGCCTTTCCTATGAGGCGACTAGCC GCGACGTATCGCAGGTAAACTATTCGTCCGCCCGGCACAGCGCCCTGGAGGACAGAAGGA CATATCAGCCGGTGCAGCAGTGGCTGATCAACCATTTTTCCCGGGCGGTCTATAAAGAGG TTATTACCGCCGCAGTACTGTGCGGCCGGTTGAAGATCCCGGACTTTTTTACTAACCAAC GAAAATATATGAAGCACAAGTGGCTGCCGCCGGGCTGGGATTGGGTGGACCCCCTTAAAG ATGTGCAAGCTAGTAAATTAGAATATGCCATGGGGCTGACAACGCTGGAACAGCTTTGTG CCGAACAGGGCAAGGATTACAAGGATATCATCGAGCAGCAGGCCAGGGAACGGGTGCTCT TAAAAGAAAAGGGGATCAACATCGACGCCGCCACCGGCGTGGTGAAGATCGCCGAGAAGG AGGAAGACAATGGCGAACAGGACAGGAAATAAGAAACGGAGCAGTCTGGATAAGACGTTT TACCGTGAGGCGGTGATTGAACCGGCCAATATCGACACCAAGAACCGGATTGTACCAGTA TCCTTTTCCAGCGACCAGCCGGTACAACGTTACTGGTGGGATGGGGAGGGCTATAACGAA ATACTGGGGCATGCTCAAGGCAACGCTGATTTAACTCGTTTGGGAGATATCGGTGTTGCC TTATTTAATCATGACCCTGCGCAACCCATCGGAAAAGTGCTTACCCCGATGATTGACAGC AAAGCGATGAGAGGCACGGCAGCGATCCGGTTTGATACCGATGAGGCCAGCGATGTGATC TATCAAAAGGTCTTAAGCGGCACCTTAAAAGGCGTGTCGGTTGGCTATCGGGTGACTGAT TGGGAGACGGTGAAGGAGGGCGAGACTTCGACAGATGGCCTGTATCAAGGACCCTGCGAA ATTGCCCGTAGCTGGGAGCCTTTTGAGATCAGCATTGTGAGTGTACCGGCAGATGCCACT GTGGGCGTTGGACGCAGTATGGACGACTTGCAGCAACTGATTCAAAAAGCGGTTGCTGCC GTTCTTACCAAACGGCAAAAGGCATTGGTGCCGTTTCGGGCTGACGAAGACGAAGATGAC AATGAAGGCCTGGATGAGGATTTGGAGGACGACGAAGACGAGGGGTGGGACGACGAGGAA GACCGGGATGTCGACGAGGATCAGGATAATAAATTGCTGGATGAAGAGGACGCTGAGGAA ACCACGGAAGATACGGAGGACCTGCACCTTGAGTGCGATTATTTGGCAGGCGACGAGTGC AGCCAAGGAAAATGCCCGGTGGATGGCAGCAACAACTGCTGCCTGAATTGCGAGGAACAA GGGACGTGTGAAGATGCGTGCCAACCGAAAACGGAGGTATTGAGAAATATGAAGAAAAAT AACGCTGGCCGTTCCAACGCCGCCTTGCAGGTAGTGCGCAAGCAAGCCGCCAAGGCAGAA CGGGTGCGGGTTATGGAAATCCGGGCCATGTTCCGTTCGTTCCGGGAACAAACCGGGCTG AAAGAAGATACTTTTATTGATAATGGTGTAAGCGTGGAAAAGGCGCGCAAGGCCCTCATG ACGGATATTGCCAAACGCAAATCAGCACCTGTGATTCAGACGCCAGAGATTCGGGTTATT GCCGATGATGAAGATAAATTTCGGGCAGCCGCAATTGATGCTTTAGTTTGGCGGTCGGGA TTAAAAGTTGCAAAACCTGCACCAGGTTTTGAATCCTTACGTTGTGTGAATATGGTTGAT TTAGGTCGTCTCGTATATGAACGGAGTACCGGTAAGCGGTTTGACTCATTTGATCGGGAC TTGTTGGTCCGCGAAATGGTGCAGTCTTCTGTAATATCCAACATCCTGCAAAATGTTGCC GATAAAGCCATGCAGAATGCTTATCAGCTTACGCCTGTTACCTATCCAATGTGGACCAAG CATGGCGTTTTAAACGACTATAAGCCGGCACTTCGGGCGCAGCTTTCGGAAGTACCTCTG CTTGAAAATGTCGGGAAAGGAGCGGAATACAAACTCATTACACTGACAGACGCAGGTGAA TGGATTCAGCTTTCTAAACGCGGTAATTTGTTCACTATCACCCGCGAGGATATCTTAAAT GACGATATGCATGCTCTGGTGGATTTCCCAGCTCGCTGGGCTACTGCGGCCCGAATGACT ATCAATCAGGATGTATACCAGACGTTGACTGCCAATCCGAAAATGGGGTATGACAATACA CCTATTTTTGACCCAACCCACAACAATATAGCAACGACTTTGAAAAAGGCACCTTCTAAA GATTCACTTCAAGCCGCTATTCAGGCGATGATGCTGCAGACCGGTTTAAAAACGGCGACG CCACTCAATATCCGGCCCAAGTTTATGCTAACTCCTGTGGCATTGATGTTTGCATCAAAG CAACTCCTACAATCTGCCGCTGATCCGGCCGCGCCAAATGCCGGAGCAGTCAATGTCCTG CATGACATTGTGACCATGATTACCGATCCACTTCTTGATGTGGTTAATCCCTCGGCTTGG TATCTGGCTGCTGATCCAGCGATTACCGATACAATTGAGGTAGCCTTCTTAAATGGACAG GATACGCCGTATATTGAGCAGCAAAGTGGTTTCCAGGTAGACGGTTTTACCTATAAAATC CGCATCGAGTATGGTGTCAAGGCGCTTGATTGGCGCGGACTGTATATGAATCCCGGTAAA TAAATAGAAAAAGCGAGGTAATGTTCACATGACTCCGCAATTTGTTTTTACCCAGCAAGG CGATATCATAGATTTCACCAACACTACGGACAATCCCATTCTTCCAGGCAATCCGGTGCC CTTGGCCGGCGCTTTCGGTATTGTCACCGGCAATGGAATTGCGCCAGGCGCAACCGGCCC GGTGGTCGTGCGCGGTGTTTTCCTGGGGCCGGCCAATCCGGCGGTCGCATACGGCCAGGG CGACAAGCTATACTGGGACCCGGCCAATCACTGGCTCACCAATAACGCGACGGACACCGT CTACGCCGGTTATGCCGTGCAGGCCAAAAGCACCGGTACCGGCAGCGGGTATGTAAAACT GCATTTCTAACAGTAAAAGGGCCGCACCGGCCCTTTATTCTTTATAAGGAGGTGAGGTAA CTATGGCGGTTTATGAAACCACTGTGCTGACCAACCGGATGCCGCTTAGAAAACTGATCA CGGCAGCCATTACCGGCACACTGGAGGATACACTGGTCTTTTCGCAGGCCATGACGCGGT TTGTGGCTCATAATACCGGCACAGAGCCTTTAACCTTTTCGATCAACGGCGACCCGGACC TGACCGATACTTTAGCGGCGGGAGAGGCGATTGACGATGAATTTCCGGAGTTTGATCACG TGATCCTAAGCGGCACAGTCGGCTCCGCCTACAAAGTGAGGGTGGGGTAATGTCGATTAA AGAGCAAATCGCCAGGGATAACGCCATATTTTTAGACTTGGACGCCTTTGCCGAACTCAT CCTTTATAACGGCAGACAAATTCCGGCGGTTGTCACCCTGGGCGATTCAGCCATGCGGGG CAACACCTTTGAAACCAAAGGAAGCTCCGCCGTGGCGACGCTCCAGATCGCGGCCAGCGA TGTGCCCAGCCCCGATACCGGCGATCAAGTCGTCTATCAGTCTGCTACCTGGGAAGTTAC GAATATCCTGGAATCCGACAGCGCCATGCACTTGGTCCAGATGATTTGCCAAGCGAGTCC CTGGTCATGATCAATGTTGATTTTTATCTGATTGACGGGGCGACGCCGTGGCTGGAATAC ATGGCGACAACCAAACCGGACTGGCTGCGAAAAGCCTTAAAATCCTTCGGCTGGTATTCC CAGCAGCAAATCAAGGCCGGCATTAAGAGCCGCGCCCCTGGTGGCCGGGCATATGCCGAA TTTATGCCGCCCGATATGCGGGCCAGGCTGGAAGCCGTGTTCGGGAATAGCCCTAAGAAG CGTTACAGCCCGCTCGGCAAATTGGTGAACGCCGTGGGCTATGAATTCGATGCGGGTAAG CAGATTGTGCGTGTTGGCTGGCTGTCGGACTCCGCCGTTAGGCTGGGGGAAAATATTGAG CAAGGGTATAGCAAGGCGATCACCGACAAAATGCGCCGCTATTTCTGGGCTGCCGGCGTG TCGCTGTCCGCTAAGAGCGAGATTAACGTTGCCGCCCGGCATACCTTCGGGCCGATGCAG GCCATTTTGGCCCCCAAGGCAGCGGCGCATATCGAGGACAAGATTCTGGAGTACGCCAGA ACCGGCGCGCCACCGTCGCGCAAGCAAACCAGAAAATACCGGGTAAGGGGCTAAGCGATG TTTCCGACAATCCCTATTACAGTTTTTATTCAGAAATGGCGGGACGCTATCGCTGGTAGC GCCGCCATTTCGTCTTTTTGCATGCAAAAGTATCACAAGCCGCTGTCCCTGTACGTGGGG ATCGACGGCAAAAAGCCGCCAAACGATAAAAACTGCCCGCTGGTGATTGTCTTTCCCGGC GGCAAAGTGGAAGGCGGCGGCGAGGAGGTATGCCGCTATACCGGCAGTATTGGCTGGTCC ATCATCCAGCCCCAGGTCACCCAGCGGGACGGGATCACCGAAAATACCGGCTTGTTTGAG GCCGACGAACTGGGGCAGCTCATCCTGACTACTATCGCCGAAATCAACCCGTCCTACCCG GTGACGCACGTGGAGTATTCCTTCGAGAGTAACGACTTTTTTCCTCAATTTCCCGGCCGG ATGGACGTTACCATCCAGGTTCCGGTACGAATGGGAACGCAAATTACCTACTAGAGAGGG