Submission Results
Sequence Name: Not Available
GenBank Accession Number: 1567626728 open_in_new
GenInfo (GI) Number: 0000000000 open_in_new
Download Results: 1567626728.PHASTER.zip
gi|00000000|ref|CP035538.1| Klebsiella pneumoniae subsp. pneumoniae strain CCRI-21711 plasmid 48698, gc%: 53.43%
Download summary as .txt file: summary.txt file_download
Total: 3 prophage regions have been identified, of which 0 regions are intact, 3 regions are incomplete, and 0 regions are questionable.
| Region | Region Length | Completeness | Score | # Total Proteins | Region Position | Most Common Phage | GC % | Details |
|---|---|---|---|---|---|---|---|---|
| 1 | 9.6Kb | incomplete | 20 | 9 | 262-9884 info_outline | PHAGE_Entero_P1_NC_005856(3) | 51.42% | Show info_outline |
| 2 | 23.5Kb | incomplete | 30 | 6 | 3900-27461 info_outline | PHAGE_Staphy_SPbeta_like_NC_029119(3) | 52.37% | Show info_outline |
| 3 | 15.7Kb | incomplete | 30 | 11 | 15621-31371 info_outline | PHAGE_Staphy_SPbeta_like_NC_029119(2) | 53.44% | Show info_outline |
Region DNA
>1 262-9884 TTACGCACCGGGCTCCTGCCTCGGGTGTCTGGCGGTGAACCGCTCCACAGGCCATGGATGAAGAACCCGA ACCCTTGGTAGCCATGCGGCTGCCAGTTTGTTTGCTTTCGTCCAGGTCGTATCATCCTTCTGGCTCCTGC GCCTGAGCGCCCGGCGCCAGAGGTTTGTTACGTGTGTCCTGAACTTCTGCATGGTGGGGAAGTTGCCCGG TACCGAGTGATAGTTCAGGTATCCCTGAACCACTCTCCTGAGCCATTTTCCCTGTTCGGGGATTGAGTAA TGCCAGCGCCTTCGCAGACCGTCTTTGATGGCTTTCAGAGTTGCCGTCATCCGATCCCGGCGGGTCTTTC GTATCAGCATGAACCTGCCGTTGCGATCTTTCCCGCTGATGTGCGTGAACCCGAGGAAGTTGAACGTTTC TGGTTTGCCTTTTCCCCTGATGGCACGGTTTTCGGCAGCGAAGCGGCCGAACTCCATCAGACGGGTTTTC TCCGGGTGAACCGTGAGTCCGAACTCCCTCAGTCTGCGCTGCATGGCTATACGGAAGCGCCGGGCATCGT ATCGTTTGTCGAACCCGATGACGATGTCATCGGCGTATCTGACCATTACCACATTGCCTGTGGCATAGCG ACGTCGCCACTGATGCGCCCACAGATCGAAGACGTAGTGGAGGTATATGTTTGCCAGCAGCGGTGAGATG ACCGCACCCTGTGGGGTGCCTTCCTCCGTTGCTCGCCATTGACCCTCCTCCGACGTCCCGGCTGTGAGCC ACTTACGTATGAGCCTGATTACCCTCCGGTCGCCGATCCGATGCTCTGTGAACCTGATCAGCCATTCGTG GCTCACCCTGTCAAAGAACTGACTGATGTCGGCATCCAGTACCCAGTTTACGTTAGTGCGTACCAGCCCT GTGGCCAGTGCGTCCAGTGCATCGTGCTGGCTTCGCCCGGGTCTGAACCCGTATGAGAACCCCATAAAGT CGTTTTCATAGACTGCGTTCAGGATTTTCACCAGCGCATACTGGACGATCTTGTCCTCCAGCGAGGCGAT GCCGAGCGGGCGTTGTTTTCCATCCGCTTTTGGGATGTAGTGACGCCTGCCGGGCTGCGCCCTGTAGCTG CCCTGATGTAGCCTCCGGTGCAGATCTGTTATGTTGTTCTTCATGTTTCCGGCGTAGTCCATCCACCTGA TGCCATCCACTCCGGCGGCCGCTTTCCTGCTCAGGGAGAGGAATGCGGCTTCCAGTGCTTCGACTGTCAG CAGGTGGAACAATGCTGTAAACCGTTCTTTCTTCCGCTGCTTCGCAGCTTCCCGCACGCGTGACAGCCTC TGTGACATGCTTTCCCGGCTCTGTGTCCGGCGCATGTGTGGCTGTTCCGCGTTCCCCTTGGCCCCGCTCC TTCGCTCCACTGACTCCGCTCCTTTCGGGTTGTTCGCCTGCTTCGCCGCTACTATGAGCGAGTCCGACTT CTCCTCTCCGTACATCACCGGCTATGATTCCTCGTCTTCCCGGTGCGGGCCATCTCCGACACTGGCAGAT GGTCAGAGGGGAGATCTCCCGGTTCCCGCGTAGAGATCGTATTGACATGCCAGGGTCTCAGACCCCGCCG GGTCCATGTGGCACTCGCAGTATCGCACCCTATGATGTTGCCTTCCGTTAACAGTACAACGTCGGCACCC GGTAATTTAATATACATTTCGTGGCTCAATGGCTGGCCTGTCAACACCCCTGTCAACGCTTCGCCCCATA CCTCGCGGTATGCAACGCATGACTCGGGGACCTTGTGGATTGCTGGTCCTTCAATGGTCGGGGACTTTCA CCCCTTGATCTCTACCGGTCTCCCGGCGCACACTGTATGTATAACCAGTAAAATTAGAGTGTCAGGAGGA AAGATGAAACTACAACTTTTCAGCACCGGGAAAGAACTCCCGCCACAGGCCCATCCATTGTTTGCCGATC TGGCCAGCTGCGGTTTTCCCAGCCCTGCTGCTGACTATGTCGAGTCCGATCTGGATCTCCATGATTACTG CATACGGCATCCGAGCGCGACGTACTACCTGCGTGCCAGCGGAGACAGCATGGCCGACGGCAGTCTGTAC AATGGCGATCTGCTGGTTGTGGACAGTGCTGAAAAGCCGCGGCACGGCGATATCGTTGTCGCCAGCATGC AGGGGGAGTTTACGGTGAAACGGCTTCTGCTGACGCCGCGACTGACGCTGCAGCCCATGAATGCCTCCTG GTCGCCGATTTATCCTGATCCCGACGAGCTGGATATCTTTGGCGTCGTCACGCATATCATCCACCGCCCG AGGGAGATGTACTGATGTTTGCCCTGGCCGATGTGAACAGCTTCTATGCCAGCTGTGAACGTGTTTTCCG CCCGGATTTGAAAGGAAAGCCGATAGTCGTCCTGAGCAACAACGACGGGAATGTAATCGCTCGCAGTGCC GAGGCGAAGCCCTGGATCAAAATGGGAACTCCGTGGTTTCAGATAAAAAACGAAAGATACCCGGAAAAAA TATATGCGTTTTCAAGTAATTATGAACTTTACGCCTCGATATCGGCGCGCGTGATGAACTGCCTGGAGGA ACTGGCCCCCAGGGTGGAACAGTATTCAATTGATGAGATGTTCCTCGACCTGACCGGCGTGGAGCACTGT ATGGGGCTTGAGGACTTCGCCCGGCAGCTGCGTCAGCAGGTGTATGACTGTACCCGCCTGACCATTGGCG TGGGCGCCGGACCAACGAAAACCCTCGCAAAATCAGCCCAGTGGGCCTCAAAAGAGTGGAAACAGTTTCA TGGCGTACTCGCTCTGACCAGGGGAAATCCGCAAAGGACGCGGAAACTGCTTTCACTGCAGCCGGTTGAA GAAATCTGGGGGGTGGGTAACCGTATTGCACGCAAGCTAAATGTGCTGGGCATAAAAACCGCGCTCGATC TGGCTCTGACGAACCCGGCCTTCATCCGCAAAAATTTTTCTGTCGTCCTTGAGCGAACGGTACGGGAACT GAACGGGGAAAGCTGCCTTTCGCTTGAGGAAGCCCCTCCGACGAAACAGCAAATTGTCTGCAGCCGCAGT TTTGGCGTGAAGATCACGGAGTACGAGTCACTCCGTCAGGCTATCTGTCAGCACGCAGAGCGGGCCTCTG AAAAACTGCGTAAAGAGCACCAGTATTGCCGGCATATTTCCGTTTTCATCAAAACGTCTCCGTTCGCCAT TAAAGAGCCTTACTACGGCAACGTGGCTACGGAAAAACTTCTTACACCCACTCAGGACACCAGGGACATC ATTGCAGCCGCTACAACGGCTCTGGAGCGTATCTGGAGGGATGGGCACCGGTATGCCAAAGCCGGAGTTA TGCTGAATGACTTCACCGGCTCCGGAGTTTCGCAGCTGCAACTGTTCGACGAACGCCCGCCACGCCCTCA CAGTGCTGAGCTGATGAGGGTTCTGGACGGGATCAACAACTCAGGGCTGGGTAAAGTATGGTTTGCGGGG CGGGGTATGGCCCCGGAATGGCAGATGAAACGGGAGATGCTTTCTCCTGCTTATACGACACGATGGTCAG ATATTCCTGCAGCGAAACTGGCGTGAAACCATGGCGATTTCACCGTGAAATTCTCAACCTAAACTGCCTA ATTACAATAAGTTAGATGTGAAATCGCCATGGCGAAATTATTGACTCAAATTTCTGTCAAGGACTTCGTT GATAGCCTTGTCCAGTTCATCCTGAATCACTTTTGACATACGGCTAAACTCATAAGTCAGCGTGCGCCCT TTCACACGCTTACGCGCGAACTTGTCCTTTTCTTCAAAAGACCAGAGTGGGGAAACCACTGACTTTTCCT TGGGAGATGGATCTATCAATGCCTGAGATGCCTGAGAAATCAGCTTCAGAATACTGGCTTTCTGTTCGTC TTCTGGTCGCTCGCCATCACTCAAAATTGCATCGAGCTGAGCTGATACAGACTGAATGAGTTCTTCAGGC GTTAATCCCTTTTCACCGAGTTTTTCATTAACTTCTAAAAGAAGTTTATAATCACTAAACGATAGCTCCG ACTGAACCGGGAACAGAGAAATTAAGTCTTGCGGTACGGCCGCCGCCTGCAGCGCCCTGGTAACTTTAGC CTGAGATAATCCCTCCAGTTCAGCAATTTCCTTTTGATTAAATCCGGACTCTTTAAGAGCGATCAATCTC AGACCAATCTCCCGAAGATTATGTTCTTTAGCTGTCTGGATATCTTTAGCCAGTTGGCGAGCTTCATCAG CTGATAAATGTTCTTCGGTAACCATTACATCAAGGCCTGTACGGACAAAAATTGCTGAGGCTCGCCGTCT TGAACCATCCAGTATCTCAATCCTTTCACTTTGCTTAATACCAATACAGGGAAAGAACTGCTGAAACTTA ATCGTCTGGATAATGGATTTCAGAGACTCCCTGGTCAGTGCAAGTTGATCTCTTCCATTGTTTTCCTGGT TTACGAAGGTCTTACTTTCAACTTCAGATGCAGGCACCCGAACAAACCTGAACGTTACCTTCCTGCCGGT TTTTAAGGTAAATACCTGACTTCTACCGGTGTCAGCCATTTCGAGCATTGACGCCTGAGTATTTAACTGT CTGCCGATGGTTTTTCTTTTCTCATTCGACATCACATACCTCCGTTAGTACGAATGAACTCGATGCGATC AAAGACTGCCTTCGCAAAGTCTTCCGCTGCTGATTTTGCGCTTTTTAGTGCCTCTGTACTTCCATCATAG GTTGCTGGATTTGCTGAAATAACTGTGTCAAAAGTCTCCCCACAACGTTCGAAACCATCCAGTCTTGGCA GAACCATGTCTAGCATATCGGCACCGAAAACCTCTTTGGCCTGACTATGGCAAATTTTGTGATCAGACTT GTTCAGGATCTTGGACATGAAGCCGACATTACCGATGAGATTGCAGGTGTGCCCATCCATTTCGATGGAA TCTATGAGGGCAGGGAGGCTGGCCACAAACTTCAGGGAAGAATGAAAATCAACCGTCGCCGGTGGAAGAG GGGTCAACATCAGGTCTGCCGCCCCAATGCAGTTTTTCAGGAACGCATCAAGGTGAGGACCACTATCAAG GAAAATAAAGTCGTAGTCATGCTGGAGCTTGTCGATAATGTTCTCTTTAAGCACCGCATGAATATTTTTC CCTGGCAGATGTTCTTCACACAATCCCTTCCAGCCTTCAGCAAGGAATGCATCGTCAATGGAAGCGGGGA TTACATCAACACCAGGGATAATAGACGGTACTATAAAATCGGAAAGTAATTCTTCACGAGACACGTTCTG GAGCATGGCCTGAGCAGCCGTATTTTCAACCAAGCCCACTGAATTCTCATGGCTCAGGAACATTGTCAGA GATGCCTGCGGATCGAAATCGATGGCCAGAATACGCAGGTCTTCGAACAGAAGCTGAGGATGAGCTCGAA AAGCATGTGATAATGAAGCGGTAGAAACTGTCTTGGAACCACCACCTTTAAGATTACATACAAAAATCGT AAAGGCTTTATCGAAGCGATCCCTGTACTTCGGTACTTTACGATGGTTATACAGATCGATGACATTCTGA ATCGTCATCGCGTATTTCATCGTATTACCAGAAGGTTTCTTTTTAAAAATGTAGCCACCGGCTTCCATTT CGGACACAGCATACTCAACACTGCCTTTACTGAGCTTAGGCAGCTTATACAGAGCGGCTTTGCTGTATTC CTGATAGAACTCGGTAAGCTTCAATTCCTCTTTTTGCTGTCGGATACTTTCGCTCAAAGATGTCAGAAGC TTACCTGCACGTGTAGCGACTTTCCGTAACTGCTCAATATTGTCCATTTATCACCTCATGACGTTTTTTG TCATTTTGAACAAAAAGTGTCATGTTGCAAGAAAAAAATCATATTGTTTTGATTTCGCTCTCAACAGAAG GGGGATGAAGCTCGACGGGCGTGCTACTAAATCACACTGCAGCAACACGCAGACGCACTTTTGACCATCA ACAGCAACTCATACAAAAGGGCTTTGAGAAAGGTATTCAACTTGCAAGACAGGAGAGTCATTCAGAAGGA TTCTGATTTTAGTTACGACCAGTGCAATGCTGAGCCTTATGTATCAGCGCTCGCCGCAGCCATGTAACCG AGCGTAGCGAGCGAACTGGCGAGGAAGCGAAGAGGAACCGTTCCGGCAGATAGCTCTTACGCTCAGCACA AGAAGAGTTTTCCATCCTCTGTGGGAAACAGGTCAACTTTAATGGACGCTCCGGACTATGGGAAACAGGT CAACTTCGCGGACGGCCCGGACTATGGGAAACAGGTCAACTTCACGGGCGGCCGGGAGTGTGGGGAACAG GTCAACTTCGCGGACGGCCCGGATTATGGGAAACAGGTCAACTTCGCGGGCGGCCGGGACTGTGGGAAAC AGGTCAACTTTGCAGACGGCCCGGACTGTGGGAAACAGGTCAACTTCGCGGGCGGCCGGGAGTGTGGGGA ACAGGTCAACTTCGCGGACGGCCCGGACTAAGGGAAACAGGTCAGCTTCTCGGACGGCCCGGACTATGGG AAACAGGTCAACTTCTCGGACGGTCGGGAGTGTGGGAAACAGGTCAACTCCGCGTACGGCCCGGACTGTG GGAAACAGGTCAACTTTGCAGACGACCGGGACTGTGGGAAACAGGTCAACTTTGCAGACGACCGGGACTG TGGGAAACAGGTCAACTCCGCAGACGGCCCGGACTGTGGGAAACAGGTCAACTACGCAGACAGCCGCGAT TGCGGGAAACAGGTCAAGTTAGGCAAGCACTATGGGAAACACAGCAAGTTCAGTATCCCCCCATATGTCA GCAACAAACTAAGGGGGGAGGAAATAAAAATTACAGACTATTGTTTTTTATCAAGAAAATTAAACAGCAA GCGACCATCTTCTTCAGTGGTATATGTTACCTTTAATGGCGTCTTCTCATTAATTTTCTTCAGAGCAGGT TCCAGGAAGGTACGCTTCATTTCAGCAATATTGTTTTTCTGCGAGGCAGGGAGCATAAACCTTTCACATA ACCAGTCATGTGTGGTGATCCAGACACCAGTGCTCCGGAACTGACACAGGCTTTCATAAAGCCGGATGAC ACGAACACTATTAAGCTGGCCACAGTCATAGAGAGAATAGGTAGTGAACTGGGAGGTTAAGCCGACCAGG AATGGCATGACCTTGTAGTTAAATTCAATCTGCCAGGAACCCCGGCCTCGCTTCATTCCTGCTTCAGCCA GCCACGGACGTTTAACTTCTTCAAACTCACCTTCTTTTGGATAAAAGGTAACCGTTGATTCGCCCAGAGC ATTTACCCCAGCCTTCACATCACGACTGGCGACAGACGTAGCGACATTGAAGTATTTGACGTAATCGGAA ACGCTGATTTTGAAGAGCGGCAATACGTCAGAGTCATCTTCCTGGCTGTCATTAAAATAGGCCTGCATGA GGCATAACCACAGCACACGTTTTGCCTGAAGAGGCAGGTAATATGCAGCTTCGGTCAATTCGTTAGATTG CTTTATACTGGCGCGTTTTTTAAACGTTTTAGTAGCTGGCAAGAGTGCTTGAGTATCCATTTCAATGCCT ATGGGTAAATTTTTACCCACCCATAATGACAGTGAAAACAGAAATTGCAAGCTATCGCGATACTTATCCA CCGGAAAAATCTGCACTTTATCCACAAGTGGATAATTGAGAACTGAACTTGACCTCTTTCCCATAGCTTG TTGATGCGTATCCCATAGCTTGTTGACACAAAACCCACTGATACGTGATTAATTTCCCATATTATGTTTA CCAGTTGCCCATACAGGCCCCCTCTCAGGCCGCACTGTACGCGGCTTTCAGGCTCCCTAAAAGATGTAAA ATAAAGAAAAAGAATAAAAAAGTACTTTATAAAAATATGCCCGTGGATAAGTGGATAACCCCGAGGAGAG GTGATTTTTCAGGCATTGAGCGTAAGCAGAATTTATAAGTTTTGTTCCCTGGTGCTTCCTCGCTCACTCG GGGCTTCGCCCTGTCGCTCGACTGCGGCGAGCACTGCTGGCTCGATCATATCCGTGGCCGGAAGATACTA CTCCTCCCCCGAGTCGCTCTCCAGAGCCGGCTACAGCGAGACAACCCGCACGAAGATTTCTATCGTCCCT GCAGACATATTCGAATCGTTTTTATTAACCCTGGCTTCCGTCGTGACAGAACACTACGTCCTGTAAAAGG GGGACTAAGGCCCCTGAATCACACACCTGAAATTAATAATGCGGAGTTTTACGATAATGTCATTGCTGGA AACTTTCCTGACCGCTTCTCAGGGGGCAACAATCCTGTTCCTTGCCATGCTGATCTACTGGCAAAAGCGA TAAATCCAAGCGGGCTGGCCTTTGGCCAGCTTCGCTGTATAAGGGGAAAAATGCGGCATATCCAGACATT TCACTAGGCAATTTGAATTCAGATATCTATGCTTGGGATCCGGTCAACAGGAGGTAACAAGATGAAACTT GAAACTATACAGATAGATAATACCGTAAGGAGTGGTCTTAATTCTTTCACTGACGGGGTGATTATTCGTG ATACAAAGGTATTGATCACGCTCAATCTCCCGGATGGACAGAAAACCACTATTGAGGGGGAATGGCGGCA TATGTCGGACGCCAACAGGTTGTCAGAACGTATTACGATGCTTCAGCATGCGATCTATGAGCAGTATGAG GAATACAGAGCAGATATTCCCGTCAGCTGGTCCAGATAACGTCTGACAGACCTCCCCGGCGAGCAGGACG TTCGCCAGCATCATTCTCCTAAGTACTTAAATATTCCCTTTCAGCATGGCTACCGCATCCGCTTCGGGCA TCTGAAACTGAACTCGATGCCGCGCAGCAACATCAAGTGCGAACACCTTCGTATAGACTTCCGTCGAGCT AATCGATTTGTGGCCCATCAGGCTCTGCAAAACCTTCAGTGGTATGCCGGCATACAGCATATGCATCGCG TAGGAGTGGCGGAACGTATGCGGGGTGACCGGCACCGAGAATGTCACCCCGTCGACGGCGGCCGCTTCAA CCGCTTCGCCAATCCAGGTCCGTACTGTCCGGTCGGTGATGTCCCAGATGCGGGCTTTCTCTGTTCTGCC GGTACGCTTGTTGCGTCTTTCCAGCGGAATTTTCAGGGTGGCCACCATCATCTGCAGCTGGCTGACGTAG TGGTGATCGGAAAGCGGAACCAGACGATGAGCCTGGCTACCGGCGGGAGCTCGGCCGGCTGTCCTGGCCG CTTTTTCGGTGCGCTGCTTAAGCGTGGCCAGCTGCACGAACGGATACGGTGGCACCAGCGAAAAATCCCC CCGGGTCAGCGCCAGCGCCTCGTTGATACGTGCGCCGGTGTTCCAGAGGGTTGCCAGCAGCATCTTGCGG TGCAAATCGGGCACATAATGGAGCAGGGCGCTGACTTCCGGTGCCAGCAGGTATTTCGGTAGTTCATCTT GAACGAGCGCCATCTGGCGCAGGGCCAGCGCGGCGGGATAGTCAATGGCCACCGGCATTTGCGCCGGCTG CTGCGGGTGAGAATATGATAAGAGGCCGCTCAT
Region Details
| Region | 1 |
| Region Length | 9.6Kb |
| Completeness(score) | incomplete(20) |
| Specific Keyword | integrase |
| Region Position | 262-9884 |
| # tRNA | 0 |
| # Total Proteins | 9 |
| # Phage Hit Proteins | 7 |
| # Hypothetical Proteins | 2 |
| Phage + Hypothetical Protein % | 100% |
| # Bacterial Proteins | 0 |
| Attachment Site | no |
| # Phage Species | 5 |
| Most Common Phage Name(hit genes count) | PHAGE_Entero_P1_NC_005856(3) PHAGE_Salmon_SJ46_NC_031129(3) PHAGE_Klebsi_phiKO2_NC_005857(2) PHAGE_Cronob_ENT39118_NC_019934(2) PHAGE_Yersin_PY54_NC_005069(2) PHAGE_Entero_N15_NC_001901(1) PHAGE_Mycoba_Panchino_NC_031281(1) PHAGE_Mycoba_Charlie_NC_023729(1) PHAGE_Mycoba_Squirty_NC_026588(1) PHAGE_Burkho_KS14_NC_015273(1) PHAGE_Pseudo_phi3_NC_030940(1) PHAGE_Bacill_BalMu_1_NC_030945(1) PHAGE_Vibrio_VP58.5_NC_027981(1) PHAGE_Salmon_vB_SosS_Oslo_NC_018279(1) PHAGE_Bacill_SPbeta_NC_001884(1) PHAGE_Bordet_BPP_1_NC_005357(1) PHAGE_Mycoba_Xeno_NC_031243(1) |
| First Most Common Phage # | 2 |
| First Most Common Phage % | 33.33% |
| GC % | 51.42% |
| 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. |
Region DNA
>2 3900-27461 TAATTACAATAAGTTAGATGTGAAATCGCCATGGCGAAATTATTGACTCAAATTTCTGTCAAGGACTTCG TTGATAGCCTTGTCCAGTTCATCCTGAATCACTTTTGACATACGGCTAAACTCATAAGTCAGCGTGCGCC CTTTCACACGCTTACGCGCGAACTTGTCCTTTTCTTCAAAAGACCAGAGTGGGGAAACCACTGACTTTTC CTTGGGAGATGGATCTATCAATGCCTGAGATGCCTGAGAAATCAGCTTCAGAATACTGGCTTTCTGTTCG TCTTCTGGTCGCTCGCCATCACTCAAAATTGCATCGAGCTGAGCTGATACAGACTGAATGAGTTCTTCAG GCGTTAATCCCTTTTCACCGAGTTTTTCATTAACTTCTAAAAGAAGTTTATAATCACTAAACGATAGCTC CGACTGAACCGGGAACAGAGAAATTAAGTCTTGCGGTACGGCCGCCGCCTGCAGCGCCCTGGTAACTTTA GCCTGAGATAATCCCTCCAGTTCAGCAATTTCCTTTTGATTAAATCCGGACTCTTTAAGAGCGATCAATC TCAGACCAATCTCCCGAAGATTATGTTCTTTAGCTGTCTGGATATCTTTAGCCAGTTGGCGAGCTTCATC AGCTGATAAATGTTCTTCGGTAACCATTACATCAAGGCCTGTACGGACAAAAATTGCTGAGGCTCGCCGT CTTGAACCATCCAGTATCTCAATCCTTTCACTTTGCTTAATACCAATACAGGGAAAGAACTGCTGAAACT TAATCGTCTGGATAATGGATTTCAGAGACTCCCTGGTCAGTGCAAGTTGATCTCTTCCATTGTTTTCCTG GTTTACGAAGGTCTTACTTTCAACTTCAGATGCAGGCACCCGAACAAACCTGAACGTTACCTTCCTGCCG GTTTTTAAGGTAAATACCTGACTTCTACCGGTGTCAGCCATTTCGAGCATTGACGCCTGAGTATTTAACT GTCTGCCGATGGTTTTTCTTTTCTCATTCGACATCACATACCTCCGTTAGTACGAATGAACTCGATGCGA TCAAAGACTGCCTTCGCAAAGTCTTCCGCTGCTGATTTTGCGCTTTTTAGTGCCTCTGTACTTCCATCAT AGGTTGCTGGATTTGCTGAAATAACTGTGTCAAAAGTCTCCCCACAACGTTCGAAACCATCCAGTCTTGG CAGAACCATGTCTAGCATATCGGCACCGAAAACCTCTTTGGCCTGACTATGGCAAATTTTGTGATCAGAC TTGTTCAGGATCTTGGACATGAAGCCGACATTACCGATGAGATTGCAGGTGTGCCCATCCATTTCGATGG AATCTATGAGGGCAGGGAGGCTGGCCACAAACTTCAGGGAAGAATGAAAATCAACCGTCGCCGGTGGAAG AGGGGTCAACATCAGGTCTGCCGCCCCAATGCAGTTTTTCAGGAACGCATCAAGGTGAGGACCACTATCA AGGAAAATAAAGTCGTAGTCATGCTGGAGCTTGTCGATAATGTTCTCTTTAAGCACCGCATGAATATTTT TCCCTGGCAGATGTTCTTCACACAATCCCTTCCAGCCTTCAGCAAGGAATGCATCGTCAATGGAAGCGGG GATTACATCAACACCAGGGATAATAGACGGTACTATAAAATCGGAAAGTAATTCTTCACGAGACACGTTC TGGAGCATGGCCTGAGCAGCCGTATTTTCAACCAAGCCCACTGAATTCTCATGGCTCAGGAACATTGTCA GAGATGCCTGCGGATCGAAATCGATGGCCAGAATACGCAGGTCTTCGAACAGAAGCTGAGGATGAGCTCG AAAAGCATGTGATAATGAAGCGGTAGAAACTGTCTTGGAACCACCACCTTTAAGATTACATACAAAAATC GTAAAGGCTTTATCGAAGCGATCCCTGTACTTCGGTACTTTACGATGGTTATACAGATCGATGACATTCT GAATCGTCATCGCGTATTTCATCGTATTACCAGAAGGTTTCTTTTTAAAAATGTAGCCACCGGCTTCCAT TTCGGACACAGCATACTCAACACTGCCTTTACTGAGCTTAGGCAGCTTATACAGAGCGGCTTTGCTGTAT TCCTGATAGAACTCGGTAAGCTTCAATTCCTCTTTTTGCTGTCGGATACTTTCGCTCAAAGATGTCAGAA GCTTACCTGCACGTGTAGCGACTTTCCGTAACTGCTCAATATTGTCCATTTATCACCTCATGACGTTTTT TGTCATTTTGAACAAAAAGTGTCATGTTGCAAGAAAAAAATCATATTGTTTTGATTTCGCTCTCAACAGA AGGGGGATGAAGCTCGACGGGCGTGCTACTAAATCACACTGCAGCAACACGCAGACGCACTTTTGACCAT CAACAGCAACTCATACAAAAGGGCTTTGAGAAAGGTATTCAACTTGCAAGACAGGAGAGTCATTCAGAAG GATTCTGATTTTAGTTACGACCAGTGCAATGCTGAGCCTTATGTATCAGCGCTCGCCGCAGCCATGTAAC CGAGCGTAGCGAGCGAACTGGCGAGGAAGCGAAGAGGAACCGTTCCGGCAGATAGCTCTTACGCTCAGCA CAAGAAGAGTTTTCCATCCTCTGTGGGAAACAGGTCAACTTTAATGGACGCTCCGGACTATGGGAAACAG GTCAACTTCGCGGACGGCCCGGACTATGGGAAACAGGTCAACTTCACGGGCGGCCGGGAGTGTGGGGAAC AGGTCAACTTCGCGGACGGCCCGGATTATGGGAAACAGGTCAACTTCGCGGGCGGCCGGGACTGTGGGAA ACAGGTCAACTTTGCAGACGGCCCGGACTGTGGGAAACAGGTCAACTTCGCGGGCGGCCGGGAGTGTGGG GAACAGGTCAACTTCGCGGACGGCCCGGACTAAGGGAAACAGGTCAGCTTCTCGGACGGCCCGGACTATG GGAAACAGGTCAACTTCTCGGACGGTCGGGAGTGTGGGAAACAGGTCAACTCCGCGTACGGCCCGGACTG TGGGAAACAGGTCAACTTTGCAGACGACCGGGACTGTGGGAAACAGGTCAACTTTGCAGACGACCGGGAC TGTGGGAAACAGGTCAACTCCGCAGACGGCCCGGACTGTGGGAAACAGGTCAACTACGCAGACAGCCGCG ATTGCGGGAAACAGGTCAAGTTAGGCAAGCACTATGGGAAACACAGCAAGTTCAGTATCCCCCCATATGT CAGCAACAAACTAAGGGGGGAGGAAATAAAAATTACAGACTATTGTTTTTTATCAAGAAAATTAAACAGC AAGCGACCATCTTCTTCAGTGGTATATGTTACCTTTAATGGCGTCTTCTCATTAATTTTCTTCAGAGCAG GTTCCAGGAAGGTACGCTTCATTTCAGCAATATTGTTTTTCTGCGAGGCAGGGAGCATAAACCTTTCACA TAACCAGTCATGTGTGGTGATCCAGACACCAGTGCTCCGGAACTGACACAGGCTTTCATAAAGCCGGATG ACACGAACACTATTAAGCTGGCCACAGTCATAGAGAGAATAGGTAGTGAACTGGGAGGTTAAGCCGACCA GGAATGGCATGACCTTGTAGTTAAATTCAATCTGCCAGGAACCCCGGCCTCGCTTCATTCCTGCTTCAGC CAGCCACGGACGTTTAACTTCTTCAAACTCACCTTCTTTTGGATAAAAGGTAACCGTTGATTCGCCCAGA GCATTTACCCCAGCCTTCACATCACGACTGGCGACAGACGTAGCGACATTGAAGTATTTGACGTAATCGG AAACGCTGATTTTGAAGAGCGGCAATACGTCAGAGTCATCTTCCTGGCTGTCATTAAAATAGGCCTGCAT GAGGCATAACCACAGCACACGTTTTGCCTGAAGAGGCAGGTAATATGCAGCTTCGGTCAATTCGTTAGAT TGCTTTATACTGGCGCGTTTTTTAAACGTTTTAGTAGCTGGCAAGAGTGCTTGAGTATCCATTTCAATGC CTATGGGTAAATTTTTACCCACCCATAATGACAGTGAAAACAGAAATTGCAAGCTATCGCGATACTTATC CACCGGAAAAATCTGCACTTTATCCACAAGTGGATAATTGAGAACTGAACTTGACCTCTTTCCCATAGCT TGTTGATGCGTATCCCATAGCTTGTTGACACAAAACCCACTGATACGTGATTAATTTCCCATATTATGTT TACCAGTTGCCCATACAGGCCCCCTCTCAGGCCGCACTGTACGCGGCTTTCAGGCTCCCTAAAAGATGTA AAATAAAGAAAAAGAATAAAAAAGTACTTTATAAAAATATGCCCGTGGATAAGTGGATAACCCCGAGGAG AGGTGATTTTTCAGGCATTGAGCGTAAGCAGAATTTATAAGTTTTGTTCCCTGGTGCTTCCTCGCTCACT CGGGGCTTCGCCCTGTCGCTCGACTGCGGCGAGCACTGCTGGCTCGATCATATCCGTGGCCGGAAGATAC TACTCCTCCCCCGAGTCGCTCTCCAGAGCCGGCTACAGCGAGACAACCCGCACGAAGATTTCTATCGTCC CTGCAGACATATTCGAATCGTTTTTATTAACCCTGGCTTCCGTCGTGACAGAACACTACGTCCTGTAAAA GGGGGACTAAGGCCCCTGAATCACACACCTGAAATTAATAATGCGGAGTTTTACGATAATGTCATTGCTG GAAACTTTCCTGACCGCTTCTCAGGGGGCAACAATCCTGTTCCTTGCCATGCTGATCTACTGGCAAAAGC GATAAATCCAAGCGGGCTGGCCTTTGGCCAGCTTCGCTGTATAAGGGGAAAAATGCGGCATATCCAGACA TTTCACTAGGCAATTTGAATTCAGATATCTATGCTTGGGATCCGGTCAACAGGAGGTAACAAGATGAAAC TTGAAACTATACAGATAGATAATACCGTAAGGAGTGGTCTTAATTCTTTCACTGACGGGGTGATTATTCG TGATACAAAGGTATTGATCACGCTCAATCTCCCGGATGGACAGAAAACCACTATTGAGGGGGAATGGCGG CATATGTCGGACGCCAACAGGTTGTCAGAACGTATTACGATGCTTCAGCATGCGATCTATGAGCAGTATG AGGAATACAGAGCAGATATTCCCGTCAGCTGGTCCAGATAACGTCTGACAGACCTCCCCGGCGAGCAGGA CGTTCGCCAGCATCATTCTCCTAAGTACTTAAATATTCCCTTTCAGCATGGCTACCGCATCCGCTTCGGG CATCTGAAACTGAACTCGATGCCGCGCAGCAACATCAAGTGCGAACACCTTCGTATAGACTTCCGTCGAG CTAATCGATTTGTGGCCCATCAGGCTCTGCAAAACCTTCAGTGGTATGCCGGCATACAGCATATGCATCG CGTAGGAGTGGCGGAACGTATGCGGGGTGACCGGCACCGAGAATGTCACCCCGTCGACGGCGGCCGCTTC AACCGCTTCGCCAATCCAGGTCCGTACTGTCCGGTCGGTGATGTCCCAGATGCGGGCTTTCTCTGTTCTG CCGGTACGCTTGTTGCGTCTTTCCAGCGGAATTTTCAGGGTGGCCACCATCATCTGCAGCTGGCTGACGT AGTGGTGATCGGAAAGCGGAACCAGACGATGAGCCTGGCTACCGGCGGGAGCTCGGCCGGCTGTCCTGGC CGCTTTTTCGGTGCGCTGCTTAAGCGTGGCCAGCTGCACGAACGGATACGGTGGCACCAGCGAAAAATCC CCCCGGGTCAGCGCCAGCGCCTCGTTGATACGTGCGCCGGTGTTCCAGAGGGTTGCCAGCAGCATCTTGC GGTGCAAATCGGGCACATAATGGAGCAGGGCGCTGACTTCCGGTGCCAGCAGGTATTTCGGTAGTTCATC TTGAACGAGCGCCATCTGGCGCAGGGCCAGCGCGGCGGGATAGTCAATGGCCACCGGCATTTGCGCCGGC TGCTGCGGGTGAGAATATGATAAGAGGCCGCTCATTGGTTTGACATTCCATCAGGTATCACTAATTGATT CCACTCCCTGTTGCGGGTAGCTTCAGCAGCGCGCAGGGCTCTTTCGCGCCTCCAGACTTTACGAAACACG GAAACTGCAGACCATTCATCATGACCTGTAAGACGTGTTTCGGGCATCCCGGTTGCCTTGCGCAGACGGA CGGCAAGAATGACAGCGTTGATGCCCAAGCGCGTGAACTGATACTGCCGTTCCCTGAAATAGTCCTTATG CCAAGGAGGGTCGGAGTATTCGGCGGCATATGCAATTGCCCTGTGGGCCTCATCCTGGAGCACCGGCAGT TCACGGATGCGATACATAAGACGTGGCTCTAAAGTCCGCCAGTCACCGGAGACATCGATCAGATTCAGTT