GGAAGGAAATATGATTCAGGCCCAAGGCTACCGAGGGCGGCTGGCGTTGGCTTATGAAAC GGCCTATGGTGTCACACCGCCCAGCCCCAGCGGCTTTATCCTGCCAATCACTAGTTCAAA AATCACGGCCAAGCAATCGCTGATTGAAGATAAAACCATTCGCGGCGTGCGGGATGTAGC ACCGCCGGGAATGGGTAATATCGACGTACAAGGGCCGGTGGTGGTGCCAGTCGATGAAAT TAACATTGGCTATTGGCTGAAAGGATTATTTGGCAGCCCGGATACAACCGACAGTGGTAC TTCGCCGTATACGCACACTTTTAAGCCAGGCTTTTCGCAGCCCAGCCTTTGCCTGGAACA GCAGTTCCCGGATATCGGGCAATATTTTTTATATAACGGCTGCAAAGTATCCAAGTTCAG TACGGCTTTTGAGGTGAGCAATCAAGACCTGCAGGCGACCATCGATATCATGGGAGGCAA AGAGACGCTGGCAACGGCGTCTTTTTTAGTAGAACCCATCATAAGGCCCATGAGTAAATT CGGAGCTTTTATGGCATCAATCTTAGACGATGGCCAGCTTCTAGCCAATGTGACCAAGGT GGAGCTGACCGTCGATACCGGCCTGGATGGCAGCGTCTATACGCTGGGGGGCGGCGGTTT TCGCGGCTCACTGCCGGAAGGAATGCTGGCCGTGACCGGCACGGTAACCGCCATTTTTGA TTCAATGGCGCTCCTAAATAAAGCGGTCGCCGGGGCGACCTCGTCCATTGAACTCAATCT CAGCAATCCCTTGAGCGGCAGCAGCCTGAACATTTTGCTGCCGGAGATCATCTACGAGCG GACTTCGCCTGGCATTGACGGGCCGAAGGGGGTTTCCATTTCCCTGCCGTTTCGGGCGTT TTACAACACCAACGCCAGCGGCGTGTCCATTGTGGCCACGCTGACAAACTCAGAACCAAC CTATTAAGGAGGATGTATGTATGTCTAAGATTACTTTGCCTGCAGCCCGCAGCTTAAACC GCCGGGAACGGAAAGCACTGAAAGCCGCTGGGGCCGACCCGCAGTTTCGCCCAGATGGTG CGACCATTGCCGAACTGAATGACCGGATTGTCGAGTTTATCTCGAAAGAAATTTACCACA TTGACGGCCCGGAATACGACGAAGTGCCGTACGCCGACTTTATTGCCCTGGCCGACAAAA CCTACCGTCTGACCTATGCGCTGGCTGACGACGTAAAAAACTCGTAAGCGTCTGGCAGTG GCATGCTGACGGACGCGCTGACTATTGCCAGGACTGCGCTCTTTTAAAGAAAAACACCGA TTGCGACACCTGCGAAGGCAGGCAGCCGGCGGTATGCGAAGTCAACCGGCCGGCCTGGAC CCTATGGACCCTGATGTCCACCCAGTGGCGGGTGGGAATGAGCGGTCCCGTTGGGCTTGA CTATGGGGCTACCCAGCAATTGGCCCGGCTATATGAAATCAACTTGACGCCGGGAGTAAT GACCAAGCTCCGGGCGCTGGAAGCCTTGGTCTTACAAAAGGCTTGGGATGCATCCGGCGG AAAGGGGCGGTAACATGGCGGCCAGTAATATTGTACAAATCATTATCCAGGCGATGGATT CCGCGTCCAGTGTGTTTAAGACGATTGGCGACAACTCAGGGCGGATGGGCGACAGCGTCA GCGCCGCCATGGATAAGTCGACCAAAGATATTGCCAAGGCCCAGGCGGCGGTCATCGGTC TTAAGGACAACATGATCAGTTCCATCGGCAGTATCAAAGGCTTGATTGCCAATTTTGGCA TGGTGGGCATTGGCGCGTCCATTGTATCTGCCGCCCAAAGCTGGTCTGATGCGGTATTTA ATCTGCGCAGGGTGATCGGCGGTACGGCGGAAGATGCCAGTAAGCTGTTGGCCATCGGCA AATATGCCGGCGTCTCCATCGACGAGGCTGCCGGCTATTTTGCCAAGCTAGGCAAAGCGG TATCGGCCGCCAAGGACCAAATGCAAAAGGCCGCTGTCGAGGGCAAACGATCCGACGATA TTTTCTCGCGCCTGGGGTTGTCATTTGACCAGATCAACAACAAAAATGTCAGTGAGGTCT TTACAATGATCGCCGATAAAATGCGGAACATGGCCGACGGAGCCGACAAGGACCGTGTCG CCATGGACCTGTTTGGCGAGACAGGCCTGAAGGTTGCCGGCATGCTCAGCCTGTCCCGGC AAGAAATCGAGACGATTACGGAAAAGGCCAGAGAGAGCGGCCTTATTGTCAGCAATGAGA CGGTAGATGGCTGGCGCAAGCTGACCCGGGAGATGCGGTCGGTCATCGGTATCGGTACAA CGCTTGCCGTCCAAATTGGCAATTCATTGCTGCCGGTGCTGCAGGATAAGGTGAGTACCT TAAAGGCCATAAGCGACCGCTATCGTGTCTTATCGCCCGAAATGCAAAGAGCTATTGGCC TTACCATAATCGCTACCGGCGAATTTAGCGCTTATCTCATTGGGGCGAAAGGCATCGCCG CGTTTGCTCCCGCCTTCGGCGCGTCCCTATTGGGGCCATGGGGTGTTGCCATAGCCGCCA TCGGTCTGGCGATCAAGGGCGCCATGGATTACTTTAGCCTGCAAAATAAGGTGGCGAGCT ATAACCCGAAAGCAGTTGTTAAAAAGATTAACGGGCAGTATTACAAGGAAGTCGAATCGG AAACGCCTCCCAATCTGTTAGGTATGACCTTTAAGGGCACCCGCCTGCAGCCGCTTTCAG ACGCCGAACTCGAAGAACAGAAAAAATACGAGCTTGATCCAGCCCAGTATAATGCGCAGA AGCTCCTTGACGATCTGAACAAGCTGAAGGAGCAGCCGACCGTTTTGGCGCCTCCCTACA TCGACACCAGCGCTGCCGCCCAGGCTGCTGAAGTGGCCGCCGAAAAACTCGAACGGGCCA ACGCGCAGGCCCAGCAGCTTATGACCGACCTGGAGCGCCGCATCATGGAGAACAGCGGCA CTGCCCATGAGTCCGGTATGGCCAAGATTACGGCAGAAGTCACCCGCATGCAAAATCAGG CTGCGCAGATTGCCAGTGCCGGTGGCGATACTTCGGGCCTGGCGGAAAAAATTACTCTCT ACCAAGAGAAGGCCGCCGGCAAGGTTCGTGAGGTATGGCAGCAGGCGTGGACGGATATTA AGAATCAAACCGCTCTGATTGGTGCTCAGCTTATCAATGATAAACAGGCTCAGGCCGATA TCGAGTACCAGATTGAACTGGACAAAATCGCCAGGGAAAAAGAAGCGCGCCTCAAGGCTA TCGCGGTGGATGACAATGACCAGGAAGCCAAGACGGAAGTAGAGGCGTGGGCGAAGGGGC AGCAGAACCTCGCGCTTCAGAAGCGCGACACAGCCAAAACGGACGCGAAGTTGAAAGAAT ATCAAGACGCTCTGACTTATAACTCCCTCTTGATCAATCTGGAAGGCAAGACCCGACAGC AGGCTGACGCCTTACGGCAAGAGGATTTAGCCGCTGAAATCGCCTATCTGCAGCAAAAGC TGCAGGAAACAACCTTGAATACCGAACAGCGACTGGCTCTTCAAAAGAGCCTGAACGATG CCATGAACCAGCAATATGAGCTGGATGCCATGAACTACGACACGGCGTTCTCCGCTGCTT TTCGCAATATCGAAAACCGGCAGACTAATTATGCCCAAACCATAGAACAAACCTGGGACC AAGTCTATGCGAGCGCTCAGGACAATCTGAACAAGATGGCCTTTGAAGGAGAGAGCGCTA CCAAAGCGTTGGAAAATTTCTTTAAAGATATGGTTGAGAGCATTGAAAAGATGTTTCTGA AAATGTGGTCAGATAAATATATCATGGGGCCGCTGCAGCAGTTATTTGGGCAGATATTGG GAGTGCCCACGGCAGGTACGCCTTCGGCTTCTGCAGGAGGTTCATCTAAACAGTTAAGCT CTATCCCTAGCAAGGCAGAGGTCGACCCGATCCAGACGTTCGCAGCCGGGGGCTATAATC CCGGCGGCTGGTCTATTGTCGGAGAGGAAGGCCCCGAGCTGGCCTACTTCGGCAACCCTG CCCATATTTACACCGCCAGCCAAACCCAGGCCCTCTTAACGCCAAGCGCCGGATCTGCCG CTCCCAAAGTTAACGTCACAGTCATCAATAAAACCGGCCAGCAAGTGCAGGTTTCTCAGC AGGCGTCCTTTGATCCGGCAACACAATCGATGCTGGTCCAGATGGTGATCGACGGCGTGC AGAACAACGTGGCCGGTTCGCGGGACTTCTTTTTTGGGAGGGGTTAAATGAGCTATCCAA TGTTTCCTGCTATTCAGCCGCCGGCCTTTCCAGCGGACGATTTATTTCCTGATAACAAAA TATCTTCTCCGACGGACGGCGGCTATACAGTCAGCCGTCCTCGCTATACCCGGACGCAAA TGGGTGGCGCCTATACCTGGCCAGCCATGCCGCATGCGGATTACCAGCAATTTAAGGCTT TCGTCCAGGCCAATTACGCCCATATCTTTGTTTGGACCGACCCGATTACCAGCCGGCAGG TGAACATGCAGTTTACTGCTGTGCCCAAGGCCAGCATGGTATCACCGGGCTTTTGGCACG TGGAAATCGCGATCATGGAGGCGTGAGACTATGCCGTTAGCGTTTTCGAGCGCCGGACTA ATTGAAAAAAACAAGCTCGCGAGTGACCTACCGTGGATCGTGCTGGTAGAGCTTCAGTTG CCGAACGGCGAGAGCGCTCATCTGGCGAAGAACAACGAGACGGTAACCTGGAACGGTGTT