CAGGGTAATTCGTGACAGCTTTTCTCTCAGGCTGGGGGGCATCATCATCCTGGCCGTCATCCGTCACAAC CCGGAAACAACCCTCAGCATACCGTTCAAGCATGAATACCAACTCGGTGGCAATGTAATGCAGTTCCTTT TTCATTTTATCTTCTGACGCCTGTCTCTCACGCTTAAGCGTGAAATAATGTGTCAGCCAGATGCCAGTGA GTGTTATACCCCCAGTAAGCAGGCCAGTGATAAGCCCGGTTGCCACGTTTCCCCAGATCCCCGCCCCTTG ATTAATCAGCTGTACGGAAACCGGATGGGATGTCGCAGCAACTATACTCTCAGTTGCGGCCTGTATATCA GTCATTGATCATTTACCCCTTTATATTCCTGAGAAATCCCGCCCTCTGTCCGTAGTCAGCGGCCGGCAGC CAGCTCTTCAGCCAGTTTCACAAACCTTTTGTGCTCAGTCTGCAGGTAATGGCTGTAAATCCGGGCATCA CGTTCTGTCAGTCCGGATGGATTGCCGGTGAAGTAACGTTGCAGCACCGCAATACAGTGATTGTAGGTAT CGAGATCATATTCCCAGTTTCCCAGCTCACCGGCCGCATCCAGTTCCTGGCGAAACTGCTCGTATTTACG GAGCAGAATGCCAAGACCTAATTCTGTTGCAGCATAAAGATTATTTTCTCCTGGCGCGGAAATCGCATTA CGGATTTTTTCAAAAGCATAACTGAAATCATTTCTCTCATTGAATGCAGTAAACATGTCCTTTCCTCAGT TGAATAGTTAGCCGTGCAATTTTACCACACCTCAATCATCGTCAGATGAGTGCCACTCTGTCGCGACAGT GACTTTCACGAGAGTGATTTTCACATACTAAAATAATAAGCAGCCATATAACAACGTAATTAAATTACCT GACGGCCGCTCTGGCCGGATCCGACTTTTATGTTATTCCACAGTTTCCGGAAGTGTACCACGGTCAGGGA ATAAGCGAAGCGCTGTTTTCCGCTGCTGCGCGCCGGGTCACGGGGCAGGGTGAAAACACAACATGTGGCA GAAGATTCAGCTGATGGCGTGGCACATCTTGTGTTTCTGTGCCGCCGCGCGCCGGTGCGTTTCCGGAGGA TCCGAAACTACCTTTTTTCGGATCTGACCGGGAAAAGAGAGAATACAACATAGGTTCAACATATCCATAT GCCGGGCATCTGCATAGGTGTGGCATACGCATATACTTACCATCTGCATATGCTATGACTATACATATGC TTTGCATCTGCATATACTGAACATAGTCATACAGGCCGGTCGGCCAGGAGGAAATGATGAGAACTGTATC CATTTTTAAAAACGGCAATAACCGCGCCATTCGTCTGCCCCGCGATCTGGATTTTGAGGGAGTGAGCGAG CTGGAGATCGTCCGGGAAGGGGACAGCATTATTTTGCGTCCCGTCCGGCCGACCTGGGGCTCGTTCGCGC AGTTCGAGAAGGCAGACCCGGACTTTATGGCGGAGCGCGAGGACGTTGTCAGCGACGAAGGACGATTTAA CCTGTGAACAAGACCTATATGCTCGACACCTGTATCTGCTCGTTCATCATGCGCGAGCAGCCGGAAGCCG TCCTGAAGCGCCTGGAGCAGGCGGTGCTGCGCGGCCAGCGCATCGTTGTCTCGGCCATCACTTATTCTGA AATGCGCTTCGGGGCCACCGGCCCGAAGGCCTCCCCGCGCCACGTCGAGCTGGTCGACGCGTTCTGCGCC CGCCTCGATGCCATCCTGCCCTGGGATCGCGCTGCGGTGGACGCCACCACGGAGATTAAGGTGGCGCTGC GAATGGCCGGGACGCCGATCGGCCCGAACGACACGGCCATTGCCGGGCACGCCATCGCCGCCGGTGCCGT GCTGGTGACGAATAATACGCGGGAATTTGAGCGGGTACCGGGTCTTGTGCTGGAAGACTGGGTAAGATAA CGCTGTAAAACAAAACAGGCGGTCTGGCGCAGCCGGACACTCTTTCAGTCAGCGGTATATAAAGGAATAA AAGATGCCTCTGATCACGCGGCTTATGCTGCAAAACTTTAAAAAGTTTCCGGAACTGGACCTGCGCTTCA CTCATGACCGTAACATTCTGGTCGGGGACAATGAGTCCGGGAAAAGCACGATTCTGCTGGCCCTTGACCT TGTGCTGAGTGACAGCCGGCACCGGGTCGAGGCATTGGGTGTGGAATCGCTCCTGTCCCAGTCAGCAGTA AGGCAGTTTCAGGAAGGTGAGCGCCGCGCCGATCAGTTACCCGTGCTGACAGCTGACGTTTTCCTGAGTA ATGGGGGAGATCCTGACCTGAACGGCAGGCAAAATCTGGCGGGTATCAATGCGGATGGTCTCAGAATGCG TATTGCACCAATGACGGAGGAATACGGCCAGGATATTCACAATGTACTACAGCAGGATCCCGATAATTTT CCCTATGAATACTATTCCGTGCGGTTCAGCACCTTCTCCGGTGGTCATTTCGCCAGCTTCAGACGCTATC TGCGCCATCTGCTCTTAGACAGTGCACGCATCGATAACGAGCACGCCGCACAGGAATATACGCGCACAGT TTACAGCGTCAATGTGCCGGTGGCCGATCGGTACCGGCTTGAAAACAGTTACCGGCAACAGAAAATGCAC TTCTGCACCCGGCATCTGTCAGCCATAAACGACACGCTGGAAACGTATCAGTTTGGCGTGCGGGTGATGC TACCAACTTGCTGATTTAGTGTATAATGGTGTTTTTGAGGTGCTCCCGTGGCTTCAGTCTCCGTCTGCTG TCCCTCCTGTTCCGCTACTGAAGGCGTGATGCGTAATGGCAAAAGTACTGCCGGGCATCAACGTTATCTC TGCTCTCACTGCCGTAAAACATGGCAGCTCACCTTCACTTATGCCGCTTCTCAGCCCGGTACACACCAGA AAATCATTGATATGGCTATGAACGGCGTCGGTTGCCGTGCCACCGCACGACTAATGGGCGTGGGCCTCAA CACCATTTTGCGCCATTTAAAAAACTCAGGCCGCAGTCAGTAACCTCCCGGATACAGCCGGGCAGTGATG TCATTGTCTGTGCGGAGATGGACGAGCAATGGGGCTACGTCGGTGCAAAATCACGTCAGCGCTGGCTGTT TTACGCGTATGACAGGATACGCAGGGCGGTGGTAGCCCACGTTTTCGGTGAACGCACTATGGCCACACTG GAGCGTCTTCTGAGCCTGCTGTCAGTTTTTGACGTGGTGGTATGGATGACGGACGGCTGGCCGATGTATG AGTCACGTCTGAAGGGAAAACTGCACGTCATCAGTAAGCGTTACACGCAGCGAATTGAGCGACACAACCT GAATCTGAGACAGCATCTGGCAAGGCTGGGCAGGAAGTCCCTGTCGTTCTCAAAATCGGTGGAGCTGCAT GACAAAGTCATCGGGCACTATCTGAACATAAAACACTATCAGTAAATTGGAGTCATTACCCTCGCCGCGT TGTTTCATCAAGCCTTACGGTCACCGTAACCAGCAAATCAATATCACTGTGTGGCTTCAGGCCGCCATCC ACTGCGGAGCCGTACAAATGTACGGCCAGCAACGTCGGTTCGAGATGGCGCTCGATGACGCCAACTACCT CTGATAGTTGAGTCGATACTTCGGCGATCACCGCTTCCCTCATGATGTTTAACGTTTGACATGAGGGGCG GCCAAGGGCGCCAGCCCTTGGACGTCCCCCTCGATGGAAGGGTTAGGCAACACTGCGTGTTCGCTCGAAT GCCTGGCGTGTTTGAACCATGTACACGGCTGGACCATCTGGGGTGGTTACGGTACCTTGCCTCTCAAACC CCGCTTTCTCGTAGCATCGGATCGCTCGCAAGTTGCTCGGCGACGGGTCCGTTTGGATCTTGGTGACCTC GGGATCATTGAACAGCAACTCAACCAGAGCTCGAACCAGCTTGGTTCCCAAGCCTTTGCCCAGTTGTGAT GCATTCGCCAGTAACTGGTCTATTCCGCGTACTCCTGGATCGGTTTCTTCTTCCCACCATCCGTCCCCGC TTCCAAGAGCAACGTACGACTGGGCATACCCAATCGGCTCTCCATTCAGCATTGCAATGTATGGAGTGAC GGACTCTTGCGCTAAAACGCTTGGCAAGTACTGTTCCTGTACGTCAGCAAGTGTCGGGCGTGCTTCTTCT CCGCCCCACCACTCGACGATATGAGATCGATTTAGCCACTCATAGAGCATCGCAAGGTCATGCTCAGTCA TGAGGCGCAGTGTGACGGAATCGTTGCTGTTGGTCACGATGCTGTACTTTGTGATGCCTAACTTTGTTTG GAAATGTTGAATACTCATACTCTTCCTTTTTCAATATTATTGAAGCATTTATCAGGGTTATTGTCTCATG AGCGGATACATATTTGAATGTATTTAGAAAAATAAACAAATAGGGGTTCCGCGCACATTTCCCCGAAAAG TGCCACCTGACGTCTAAGAAACCATTATTATCATGACATTAACCTATAAAAATAGGCGTATCACGAGGCC CTTTCGTCTTCAAGAATTTTATAAACCGTGGAGCGGGCAATACTGAGCTGATGAGCAATTTCCGTTGCAC CAGTGCCCTTCTGATGAAGCGTCAGCACGACGTTCCTGTCCACGGTACGCCTGCGGCCAAATTTGATTCC TTTCAGCTTTGCTTCCTGTCGGCCCTCATTCGTGCGCTCTAGGATCCTCCGGCGTTCAGCCTGTGCCACA GCCGACAGGATGGTGACCACCATTTGCCCCATATCACCGTCGGTACTGATCCCGTCGTCAATAAACCGAA CCGCTACACCCTGAGCATCAAACTCTTTTATCAGTTGGATCATGTCGGCGGTGTCGCGGCCAAGACGGTC GAGCTTCTTCACCAGAATGACATCACCTTCCTCCACCTTCATCCTCAGCAAATCCAGCCCTTCCCGATCT GTTGAACTGCCGGATGCCTTGTCGGTAAAGATGCGGTTAGCTTTTACCCCTGCATCTTTGAGCGCTCTGA TCTGAATATCGAGGGACTGCTGGCTGGTTGAGACCCGCGCATAACCAAAAATTCGCATAAAAATGTACCT TAAATCGAATATCAGACACGATGTGTCTATTATGCCAAAATGACGATTTAATGGACACTCAAACGAAGCC GTTTTACTATGTCTGATAATTTATAACATTTCGTACGGTTGGAAAAATGTTACTAAATGCCCGTCAGGCA GGGAGGCCGATATGCCCGTTGACTTTCTGACCACTGAGCAGACTGAAAGCTATGGCAGATTCACCGGTGA ACCGGATGAGCTTCAGCTGGCACGATATTTTGGCACTGTTGCAAAGTTAGCGATGAGGCAGCCTTTTGTC TTATTCAAAGGCCTTACATTTCAAAAACTCTGCTTACCAGGCGCATTTCGCCCAGGGGATCACCATAATA AAATGCTGAGGCCTGGCCTTTGCGTAGTGCACGCATCACCTCAATACCTTTGATGGTGGCGTAAGCCGTC TTCATGGATTTAAATCCCAGCGTGGCGCCGATTATCCGTTTCAGTTTGCCATGATCGCATTCAATCACGT TGTTCCGGTACTTAATCTGTCGGTGTTCAACGTCAGACGGGCACCGGCCTTCGCGTTTGAGCAGAGCAAG CGCGCGACCATAGGCGGGCGCTTTATCCGTGTTGATGAATCGCGGGATCTGCCACTTCTTCACGTTGTTG AGGATTTTACCCAGAAACCGGTATGCAGCTTTGCTGTTACGACGGGAGGAGAGATAAAAATCGACAGTGC GGCCCCGGCTGTCGACGGCCCGGTACAGATACGCCCAGCGGCCATTGACCTTCACGTAGGTTTCATCCAT GTGCCACGGGCAAAGATCGGAAGGGTTACGCCAGTACCAGCGCAGCCGTTTTTCCATTTCAGGCGCATAA CGCTGAACCCAGCGGTAAATCGTGGAGTGATCGACATTCACTCCGCGTTCAGCCAGCATCTCCTGCAGCT CACGGTAACTGATGCCGTATTTGCAGTACCAGCGTACGGCCCACAGAATGATGTCACGCTGAAAATGCCG GCCTTTGAATGGGTTCATGTGCAGCTCCATCAGCAAAAGGGGATGATAAGTTTATCACCACCGACTATTT GCAACAGTGCCGGTCAAAGTAACGAGATATCAAAAGTTCTTGACGTTATACGAGGGATCGCCGAGCAAAC GAATTTGTTGGCACTCAACGCAGCAATTGAGGCCGCGCGTGCTGGTGAGCAGGGGCGTGGTTTTGCTGTT GTCGCCGATGAGGTTCGCAGTCTTGCTGCTCGCACACAGCAATCGACAACGGATATTCAAAGCATGATCA GCGCTCTACAAGAGCGAGCGCAATCCGCTGTTACAGTCATGGAGCAAAGTAGTCGGCAAGCGCACACGAG TGTAGCTCACGCAGAGGAAGCAGCTACAGCTCTTGATGGAATTGGCCAACGCGTTAACGAAATTACCGAC ATGAACGCGCAAATAGCGACTGCGGTCGAGCAGCAGGGAGCAGTAAGTGAAGACATAAACCGCAGTATTA TCAATATACGCGATGCTGCTGATACCAATGTACAGACCGGGCAGAATAATTTGCAAAGTGCGAAATCTGT CGCTCAGTTAACTAGCGCTCTGAGCGAACTGGCAAAACAGTTTTGGGAAAAACGAGGATAACGCTTTTCA GTATCTCGACAGGGATAACTTACTTTACCATCGGTTATCCCTTTTAGCCGCACAAATTTTAGCCATGGCT TTTCAGGAAGTCAGGGCTATCAGAATGGCCTTAGAAAGCCTAGTCAAAGAGCTGTCACGAGAACACCGTT AGCTTAGCGTACGATTTTTTCCGAATTCTGCGGTTCCCCCTTGATGAATCGCGGGATCTGCCACTTCTTC ACGTTGTTGAGGATTTTACCCAGAAACCGGTATGCAGCTTTGCTGTTACGACGGGAGGAGAGATAAAAAT CGACAGTGCGGCCCCGGCTGTCGACGGCCCGGTACAGATACGCCCAGCGGCCATTGACCTTCACGTAGGT TTCATCCATGTGCCACGGGCAAAGATCGGAAGGGTTACGCCAGTACCAGCGCAGCCGTTTTTCCATTTCA GGCGCATAACGCTGAACCCAGCGGTAAATCGTGGAGTGATCGACATTCACTCCGCGTTCAGCCAGCATCT CCTGCAGCTCACGGTAACTGATGCCGTATTTGCAGTACCAGCGTACGGCCCACAGAATGATGTCACGCTG AAAATGCCGGCCTTTGAATGGGTTCATGTGCAGCTCCATCAGCAAAAGGGGATGATAAGTTTATCACCAC CGACTATTTGCAACAGTGCCAACGCCGGGTTATTCTTATTTGTCGCTTCTTTACTCGCCTTTATCGGCCT TCACTCAAGGATGTATTGTGGTTATGCGTTATATTCGCCTGTGTATTATCTCCCTGTTAGCCACCCTGCC GCTGGCGGTACACGCCAGCCCGCAGCCGCTTGAGCAAATTAAACAAAGCGAAAGCCAGCTGTCGGGCCGC GTAGGCATGATAGAAATGGATCTGGCCAGCGGCCGCACGCTGACCGCCTGGCGCGCCGATGAACGCTTTC CCATGATGAGCACCTTTAAAGTAGTGCTCTGCGGCGCAGTGCTGGCGCGGGTGGATGCCGGTGACGAACA GCTGGAGCGAAAGATCCACTATCGCCAGCAGGATCTGGTGGACTACTCGCCGGTCAGCGAAAAACATCTT GCCGACGGCATGACGGTCGGCGAACTCTGCGCCGCCGCCATTACCATGAGCGATAACAGCGCCGCCAATC TGCTGCTGGCCACCGTCGGCGGCCCCGCAGGATTGACTGCCTTTTTGCGCCAGATCGGCGACAACGTCAC CCGCCTTGACCGCTGGGAAACGGAACTGAATGAGGCGCTTCCCGGCGACGCCCGCGACACCACTACCCCG GCCAGCATGGCCGCGACCCTGCGCAAGCTGCTGACCAGCCAGCGTCTGAGCGCCCGTTCGCAACGGCAGC TGCTGCAGTGGATGGTGGACGATCGGGTCGCCGGACCGTTGATCCGCTCCGTGCTGCCGGCGGGCTGGTT TATCGCCGATAAGACCGGAGCTGGCGAACGGGGTGCGCGCGGGATTGTCGCCCTGCTTGGCCCGAATAAC AAAGCAGAGCGCATTGTGGTGATTTATCTGCGGGATACGCCGGCGAGTATGGCCGAGCGAAATCAGCAAA TCGCCGGGATCGGCGCGGCGCTGATCGAGCACTGGCAACGCTAACCCGGCGGTGGCCGCGCGCGTTATCC GGCCCGTAGCACCTCGCAGGCGTGCCGGGCGATATGACTGGCGGCGGCATCGGAAAGATGCCGGTCGGTA ATGATGGTGGTGAACCGGGTCAAAGGTAACGCCATGAACGTGGCCACCTGATTGTATTTCGAACTGTCGC ACAGCAGGATGCTTCTCGCGCTGACCTGGCTGACGGTCTCCTTGACGGTAACCTTGTTCTCATCAGGGGT GAAAATCCCGCGACTGTCCCAGCCGCTGGCGGAGATAAAGGCCGTATCGATAGCCAGGTGGCGTAACGTA CGCGCCGCCGATTCGCCCACGCAGGAGCGGTTCTCCCGGCACAGAGTGCCGCCGGTGTGGATCACGCCGC ACTGGCTGGCATCGATCAGCAGCTGGGTTATCTCAAAATCATTGGTGACCACCTGGAGATCGTTCCGGTC GAGGATCGCCCGCGCCAGCGCCAGGGTGGTAGTCCCGGCATCCAGATAAATGCAACTGTTTTTGGCGATA TGACTCGCCGCCAGCGCGCCGATCGCCTGTTTCTCCTCACTCTGCAGCGTGCTTTTCACCAGATGACTGG GTTCCGCGGCCAGCCGGCTGACGGCGCGCACGCCGCCCGAGACGCTGACCAGCAGCCCCTGCTCCTCCAG TTTACTAACGTCCCGACGGATGGTCATATGGGACACGCCGAGGATCTCCGTCAGCTCGTTAATGCTTACC GCCCCACGCTGCTCCACCAGGGCTAAAATACGCTGATGTCGTTCTATTGGAATCACCGCTCTCCCCTTAC CATTTTTTCACACCAGGCGTCACCACCCAGGCTACGGCCCTGGCGACACCCGGTGTTGTTATCGCGCTTT GCCGCTGTTTTTAGGCTATTTTAGGGCAAGAATCGCCGTTGTGCAGCCTCTTTCCGCCTGTGAATTTTTT ATATTCATGTGGGTTATTCGTGATAACTCTCACATAAATTCACATGATAACGCTTTATTCTATCATTAAA TCACATTAATTAACTAATGTTCACAAGGAGACCAGCATGGCTGCACACACTAACGTCTGCGTGATTGGAC TGGGTTCAATGGGCATGGGCGCCGCCCGCGCCTGCCTGCAGGCGGGCCTGAACACCTGGGGCGTTGACAT CAATCCCGACAACTGTCGCGCACTGCTGGCGGCGGGCGCCAAAGGCGCGGGCCCCAGCGCGGTGCCGTTC GCCGCGGAACTGGATGCAGTTGTGCTGCTGGTGGTCAATGCCGCCCAGGTGCGGGGGATCCTGTTCGGCG AGAGCGGCCTCGCCGCCCATCTGAAGCCGGGCACTGTCGTGATGGTGTCGTCCACCATCGCCTCCGCCGA TGCTCAGGCCATTGCCGAGGCGCTGGCGGAGTACCAGCTATTGATGCTCGACGCGCCGGTATCGGGCGGC GCCGTGAAAGCGGCCGCCGGCGACATGACGGTGATGGCCTCCGGGAGCGATGCCGCCTTTGCCCGCCTCG CGCCGGTGCTGGACGCCGTGGCCGGCAAAGCCTACCGCATCGGGAGCGACATTGGTCTTGGCTCGACGGT AAAAATTATCCATCAGCTGCTGGCCGGGGTGCACATCGCCGTTGCCGCCGAAGCGATGGCGCTTGCCGCC CGCGCCGGGATCCCACTGGAGACGATGTATGACGTGGTCACCCACGCGGCGGGTAATTCCTGGATGTTTG AGAATCGCATGCAGCACGTCCTGGATGGCGATTACTCGCCAAAATCCGCTGTCGATATTTTTGTCAAAGA TCTCGGGCTGGTGAATGACACTGCCCGGGCGCTGACCTTCCCGCTGCCGCTCGCTACCACCGCGCTGAAT ATGTTCACCTCCGCCAGTAATGCCGGATTCGGTCGGGAAGATGACAGCGCGGTGATCAAGATTTTCAACG GCATCACCCTGCCGGGCCATAAACAGTGAGGAGAGACAACATGCAGCTTGGTGTCATTGCCGATGACTTC ACCGGCGCCACGGATATTGCCAGCTTCCTCGTGCGCAACGGCATGCCGACGGTGCAACTGAATGGCGTGC CGACCCGCGATATTCCGCTGACCAGCGAGGCGGTGGTCATCAGCCTGAAAACCCGCTCCTGCCCGGCGGA AATGGCCGTCAGCCAGTCGCTGGCGGCCCTGCGCTGGCTGCAGGCCCAGGGCTGTCAGCAGTTTTATTTC AAGTACTGTTCCACTTTCGACAGCACCGCGCAGGGCAACATTGGCCCGGTGCTGGATGCCCTGCTGGCCG AGCTGGGTGAGACGCGGACGGTGATTTCCCCGGCGCTGCCGGTTAACGGCCGCACGGTCTATCAGGGATA TCTGTTCGTCGGCGAGCAACTGCTGAATGAGTCCGGGATGCGCCACCATCCGGTGACGCCGATGGAGGAT GCGCACCTGGGCCGCTTAATTGAGCGCCAGGGGCGCGGAAAAGCCGCGCTGATTGCCTGGCCGATTGTCG CCCGGTCGCCGCCGCGCTGGCGGCAGTCAACGATCCGGCGGTGCGCTATGTGGTGCTCGACGCCCTCAGC GAACAGGATCTGCTCACCCAGGGCGTGGCGCTGCGGGAGATGAAGCTGGTCTCCGGCGGTTCCGGCCTCG CCATCGGCCTCGCCCGCGACTGGGCGCAGCGCCATGGCGCCAGGGGGGAAAGCGCTCAGGCCGGCATGCC GCTGGCCGGTCCGGCGGTGGTGCTCTCGGGCTCCTGCTCGGTGATGACCAACAGCCAGGTGGCGGCCTAT CGTCAACAGGCCCCCGCCCGCGCCGTCGACTTAAGCGCCTGCTTTACCGATCTGGAGAGCTACGTCAGGA CGCTGACTGACTGGGTGGACGCGCAGCGCGATGCGCCGCTGGCGCCGATGATCTATGCCACCACCGAGCC GCAAACGCTGCAGCGGATCCAGGCGCAGTATGGCGACAAGGCCAGCAGCGAACGGGTGGAACAGCTGTTT GCCGCTCTTGCCGCCGCCCTGAAGGCGAACGGATTTACCCGCTTTATTGTGGCCGGAGGGGAAACGTCGA GCATTGTGGCGCAGACCCTGGGGGTTGAGGCGTTCCATATTGGGCCGACCATCTCCCCTGGCGTGCCCTG GGTGCGTGACACCCGCCAGCCGCTCTCCCTGGCGCTGAAGTCAGGTAACTTCGGCGATATCCAGTTCTTT GGGCACTGTTGCAAAGTTAGCGATGAGGCAGCCTTTTGTCTTATTCAAAGGCCTTACATTTCAAAAACTC TGCTTACCAGGCGCATTTCGCCCAGGGGATCACCATAATAAAATGCTGAGGCCTGGCCTTTGCGTAGTGC ACGCATCACCTCAATACCTTTGATGGTGGCGTAAGCCGTCTTCATGGATTTAAATCCCAGCGTGGCGCCG ATTATCCGTTTCAGTTTGCCATGATCGCATTCAATCACGTTGGGGTTCTAGGGATTTTCCGTCCAAAAAC GACAAAGTGCTCTGGAGGCCCCGCCGTCTGTGGCCTCCAGAGGGGTATTACTTTTTTCGAGATCCCTATT TGGGCTCTGTTTGAGTAAGATTTAGTCTTTTTGGGCTAAATCCATGGCATTCGAAGAACGTGTCCAAATC TTGTCCGAGGCAGAACAAGATGAGTTATATGGACCCCCCGCTTTCACCTCCGCCGACCAACGCTTCTTTT TCTCGCTGAACGATAAGGAACTGGCGATCGCTAAAAGCCTCCGTCATCGGGGCCAGCGTTACATGCTGGT GGTACTGCTGGGCTATTTCAAAGCCAAGCCGGTGGTGCTGAATCCCGGCTTTCATCAGATCAAGCAGGAC CTCAAATACGTTTATCAAACCGTTCTACCAGGCCCAGGCTGTAGACCCTTTAATCTCACGCCAAAAGAGA ACGAACGGATTTACCAACGTGTTTTCCAGCTCTGCAACTACCAGCGCTGGAATGTCAAAGACCATGGAGC GGCGTTGAGAGATTACTTATCCCAGCAAGCCAGAGCCTGGACAGCGCCTAGGCACCTCTTCGATGCGGCC AATGAATATTGTTCGGGGCAGAAGATCGCAATCCCTGCCTACAGCACGCTGCAAAAGATCATCAGTCAGG TGGTGGGAGACGAACAGGAACACATGGCCGCGCACCTTGAGCGTGCAATGTCACGCGGTCTTAAGCAAGC ACTGGCGGAGCTCGTGAACGGCACAGGTCCACTGCCGTTCCGACAGTTGCGACAATCGGCTCGTGACTTC ACCGGAACCGAGTTGGAGAAAGAACTGATTGTCTATCGCCATATCCAGCATTGGATGCCGGAAGTGGATC TGCTGTTGAGCACGCTATCACTGTCGCAGAAAAATCTGCAACACCTGGCAGAGAAAGTCGACTACTACGG TGCCAAACTGAAACGTCAAACCGTAGGCAGCCAATGGCTGTATTTATTGTGCTATCTTCAAACGCGATGG CAGCAAGCGCTGGAACGTATTGCCGATGGCTTTGTGCATCATGTCAGACAGACCAAACAGAAGGCAAAGG ATTATGCGCAGGAAGCGGTGTTTAAGGATTGGCAAAAAGCAGCTAAAAATGTCAGCAAGGCAGCTGAAGT ACTGCACCTGTTCATTGATGACAGCATTGATCTGCAACTACCGTTTGCAACAGTAAGACAGCAAGCACTG AGCCTGCTGACCAAAAGGGATCTGGAATCTGTATGTCTCTTCCTGAACGAGCAGCGACGATCGGTCGATG AAGCCATGTGGCAGTACTGCGACGAGAAAGAAAGTCTGCGGAAAGGTTTGCTGCGAGAGTTGTTCCTATG TCTGCGCTTCGAAGGCTGCGACGGCACCCAGCACTTAGCGGCCGCCTTGGCGAAAACACAAAACGAACTC AACGGCCAGGACGCTCAGTTGCAAACTGCCGACACCAGACTCCTTTCCAAAAAATCACGTGAATTCCTGC TGGATGGTGAAGGGAATATCCTGATCGATCGTTATGAGTGGTTCCTCTATCAACAGATTCCTGATCGCCT GAATGGCCAGCTGACGCTGCCTGATATCACTAAATACCGGGCACTCGACGCCGACCTGATCGACGGGGAA CATTGGCGAAAAAACAAATATACGCTGCTTCAACAGAGCCATTTTACAAAATTAGCGGAGGAGCCTGAAA AGCTGATCAAACAGATGGCCATGGAATTGGATACCCGTTTGTACGAAGTCGGCGAATATCTTGAACAGGA AGACAACCGGAATATCATCTTGCGTAATCCGCAGGGTAAACGCTTCTGGCGCCTGCCTTCGGCCAGCAAA CATCATCTGGTCAACAATCCCTTCTTCCAGCAAATTCCCACAACGGGGATTGCGGATGTACTGCGCATGG TTGATCGTGACACCGGTTTCATTGACTGCTTCGCTCATGTGCTGGGTTCCCAATCCAGAAGCCGTTCCCA TGAATATGACCTGTTGGCAATTCTGGTCGGCAATGCAACCAATCAAGGCATTTACGGCATGGCACAGATC TCTGATCGTACCTATGATCAGCTCAGCACTATCCAGGCGAACTATCTTCGCCTGGAAACATTGAATGCTG CTAACGACAACATCAATAACGCGACAGCCAAGCTACCCATCTTCCGGTACTACAACATCCAGGAAGATGT GATCCACGCCAGTGCCGATGGTCAAAAGTTCGAAGCCCGGCGCGAGACCTTCAAAACCCGTTATTCGTCG AAGTACTTTGGCACTCAAAAAGGTGTTTCTGCCATGACCTTGATCGCCAATCACGCTGCGATCAACGCCA GAGTGATCGGCGCCAACGAACATGAATCGCACTACATCTTTGATTTGTTGATGAGCAATACGTCAGACAT CATTCCGGATGTGCTCTCAACCGATACCCATGGGGTGAACCATGTGAACTTCGCGTTACTGGATCTGTTC GGATACCAGTTTGCCCCACGCTATGCCCAGGTTGGCAAAGTGATCAATGACATGTTTGATGTCAAGGAAG ACAAAGAACACCGAATTCAGCTGTGCTTAAAAAAGCCAATCAATACCCATCGTATTGCGCAGCACTGGGA TACCATCCAACGGATTGCAGTATCACTTAAGCAGCGGAAAACAACGCAAGCCACCTTGGTGAGAAAGCTC TCGGAGTACAAGCGCAATCACCCGCTGCTGGAAGCCCTGACGGAATACAATCGCCTGGTGAAAGCGAATT ATCTACTGTGCTACATCGATGATGCCAGTTTAAGAAACTATGTTCAGCGCGCGCTGAACCGGGGAGAGGC CTATCACCAACTGCGTCGGGCCGTGAGCAGCGTCAATGGGGATCAGTTCCGGGGCAGTTCAGACGAAGAA ATCCAGCTATGGAATGAGTGCGCTCGCCTGGTCACCAATGCCATCGTTTACTTCAACTCCAGGATACTCA GCCAGCTGTTGACCAGCTTCGAATACCAAGGAGATACCAAGAGAATAGATATCGTCAAACAGGCATCCCC TGTGGCCTGGCACAACATTAACCTCAAGGGGACTTACCACTTCGAATTGAGCGAAAAATTGCCAGATCTG GAGGAGCTTATGCGCTCAATCGAGGGATATTTACCCGTCAGCGAAAAGTAATACCCCTCTGGAGGCCACG GACGGCGCGGCCTCCAGAGCACTTTGTCGTTTTTGGACGGAAAATCCCTAGAACCCCTTTTTGCTGCGTC GACTCCAGACTGTGTGAAGGTGAATAAAGCGCAAATCGAAGCGCTATTTGATAAGTGGAACGAGTCATTG AAAACAGGTAACGCGCAGACGGTATCTGAAAATTATCTTAGCGATGCGGTATTGCTGCCTACTGTATCCA ATAAAGCGCGTTTAACGGACGCTGAGCGTGTTGATTATTTCGAGCATTTTCTTGCGAAAAAGCCGACCGG GAAAATTGACATGCGTACCATTCGCCTGGGGTGTAATAAGGCGATAGACACCGGTACCTACACATTTACC TTCGCGGACAAATCAACGGTTTCAGCCCGCTACACATTCACTTATGCATGGGACGGTAAAGAGTGGAAAA TTTCCACACACCACTCTTCAGCGATGCCTGAGGGGTAAAAAGCAGTGCAGGGGGCGGAATATTCACCGCT CCCTGAAGACTAGCCAATAATCGCGATGCCAAGACGTTCCATGAGCAACGATGCCTGGTAGTTGTCCAAC TTAACGCCTTGTAAATCAACGCCCCGAATATCTAAGTCACCCAACTCCGAATTGGTCAGATCGCAATGTG TGAAGTTTGCTGCTCGCCAGTCGAAAGTCGAAAACTCGCCGCCGGAGAGATCTGAACCACTGAACGTCGC GCCCAGTACCTGGGCACCCATCCAACGGTTTTCCCACAGCTCACACTTTTCCAGCACGACTTTCGAAAAA TTGGCGTAGCTTAGATTTGTGTTAGTGATATATGCGCTGCAAAACCAGGTGCGTGTAGTGATCATATTCA TAAAGCTTGCGCCGCGGAAATCTGCGCCTTGTGCGCGGCAGTGGCGAATTTCAATGCCCAGCGCACTGGC ATTGCGAAAATCCGCCATGGATAAATCACAGCTTTTAAAAATGGCATCTTTCAGCATTGCACGACTAAAA TTGCACCCTTTCTGGCTTTCACGATCATAGAACTGACAGCCGATAAATTCAGTGCCACTCAGGTCGGCAC CTGAAAAATCACAGTTAAAAAATGTACTATTTTCAATTTTCTCACCGGTGAAACGGTTTCTGTCAATTTT TTCGCCAACGAGTGCCAGAGCCATATTTGTACCTGTTTTTTTGTACAGTAATGGCGTCATGGTAAACCCT GATGAGGTTATGCGTCAAATCCGCCAATATGACATCTGAAAATGTGCTTTAAATCTGGTGTTTTTTCAGC AAAGCGCGAAGCTGATGGTAACTCAGACCCAGTAATTCAGCGGCTTTTTTCTGGTTAAATTTTGCCTGCT GTAAGCTGGTTTGTAGAAAGTCTTTCTCTTGCTGCTGCTGGAATTCACGTAGATCCAGCGGTAACCCTAC AGACATCGGTTTAGTTTCCGGCGCCTGCGGCTGAGTAGTGTGGCGGAGGAAGGGGTCAATGATTATCTCA TCCAGCGGGTAATCACTGGTTCCATGCCGGTAAACGGATCGCTCCACGACGTTTTTCAGTTCACGAATAT TGCCCGGCCAACGGTAGTGGAGGAGCGTTTCTCTGGCCTCGGCACTAAAACCCGGAAACAGAGGTAATCC GATCTCGCGGCACATCTGAATGGCAAAATGTTCGGCCATTAACATAATGTCACTTTGACGCTCGCGTAAC GGTGGGAGTTGCACCACGTCAAAGGCCAGGCGATCCAGCAGGTCCGCGCGGAAAGTGCCTTCGCTGACCA TGCGAGGTAAGTCGGCATTGGTCGCACAAACAAGTCGTACGTTAACTTGCAACGGCTGGCTGCCACCAAC GCGCTCCAGCTCGCCATATTCGATAACGCGCAGTAATTTTTCCTGTACCAACATCGGGGCGGTTGCCAGT TCATCGAGAAACAGCGTACCGCCGTCGGCGCGTTCGAAACGTCCCGGATGGCGTTTTTGCGCGCCGGTAA AGGCACCCGCTTCGTGACCAAACAGTTCGGAATCAAGCAAATTTTCGTTTAGCGCCGCGCAGTTAAGCGA AATAAACGGGCCTTGCCAGCGGGTGGAGAGGTAGTGCAGGCGGTTGGCAATAAGTTCTTTCCCGGTCCCG CGCTCACCTATAACCAGTACAGGTTTATCCAGCGGTGCCAGATGAGAAACCTGCTCCAGCACTTCAATAA AGCTGTTCGCTTCACCCAGAAGATTATCTTTGTATCCAGCCATGATGAAATTCACCATTTGTTAGTGTTA TTCACCAATTTACGCTAATTAGCCTGGCAGGTAAAATTATAT
Region Details
| Region | 2 |
| Region Length | 23.5Kb |
| Completeness(score) | incomplete(30) |
| Specific Keyword | transposase |
| Region Position | 3900-27461 |
| # tRNA | 0 |
| # Total Proteins | 6 |
| # Phage Hit Proteins | 6 |
| # Hypothetical Proteins | 0 |
| Phage + Hypothetical Protein % | 100% |
| # Bacterial Proteins | 0 |
| Attachment Site | yes |
| # Phage Species | 6 |
| Most Common Phage Name(hit genes count) | PHAGE_Staphy_SPbeta_like_NC_029119(3) PHAGE_Salmon_SJ46_NC_031129(2) PHAGE_Entero_P1_NC_005856(2) PHAGE_Salisa_1_NC_017983(1) PHAGE_Shigel_SfIV_NC_022749(1) PHAGE_Entero_Mu_NC_000929(1) PHAGE_Escher_pro483_NC_028943(1) |
| First Most Common Phage # | 1 |
| First Most Common Phage % | 50% |
| GC % | 52.37% |
| 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