TCCTGGGAACCCATTCCCATGCTGCTGTCAGATAACACCCAGGACATGAAGGCCATGTCG ACCATTACTATTCAAGTATCTAATGTTTCTGGTGCCGTCCAAGCCTACCTAGAGGAATAC AATGGCTTGACTGATTGCACCGTCATCATTCGACTAGTCCATGCGGCGCATCTCAATGCT TCGGTGCCGGAGATCGAAGAACAGTTTACGATTCAAAAAACGGCCTATGATGAAGAGTGG GTTACCTTTACCCTCGGCTCGGATTTCTGGTTGTTTTTCCGGGCACTTGCTGACCGCTAT TTGCCGGATTTTTGCTGCTGGAAGTATGGTAGCATCAAATGCGGCGTGCCAGCGGTGACA CTGGCTAGGTATCCGGCCTGCCACCATACGCTGGCCGACTGCAAGCAGCGTGGCAACTCC CTTCGGTTTGGTGGCTGTCCGGGAATGGGGGGATTTTATGCATCGAATATCTGACCTGGT GGGAAAACCCTTCCGCGACGATGCCATGGGACCGGACTCTTACTGCTGCTGGGGACTGGC CGTCGAGGTGTTTCGCCGGTTCGGAATCTTGTTGCCGGATTATCGCGCCGCTTGCGCTTC GGTCGCCGGCGGGGTTACCTCAAATCGTGAACAGTGGGTGCGGTGTGCCGGAGAGATTTC AGTGCCTGCACTGATGGTGTTTACCACTGCCGGAATCTGCGATCACGTTGGCGTTTACCT TGGTGGCGGGAGATTCATTCACGCTCACGAGGCGGGCGGCGTGACTATTGTCCCAATCAA TCACATCTTTTGGAAGAAGCGGATTGAAGGCTATTACCTACCGGGGTGGTTGTCATGAAG CTAATTTTTGTCCGCAATCCCATTGCGCCGGATAAGAGGGATATATGGCATATAAATACC AAGGCAACGATCGCCGAGCATATTATGCCCATCCTCCGGGAGTGGCCGAACACGGACTTT ACTGTCAGTGTGAACGGACATTTGTTGGAAAAAGAAGAATGGAGCACTCTGGTTCCAGGC GATGAGGATAACGTAGTAGTGCACCCCATGCTGGACAAGGGGTTGTCAAATTTTTTTCGG GCGATTGTCAGCGTAGCCCTTATGAGTTATGTCGGCGGCGTGTTCGGGAAGTTGGGTGGC AATTCTTTCTGGAAATCGGTCTTCACTGCCGTTGGCCAATACGTCGGCGGCCGTATCGCC AATGCTATTCTGCCGCCGCCGAAACAGGAAGAGCAGCAGCAATCCAGCACCTACGGCTGG GGCGGCCCGCGCCCTACCGACAGGCCGGGCACGCCGGTGGCCAAAACCTATGGCACGGTG CGGGTGGCCCCGGTTCTTCTGGCCCGGCATGTCACGTCGGACGGGAGTAATCAGTATTTA AACCTCTTATATTCCGGCGGCGAAGGCCCGGTCGATTCCATTGACAACATTTTTATCGAC GGTAATCCCATCGGCAATTATTTGCATGTTACTTACGACATCCGTCTGGGAACGAACGAC CAGCCTCCCATTGCCAATTTCAATGATACCATTACCGATTATCAGCTTGGCTACGAGCTG AACACCGAGGGAGACTGGGCCACCGAGCAGACAGTTGGGACCGCTGTGCAGGGGCTGCAG ATTACCGTACAGTTTCCGTACGGTCTGGCCCGCGTCAAGGATGATGGCGGCCTGGGAACG GCCTCGGTAACAGTGGCGGCTCAGTATCGGCGGGCGGGATACGGTGCTTGGCAAGAGTGG CCGCTAGAGAGTGGCGGCACCACAAGCGACTCCAAAAATACATCAATCTGGACAACCTAC CGGCTGGACAACCTACCGCCGGGACAGTACGTGGTGCGGGTGCGTTGCGCCAGGAAGTCC GGCACATCAACGCGAGATCTTACACGGGTGTTTTGGACCATGCTGTCGACCATCCTTTAT GACGACTTTGCCTATCCGAACCGCGTTCTGGTGGGCATTAGAGCCTTGGCCACCAATCAA CTTAGCAATTCCGATCCTGTTGTAACCTGGGAACAGACACGCTTGACCGTTTACGTCTGG AATCCCGACACCAGCCAGTATGAGCAACGGCGTGCTTCTAACCCGTTCTGGGCCAGTTAC GACCTTATCCATCAGTGCAAGTATCTCATGAACATAAATAACGGCCAGTATGAGTACTGC GTCGACGGTAACCCGACCAGCCGGATTGACTACAGCGCCTTTGCCGCTGCAGCGGCCTAT GCCGATCAGCAGTGGGTGGACGGCGATTACCGTTTCAGTCTCAATATTTATTTATCGGAA AACTTAAGCTTCTGGGATGCCCTGGCGCGGTTTTCCATCGTGGGCCGGGGTGTAATTATC CCCAAGGGCACTCTGTATTCCTGCATTTGCGACCGGCCAAGCGAGCCGGTTCAACTGTTC ACGGTCGGCAACATCACAGCGAAGTCCTTCAAGGGCGAGTTCCAAAGTACCAAAGACCGA GCCACCAGTGTGGAAGTCACTTTCTATAACAAAGACAAAGACTATTCCTCCGACCAGGCC ATTTATTACGGCCCGAACTATGAATCGACTGCCCTGGCGGCCAATCCGGTGCAAACCACC TACTACGGCATTACCGATTACAAGCACGCCTATACCGAGGCTGCCTATCTGTCACGATGC AATCAGTATTTAATCCGCACAGAGCATTGGGATGCCGATATCGACGCCATGGCCTGCGTG CTGGGCGATGTGATCGACTTGCAGCACGATATTCCCAAGTGGGGCGATGCGGGCGGCCGG ATTGTCAGCGCCACTGAAACCACCGTTACATTGGATAAAGAGGTTACGCTGCTGGCGGGC AGGTCTTACGCCATCAAAATCCGGCTATACACCGACCAGATTATCCAGGTTCCCGTAAAG GGCTACGCCCAGAACATCATCACAAATACCTTGACGGTAACGACGCCGTTTCCGGTCATG CCTGAGAAATATGACATTTACGCATTTGGCAGCTCCAATGTTGTCACGAAGCCATTTAAA ATCGTAAACATTGCCAAGAGTGGCGATCAGAAGGTGAAGATCACCGGCATCGAGTACATT GCGGCGGTGTATGAGGAAACCATTGATGCTCCGATCTTGCAGTATAGCGGTTATGAGCGC TCGCTGGTGGAAGTCAGCGTGGTAAGCGTCAATCAGGAAACCTATCTGCAGCCGGACGGA GGCATGGTTTCCGTGATTCATGTTTCCTGGCCTGTTCCCAGTGGCTATGTACAGGGATAT TCCGTCTGGTATAGCGAAGGCGTTGGCGGTAACTGGTTGCTGTGGGAATCCGGCATCCGT TCGGCCGGCACCACCATTACGGGAGTGAAGGCGCTAACCACCTATGTGGTAAAGGTTTCG ACAACCAATGACATCGGTATGGTTTCACCCGGAATTGTGTCCGAGTCTCTGTATATTAGC GGCAAAACTACGCCTCCAGCAAACGTGGCTGGCTTTGCCTACCGGGAAGTAACCGGCGGC TTTTTGCTTTCGTGGCGAGCTAATACTGAAATGGATCTGGATGGCTATAACATATACCAG GGCATGAACGGTGCCGCTATGGCCGCCAGCGTTTTGATTGCCGAGCGGATTATGAGTACT AGCCTGTTTGTGCCGATTGGTCAGGCGGGAATAGTTGCCTTTCATATCGTGGCTATCGAC ACTAGTGGCAATGCGTCGGTCGCTCCGGCCACCGTCCTGGCCTCGTTTGCCGTGCCGCCC GATGTTACCGGCTTTGACGTTGTGCGGATTGGAGACCATTTGGATTTTCGCTGGCAGGCT ATTGCCGGGACCGGAACGACATACACCTATGAAATCCGGCGGGGAGCCAACTGGAATGTG GGGCAGCGTATCGGCAAAACAACCAGCCCCTATTACAACTGTTTGTTTCCAACACCGGGA GACCATAATTTTTGGCTCAAAGCCGTCGACGGATACGGCAACTACAGCATCAATGCCGTG AATGCCCGTGTGATCATTATGGATGCTGGCAACCGGAACGCTATCGTCACCATAGACCAG GTAGCTAACGGCTGGACCGGAGCGATGTTTAACGTCTACGTGAGGGACGGCGGCTTGCAA CTTGCCGACGGCGCGGTTCGAGGCCAACACATTGTTGAAGTCAACCTCCCCAAGTCATTT ACGGCACGCAATACCATCCTGGCCGACATGATTGGTGTGGAGCATACCGGCATCACTTGG GAAAGCGCTCATTTCACCTGGGATAATGTAGAGGCCCAAACGCCCTGGGAACCGGACGGG GATATCACTGGCATTACACTTGAACACCGGATTTCGCTATTTAAGGGCATACCGGCAACT ATTATCGAGTCCATTCCGTTGGACGGTGCCGTAAACGGCGACCGGGGCACACTGGCGCGA CAAGCCGCAAACGTAACTTTTGATAGCGGCCCGTTTCGGCAGGGAGCTGTGATTCAGGAC ACCACGCAGATCTCCTGGGATATTCACATTCCTTCTTTATATAATGTAGTCTTTTACGTG AGCCTGGCTGAACCGATAGTGGATAACTCGGTGTACCTAACGCTGGTGGGGCCGGAAGGT CACCTGATGGCGGGCTATGATGTCAGGAAAGATGTGTTTTACCTGGAGGACCAGTTCGGC CATCGAAATGAAGTGGCCGTGGACTATATGGATATGGACTGGCTGACAGTGGGCATTGTG CAAACCGAAACGACAAGAAAACTGTATGTGTATTCATTCAGCGCGAATGCGGCGGGAAGC TCCGAGGAGCTTATGGGCCTATGGGAAACTTCACGGCCGCTTTTTTATATCCAAAATGCA ATTAACAATCAGGAGGTCCTCATGGAAGTTAAGAATGTACAAGTAACAGGCAGCTTGACC CTCACTCTTCGCAAAGCGGATGGAGCGGTGGAGGTGTGCCGCAAGGATAACATTATCGTG AGCAGCGGCTTTGACGCCATCTGCGACAGCTTGGGCAAGACCAGCGGTCGGCCGTCCGCG TTTGGCTATATCGCCCTGGGAACGGGCGCGACCGCCCCTGCAATCGGCCAAACGGCGCTG GTTAGCGAAATTGCCCGCCAGGCCGCTACATACGCACATGTGGCCGGGACGCAGGTTATG ACGTTCAGTTCTACCTTTGGACCCGGCGCCGCCACTGGTGCGATCACGGAGGCTGGTGTT TTTAATGCGTCCAGTGCGGGAACCATGCTGGACCGAGTGCTCTTTAATGTGATTAACAAG GGCGAGAATGACACCTTGACTGCGCAATTCCAGTTTACATTGAGCTAGTTCGAGACAGGG AGGAAGAGCAAATGGCATACGTCACAACGATTGACATATCTTCCTTACCGGGCAGCGCCT ATTCCTGGGATACGGCCCGATTTACCTGGGACGCTCCTGACGGCGGAAAAACATGGGATG AGGCCAAACCCATGGTATATACCCTGCGCGTGGGCGAAGGCTGGGCAACCGGGAAAGCTT GGCAACAGCAGTATCAGTTAATGTCGCGGGAAGGCTGGCAGATGGCGGAGGCTTGGTCGC AAGCGCTTGCCCGCTTCATACTGGAAGCCTGGCAGGTAAGCGAACAGTGGAGTGATGTCT GGCTGGCGCAGGTAAAGCTTGCGGAAAGCTGGGGAGTGGCTGAGATACTGGAAAAAGCCG CATTCATATCCCAAGCGGAAGGCTGGGCTATGACAGATACCTTAGCGCAAAGCTCCATCA AAATGTGCCTGGAAAGCTGGACGTTAGCAGAAGTGCTGACGAAAATAGCCGTGAAGCTAG AGCAAGAAGGGTGGATGACCGGGGAAGTTACCGCCCGGCTGGCAACAATAGACAGCCGGG AATTCTGGCAAACGGCGGACAGACCGCCCGTATGGAATATGCTTCGGACTATAACTGAGG ATTGGAATACGGATGAAGAGGATCAGGAAACTGTTGATTTTCACTACCTGGTGTTTGAGA GTGCTCTTCTTAGCGAGGGCCTAGCCAGTGCTGTAACCAAGCCCTTCACTGAGACATTAG CCGTTTCTGAGGTCTGGGTGATGGAAACCATAAAGAAGGTATGGGAGGTCTGGCAAACCC AAGACTCCGCAGCAACCCAAAGCTCCTTCGAGCGGGTGCTAGCGGAGTCTTTTGCTATGG CGGATGCCCACAGTAAAGACCAGATAACGGCATTTTTTGAGGCCATTCAGGCGGTCGAAA CCTACCTGCGGAGCGCTAATGCTGTCGTGAGTGACCTTGCCTTTAGCACGGGTGATTTGT CGCTGGACGAGTTTTTAAAGCTGAACTCGCCCGTAGGGTATTCGCCGTTCACGACCTTTG TCCCTGGCGAGCTGGAGTATCGGAAAGCGCTGATTGCCCTTGTTCTTAAAGGGCCACTGA CCACCGGCAGACCACGAGTTACTGACTGGCGGCTGACGGTGGATGTGCCGGATCAGACAG ATAGCGGAACCTGTACCATTCCGGCGGCGAATACCTTTATCCCGTTTCAGCGCCGGTTTT ATGCGCCGCCACAGGTTCTGGTCCAGCTTCGGGGCGGCGGTGGTGGGACGCCTGATGTCA CGCACATTACGGAGGTCGGCTTTTACGTTCAGATCAATGATATGAGCGGCGGTCTTATTG CCGGTGACATTATTTGGTCTGCCGACGGATACTAAGGAGGGCTAGCATGCAACAATTCGT TCCTATTGCCGGCACGCAAACGCTGACCGATAGCCGGACGGAAATCTTAAACAATGACCG TACCATCATGTCGTGCAGCAGCGGCACAGCCTTCCCGACTACCAATATGGAAGTCGGGAT GCTTTGTTTTCGAACCGATTTAAATCAGGTTTTTGAATTAAAGAATTTAACGCCTACCTG GGTGCTAATCGCCGACCTGAATAAAACCTATACCAACAAGGAATTTGTAGATGCCCAAAT AGCAACTAGAGTTCCGTTCTCTGAAATCGTCACTGTTCCTACAGCGAATAAAATCCTCAG ACTGGATGCTAACGGAAACTTGCCCGCCAGTATCACAGGAAATGCGGTAACCGCCACAAC TGCCACAACCGCTTTGGCTGTAGCTTGGAGCGGCATTACCGGGAAACCTATGACTTTTAT CCCGCCCATTGCGACTACAACGACAATAGGGGGAATTATAGCCGGTTCAGGTCTTTCCAT TAACAGCAGCGGCATTCTTAGCGCGGACATTCCAGCTACTCCCTCTCGTGGCTATAGGAT GTTTTTATATTCCGGTACGTTTACAGTTCCGGAAGGCGTTGAGGAAGTATGGCTTAGTAT GTGTGGTGGCGGCGGAGGTGGAAAACAAGGTCATTACGTCAATGAAGGTGACAGTCATAG TGGTGGCGGCGGTGGTGGAGCACATGCGATTTTAGCCCAGAATACGGCTGTTACTCCCGG GGAAGTCATTACAATTACTGTCGGTGCAGGAGGGAATGCCGGGAGCGCTGGCGGCACATC CTCTTTCGGGCCGTATGTTTCTTGTGCTGGCGGCGGCGGTGCGACAGGTACTTCCGATAG TGGGAATGCCGGCGGTCCAGGTGGCAGCCCAGGGACCATTGGCGAACTATTCGGTTCGGT TGGTACTGGGGGAGGTTGTATTTTTGGCCAGGGATCAGGAAAACCAACAGTTAATGCGGG CGGCTTTGGTGCCGGTGGCGCTGGTGGAGGTTCCGGCGGTGCAGCCGGTAGCAAGGGCTC ACAGGGTTTTGTCCTGATCCAATGGTAAGTACTAGAAGATTAAAAAGGAGCAGCCGATGA TGCGATATGCACAAATTCTTTATAATAAAGCTCACTGGATTTTTGAAAGTGATGAGACTT TAGAAGAAATGTACTCTCATAGGTTTCATCACTCATTATTGTTTGTTGATGTAACAAATA GGCCGGAAGTGATGGAGGGGTGGGATTATGATGGTACAAATTTTACTGACCCCTCTATTC CCCGGCCATTAACAAAAGAAGAAAAAATAAATCTACTCAACGCCGAATTTGAGCCTTTAC TCAACGCAAATGATCAAGCGTATATTATAGCCCTTCGTAATATTGATTCTGTTCTTATGG ATGAGCTAAATAATGAAAGGAGCAGACTGAAAGCGGCCTATGACACAAAAATGGAGGAAT TTTTGAATGGCTAAAGCAATTCGTTGTCCTATTTGTGGACATAAGCTAGACGACCAAAGT AAATGTACAAATATAGACTGCAAATATCGAAAGTAAAATGGATGTGAAAGTCGCTTATTC TATTAACAATGAATTGGAGTAGGTAACGGAATAACAACTCAGCTGGCAGAAGTATTAAAT TTTTAGAAAGCGGTGAGGGAATGGGACAGCCCGAATGGGTCTGCATGCAGCACAGCGGTC AGTGCAAAGCAATTGCAACGCTGGAGAAAAACGATGAAGTGATCTTTAAGCGGCTGCACG CTCTGGAAATGGCAGTTTGGAAAGCGGCAGGTGCAACCGGCATCATTACGGGAATTGTGA TGGTTATTATACAAAAGGTGCTATTAAAATGATTAAACAAATGATAAAAGAATGGTTTTG TTTTCTGTACAGCAATTGGGTGGGCGTTATCCTGACGATGACGCTCATCCTGTTTTTTGT CTACCTGTACGCTTTCTTTCGGAACGGTGAGGGCGGCGCGCATTACGACCTTGCCAGTTG CTGGGCTGGTGTTGGCGCTATTGCAACGGCCGCTGCCGTTGGTTGGGGAAAGTGGGTCGT CGATAGCAAGTGGAATACTCTTCCGGGTATGATGCCTGATCACGAGAAAGGGGAAATAAA TGAATGACTCCAGATGAATTTATTGAGTGGCTGGCGCCGGCGGCACAGGCGCAGACGAGG TGCTATAACCTGCCCGCGAGCGTGCTGATCGCGCAAGGGGCCATTGAGAGCGGCTGGGGA CGGTCGGTCATTGGCCAATACAATTTATTTGGCCGCAAATGGAATGGCACCGGCCCTTAC ATTGAACTGCCTACCCAGGAATACGAAGGCGGCCGCTATGTGACGATCCGGGCCAAGTTT CAGGACTACCCCAGCCTCTTGCACGCCTGCGACGACTGGTGCATTTTGATGACCCAGGAG CCGTGCTACTTTCCCGCCGTCGCCGCCCTGCCGGATATTACGCAGTTTGTGCGGCTGATG GGTGCCAAATATGCCACCGACCCGAATTATGCCAATAAAGTGTTAGCAACGATCCGCGCC AATAACTTAACCCGCTTTGACGCCTAAAAGGGCGTTTATTTTATTTGAGGAGGTTACCCC TATGAAATTCAATAAAACTAACAAAACCACGACTACCGCCGGTCGTAAAGTGGCCCCACT AGCCAAAGACGCGGCACCGTTTATTCCGGTGCAGAGCGCCATCAGTATCACGAGAACAGC GGTAATTCTGAACAAAGTAAAGGCATTCCTGAAGCCCTTTGTCCAAAAGTACCGTTCGAT CACCCTTGTGGTCATTGTCCTGCTGGCCGCCGTTATCGGCAAGCTCCTGGGGGTGCTGTG ATTGCACCGCCTTCCTTGGCTTGATAACTACGCAAGGGAGCTTTTAGGTCTTGCTTTAGC CATCATCATTTTTCTGGTTGGGTTGCTCGTTTGGAACAGGGCGCACCCACCGGTGCCAAT TACACTTGAATCACAGGAGCAGGCGGCGACGCCGGCCGGAGTGGACAGAGCGGCAAACGC