>3 15621-31371 GGCACTGTTGCAAAGTTAGCGATGAGGCAGCCTTTTGTCTTATTCAAAGGCCTTACATTTCAAAAACTCT GCTTACCAGGCGCATTTCGCCCAGGGGATCACCATAATAAAATGCTGAGGCCTGGCCTTTGCGTAGTGCA CGCATCACCTCAATACCTTTGATGGTGGCGTAAGCCGTCTTCATGGATTTAAATCCCAGCGTGGCGCCGA TTATCCGTTTCAGTTTGCCATGATCGCATTCAATCACGTTGTTCCGGTACTTAATCTGTCGGTGTTCAAC GTCAGACGGGCACCGGCCTTCGCGTTTGAGCAGAGCAAGCGCGCGACCATAGGCGGGCGCTTTATCCGTG TTGATGAATCGCGGGATCTGCCACTTCTTCACGTTGTTGAGGATTTTACCCAGAAACCGGTATGCAGCTT TGCTGTTACGACGGGAGGAGAGATAAAAATCGACAGTGCGGCCCCGGCTGTCGACGGCCCGGTACAGATA CGCCCAGCGGCCATTGACCTTCACGTAGGTTTCATCCATGTGCCACGGGCAAAGATCGGAAGGGTTACGC CAGTACCAGCGCAGCCGTTTTTCCATTTCAGGCGCATAACGCTGAACCCAGCGGTAAATCGTGGAGTGAT CGACATTCACTCCGCGTTCAGCCAGCATCTCCTGCAGCTCACGGTAACTGATGCCGTATTTGCAGTACCA GCGTACGGCCCACAGAATGATGTCACGCTGAAAATGCCGGCCTTTGAATGGGTTCATGTGCAGCTCCATC AGCAAAAGGGGATGATAAGTTTATCACCACCGACTATTTGCAACAGTGCCGGTCAAAGTAACGAGATATC AAAAGTTCTTGACGTTATACGAGGGATCGCCGAGCAAACGAATTTGTTGGCACTCAACGCAGCAATTGAG GCCGCGCGTGCTGGTGAGCAGGGGCGTGGTTTTGCTGTTGTCGCCGATGAGGTTCGCAGTCTTGCTGCTC GCACACAGCAATCGACAACGGATATTCAAAGCATGATCAGCGCTCTACAAGAGCGAGCGCAATCCGCTGT TACAGTCATGGAGCAAAGTAGTCGGCAAGCGCACACGAGTGTAGCTCACGCAGAGGAAGCAGCTACAGCT CTTGATGGAATTGGCCAACGCGTTAACGAAATTACCGACATGAACGCGCAAATAGCGACTGCGGTCGAGC AGCAGGGAGCAGTAAGTGAAGACATAAACCGCAGTATTATCAATATACGCGATGCTGCTGATACCAATGT ACAGACCGGGCAGAATAATTTGCAAAGTGCGAAATCTGTCGCTCAGTTAACTAGCGCTCTGAGCGAACTG GCAAAACAGTTTTGGGAAAAACGAGGATAACGCTTTTCAGTATCTCGACAGGGATAACTTACTTTACCAT CGGTTATCCCTTTTAGCCGCACAAATTTTAGCCATGGCTTTTCAGGAAGTCAGGGCTATCAGAATGGCCT TAGAAAGCCTAGTCAAAGAGCTGTCACGAGAACACCGTTAGCTTAGCGTACGATTTTTTCCGAATTCTGC GGTTCCCCCTTGATGAATCGCGGGATCTGCCACTTCTTCACGTTGTTGAGGATTTTACCCAGAAACCGGT ATGCAGCTTTGCTGTTACGACGGGAGGAGAGATAAAAATCGACAGTGCGGCCCCGGCTGTCGACGGCCCG GTACAGATACGCCCAGCGGCCATTGACCTTCACGTAGGTTTCATCCATGTGCCACGGGCAAAGATCGGAA GGGTTACGCCAGTACCAGCGCAGCCGTTTTTCCATTTCAGGCGCATAACGCTGAACCCAGCGGTAAATCG TGGAGTGATCGACATTCACTCCGCGTTCAGCCAGCATCTCCTGCAGCTCACGGTAACTGATGCCGTATTT GCAGTACCAGCGTACGGCCCACAGAATGATGTCACGCTGAAAATGCCGGCCTTTGAATGGGTTCATGTGC AGCTCCATCAGCAAAAGGGGATGATAAGTTTATCACCACCGACTATTTGCAACAGTGCCAACGCCGGGTT ATTCTTATTTGTCGCTTCTTTACTCGCCTTTATCGGCCTTCACTCAAGGATGTATTGTGGTTATGCGTTA TATTCGCCTGTGTATTATCTCCCTGTTAGCCACCCTGCCGCTGGCGGTACACGCCAGCCCGCAGCCGCTT GAGCAAATTAAACAAAGCGAAAGCCAGCTGTCGGGCCGCGTAGGCATGATAGAAATGGATCTGGCCAGCG GCCGCACGCTGACCGCCTGGCGCGCCGATGAACGCTTTCCCATGATGAGCACCTTTAAAGTAGTGCTCTG CGGCGCAGTGCTGGCGCGGGTGGATGCCGGTGACGAACAGCTGGAGCGAAAGATCCACTATCGCCAGCAG GATCTGGTGGACTACTCGCCGGTCAGCGAAAAACATCTTGCCGACGGCATGACGGTCGGCGAACTCTGCG CCGCCGCCATTACCATGAGCGATAACAGCGCCGCCAATCTGCTGCTGGCCACCGTCGGCGGCCCCGCAGG ATTGACTGCCTTTTTGCGCCAGATCGGCGACAACGTCACCCGCCTTGACCGCTGGGAAACGGAACTGAAT GAGGCGCTTCCCGGCGACGCCCGCGACACCACTACCCCGGCCAGCATGGCCGCGACCCTGCGCAAGCTGC TGACCAGCCAGCGTCTGAGCGCCCGTTCGCAACGGCAGCTGCTGCAGTGGATGGTGGACGATCGGGTCGC CGGACCGTTGATCCGCTCCGTGCTGCCGGCGGGCTGGTTTATCGCCGATAAGACCGGAGCTGGCGAACGG GGTGCGCGCGGGATTGTCGCCCTGCTTGGCCCGAATAACAAAGCAGAGCGCATTGTGGTGATTTATCTGC GGGATACGCCGGCGAGTATGGCCGAGCGAAATCAGCAAATCGCCGGGATCGGCGCGGCGCTGATCGAGCA CTGGCAACGCTAACCCGGCGGTGGCCGCGCGCGTTATCCGGCCCGTAGCACCTCGCAGGCGTGCCGGGCG ATATGACTGGCGGCGGCATCGGAAAGATGCCGGTCGGTAATGATGGTGGTGAACCGGGTCAAAGGTAACG CCATGAACGTGGCCACCTGATTGTATTTCGAACTGTCGCACAGCAGGATGCTTCTCGCGCTGACCTGGCT GACGGTCTCCTTGACGGTAACCTTGTTCTCATCAGGGGTGAAAATCCCGCGACTGTCCCAGCCGCTGGCG GAGATAAAGGCCGTATCGATAGCCAGGTGGCGTAACGTACGCGCCGCCGATTCGCCCACGCAGGAGCGGT TCTCCCGGCACAGAGTGCCGCCGGTGTGGATCACGCCGCACTGGCTGGCATCGATCAGCAGCTGGGTTAT CTCAAAATCATTGGTGACCACCTGGAGATCGTTCCGGTCGAGGATCGCCCGCGCCAGCGCCAGGGTGGTA GTCCCGGCATCCAGATAAATGCAACTGTTTTTGGCGATATGACTCGCCGCCAGCGCGCCGATCGCCTGTT TCTCCTCACTCTGCAGCGTGCTTTTCACCAGATGACTGGGTTCCGCGGCCAGCCGGCTGACGGCGCGCAC GCCGCCCGAGACGCTGACCAGCAGCCCCTGCTCCTCCAGTTTACTAACGTCCCGACGGATGGTCATATGG GACACGCCGAGGATCTCCGTCAGCTCGTTAATGCTTACCGCCCCACGCTGCTCCACCAGGGCTAAAATAC GCTGATGTCGTTCTATTGGAATCACCGCTCTCCCCTTACCATTTTTTCACACCAGGCGTCACCACCCAGG CTACGGCCCTGGCGACACCCGGTGTTGTTATCGCGCTTTGCCGCTGTTTTTAGGCTATTTTAGGGCAAGA ATCGCCGTTGTGCAGCCTCTTTCCGCCTGTGAATTTTTTATATTCATGTGGGTTATTCGTGATAACTCTC ACATAAATTCACATGATAACGCTTTATTCTATCATTAAATCACATTAATTAACTAATGTTCACAAGGAGA CCAGCATGGCTGCACACACTAACGTCTGCGTGATTGGACTGGGTTCAATGGGCATGGGCGCCGCCCGCGC CTGCCTGCAGGCGGGCCTGAACACCTGGGGCGTTGACATCAATCCCGACAACTGTCGCGCACTGCTGGCG GCGGGCGCCAAAGGCGCGGGCCCCAGCGCGGTGCCGTTCGCCGCGGAACTGGATGCAGTTGTGCTGCTGG TGGTCAATGCCGCCCAGGTGCGGGGGATCCTGTTCGGCGAGAGCGGCCTCGCCGCCCATCTGAAGCCGGG CACTGTCGTGATGGTGTCGTCCACCATCGCCTCCGCCGATGCTCAGGCCATTGCCGAGGCGCTGGCGGAG TACCAGCTATTGATGCTCGACGCGCCGGTATCGGGCGGCGCCGTGAAAGCGGCCGCCGGCGACATGACGG TGATGGCCTCCGGGAGCGATGCCGCCTTTGCCCGCCTCGCGCCGGTGCTGGACGCCGTGGCCGGCAAAGC CTACCGCATCGGGAGCGACATTGGTCTTGGCTCGACGGTAAAAATTATCCATCAGCTGCTGGCCGGGGTG CACATCGCCGTTGCCGCCGAAGCGATGGCGCTTGCCGCCCGCGCCGGGATCCCACTGGAGACGATGTATG ACGTGGTCACCCACGCGGCGGGTAATTCCTGGATGTTTGAGAATCGCATGCAGCACGTCCTGGATGGCGA TTACTCGCCAAAATCCGCTGTCGATATTTTTGTCAAAGATCTCGGGCTGGTGAATGACACTGCCCGGGCG CTGACCTTCCCGCTGCCGCTCGCTACCACCGCGCTGAATATGTTCACCTCCGCCAGTAATGCCGGATTCG GTCGGGAAGATGACAGCGCGGTGATCAAGATTTTCAACGGCATCACCCTGCCGGGCCATAAACAGTGAGG AGAGACAACATGCAGCTTGGTGTCATTGCCGATGACTTCACCGGCGCCACGGATATTGCCAGCTTCCTCG TGCGCAACGGCATGCCGACGGTGCAACTGAATGGCGTGCCGACCCGCGATATTCCGCTGACCAGCGAGGC GGTGGTCATCAGCCTGAAAACCCGCTCCTGCCCGGCGGAAATGGCCGTCAGCCAGTCGCTGGCGGCCCTG CGCTGGCTGCAGGCCCAGGGCTGTCAGCAGTTTTATTTCAAGTACTGTTCCACTTTCGACAGCACCGCGC AGGGCAACATTGGCCCGGTGCTGGATGCCCTGCTGGCCGAGCTGGGTGAGACGCGGACGGTGATTTCCCC GGCGCTGCCGGTTAACGGCCGCACGGTCTATCAGGGATATCTGTTCGTCGGCGAGCAACTGCTGAATGAG TCCGGGATGCGCCACCATCCGGTGACGCCGATGGAGGATGCGCACCTGGGCCGCTTAATTGAGCGCCAGG GGCGCGGAAAAGCCGCGCTGATTGCCTGGCCGATTGTCGCCCGGTCGCCGCCGCGCTGGCGGCAGTCAAC GATCCGGCGGTGCGCTATGTGGTGCTCGACGCCCTCAGCGAACAGGATCTGCTCACCCAGGGCGTGGCGC TGCGGGAGATGAAGCTGGTCTCCGGCGGTTCCGGCCTCGCCATCGGCCTCGCCCGCGACTGGGCGCAGCG CCATGGCGCCAGGGGGGAAAGCGCTCAGGCCGGCATGCCGCTGGCCGGTCCGGCGGTGGTGCTCTCGGGC TCCTGCTCGGTGATGACCAACAGCCAGGTGGCGGCCTATCGTCAACAGGCCCCCGCCCGCGCCGTCGACT TAAGCGCCTGCTTTACCGATCTGGAGAGCTACGTCAGGACGCTGACTGACTGGGTGGACGCGCAGCGCGA TGCGCCGCTGGCGCCGATGATCTATGCCACCACCGAGCCGCAAACGCTGCAGCGGATCCAGGCGCAGTAT GGCGACAAGGCCAGCAGCGAACGGGTGGAACAGCTGTTTGCCGCTCTTGCCGCCGCCCTGAAGGCGAACG GATTTACCCGCTTTATTGTGGCCGGAGGGGAAACGTCGAGCATTGTGGCGCAGACCCTGGGGGTTGAGGC GTTCCATATTGGGCCGACCATCTCCCCTGGCGTGCCCTGGGTGCGTGACACCCGCCAGCCGCTCTCCCTG GCGCTGAAGTCAGGTAACTTCGGCGATATCCAGTTCTTTGGGCACTGTTGCAAAGTTAGCGATGAGGCAG CCTTTTGTCTTATTCAAAGGCCTTACATTTCAAAAACTCTGCTTACCAGGCGCATTTCGCCCAGGGGATC ACCATAATAAAATGCTGAGGCCTGGCCTTTGCGTAGTGCACGCATCACCTCAATACCTTTGATGGTGGCG TAAGCCGTCTTCATGGATTTAAATCCCAGCGTGGCGCCGATTATCCGTTTCAGTTTGCCATGATCGCATT CAATCACGTTGGGGTTCTAGGGATTTTCCGTCCAAAAACGACAAAGTGCTCTGGAGGCCCCGCCGTCTGT GGCCTCCAGAGGGGTATTACTTTTTTCGAGATCCCTATTTGGGCTCTGTTTGAGTAAGATTTAGTCTTTT TGGGCTAAATCCATGGCATTCGAAGAACGTGTCCAAATCTTGTCCGAGGCAGAACAAGATGAGTTATATG GACCCCCCGCTTTCACCTCCGCCGACCAACGCTTCTTTTTCTCGCTGAACGATAAGGAACTGGCGATCGC TAAAAGCCTCCGTCATCGGGGCCAGCGTTACATGCTGGTGGTACTGCTGGGCTATTTCAAAGCCAAGCCG GTGGTGCTGAATCCCGGCTTTCATCAGATCAAGCAGGACCTCAAATACGTTTATCAAACCGTTCTACCAG GCCCAGGCTGTAGACCCTTTAATCTCACGCCAAAAGAGAACGAACGGATTTACCAACGTGTTTTCCAGCT CTGCAACTACCAGCGCTGGAATGTCAAAGACCATGGAGCGGCGTTGAGAGATTACTTATCCCAGCAAGCC AGAGCCTGGACAGCGCCTAGGCACCTCTTCGATGCGGCCAATGAATATTGTTCGGGGCAGAAGATCGCAA TCCCTGCCTACAGCACGCTGCAAAAGATCATCAGTCAGGTGGTGGGAGACGAACAGGAACACATGGCCGC GCACCTTGAGCGTGCAATGTCACGCGGTCTTAAGCAAGCACTGGCGGAGCTCGTGAACGGCACAGGTCCA CTGCCGTTCCGACAGTTGCGACAATCGGCTCGTGACTTCACCGGAACCGAGTTGGAGAAAGAACTGATTG TCTATCGCCATATCCAGCATTGGATGCCGGAAGTGGATCTGCTGTTGAGCACGCTATCACTGTCGCAGAA AAATCTGCAACACCTGGCAGAGAAAGTCGACTACTACGGTGCCAAACTGAAACGTCAAACCGTAGGCAGC CAATGGCTGTATTTATTGTGCTATCTTCAAACGCGATGGCAGCAAGCGCTGGAACGTATTGCCGATGGCT TTGTGCATCATGTCAGACAGACCAAACAGAAGGCAAAGGATTATGCGCAGGAAGCGGTGTTTAAGGATTG GCAAAAAGCAGCTAAAAATGTCAGCAAGGCAGCTGAAGTACTGCACCTGTTCATTGATGACAGCATTGAT CTGCAACTACCGTTTGCAACAGTAAGACAGCAAGCACTGAGCCTGCTGACCAAAAGGGATCTGGAATCTG TATGTCTCTTCCTGAACGAGCAGCGACGATCGGTCGATGAAGCCATGTGGCAGTACTGCGACGAGAAAGA AAGTCTGCGGAAAGGTTTGCTGCGAGAGTTGTTCCTATGTCTGCGCTTCGAAGGCTGCGACGGCACCCAG CACTTAGCGGCCGCCTTGGCGAAAACACAAAACGAACTCAACGGCCAGGACGCTCAGTTGCAAACTGCCG ACACCAGACTCCTTTCCAAAAAATCACGTGAATTCCTGCTGGATGGTGAAGGGAATATCCTGATCGATCG TTATGAGTGGTTCCTCTATCAACAGATTCCTGATCGCCTGAATGGCCAGCTGACGCTGCCTGATATCACT AAATACCGGGCACTCGACGCCGACCTGATCGACGGGGAACATTGGCGAAAAAACAAATATACGCTGCTTC AACAGAGCCATTTTACAAAATTAGCGGAGGAGCCTGAAAAGCTGATCAAACAGATGGCCATGGAATTGGA TACCCGTTTGTACGAAGTCGGCGAATATCTTGAACAGGAAGACAACCGGAATATCATCTTGCGTAATCCG CAGGGTAAACGCTTCTGGCGCCTGCCTTCGGCCAGCAAACATCATCTGGTCAACAATCCCTTCTTCCAGC AAATTCCCACAACGGGGATTGCGGATGTACTGCGCATGGTTGATCGTGACACCGGTTTCATTGACTGCTT CGCTCATGTGCTGGGTTCCCAATCCAGAAGCCGTTCCCATGAATATGACCTGTTGGCAATTCTGGTCGGC AATGCAACCAATCAAGGCATTTACGGCATGGCACAGATCTCTGATCGTACCTATGATCAGCTCAGCACTA TCCAGGCGAACTATCTTCGCCTGGAAACATTGAATGCTGCTAACGACAACATCAATAACGCGACAGCCAA GCTACCCATCTTCCGGTACTACAACATCCAGGAAGATGTGATCCACGCCAGTGCCGATGGTCAAAAGTTC GAAGCCCGGCGCGAGACCTTCAAAACCCGTTATTCGTCGAAGTACTTTGGCACTCAAAAAGGTGTTTCTG CCATGACCTTGATCGCCAATCACGCTGCGATCAACGCCAGAGTGATCGGCGCCAACGAACATGAATCGCA CTACATCTTTGATTTGTTGATGAGCAATACGTCAGACATCATTCCGGATGTGCTCTCAACCGATACCCAT GGGGTGAACCATGTGAACTTCGCGTTACTGGATCTGTTCGGATACCAGTTTGCCCCACGCTATGCCCAGG TTGGCAAAGTGATCAATGACATGTTTGATGTCAAGGAAGACAAAGAACACCGAATTCAGCTGTGCTTAAA AAAGCCAATCAATACCCATCGTATTGCGCAGCACTGGGATACCATCCAACGGATTGCAGTATCACTTAAG CAGCGGAAAACAACGCAAGCCACCTTGGTGAGAAAGCTCTCGGAGTACAAGCGCAATCACCCGCTGCTGG AAGCCCTGACGGAATACAATCGCCTGGTGAAAGCGAATTATCTACTGTGCTACATCGATGATGCCAGTTT AAGAAACTATGTTCAGCGCGCGCTGAACCGGGGAGAGGCCTATCACCAACTGCGTCGGGCCGTGAGCAGC GTCAATGGGGATCAGTTCCGGGGCAGTTCAGACGAAGAAATCCAGCTATGGAATGAGTGCGCTCGCCTGG TCACCAATGCCATCGTTTACTTCAACTCCAGGATACTCAGCCAGCTGTTGACCAGCTTCGAATACCAAGG AGATACCAAGAGAATAGATATCGTCAAACAGGCATCCCCTGTGGCCTGGCACAACATTAACCTCAAGGGG ACTTACCACTTCGAATTGAGCGAAAAATTGCCAGATCTGGAGGAGCTTATGCGCTCAATCGAGGGATATT TACCCGTCAGCGAAAAGTAATACCCCTCTGGAGGCCACGGACGGCGCGGCCTCCAGAGCACTTTGTCGTT TTTGGACGGAAAATCCCTAGAACCCCTTTTTGCTGCGTCGACTCCAGACTGTGTGAAGGTGAATAAAGCG CAAATCGAAGCGCTATTTGATAAGTGGAACGAGTCATTGAAAACAGGTAACGCGCAGACGGTATCTGAAA ATTATCTTAGCGATGCGGTATTGCTGCCTACTGTATCCAATAAAGCGCGTTTAACGGACGCTGAGCGTGT TGATTATTTCGAGCATTTTCTTGCGAAAAAGCCGACCGGGAAAATTGACATGCGTACCATTCGCCTGGGG TGTAATAAGGCGATAGACACCGGTACCTACACATTTACCTTCGCGGACAAATCAACGGTTTCAGCCCGCT ACACATTCACTTATGCATGGGACGGTAAAGAGTGGAAAATTTCCACACACCACTCTTCAGCGATGCCTGA GGGGTAAAAAGCAGTGCAGGGGGCGGAATATTCACCGCTCCCTGAAGACTAGCCAATAATCGCGATGCCA AGACGTTCCATGAGCAACGATGCCTGGTAGTTGTCCAACTTAACGCCTTGTAAATCAACGCCCCGAATAT CTAAGTCACCCAACTCCGAATTGGTCAGATCGCAATGTGTGAAGTTTGCTGCTCGCCAGTCGAAAGTCGA AAACTCGCCGCCGGAGAGATCTGAACCACTGAACGTCGCGCCCAGTACCTGGGCACCCATCCAACGGTTT TCCCACAGCTCACACTTTTCCAGCACGACTTTCGAAAAATTGGCGTAGCTTAGATTTGTGTTAGTGATAT ATGCGCTGCAAAACCAGGTGCGTGTAGTGATCATATTCATAAAGCTTGCGCCGCGGAAATCTGCGCCTTG TGCGCGGCAGTGGCGAATTTCAATGCCCAGCGCACTGGCATTGCGAAAATCCGCCATGGATAAATCACAG CTTTTAAAAATGGCATCTTTCAGCATTGCACGACTAAAATTGCACCCTTTCTGGCTTTCACGATCATAGA ACTGACAGCCGATAAATTCAGTGCCACTCAGGTCGGCACCTGAAAAATCACAGTTAAAAAATGTACTATT TTCAATTTTCTCACCGGTGAAACGGTTTCTGTCAATTTTTTCGCCAACGAGTGCCAGAGCCATATTTGTA CCTGTTTTTTTGTACAGTAATGGCGTCATGGTAAACCCTGATGAGGTTATGCGTCAAATCCGCCAATATG ACATCTGAAAATGTGCTTTAAATCTGGTGTTTTTTCAGCAAAGCGCGAAGCTGATGGTAACTCAGACCCA GTAATTCAGCGGCTTTTTTCTGGTTAAATTTTGCCTGCTGTAAGCTGGTTTGTAGAAAGTCTTTCTCTTG CTGCTGCTGGAATTCACGTAGATCCAGCGGTAACCCTACAGACATCGGTTTAGTTTCCGGCGCCTGCGGC TGAGTAGTGTGGCGGAGGAAGGGGTCAATGATTATCTCATCCAGCGGGTAATCACTGGTTCCATGCCGGT AAACGGATCGCTCCACGACGTTTTTCAGTTCACGAATATTGCCCGGCCAACGGTAGTGGAGGAGCGTTTC TCTGGCCTCGGCACTAAAACCCGGAAACAGAGGTAATCCGATCTCGCGGCACATCTGAATGGCAAAATGT TCGGCCATTAACATAATGTCACTTTGACGCTCGCGTAACGGTGGGAGTTGCACCACGTCAAAGGCCAGGC GATCCAGCAGGTCCGCGCGGAAAGTGCCTTCGCTGACCATGCGAGGTAAGTCGGCATTGGTCGCACAAAC AAGTCGTACGTTAACTTGCAACGGCTGGCTGCCACCAACGCGCTCCAGCTCGCCATATTCGATAACGCGC AGTAATTTTTCCTGTACCAACATCGGGGCGGTTGCCAGTTCATCGAGAAACAGCGTACCGCCGTCGGCGC GTTCGAAACGTCCCGGATGGCGTTTTTGCGCGCCGGTAAAGGCACCCGCTTCGTGACCAAACAGTTCGGA ATCAAGCAAATTTTCGTTTAGCGCCGCGCAGTTAAGCGAAATAAACGGGCCTTGCCAGCGGGTGGAGAGG TAGTGCAGGCGGTTGGCAATAAGTTCTTTCCCGGTCCCGCGCTCACCTATAACCAGTACAGGTTTATCCA GCGGTGCCAGATGAGAAACCTGCTCCAGCACTTCAATAAAGCTGTTCGCTTCACCCAGAAGATTATCTTT GTATCCAGCCATGATGAAATTCACCATTTGTTAGTGTTATTCACCAATTTACGCTAATTAGCCTGGCAGG TAAAATTATATAATTACAATAAAATCAATTATATAAAAAGTTGGCACGCCAAGTGCATTACGAAAACAGC AGGGCATAGCCCGATATCAGAACAGTAAGTGAGGATTACATTATGGGTATTTTTTCTCGTTTTGCCGACA TCGTGAACGCCAACATTAATGCGTTGCTGGAAAAGGCCGAAGATCCGCAGAAACTGGTGCGGTTAATGAT CCAGGAAATGGAAGACACGCTGGTTGAGGTACGTTCTAACTCAGCGCGTGCGCTGGCAGAAAAGAAACAA TTATCTCGCCGTATCGAACAGGCCAGTGCCCAACAGGCAGAGTGGCAGGAAAAAGCAGAACTTGCGCTGC GTAAAGAGAAAGAAGATTTGGCGCGTTCTGCGTTAATTGAAAAGCAGAAACTGACCGATTTAATTGCCTC TCTGGAGCATGAGGTGACGCTGGTTGACGATACGCTGGCGCGTATGAAAAAAGAGATCGGTGAGCTGGAA AATAAACTCAGTGAAACCCGTGCTCGTCAGCAGGCGTTGATGCTGCGTCATCAGGCAGCGAGTTCTTCGC GTGATGTTCGTCGTCAACTGGACAGCGGTAAACTCGATGAAGCGATGGCGCGCTTTGAATCTTTCGAGCG TCGTATCGATCAGATGGAAGCCGAGGCTGAAAGCCATAACTTCGGTAAACAGAAGTCTCTGGATCAGCAA TTTGCTGACCTGAAAGCAGATGATGAAATCAGCGAGCAGCTGGCGCAACTTAAAGCCAAAATGCAGCAAG ACAAGCAATAATAACATCTGGCGGCGCCCGAACGCGCCGCCGCTCATCACCTGTAAGGAGTACTCATGAG CGCGCTATTTCTGGCCATCCCGTTAACCATCTTTGTGTTGTTCGTTTTACCGATTTGGCTCTGGCTGCAC TACAGCAACCGTTCCAGCCGTGGCGAACTGTCGCAAAGTGAACAGCAACGTCTGGTCGAACTCAACGATG ACGCACAGCGGATGCGCGAGCGCATTCAGGCGCTGGAAGACATCCTCGATGCTGAACATCCAAACTGGAG GGACCGCTAATGGGAGGCGTTAACCTGAACAAAAAACTGTGGCGTATTCCGCAACAGGGCATGGTGAAGG GGGTTTGCGCTGGGATTGCGCATTATCTCGATGTGCCTGTGAAGCTGGTACGGATCCTGGTGGTGTTGTC AGTCTTTTTTGGCCTGGCCTTTTTCACCTTCGTCGCTTACATCGTGCTGACCTTTGTGTTGGATCCGATG CCGGACAATGTGGTTTCCGGCGAGCAGCAGCCATCAAGCGGTGAGCTGTTGGATGCCGTCGATCGCGAGC TGGCGGCTAGTGAAAAGCGTTTACGTGAAATGGAGCGTTATGTGACGTCCGATACTTTTTCCTTACGTAG TCGCTTCCGTCAATTGTGAGGACAGAAATGAACAATCGCTGGCAACGTGCCGGGCAAAGGGTTAAGCCGG GCTTTAAAATAGCAGGTAAGCTGGTGCTTCTGACCGCACTGCGCTACGGCCCGGCGGGTGTAGCAGGGTG GGCGGTGAAGTCCGTCGCCCGACGCCCGCTAAAAATGCTGCTGGCGTTGGTTCTGGAACCGGTGTTGAGT CGGGCTGCGGCAAAATTGTCGAAACGTTATTCAGGTAATCAACCCTGATATTTGAATCAGCAAAAGCAAG CAACAATTAATCAACATTCCCTCATTTAATTTGCGGCAGCTCACAAATATAATTTTGGGGCTGTCAAAAT TCTTTTTGGTCGTTACCACGGGTATTGAAGGTGAACTAAAAAATCTATTTCGCAGGGCATTAATACCCAG GTTTTATATCAGGAAGTCGGTCAGCAATATTTGTGTTCCTATAGTGATATTCTGTAATCCTTTCTCACCT GCAATCAGATTAAATAATAAATTATAGCTCTGCTCACCTAATTGTTGGGTAGGAACATCAAATGCGGGTA GAAAAATCAACAGGCTAACTGCAGCACGGGTAACCTGAGGAACAATCGTCCGCGCCTGCAGACGGTGATA ATGCGGTCGCAATATTTTCTTAAGAACTGGCGTATAGTGTAGAGGTAAATCCAACTATCAGTCAGGAAGA TATTATGTTGAAAAAAGGTGTATTAGCGTTGGCTCTGGTCATCGGCATGCCGGTTTATGCTGCGGAACAT TGGATCGATGTTCGCATTCCTGAACAGTATCAACAGCAGCATATTCAGGGGGCCGTCAATATTCCGTTAA AAGAGATGAAGGCACGTATTGCAGCTGAAGTTCCTGATAAGAACGACACTGTGAAGCTGTACTGCAACTC CGGGCGTCAATCGGGACAAGCGAAGGATATGTTGACTGAAATGGGCTATACGCAGGTGACGAATGAAGGT GGCATCAACCAGATCTCGCTTCCTAAAGTAGAGAATAAATAAGCCGTACGCAGTTCTTCTGCTCTTGGCG GTAAGAATAATGCCGCCAGGAACCGCCCAGGTAGTTGATAAGTAAGAATTGACCCCTATCTTTACTTCCT GTTTGTTATAATTTCTTCGGTTCCTTCAGCAAAACGGGATGGCGATGAAGCGACTTAAAAATGAACTCAA TTCGCTGGTTAATCGCGGGGTAGACCGGCATTTACGCCTGGCTGTTACCGGACTTAGCCGCAGCGGTAAG ACGGCGTTTATCACCGCGATGGTAAATCAGTTACTCAATATTCATGCCGGTGCACGTCTGCCGTTGCTCA GCTGCGTGCGCGAAGAGCGTTTGCTCGGCGTGAAACGGGTTCCTCAACGCGATTTTGGCATTCCGCGCTT TACCTATGATGAGGGACTGGCTCAGCTGTACGGCTCTCCGCCGACCTGGCCGACCCCTACGCGCGGCGTG AGTGAAATACGTCTGGCGCTACGCTATAAATCCAATGACTCTTTACTGCGCCACTTTAAAGACACCTCCA CGCTGTACCTGGAGATCGTCGATTATCCGGGGGAGTGGCTGCTCGATTTACCGATGCTTGCCCAGGATTA TCTGAGCTGGTCGCGGCAAATGACCGGATTATTGCAGGGGCTGCGGGGCGAATGGTCGGCAAAATGGCGG CAGTTATGCCAGGGGCTGGATCCGTTGGCGCCTGCTGATGAAAACCGTCTGGCGGAAATTGCTGCCGCCT GGAGGCACTGTTGCAAATAGTCGGTGGTGATAAACTTATCATCCCCTTTTGCTGATGGAGCTGCACATGA ACCCATTCAAAGGCCGGCATTTTCAGCGTGACATCATTCTGTGGGCCGTACGCTGGTACTGCAAATACGG CATCAGTTACCGTGAGCTGCAGGAGATGCTGGCTGAACGCGGAGTGAATGTCGATCACTCCACGATTTAC CGCTGGGTTCAGCGTTATGCGCCTGAAATGGAAAAACGGCTGCGCTGGTACTGGCGTAACCCTTCCGATC TTTGCCCGTGGCACATGGATGAAACCTACGTGAAGGTCAATGGCCGCAGGGCGTATCTGTACCGGGCCGT CGACAGCCGGGGCCGCACTGTCGATTTTTATCTCTCCTCCCGTCGTAACAGCAAAGCTGCATACCGGTTT CTGGGTAAAATCCTCAACAACGTGAAGAAGTGGCAGATCCCGCGATTCATCAACACGGATAAAGCGCCCG CCTATGGTCGCGCGCTTGCTCTGCTCAAACGCGAAGGCCGGTGCCCGTCTGACGTTGAACACCGACAGAT TAAGTACCGGAACAACGTGATTGAATGCGATCATGGCAAACTGAAACGGATAATCGGCGCCACGCTGGGA TTTAAATCCATGAAGACGGCTTACGCCACCATCAAAGGTATTGAGGTGATGCGTGCACTACGCAAAGGCC AGGCCTCAGCATTTTATTATGGTGATCCCCTGGGCGAAATGCGCCTGGTAAGCAGAGTTTTTGAAATGTA A
Region Details
| Region | 3 |
| Region Length | 15.7Kb |
| Completeness(score) | incomplete(30) |
| Specific Keyword | transposase |
| Region Position | 15621-31371 |
| # tRNA | 0 |
| # Total Proteins | 11 |
| # Phage Hit Proteins | 3 |
| # Hypothetical Proteins | 2 |
| Phage + Hypothetical Protein % | 45.4% |
| # Bacterial Proteins | 6 |
| Attachment Site | yes |
| # Phage Species | 3 |
| Most Common Phage Name(hit genes count) | PHAGE_Staphy_SPbeta_like_NC_029119(2) PHAGE_Microc_MaMV_DC_NC_029002(2) PHAGE_Edward_MSW_3_NC_020082(1) PHAGE_Lister_LMSP_25_NC_024360(1) PHAGE_Salmon_SJ46_NC_031129(1) |
| First Most Common Phage # | 1 |
| First Most Common Phage % | 18.18% |
| GC % | 53.44% |
| 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|CP035538.1| Klebsiella pneumoniae subsp. pneumoniae strain CCRI-21711 plasmid 48698, gc%: 53.43%
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 9 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | complement(262..1749) | PHAGE_Pseudo_phi3_NC_030940: hypothetical protein; Kp711_8001; phage(gi100001) | 2.31e-36 | Showinfo_outline |
| 2 | 2155..2586 | PHAGE_Cronob_ENT39118_NC_019934: protein umuD; Kp711_8002; phage(gi431811072) | 5.32e-34 | Showinfo_outline |
| 3 | 2586..3857 | PHAGE_Cronob_ENT39118_NC_019934: DNA polymerase; Kp711_8003; phage(gi431811050) | 0.0 | Showinfo_outline |
| 4 | complement(3939..4913) | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; Kp711_8004; phage(gi100010) | 1.82e-116 | Showinfo_outline |
| 5 | complement(4913..6118) | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; Kp711_8005; phage(gi100009) | 0.0 | Showinfo_outline |
| 6 | 6533..6802 | hypothetical protein; Kp711_8006 | 0.0 | Showinfo_outline |
| 7 | complement(7159..8025) | PHAGE_Burkho_KS14_NC_015273: gp37; Kp711_8007; phage(gi327198306) | 1.71e-17 | Showinfo_outline |
| 8 | complement(8964..9092) | hypothetical protein; Kp711_8008 | 0.0 | Showinfo_outline |
| 9 | complement(9108..9884) | PHAGE_Mycoba_Squirty_NC_026588: non-functional integrase; Kp711_8009; phage(gi764159894) | 5.08e-08 | Showinfo_outline |
Sequence
>complement(262..1749)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>2155..2586
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>2586..3857
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(3939..4913)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(4913..6118)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>6533..6802
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(7159..8025)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(8964..9092)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(9108..9884)
[Klebsiellapneumoniaesubsp.pneumoniae]