CGCTCAAGTTCCCCTTTCGCCATCGCAAGCCGAAGCTATAGCCGGTGCGATTAAGAAAAG TGAAGAGAAAGTGCCGGATGTTGTGGTACAGACTACCGAGGCGAAATTGGAAGAGACGAT CAGGGGTGAACTGAAGAAATCTGGTGGACAATTTGCGATTGTCACCGACCCTAAACACCC GGACCGTATTCCTATTTTGCCGTTGGCCGGTACTGATCCAGCACCGAACGAGCCCATTGC CCCCAGTGCGCCGGTTATCTTGAATCAATATAACATCAAAGCCTATCCCGACCGTTTATT CCAGATTGGCGGCAGTTATCAGGAAGTGTTTGCTGCTTATAGCTGGAAGGTCGATGTCCC AAAGATACCGCTTATCATTCCTTACGGTAATACCGGGTACTTAGGAGTTTACGGGCATGC CAACCTGGACCGCCCAGATCAGTCGAGAATGGGAGTTATCCTGACGATACCGCATTAAGA AATACAGCCAATGTCCTATAGGAAGGTCTAGGGCATTGGCTGTATTAAGAAAGGGAGGGA CAATGATGGGAATACCTGAAAAAACAAATATGGAGTATCTAATCAGCAAGTACCTGTTAA AGCGACTGTTGAATAAAGGGTTGATCACCGAGGTGGAGTTTCAGCGTATCGATGCCGAGA ACAGAAAAAGTTTTGCCCAGTAACCGGATTTAACTTGCAATATAGCAGAAACAGAGTTAA CATGCCAGACAATAGGGGGGCTGGTGGTGGGCAAACGTATATTAAAAATCTATTCATCTG TGGCGTATTCTAAACCAAATGTACCCTGCATCATACTGCAAGGACAGTGGCTGTTGCGTC TAGGATTTAAAACCGGGAGCCATGTTGAAGTGGAACAAGGGGAGATGGAACTGGTTATTC GGCTGGTACAGGAAGAAAGCAATATGGACCATCAATGATACGACGGCTTGGTGATTGCTC CAAGCCTTATTTTTTTATCAAAATTAATATGTTTCCGCATCAGGA
Region Details
| Region | 1 |
| Region Length | 27.5Kb |
| Completeness(score) | incomplete(50) |
| Specific Keyword | recombinase,tail |
| Region Position | 106181-133765 |
| # tRNA | 0 |
| # Total Proteins | 14 |
| # Phage Hit Proteins | 9 |
| # Hypothetical Proteins | 4 |
| Phage + Hypothetical Protein % | 92.8% |
| # Bacterial Proteins | 1 |
| Attachment Site | yes |
| # Phage Species | 7 |
| Most Common Phage Name(hit genes count) | PHAGE_Pseudo_nickie_NC_042091(3) PHAGE_Achrom_JWF_NC_029075(3) PHAGE_Entero_BP_4795_NC_004813(2) PHAGE_Pseudo_PaMx11_NC_028770(1) PHAGE_Pantoe_vB_PagS_Vid5_NC_042120(1) PHAGE_Nitrin_1M3_16_NC_024217(1) PHAGE_Propio_PFR1_NC_031076(1) PHAGE_Rhizob_vB_RleS_L338C_NC_023502(1) PHAGE_Burkho_BcepGomr_NC_009447(1) PHAGE_Stenot_S1_NC_011589(1) PHAGE_Propio_PFR2_NC_031108(1) PHAGE_Pseudo_vB_PaeS_PAO1_Ab18_NC_026594(1) PHAGE_Pseudo_PaMx28_NC_028931(1) PHAGE_Entero_vB_EcoS_ACG_M12_NC_019404(1) PHAGE_Vibrio_VpKK5_NC_026610(1) PHAGE_Salini_M1EM_1_NC_042348(1) PHAGE_Salini_M8CR30_2_NC_042350(1) PHAGE_Rhodov_vB_RhkS_P1_NC_031059(1) PHAGE_Stx2_c_1717_NC_011357(1) PHAGE_Paraco_Shpa_NC_041868(1) PHAGE_Pseudo_phiCTX_NC_003278(1) PHAGE_Salmon_SSU5_NC_018843(1) PHAGE_Escher_Rtp_NC_007603(1) |
| First Most Common Phage # | 3 |
| First Most Common Phage % | 21.42% |
| GC % | 52.09% |
| 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|SLUI01000006.1| Anaerospora hongkongensis strain DSM 15969 Ga0310510_106, whole 306653, gc%: 46.70%
Download details as .txt file: detail.txt file_download
Hits against Virus and Prophage Database
Hits against Bacterial Database or GenBank File
Hits against Bacterial Database or GenBank File
Region 1, total 16 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | 106181..106193 | attL | 0.0 | Showinfo_outline |
| 2 | 116229..116570 | PHAGE_Stenot_S1_NC_011589: putative recombinase; EV210_106121; phage(gi213163907) | 5.18e-12 | Showinfo_outline |
| 3 | 116623..116910 | hypothetical protein; EV210_106122 | 0.0 | Showinfo_outline |
| 4 | 116910..117230 | ATP-binding sugar transporter Gifsy-2; EV210_106123 | 0.0 | Showinfo_outline |
| 5 | 117227..117814 | hypothetical protein; EV210_106124 | 0.0 | Showinfo_outline |
| 6 | 117818..118294 | hypothetical protein; EV210_106125 | 0.0 | Showinfo_outline |
| 7 | 118311..119267 | PHAGE_Pseudo_PaMx11_NC_028770: major tail structural protein; EV210_106126; phage(gi971741790) | 1.78e-19 | Showinfo_outline |
| 8 | 119281..119547 | hypothetical protein; EV210_106127 | 0.0 | Showinfo_outline |
| 9 | 119875..122607 | PHAGE_Paraco_Shpa_NC_041868: hypothetical protein; EV210_106128; phage(gi100015) | 4.61e-08 | Showinfo_outline |
| 10 | 122608..122946 | PHAGE_Pseudo_nickie_NC_042091: hypothetical protein; EV210_106129; phage(gi100027) | 2.95e-07 | Showinfo_outline |
| 11 | 122951..123574 | PHAGE_Salmon_SSU5_NC_018843: putative minor tail protein L; EV210_106130; phage(gi410491427) | 7.07e-10 | Showinfo_outline |
| 12 | 123558..123938 | PHAGE_Escher_Rtp_NC_007603: putative minor tail protein; EV210_106131; phage(gi81343969) | 2.47e-08 | Showinfo_outline |
| 13 | 123935..128368 | PHAGE_Achrom_JWF_NC_029075: hypothetical protein; EV210_106132; phage(gi985758663) | 6.19e-64 | Showinfo_outline |
| 14 | 128392..129735 | PHAGE_Achrom_JWF_NC_029075: hypothetical protein; EV210_106133; phage(gi985758664) | 2.46e-10 | Showinfo_outline |
| 15 | 129747..130808 | PHAGE_Achrom_JWF_NC_029075: Hom_end-associated Hint family protein; EV210_106134; phage(gi985758665) | 1.49e-11 | Showinfo_outline |
| 16 | 133765..133777 | attR | 0.0 | Showinfo_outline |
Sequence
>106181..106193
ATTAACTTGCTTT
Sequence
>116229..116570
AnaerosporahongkongensisMTPQFVFTQQGDIIDFTNTTDNPILPGNPVPLAGAFGIVTGNGIAPGATGPVVVRGVFLGPANPAVAYGQGDKLYWDPANHWLTNNATDTVYAGYAVQAKSTGTGSGYVKLHF
Sequence
>116623..116910