Region 2, total 8 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | 3900..3911 | attL | 0.0 | Showinfo_outline |
| 2 | 13047..13322 | PHAGE_Entero_P1_NC_005856: InsA; Kp711_8015; phage(gi46401643) | 2.42e-57 | Showinfo_outline |
| 3 | 13367..13744 | PHAGE_Shigel_SfIV_NC_022749: IS1 transposase B; Kp711_8016; phage(gi557307573) | 1.34e-82 | Showinfo_outline |
| 4 | complement(14022..14627) | PHAGE_Staphy_SPbeta_like_NC_029119: bifunctional AAC/APH; Kp711_8017; phage(gi985761240) | 4.80e-16 | Showinfo_outline |
| 5 | complement(14810..15367) | PHAGE_Escher_pro483_NC_028943: DNA invertase; Kp711_8018; phage(gi971758535) | 9.46e-28 | Showinfo_outline |
| 6 | complement(15673..16377) | PROPHAGE_Brucel_1330: transposase, putative; Kp711_8019; phage(gi23502708) | 1.98e-53 | Showinfo_outline |
| 7 | 17707..18573 | PHAGE_Salmon_SJ46_NC_031129: hypothetical protein; Kp711_8021; phage(gi100066) | 1.35e-59 | Showinfo_outline |
| 8 | 27461..27472 | attR | 0.0 | Showinfo_outline |
Sequence
>3900..3911
TAATTACAATAA
Sequence
>13047..13322
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>13367..13744
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(14022..14627)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(14810..15367)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(15673..16377)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>17707..18573
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>27461..27472
TAATTACAATAA
Region 3, total 13 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | 15621..15634 | attL | 0.0 | Showinfo_outline |
| 2 | 22143..25160 | PROPHAGE_Xantho_306: Tn5044 transposase; Kp711_8026; phage(gi21243163) | 3.94e-94 | Showinfo_outline |
| 3 | 25269..25637 | hypothetical protein; Kp711_8027 | 0.0 | Showinfo_outline |
| 4 | complement(25679..26359) | PHAGE_Edward_MSW_3_NC_020082: hypothetical protein; Kp711_8028; phage(gi448261087) | 8.55e-07 | Showinfo_outline |
| 5 | complement(26418..27407) | psp operon transcriptional activator PspF; Kp711_8029 | 0.0 | Showinfo_outline |
| 6 | 27563..28231 | phage shock protein PspA; Kp711_8030 | 0.0 | Showinfo_outline |
| 7 | 28286..28510 | phage shock protein PspB; Kp711_8031 | 0.0 | Showinfo_outline |
| 8 | 28510..28869 | DNA-binding transcriptional activator PspC; Kp711_8032 | 0.0 | Showinfo_outline |
| 9 | 28878..29108 | phage shock protein PspD; Kp711_8033 | 0.0 | Showinfo_outline |
| 10 | 29555..29872 | thiosulfate:cyanide sulfurtransferase PspE; Kp711_8034 | 0.0 | Showinfo_outline |
| 11 | 30015..30620 | hypothetical protein; Kp711_8035 | 0.0 | Showinfo_outline |
| 12 | 30604..30617 | attR | 0.0 | Showinfo_outline |
| 13 | 30667..31371 | PROPHAGE_Brucel_1330: transposase, putative; Kp711_8036; phage(gi23502708) | 4.77e-51 | Showinfo_outline |
Sequence
>15621..15634
GGCACTGTTGCAAA
Sequence
>22143..25160
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>25269..25637
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(25679..26359)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>complement(26418..27407)
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>27563..28231
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>28286..28510
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>28510..28869
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>28878..29108
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>29555..29872
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>30015..30620
[Klebsiellapneumoniaesubsp.pneumoniae]
Sequence
>30604..30617
GGCACTGTTGCAAA
Sequence
>30667..31371
[Klebsiellapneumoniaesubsp.pneumoniae]
Klebsiella pneumoniae subsp
Click on a region to see details.
Intact (score > 90)
Questionable (score 70-90)
Incomplete (score < 70)
Viewer Options
Questionable (score 70-90)
Incomplete (score < 70)
Viewer Options
Length: 48698 bps
Phages: 3
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Click on a region in the genome above to show details here.
Click on a region in the genome above to show details here.
Viewer Options
Click on a sequence to see details.
Locus 1: Kp711_8001 (Region 1)
Locus: Kp711_8001ORF Start: 262
ORF Stop: 1749
Strand: Backward
Protein Sequence: MMYGEEKSDSLIVAAKQANNPKGAESVERRSGAKGNAEQPHMRRTQSRESMSQRLSRVREAAKQRKKERFTALFHLLTVEALEAAFLSLSRKAAAGVDGIRWMDYAGNMKNNITDLHRRLHQGSYRAQPGRRHYIPKADGKQRPLGIASLEDKIVQYALVKILNAVYENDFMGFSYGFRPGRSQHDALDALATGLVRTNVNWVLDADISQFFDRVSHEWLIRFTEHRIGDRRVIRLIRKWLTAGTSEEGQWRATEEGTPQGAVISPLLANIYLHYVFDLWAHQWRRRYATGNVVMVRYADDIVIGFDKRYDARRFRIAMQRRLREFGLTVHPEKTRLMEFGRFAAENRAIRGKGKPETFNFLGFTHISGKDRNGRFMLIRKTRRDRMTATLKAIKDGLRRRWHYSIPEQGKWLRRVVQGYLNYHSVPGNFPTMQKFRTHVTNLWRRALRRRSQKDDTTWTKANKLAAAWLPRVRVLHPWPVERFTARHPRQEPGA
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: Kp711_8001, hypothetical protein, phage(gi100001), PHAGE_Pseudo_phi3_NC_030940
Homolog/Ortholog E-Value: 2.31e-36
Locus 2: Kp711_8002 (Region 1)
Locus: Kp711_8002ORF Start: 2155
ORF Stop: 2586
Strand: Forward
Protein Sequence: MKLQLFSTGKELPPQAHPLFADLASCGFPSPAADYVESDLDLHDYCIRHPSATYYLRASGDSMADGSLYNGDLLVVDSAEKPRHGDIVVASMQGEFTVKRLLLTPRLTLQPMNASWSPIYPDPDELDIFGVVTHIIHRPREMY
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: Kp711_8002, protein umuD, phage(gi431811072), PHAGE_Cronob_ENT39118_NC_019934
Homolog/Ortholog E-Value: 5.32e-34
Locus 3: Kp711_8003 (Region 1)
Locus: Kp711_8003ORF Start: 2586
ORF Stop: 3857
Strand: Forward
Protein Sequence: MFALADVNSFYASCERVFRPDLKGKPIVVLSNNDGNVIARSAEAKPWIKMGTPWFQIKNERYPEKIYAFSSNYELYASISARVMNCLEELAPRVEQYSIDEMFLDLTGVEHCMGLEDFARQLRQQVYDCTRLTIGVGAGPTKTLAKSAQWASKEWKQFHGVLALTRGNPQRTRKLLSLQPVEEIWGVGNRIARKLNVLGIKTALDLALTNPAFIRKNFSVVLERTVRELNGESCLSLEEAPPTKQQIVCSRSFGVKITEYESLRQAICQHAERASEKLRKEHQYCRHISVFIKTSPFAIKEPYYGNVATEKLLTPTQDTRDIIAAATTALERIWRDGHRYAKAGVMLNDFTGSGVSQLQLFDERPPRPHSAELMRVLDGINNSGLGKVWFAGRGMAPEWQMKREMLSPAYTTRWSDIPAAKLA
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: Kp711_8003, DNA polymerase, phage(gi431811050), PHAGE_Cronob_ENT39118_NC_019934
Homolog/Ortholog E-Value: 0.0
Locus 4: Kp711_8004 (Region 1)
Locus: Kp711_8004ORF Start: 3939
ORF Stop: 4913
Strand: Backward
Protein Sequence: MSNEKRKTIGRQLNTQASMLEMADTGRSQVFTLKTGRKVTFRFVRVPASEVESKTFVNQENNGRDQLALTRESLKSIIQTIKFQQFFPCIGIKQSERIEILDGSRRRASAIFVRTGLDVMVTEEHLSADEARQLAKDIQTAKEHNLREIGLRLIALKESGFNQKEIAELEGLSQAKVTRALQAAAVPQDLISLFPVQSELSFSDYKLLLEVNEKLGEKGLTPEELIQSVSAQLDAILSDGERPEDEQKASILKLISQASQALIDPSPKEKSVVSPLWSFEEKDKFARKRVKGRTLTYEFSRMSKVIQDELDKAINEVLDRNLSQ
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: Kp711_8004, hypothetical protein, phage(gi100010), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 1.82e-116
Locus 5: Kp711_8005 (Region 1)
Locus: Kp711_8005ORF Start: 4913
ORF Stop: 6118
Strand: Backward
Protein Sequence: MDNIEQLRKVATRAGKLLTSLSESIRQQKEELKLTEFYQEYSKAALYKLPKLSKGSVEYAVSEMEAGGYIFKKKPSGNTMKYAMTIQNVIDLYNHRKVPKYRDRFDKAFTIFVCNLKGGGSKTVSTASLSHAFRAHPQLLFEDLRILAIDFDPQASLTMFLSHENSVGLVENTAAQAMLQNVSREELLSDFIVPSIIPGVDVIPASIDDAFLAEGWKGLCEEHLPGKNIHAVLKENIIDKLQHDYDFIFLDSGPHLDAFLKNCIGAADLMLTPLPPATVDFHSSLKFVASLPALIDSIEMDGHTCNLIGNVGFMSKILNKSDHKICHSQAKEVFGADMLDMVLPRLDGFERCGETFDTVISANPATYDGSTEALKSAKSAAEDFAKAVFDRIEFIRTNGGM
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: Kp711_8005, hypothetical protein, phage(gi100009), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 0.0
Locus 6: Kp711_8006 (Region 1)
Locus: Kp711_8006ORF Start: 6533
ORF Stop: 6802
Strand: Forward
Protein Sequence: MDAPDYGKQVNFADGPDYGKQVNFTGGRECGEQVNFADGPDYGKQVNFAGGRDCGKQVNFADGPDCGKQVNFAGGRECGEQVNFADGPD
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: Kp711_8006, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 7: Kp711_8007 (Region 1)
Locus: Kp711_8007ORF Start: 7159
ORF Stop: 8025
Strand: Backward
Protein Sequence: MGKRSSSVLNYPLVDKVQIFPVDKYRDSLQFLFSLSLWVGKNLPIGIEMDTQALLPATKTFKKRASIKQSNELTEAAYYLPLQAKRVLWLCLMQAYFNDSQEDDSDVLPLFKISVSDYVKYFNVATSVASRDVKAGVNALGESTVTFYPKEGEFEEVKRPWLAEAGMKRGRGSWQIEFNYKVMPFLVGLTSQFTTYSLYDCGQLNSVRVIRLYESLCQFRSTGVWITTHDWLCERFMLPASQKNNIAEMKRTFLEPALKKINEKTPLKVTYTTEEDGRLLFNFLDKKQ
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: Kp711_8007, gp37, phage(gi327198306), PHAGE_Burkho_KS14_NC_015273
Homolog/Ortholog E-Value: 1.71e-17
Locus 8: Kp711_8008 (Region 1)
Locus: Kp711_8008ORF Start: 8964
ORF Stop: 9092
Strand: Backward
Protein Sequence: MLANVLLAGEVCQTLSGPADGNICSVFLILLIDRMLKHRNTF
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: Kp711_8008, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 9: Kp711_8009 (Region 1)
Locus: Kp711_8009ORF Start: 9108
ORF Stop: 9884
Strand: Backward
Protein Sequence: MSGLLSYSHPQQPAQMPVAIDYPAALALRQMALVQDELPKYLLAPEVSALLHYVPDLHRKMLLATLWNTGARINEALALTRGDFSLVPPYPFVQLATLKQRTEKAARTAGRAPAGSQAHRLVPLSDHHYVSQLQMMVATLKIPLERRNKRTGRTEKARIWDITDRTVRTWIGEAVEAAAVDGVTFSVPVTPHTFRHSYAMHMLYAGIPLKVLQSLMGHKSISSTEVYTKVFALDVAARHRVQFQMPEADAVAMLKGNI
Homolog/Ortholog Species: Integrase
Homolog/Ortholog Protein: Kp711_8009, non-functional integrase, phage(gi764159894), PHAGE_Mycoba_Squirty_NC_026588
Homolog/Ortholog E-Value: 5.08e-08
Locus 10: attL (Region 1)
Locus: attLORF Start: 3900
ORF Stop: 3911
Strand: Forward
Protein Sequence: TAATTACAATAA
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
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Click on a sequence to see details.
Locus 1: Kp711_8015 (Region 2)
Locus: Kp711_8015ORF Start: 13047
ORF Stop: 13322
Strand: Forward
Protein Sequence: MASVSVCCPSCSATEGVMRNGKSTAGHQRYLCSHCRKTWQLTFTYAASQPGTHQKIIDMAMNGVGCRATARLMGVGLNTILRHLKNSGRSQ
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: Kp711_8015, InsA, phage(gi46401643), PHAGE_Entero_P1_NC_005856
Homolog/Ortholog E-Value: 2.42e-57
Locus 2: Kp711_8016 (Region 2)
Locus: Kp711_8016ORF Start: 13367
ORF Stop: 13744
Strand: Forward
Protein Sequence: MDEQWGYVGAKSRQRWLFYAYDRIRRAVVAHVFGERTMATLERLLSLLSVFDVVVWMTDGWPMYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: Kp711_8016, IS1 transposase B, phage(gi557307573), PHAGE_Shigel_SfIV_NC_022749
Homolog/Ortholog E-Value: 1.34e-82
Locus 3: Kp711_8017 (Region 2)
Locus: Kp711_8017ORF Start: 14022
ORF Stop: 14627
Strand: Backward
Protein Sequence: MSIQHFQTKLGITKYSIVTNSNDSVTLRLMTEHDLAMLYEWLNRSHIVEWWGGEEARPTLADVQEQYLPSVLAQESVTPYIAMLNGEPIGYAQSYVALGSGDGWWEEETDPGVRGIDQLLANASQLGKGLGTKLVRALVELLFNDPEVTKIQTDPSPSNLRAIRCYEKAGFERQGTVTTPDGPAVYMVQTRQAFERTRSVA
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: Kp711_8017, bifunctional AAC/APH, phage(gi985761240), PHAGE_Staphy_SPbeta_like_NC_029119
Homolog/Ortholog E-Value: 4.80e-16
Locus 4: Kp711_8018 (Region 2)
Locus: Kp711_8018ORF Start: 14810
ORF Stop: 15367
Strand: Backward
Protein Sequence: MRIFGYARVSTSQQSLDIQIRALKDAGVKANRIFTDKASGSSTDREGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVAVRFIDDGISTDGDMGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERAS
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: Kp711_8018, DNA invertase, phage(gi971758535), PHAGE_Escher_pro483_NC_028943
Homolog/Ortholog E-Value: 9.46e-28
Locus 5: Kp711_8019 (Region 2)
Locus: Kp711_8019ORF Start: 15673
ORF Stop: 16377
Strand: Backward
Protein Sequence: MNPFKGRHFQRDIILWAVRWYCKYGISYRELQEMLAERGVNVDHSTIYRWVQRYAPEMEKRLRWYWRNPSDLCPWHMDETYVKVNGRWAYLYRAVDSRGRTVDFYLSSRRNSKAAYRFLGKILNNVKKWQIPRFINTDKAPAYGRALALLKREGRCPSDVEHRQIKYRNNVIECDHGKLKRIIGATLGFKSMKTAYATIKGIEVMRALRKGQASAFYYGDPLGEMRLVSRVFEM
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: Kp711_8019, transposase, putative, phage(gi23502708), PROPHAGE_Brucel_1330
Homolog/Ortholog E-Value: 1.98e-53
Locus 6: Kp711_8021 (Region 2)
Locus: Kp711_8021ORF Start: 17707
ORF Stop: 18573
Strand: Forward
Protein Sequence: MVMRYIRLCIISLLATLPLAVHASPQPLEQIKQSESQLSGRVGMIEMDLASGRTLTAWRADERFPMMSTFKVVLCGAVLARVDAGDEQLERKIHYRQQDLVDYSPVSEKHLADGMTVGELCAAAITMSDNSAANLLLATVGGPAGLTAFLRQIGDNVTRLDRWETELNEALPGDARDTTTPASMAATLRKLLTSQRLSARSQRQLLQWMVDDRVAGPLIRSVLPAGWFIADKTGAGERGARGIVALLGPNNKAERIVVIYLRDTPASMAERNQQIAGIGAALIEHWQR
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: Kp711_8021, hypothetical protein, phage(gi100066), PHAGE_Salmon_SJ46_NC_031129
Homolog/Ortholog E-Value: 1.35e-59
Locus 7: attR (Region 2)
Locus: attRORF Start: 27461
ORF Stop: 27472
Strand: Forward
Protein Sequence: TAATTACAATAA
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attR
Homolog/Ortholog E-Value: N/A
Locus 8: attL (Region 2)
Locus: attLORF Start: 15621
ORF Stop: 15634
Strand: Forward
Protein Sequence: GGCACTGTTGCAAA
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 9: Kp711_8026 (Region 2)
Locus: Kp711_8026ORF Start: 22143
ORF Stop: 25160
Strand: Forward
Protein Sequence: MAFEERVQILSEAEQDELYGPPAFTSADQRFFFSLNDKELAIAKSLRHRGQRYMLVVLLGYFKAKPVVLNPGFHQIKQDLKYVYQTVLPGPGCRPFNLTPKENERIYQRVFQLCNYQRWNVKDHGAALRDYLSQQARAWTAPRHLFDAANEYCSGQKIAIPAYSTLQKIISQVVGDEQEHMAAHLERAMSRGLKQALAELVNGTGPLPFRQLRQSARDFTGTELEKELIVYRHIQHWMPEVDLLLSTLSLSQKNLQHLAEKVDYYGAKLKRQTVGSQWLYLLCYLQTRWQQALERIADGFVHHVRQTKQKAKDYAQEAVFKDWQKAAKNVSKAAEVLHLFIDDSIDLQLPFATVRQQALSLLTKRDLESVCLFLNEQRRSVDEAMWQYCDEKESLRKGLLRELFLCLRFEGCDGTQHLAAALAKTQNELNGQDAQLQTADTRLLSKKSREFLLDGEGNILIDRYEWFLYQQIPDRLNGQLTLPDITKYRALDADLIDGEHWRKNKYTLLQQSHFTKLAEEPEKLIKQMAMELDTRLYEVGEYLEQEDNRNIILRNPQGKRFWRLPSASKHHLVNNPFFQQIPTTGIADVLRMVDRDTGFIDCFAHVLGSQSRSRSHEYDLLAILVGNATNQGIYGMAQISDRTYDQLSTIQANYLRLETLNAANDNINNATAKLPIFRYYNIQEDVIHASADGQKFEARRETFKTRYSSKYFGTQKGVSAMTLIANHAAINARVIGANEHESHYIFDLLMSNTSDIIPDVLSTDTHGVNHVNFALLDLFGYQFAPRYAQVGKVINDMFDVKEDKEHRIQLCLKKPINTHRIAQHWDTIQRIAVSLKQRKTTQATLVRKLSEYKRNHPLLEALTEYNRLVKANYLLCYIDDASLRNYVQRALNRGEAYHQLRRAVSSVNGDQFRGSSDEEIQLWNECARLVTNAIVYFNSRILSQLLTSFEYQGDTKRIDIVKQASPVAWHNINLKGTYHFELSEKLPDLEELMRSIEGYLPVSEK
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: Kp711_8026, Tn5044 transposase, phage(gi21243163), PROPHAGE_Xantho_306
Homolog/Ortholog E-Value: 3.94e-94
Locus 10: Kp711_8027 (Region 2)
Locus: Kp711_8027ORF Start: 25269
ORF Stop: 25637
Strand: Forward
Protein Sequence: MNKAQIEALFDKWNESLKTGNAQTVSENYLSDAVLLPTVSNKARLTDAERVDYFEHFLAKKPTGKIDMRTIRLGCNKAIDTGTYTFTFADKSTVSARYTFTYAWDGKEWKISTHHSSAMPEG
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: Kp711_8027, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 11: Kp711_8028 (Region 2)
Locus: Kp711_8028ORF Start: 25679
ORF Stop: 26359
Strand: Backward
Protein Sequence: MTPLLYKKTGTNMALALVGEKIDRNRFTGEKIENSTFFNCDFSGADLSGTEFIGCQFYDRESQKGCNFSRAMLKDAIFKSCDLSMADFRNASALGIEIRHCRAQGADFRGASFMNMITTRTWFCSAYITNTNLSYANFSKVVLEKCELWENRWMGAQVLGATFSGSDLSGGEFSTFDWRAANFTHCDLTNSELGDLDIRGVDLQGVKLDNYQASLLMERLGIAIIG
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: Kp711_8028, hypothetical protein, phage(gi448261087), PHAGE_Edward_MSW_3_NC_020082
Homolog/Ortholog E-Value: 8.55e-07
Locus 12: Kp711_8029 (Region 2)
Locus: Kp711_8029ORF Start: 26418
ORF Stop: 27407
Strand: Backward
Protein Sequence: MVNFIMAGYKDNLLGEANSFIEVLEQVSHLAPLDKPVLVIGERGTGKELIANRLHYLSTRWQGPFISLNCAALNENLLDSELFGHEAGAFTGAQKRHPGRFERADGGTLFLDELATAPMLVQEKLLRVIEYGELERVGGSQPLQVNVRLVCATNADLPRMVSEGTFRADLLDRLAFDVVQLPPLRERQSDIMLMAEHFAIQMCREIGLPLFPGFSAEARETLLHYRWPGNIRELKNVVERSVYRHGTSDYPLDEIIIDPFLRHTTQPQAPETKPMSVGLPLDLREFQQQQEKDFLQTSLQQAKFNQKKAAELLGLSYHQLRALLKKHQI
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: Kp711_8029, psp operon transcriptional activator PspF
Homolog/Ortholog E-Value: N/A
Viewer Options
Click on a sequence to see details.
Locus 1: Kp711_8030 (Region 3)
Locus: Kp711_8030ORF Start: 27563
ORF Stop: 28231
Strand: Forward
Protein Sequence: MGIFSRFADIVNANINALLEKAEDPQKLVRLMIQEMEDTLVEVRSNSARALAEKKQLSRRIEQASAQQAEWQEKAELALRKEKEDLARSALIEKQKLTDLIASLEHEVTLVDDTLARMKKEIGELENKLSETRARQQALMLRHQAASSSRDVRRQLDSGKLDEAMARFESFERRIDQMEAEAESHNFGKQKSLDQQFADLKADDEISEQLAQLKAKMQQDKQ
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: Kp711_8030, phage shock protein PspA, phage shock protein PspA
Homolog/Ortholog E-Value: N/A
Locus 2: Kp711_8031 (Region 3)
Locus: Kp711_8031ORF Start: 28286
ORF Stop: 28510
Strand: Forward
Protein Sequence: MSALFLAIPLTIFVLFVLPIWLWLHYSNRSSRGELSQSEQQRLVELNDDAQRMRERIQALEDILDAEHPNWRDR
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: Kp711_8031, phage shock protein PspB, phage shock protein PspB
Homolog/Ortholog E-Value: N/A
Locus 3: Kp711_8032 (Region 3)
Locus: Kp711_8032ORF Start: 28510
ORF Stop: 28869
Strand: Forward
Protein Sequence: MGGVNLNKKLWRIPQQGMVKGVCAGIAHYLDVPVKLVRILVVLSVFFGLAFFTFVAYIVLTFVLDPMPDNVVSGEQQPSSGELLDAVDRELAASEKRLREMERYVTSDTFSLRSRFRQL
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: Kp711_8032, DNA-binding transcriptional activator PspC
Homolog/Ortholog E-Value: N/A
Locus 4: Kp711_8033 (Region 3)
Locus: Kp711_8033ORF Start: 28878
ORF Stop: 29108
Strand: Forward
Protein Sequence: MNNRWQRAGQRVKPGFKIAGKLVLLTALRYGPAGVAGWAVKSVARRPLKMLLALVLEPVLSRAAAKLSKRYSGNQP
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: Kp711_8033, phage shock protein PspD, phage shock protein PspD
Homolog/Ortholog E-Value: N/A
Locus 5: Kp711_8034 (Region 3)
Locus: Kp711_8034ORF Start: 29555
ORF Stop: 29872
Strand: Forward
Protein Sequence: MLKKGVLALALVIGMPVYAAEHWIDVRIPEQYQQQHIQGAVNIPLKEMKARIAAEVPDKNDTVKLYCNSGRQSGQAKDMLTEMGYTQVTNEGGINQISLPKVENK
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: Kp711_8034, thiosulfate:cyanide sulfurtransferase PspE
Homolog/Ortholog E-Value: N/A
Locus 6: Kp711_8035 (Region 3)
Locus: Kp711_8035ORF Start: 30015
ORF Stop: 30620
Strand: Forward
Protein Sequence: MKRLKNELNSLVNRGVDRHLRLAVTGLSRSGKTAFITAMVNQLLNIHAGARLPLLSCVREERLLGVKRVPQRDFGIPRFTYDEGLAQLYGSPPTWPTPTRGVSEIRLALRYKSNDSLLRHFKDTSTLYLEIVDYPGEWLLDLPMLAQDYLSWSRQMTGLLQGLRGEWSAKWRQLCQGLDPLAPADENRLAEIAAAWRHCCK
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: Kp711_8035, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 7: attR (Region 3)
Locus: attRORF Start: 30604
ORF Stop: 30617
Strand: Forward
Protein Sequence: GGCACTGTTGCAAA
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attR
Homolog/Ortholog E-Value: N/A
Locus 8: Kp711_8036 (Region 3)
Locus: Kp711_8036ORF Start: 30667
ORF Stop: 31371
Strand: Forward
Protein Sequence: MNPFKGRHFQRDIILWAVRWYCKYGISYRELQEMLAERGVNVDHSTIYRWVQRYAPEMEKRLRWYWRNPSDLCPWHMDETYVKVNGRRAYLYRAVDSRGRTVDFYLSSRRNSKAAYRFLGKILNNVKKWQIPRFINTDKAPAYGRALALLKREGRCPSDVEHRQIKYRNNVIECDHGKLKRIIGATLGFKSMKTAYATIKGIEVMRALRKGQASAFYYGDPLGEMRLVSRVFEM
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: Kp711_8036, transposase, putative, phage(gi23502708), PROPHAGE_Brucel_1330
Homolog/Ortholog E-Value: 4.77e-51
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