AnaerosporahongkongensisMAVYETTVLTNRMPLRKLITAAITGTLEDTLVFSQAMTRFVAHNTGTEPLTFSINGDPDLTDTLAAGEAIDDEFPEFDHVILSGTVGSAYKVRVG
Sequence
>116910..117230
AnaerosporahongkongensisMSIKEQIARDNAIFLDLDAFAELILYNGRQIPAVVTLGDSAMRGNTFETKGSSAVATLQIAASDVPSPDTGDQVVYQSATWEVTNILESDSAMHLVQMICQASPWS
Sequence
>117227..117814
AnaerosporahongkongensisMINVDFYLIDGATPWLEYMATTKPDWLRKALKSFGWYSQQQIKAGIKSRAPGGRAYAEFMPPDMRARLEAVFGNSPKKRYSPLGKLVNAVGYEFDAGKQIVRVGWLSDSAVRLGENIEQGYSKAITDKMRRYFWAAGVSLSAKSEINVAARHTFGPMQAILAPKAAAHIEDKILEYARTGAPPSRKQTRKYRVRG
Sequence
>117818..118294
AnaerosporahongkongensisMFPTIPITVFIQKWRDAIAGSAAISSFCMQKYHKPLSLYVGIDGKKPPNDKNCPLVIVFPGGKVEGGGEEVCRYTGSIGWSIIQPQVTQRDGITENTGLFEADELGQLILTTIAEINPSYPVTHVEYSFESNDFFPQFPGRMDVTIQVPVRMGTQITY
Sequence
>118311..119267
AnaerosporahongkongensisMIQAQGYRGRLALAYETAYGVTPPSPSGFILPITSSKITAKQSLIEDKTIRGVRDVAPPGMGNIDVQGPVVVPVDEINIGYWLKGLFGSPDTTDSGTSPYTHTFKPGFSQPSLCLEQQFPDIGQYFLYNGCKVSKFSTAFEVSNQDLQATIDIMGGKETLATASFLVEPIIRPMSKFGAFMASILDDGQLLANVTKVELTVDTGLDGSVYTLGGGGFRGSLPEGMLAVTGTVTAIFDSMALLNKAVAGATSSIELNLSNPLSGSSLNILLPEIIYERTSPGIDGPKGVSISLPFRAFYNTNASGVSIVATLTNSEPTY
Sequence
>119281..119547
AnaerosporahongkongensisMSKITLPAARSLNRRERKALKAAGADPQFRPDGATIAELNDRIVEFISKEIYHIDGPEYDEVPYADFIALADKTYRLTYALADDVKNS
Sequence
>119875..122607
AnaerosporahongkongensisMAASNIVQIIIQAMDSASSVFKTIGDNSGRMGDSVSAAMDKSTKDIAKAQAAVIGLKDNMISSIGSIKGLIANFGMVGIGASIVSAAQSWSDAVFNLRRVIGGTAEDASKLLAIGKYAGVSIDEAAGYFAKLGKAVSAAKDQMQKAAVEGKRSDDIFSRLGLSFDQINNKNVSEVFTMIADKMRNMADGADKDRVAMDLFGETGLKVAGMLSLSRQEIETITEKARESGLIVSNETVDGWRKLTREMRSVIGIGTTLAVQIGNSLLPVLQDKVSTLKAISDRYRVLSPEMQRAIGLTIIATGEFSAYLIGAKGIAAFAPAFGASLLGPWGVAIAAIGLAIKGAMDYFSLQNKVASYNPKAVVKKINGQYYKEVESETPPNLLGMTFKGTRLQPLSDAELEEQKKYELDPAQYNAQKLLDDLNKLKEQPTVLAPPYIDTSAAAQAAEVAAEKLERANAQAQQLMTDLERRIMENSGTAHESGMAKITAEVTRMQNQAAQIASAGGDTSGLAEKITLYQEKAAGKVREVWQQAWTDIKNQTALIGAQLINDKQAQADIEYQIELDKIAREKEARLKAIAVDDNDQEAKTEVEAWAKGQQNLALQKRDTAKTDAKLKEYQDALTYNSLLINLEGKTRQQADALRQEDLAAEIAYLQQKLQETTLNTEQRLALQKSLNDAMNQQYELDAMNYDTAFSAAFRNIENRQTNYAQTIEQTWDQVYASAQDNLNKMAFEGESATKALENFFKDMVESIEKMFLKMWSDKYIMGPLQQLFGQILGVPTAGTPSASAGGSSKQLSSIPSKAEVDPIQTFAAGGYNPGGWSIVGEEGPELAYFGNPAHIYTASQTQALLTPSAGSAAPKVNVTVINKTGQQVQVSQQASFDPATQSMLVQMVIDGVQNNVAGSRDFFFGRG
Sequence
>122608..122946
AnaerosporahongkongensisMSYPMFPAIQPPAFPADDLFPDNKISSPTDGGYTVSRPRYTRTQMGGAYTWPAMPHADYQQFKAFVQANYAHIFVWTDPITSRQVNMQFTAVPKASMVSPGFWHVEIAIMEA
Sequence
>122951..123574
AnaerosporahongkongensisMPLAFSSAGLIEKNKLASDLPWIVLVELQLPNGESAHLAKNNETVTWNGVSWEPIPMLLSDNTQDMKAMSTITIQVSNVSGAVQAYLEEYNGLTDCTVIIRLVHAAHLNASVPEIEEQFTIQKTAYDEEWVTFTLGSDFWLFFRALADRYLPDFCCWKYGSIKCGVPAVTLARYPACHHTLADCKQRGNSLRFGGCPGMGGFYASNI
Sequence
>123558..123938
AnaerosporahongkongensisMHRISDLVGKPFRDDAMGPDSYCCWGLAVEVFRRFGILLPDYRAACASVAGGVTSNREQWVRCAGEISVPALMVFTTAGICDHVGVYLGGGRFIHAHEAGGVTIVPINHIFWKKRIEGYYLPGWLS
Sequence
>123935..128368
AnaerosporahongkongensisMKLIFVRNPIAPDKRDIWHINTKATIAEHIMPILREWPNTDFTVSVNGHLLEKEEWSTLVPGDEDNVVVHPMLDKGLSNFFRAIVSVALMSYVGGVFGKLGGNSFWKSVFTAVGQYVGGRIANAILPPPKQEEQQQSSTYGWGGPRPTDRPGTPVAKTYGTVRVAPVLLARHVTSDGSNQYLNLLYSGGEGPVDSIDNIFIDGNPIGNYLHVTYDIRLGTNDQPPIANFNDTITDYQLGYELNTEGDWATEQTVGTAVQGLQITVQFPYGLARVKDDGGLGTASVTVAAQYRRAGYGAWQEWPLESGGTTSDSKNTSIWTTYRLDNLPPGQYVVRVRCARKSGTSTRDLTRVFWTMLSTILYDDFAYPNRVLVGIRALATNQLSNSDPVVTWEQTRLTVYVWNPDTSQYEQRRASNPFWASYDLIHQCKYLMNINNGQYEYCVDGNPTSRIDYSAFAAAAAYADQQWVDGDYRFSLNIYLSENLSFWDALARFSIVGRGVIIPKGTLYSCICDRPSEPVQLFTVGNITAKSFKGEFQSTKDRATSVEVTFYNKDKDYSSDQAIYYGPNYESTALAANPVQTTYYGITDYKHAYTEAAYLSRCNQYLIRTEHWDADIDAMACVLGDVIDLQHDIPKWGDAGGRIVSATETTVTLDKEVTLLAGRSYAIKIRLYTDQIIQVPVKGYAQNIITNTLTVTTPFPVMPEKYDIYAFGSSNVVTKPFKIVNIAKSGDQKVKITGIEYIAAVYEETIDAPILQYSGYERSLVEVSVVSVNQETYLQPDGGMVSVIHVSWPVPSGYVQGYSVWYSEGVGGNWLLWESGIRSAGTTITGVKALTTYVVKVSTTNDIGMVSPGIVSESLYISGKTTPPANVAGFAYREVTGGFLLSWRANTEMDLDGYNIYQGMNGAAMAASVLIAERIMSTSLFVPIGQAGIVAFHIVAIDTSGNASVAPATVLASFAVPPDVTGFDVVRIGDHLDFRWQAIAGTGTTYTYEIRRGANWNVGQRIGKTTSPYYNCLFPTPGDHNFWLKAVDGYGNYSINAVNARVIIMDAGNRNAIVTIDQVANGWTGAMFNVYVRDGGLQLADGAVRGQHIVEVNLPKSFTARNTILADMIGVEHTGITWESAHFTWDNVEAQTPWEPDGDITGITLEHRISLFKGIPATIIESIPLDGAVNGDRGTLARQAANVTFDSGPFRQGAVIQDTTQISWDIHIPSLYNVVFYVSLAEPIVDNSVYLTLVGPEGHLMAGYDVRKDVFYLEDQFGHRNEVAVDYMDMDWLTVGIVQTETTRKLYVYSFSANAAGSSEELMGLWETSRPLFYIQNAINNQEVLMEVKNVQVTGSLTLTLRKADGAVEVCRKDNIIVSSGFDAICDSLGKTSGRPSAFGYIALGTGATAPAIGQTALVSEIARQAATYAHVAGTQVMTFSSTFGPGAATGAITEAGVFNASSAGTMLDRVLFNVINKGENDTLTAQFQFTLS
Sequence
>128392..129735
AnaerosporahongkongensisMAYVTTIDISSLPGSAYSWDTARFTWDAPDGGKTWDEAKPMVYTLRVGEGWATGKAWQQQYQLMSREGWQMAEAWSQALARFILEAWQVSEQWSDVWLAQVKLAESWGVAEILEKAAFISQAEGWAMTDTLAQSSIKMCLESWTLAEVLTKIAVKLEQEGWMTGEVTARLATIDSREFWQTADRPPVWNMLRTITEDWNTDEEDQETVDFHYLVFESALLSEGLASAVTKPFTETLAVSEVWVMETIKKVWEVWQTQDSAATQSSFERVLAESFAMADAHSKDQITAFFEAIQAVETYLRSANAVVSDLAFSTGDLSLDEFLKLNSPVGYSPFTTFVPGELEYRKALIALVLKGPLTTGRPRVTDWRLTVDVPDQTDSGTCTIPAANTFIPFQRRFYAPPQVLVQLRGGGGGTPDVTHITEVGFYVQINDMSGGLIAGDIIWSADGY
Sequence
>129747..130808
AnaerosporahongkongensisMQQFVPIAGTQTLTDSRTEILNNDRTIMSCSSGTAFPTTNMEVGMLCFRTDLNQVFELKNLTPTWVLIADLNKTYTNKEFVDAQIATRVPFSEIVTVPTANKILRLDANGNLPASITGNAVTATTATTALAVAWSGITGKPMTFIPPIATTTTIGGIIAGSGLSINSSGILSADIPATPSRGYRMFLYSGTFTVPEGVEEVWLSMCGGGGGGKQGHYVNEGDSHSGGGGGGAHAILAQNTAVTPGEVITITVGAGGNAGSAGGTSSFGPYVSCAGGGGATGTSDSGNAGGPGGSPGTIGELFGSVGTGGGCIFGQGSGKPTVNAGGFGAGGAGGGSGGAAGSKGSQGFVLIQW
Sequence
>133765..133777
ATTAACTTGCTTT
Click on a region to see details.
Intact (score > 90)
Questionable (score 70-90)
Incomplete (score < 70)
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Questionable (score 70-90)
Incomplete (score < 70)
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Length: 306653 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.
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Click on a sequence to see details.
Locus 1: attL (Region 1)
Locus: attLORF Start: 106181
ORF Stop: 106193
Strand: Forward
Protein Sequence: ATTAACTTGCTTT
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 2: EV210_106121 (Region 1)
Locus: EV210_106121ORF Start: 116229
ORF Stop: 116570
Strand: Forward
Protein Sequence: MTPQFVFTQQGDIIDFTNTTDNPILPGNPVPLAGAFGIVTGNGIAPGATGPVVVRGVFLGPANPAVAYGQGDKLYWDPANHWLTNNATDTVYAGYAVQAKSTGTGSGYVKLHF
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: EV210_106121, putative recombinase, phage(gi213163907), PHAGE_Stenot_S1_NC_011589
Homolog/Ortholog E-Value: 5.18e-12
Locus 3: EV210_106122 (Region 1)
Locus: EV210_106122ORF Start: 116623
ORF Stop: 116910
Strand: Forward
Protein Sequence: MAVYETTVLTNRMPLRKLITAAITGTLEDTLVFSQAMTRFVAHNTGTEPLTFSINGDPDLTDTLAAGEAIDDEFPEFDHVILSGTVGSAYKVRVG
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: EV210_106122, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 4: EV210_106123 (Region 1)
Locus: EV210_106123ORF Start: 116910
ORF Stop: 117230
Strand: Forward
Protein Sequence: MSIKEQIARDNAIFLDLDAFAELILYNGRQIPAVVTLGDSAMRGNTFETKGSSAVATLQIAASDVPSPDTGDQVVYQSATWEVTNILESDSAMHLVQMICQASPWS
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: EV210_106123, ATP-binding sugar transporter Gifsy-2
Homolog/Ortholog E-Value: N/A
Locus 5: EV210_106124 (Region 1)
Locus: EV210_106124ORF Start: 117227
ORF Stop: 117814
Strand: Forward
Protein Sequence: MINVDFYLIDGATPWLEYMATTKPDWLRKALKSFGWYSQQQIKAGIKSRAPGGRAYAEFMPPDMRARLEAVFGNSPKKRYSPLGKLVNAVGYEFDAGKQIVRVGWLSDSAVRLGENIEQGYSKAITDKMRRYFWAAGVSLSAKSEINVAARHTFGPMQAILAPKAAAHIEDKILEYARTGAPPSRKQTRKYRVRG
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: EV210_106124, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 6: EV210_106125 (Region 1)
Locus: EV210_106125ORF Start: 117818
ORF Stop: 118294
Strand: Forward
Protein Sequence: MFPTIPITVFIQKWRDAIAGSAAISSFCMQKYHKPLSLYVGIDGKKPPNDKNCPLVIVFPGGKVEGGGEEVCRYTGSIGWSIIQPQVTQRDGITENTGLFEADELGQLILTTIAEINPSYPVTHVEYSFESNDFFPQFPGRMDVTIQVPVRMGTQITY
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: EV210_106125, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 7: EV210_106126 (Region 1)
Locus: EV210_106126ORF Start: 118311
ORF Stop: 119267
Strand: Forward
Protein Sequence: MIQAQGYRGRLALAYETAYGVTPPSPSGFILPITSSKITAKQSLIEDKTIRGVRDVAPPGMGNIDVQGPVVVPVDEINIGYWLKGLFGSPDTTDSGTSPYTHTFKPGFSQPSLCLEQQFPDIGQYFLYNGCKVSKFSTAFEVSNQDLQATIDIMGGKETLATASFLVEPIIRPMSKFGAFMASILDDGQLLANVTKVELTVDTGLDGSVYTLGGGGFRGSLPEGMLAVTGTVTAIFDSMALLNKAVAGATSSIELNLSNPLSGSSLNILLPEIIYERTSPGIDGPKGVSISLPFRAFYNTNASGVSIVATLTNSEPTY
Homolog/Ortholog Species: Tail protein
Homolog/Ortholog Protein: EV210_106126, major tail structural protein, phage(gi971741790), PHAGE_Pseudo_PaMx11_NC_028770
Homolog/Ortholog E-Value: 1.78e-19
Locus 8: EV210_106127 (Region 1)
Locus: EV210_106127ORF Start: 119281
ORF Stop: 119547
Strand: Forward
Protein Sequence: MSKITLPAARSLNRRERKALKAAGADPQFRPDGATIAELNDRIVEFISKEIYHIDGPEYDEVPYADFIALADKTYRLTYALADDVKNS
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: EV210_106127, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 9: EV210_106128 (Region 1)
Locus: EV210_106128ORF Start: 119875
ORF Stop: 122607
Strand: Forward
Protein Sequence: MAASNIVQIIIQAMDSASSVFKTIGDNSGRMGDSVSAAMDKSTKDIAKAQAAVIGLKDNMISSIGSIKGLIANFGMVGIGASIVSAAQSWSDAVFNLRRVIGGTAEDASKLLAIGKYAGVSIDEAAGYFAKLGKAVSAAKDQMQKAAVEGKRSDDIFSRLGLSFDQINNKNVSEVFTMIADKMRNMADGADKDRVAMDLFGETGLKVAGMLSLSRQEIETITEKARESGLIVSNETVDGWRKLTREMRSVIGIGTTLAVQIGNSLLPVLQDKVSTLKAISDRYRVLSPEMQRAIGLTIIATGEFSAYLIGAKGIAAFAPAFGASLLGPWGVAIAAIGLAIKGAMDYFSLQNKVASYNPKAVVKKINGQYYKEVESETPPNLLGMTFKGTRLQPLSDAELEEQKKYELDPAQYNAQKLLDDLNKLKEQPTVLAPPYIDTSAAAQAAEVAAEKLERANAQAQQLMTDLERRIMENSGTAHESGMAKITAEVTRMQNQAAQIASAGGDTSGLAEKITLYQEKAAGKVREVWQQAWTDIKNQTALIGAQLINDKQAQADIEYQIELDKIAREKEARLKAIAVDDNDQEAKTEVEAWAKGQQNLALQKRDTAKTDAKLKEYQDALTYNSLLINLEGKTRQQADALRQEDLAAEIAYLQQKLQETTLNTEQRLALQKSLNDAMNQQYELDAMNYDTAFSAAFRNIENRQTNYAQTIEQTWDQVYASAQDNLNKMAFEGESATKALENFFKDMVESIEKMFLKMWSDKYIMGPLQQLFGQILGVPTAGTPSASAGGSSKQLSSIPSKAEVDPIQTFAAGGYNPGGWSIVGEEGPELAYFGNPAHIYTASQTQALLTPSAGSAAPKVNVTVINKTGQQVQVSQQASFDPATQSMLVQMVIDGVQNNVAGSRDFFFGRG
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: EV210_106128, hypothetical protein, phage(gi100015), PHAGE_Paraco_Shpa_NC_041868
Homolog/Ortholog E-Value: 4.61e-08
Locus 10: EV210_106129 (Region 1)
Locus: EV210_106129ORF Start: 122608
ORF Stop: 122946
Strand: Forward
Protein Sequence: MSYPMFPAIQPPAFPADDLFPDNKISSPTDGGYTVSRPRYTRTQMGGAYTWPAMPHADYQQFKAFVQANYAHIFVWTDPITSRQVNMQFTAVPKASMVSPGFWHVEIAIMEA
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: EV210_106129, hypothetical protein, phage(gi100027), PHAGE_Pseudo_nickie_NC_042091
Homolog/Ortholog E-Value: 2.95e-07
Locus 11: EV210_106130 (Region 1)
Locus: EV210_106130ORF Start: 122951
ORF Stop: 123574
Strand: Forward
Protein Sequence: MPLAFSSAGLIEKNKLASDLPWIVLVELQLPNGESAHLAKNNETVTWNGVSWEPIPMLLSDNTQDMKAMSTITIQVSNVSGAVQAYLEEYNGLTDCTVIIRLVHAAHLNASVPEIEEQFTIQKTAYDEEWVTFTLGSDFWLFFRALADRYLPDFCCWKYGSIKCGVPAVTLARYPACHHTLADCKQRGNSLRFGGCPGMGGFYASNI
Homolog/Ortholog Species: Tail protein
Homolog/Ortholog Protein: EV210_106130, putative minor tail protein L, phage(gi410491427), PHAGE_Salmon_SSU5_NC_018843
Homolog/Ortholog E-Value: 7.07e-10
Locus 12: EV210_106131 (Region 1)
Locus: EV210_106131ORF Start: 123558
ORF Stop: 123938
Strand: Forward
Protein Sequence: MHRISDLVGKPFRDDAMGPDSYCCWGLAVEVFRRFGILLPDYRAACASVAGGVTSNREQWVRCAGEISVPALMVFTTAGICDHVGVYLGGGRFIHAHEAGGVTIVPINHIFWKKRIEGYYLPGWLS
Homolog/Ortholog Species: Tail protein
Homolog/Ortholog Protein: EV210_106131, putative minor tail protein, phage(gi81343969), PHAGE_Escher_Rtp_NC_007603
Homolog/Ortholog E-Value: 2.47e-08
Locus 13: EV210_106132 (Region 1)
Locus: EV210_106132ORF Start: 123935
ORF Stop: 128368
Strand: Forward
Protein Sequence: MKLIFVRNPIAPDKRDIWHINTKATIAEHIMPILREWPNTDFTVSVNGHLLEKEEWSTLVPGDEDNVVVHPMLDKGLSNFFRAIVSVALMSYVGGVFGKLGGNSFWKSVFTAVGQYVGGRIANAILPPPKQEEQQQSSTYGWGGPRPTDRPGTPVAKTYGTVRVAPVLLARHVTSDGSNQYLNLLYSGGEGPVDSIDNIFIDGNPIGNYLHVTYDIRLGTNDQPPIANFNDTITDYQLGYELNTEGDWATEQTVGTAVQGLQITVQFPYGLARVKDDGGLGTASVTVAAQYRRAGYGAWQEWPLESGGTTSDSKNTSIWTTYRLDNLPPGQYVVRVRCARKSGTSTRDLTRVFWTMLSTILYDDFAYPNRVLVGIRALATNQLSNSDPVVTWEQTRLTVYVWNPDTSQYEQRRASNPFWASYDLIHQCKYLMNINNGQYEYCVDGNPTSRIDYSAFAAAAAYADQQWVDGDYRFSLNIYLSENLSFWDALARFSIVGRGVIIPKGTLYSCICDRPSEPVQLFTVGNITAKSFKGEFQSTKDRATSVEVTFYNKDKDYSSDQAIYYGPNYESTALAANPVQTTYYGITDYKHAYTEAAYLSRCNQYLIRTEHWDADIDAMACVLGDVIDLQHDIPKWGDAGGRIVSATETTVTLDKEVTLLAGRSYAIKIRLYTDQIIQVPVKGYAQNIITNTLTVTTPFPVMPEKYDIYAFGSSNVVTKPFKIVNIAKSGDQKVKITGIEYIAAVYEETIDAPILQYSGYERSLVEVSVVSVNQETYLQPDGGMVSVIHVSWPVPSGYVQGYSVWYSEGVGGNWLLWESGIRSAGTTITGVKALTTYVVKVSTTNDIGMVSPGIVSESLYISGKTTPPANVAGFAYREVTGGFLLSWRANTEMDLDGYNIYQGMNGAAMAASVLIAERIMSTSLFVPIGQAGIVAFHIVAIDTSGNASVAPATVLASFAVPPDVTGFDVVRIGDHLDFRWQAIAGTGTTYTYEIRRGANWNVGQRIGKTTSPYYNCLFPTPGDHNFWLKAVDGYGNYSINAVNARVIIMDAGNRNAIVTIDQVANGWTGAMFNVYVRDGGLQLADGAVRGQHIVEVNLPKSFTARNTILADMIGVEHTGITWESAHFTWDNVEAQTPWEPDGDITGITLEHRISLFKGIPATIIESIPLDGAVNGDRGTLARQAANVTFDSGPFRQGAVIQDTTQISWDIHIPSLYNVVFYVSLAEPIVDNSVYLTLVGPEGHLMAGYDVRKDVFYLEDQFGHRNEVAVDYMDMDWLTVGIVQTETTRKLYVYSFSANAAGSSEELMGLWETSRPLFYIQNAINNQEVLMEVKNVQVTGSLTLTLRKADGAVEVCRKDNIIVSSGFDAICDSLGKTSGRPSAFGYIALGTGATAPAIGQTALVSEIARQAATYAHVAGTQVMTFSSTFGPGAATGAITEAGVFNASSAGTMLDRVLFNVINKGENDTLTAQFQFTLS
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: EV210_106132, hypothetical protein, phage(gi985758663), PHAGE_Achrom_JWF_NC_029075
Homolog/Ortholog E-Value: 6.19e-64
Locus 14: EV210_106133 (Region 1)
Locus: EV210_106133ORF Start: 128392
ORF Stop: 129735
Strand: Forward
Protein Sequence: MAYVTTIDISSLPGSAYSWDTARFTWDAPDGGKTWDEAKPMVYTLRVGEGWATGKAWQQQYQLMSREGWQMAEAWSQALARFILEAWQVSEQWSDVWLAQVKLAESWGVAEILEKAAFISQAEGWAMTDTLAQSSIKMCLESWTLAEVLTKIAVKLEQEGWMTGEVTARLATIDSREFWQTADRPPVWNMLRTITEDWNTDEEDQETVDFHYLVFESALLSEGLASAVTKPFTETLAVSEVWVMETIKKVWEVWQTQDSAATQSSFERVLAESFAMADAHSKDQITAFFEAIQAVETYLRSANAVVSDLAFSTGDLSLDEFLKLNSPVGYSPFTTFVPGELEYRKALIALVLKGPLTTGRPRVTDWRLTVDVPDQTDSGTCTIPAANTFIPFQRRFYAPPQVLVQLRGGGGGTPDVTHITEVGFYVQINDMSGGLIAGDIIWSADGY
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: EV210_106133, hypothetical protein, phage(gi985758664), PHAGE_Achrom_JWF_NC_029075
Homolog/Ortholog E-Value: 2.46e-10
Locus 15: EV210_106134 (Region 1)
Locus: EV210_106134ORF Start: 129747
ORF Stop: 130808
Strand: Forward
Protein Sequence: MQQFVPIAGTQTLTDSRTEILNNDRTIMSCSSGTAFPTTNMEVGMLCFRTDLNQVFELKNLTPTWVLIADLNKTYTNKEFVDAQIATRVPFSEIVTVPTANKILRLDANGNLPASITGNAVTATTATTALAVAWSGITGKPMTFIPPIATTTTIGGIIAGSGLSINSSGILSADIPATPSRGYRMFLYSGTFTVPEGVEEVWLSMCGGGGGGKQGHYVNEGDSHSGGGGGGAHAILAQNTAVTPGEVITITVGAGGNAGSAGGTSSFGPYVSCAGGGGATGTSDSGNAGGPGGSPGTIGELFGSVGTGGGCIFGQGSGKPTVNAGGFGAGGAGGGSGGAAGSKGSQGFVLIQW
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: EV210_106134, Hom_end-associated Hint family protein, phage(gi985758665), PHAGE_Achrom_JWF_NC_029075
Homolog/Ortholog E-Value: 1.49e-11
Locus 16: attR (Region 1)
Locus: attRORF Start: 133765
ORF Stop: 133777
Strand: Forward
Protein Sequence: ATTAACTTGCTTT
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
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