Submission Results
Sequence Name: Not Available
GenBank Accession Number: 113911681
GenInfo (GI) Number: 0000000000
Download Results: 113911681.PHASTER.zip
gi|00000000|ref|NC_001735.4| Enterobacter aerogenes plasmid R751, complete sequence. 53423, gc%: 64.12%
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 | 33.6Kb | incomplete | 40 | 11 | 17377-51060 info_outline | PHAGE_Acinet_Acj9_NC_014663(1) | 65.15% | Show info_outline |
Region DNA
>1 17377-51060 TAGCCGCTAAAGCCCGCCGGGGTGGCTCAACCCCCGGACAACCCATAACGCAAACGCCACGGGTTCGGCG CGAGGGCACGGAGCATGCCGCGTTGTCGCCTCTTTCGCCCCTGCAATCCGCGATGCAACGTCGCGCCGAA GTCACCCTTGTGCGCTTCGGTGTTGCGGTCGAACTTAGTTCGATATATCGTATGAACCTGTGTAGAATGC GCGAGACGCAACGGCATACAGGGCATACGGAATGACCGACCAGAAACCAGAACACAACAGCATCAAGGAA CGGGCGAAGAAGAAGCTCGAACGCGACATGGGGCCGGAGCTGCTGGCCGCCCTCAACGATCCCAAGACCG TTGAAATCATGCTCAACGCGGACGGCAAGCTCTGGCTCGAACGCCTGGGCGAGCCGATGAAGTGCATCGG CACGCTGCGCGTCGCGCAGGCGCAAGCCATCATCGAAACCATCGCGGGCTACCACGGCAAGGAAGTCACG CGCTCCAAGCCGATCCTGGAAGGCGAGCTGCCCCTTGATGGCAGTCGCTTCGCCGGCCAGCTCCCGCCGG TTGTGCCCGCACCCACCTTCGCCATTCGGAAGAAGGGCGTCGCCATCTTCACGCTCGATCAGTACGTCGA ACGCGGAATCATGACCGCGCCGCAGCGCGAGGCATTGATTGCAGCGGTGCGCGCGCACCGGAACATCCTT GTGATCGGCGGCACCGGCTCGGGCAAGACCACGCTGGTGAACGCGATCATCAACGAGATGGTGATTCAAG ACCCGACCGAGCGGGTTTTCATCATCGAGGACACCGGCGAAATCCAGTGCGCCGCCGAGAACTACGTCCA GTACCACACCAGCATCGACGTGAACATGACGGCGCTGCTGAAAACCACCCTCCGCATGCGCCCCGACCGA ATCCTGGTCGGTGAGGTGCGCGGTCCCGAAGCCCTTGATCTGTTGATGGCCTGGAACACCGGGCACGAAG GAGGTGCTGCAACCCTGCACGCAAACAACGCCAAAGCTGGATTGGATCGGCTCGCCATGCTCATCAGCAT GCACCCCGATTCCCCGAAACCCATTGAACCGCTTATCGGCGAGGCGGTTCACGTGGTTGTTCATATCGCC CGCGTCGAAGGCTCGCGGCGCATCCAGGAAATCTTGGAGGTTTCCGGGTTCGCCAACGGCCAGTACATCA CCAAAACCCTCTGACTAGGAGTTACGACCAATGCAAGCAACCTTCCCGGCATTCCGCCTCAACCGCAACG CCCTGTTCTACATGGGCCTCTTCGCCCTCCTGGCGTTCTTCCTGCTGGCCCCCCAGCACGCATTCGCCTC CGAGGGCACCGGCGGCTCTCTGCCGTATGAGAGCTGGCTGACCAACCTCCGCAACTCCGTCACCGGCCCG GTGGCCTTCGCGCTGTCGATCATCGGCATCGTGGTCGCCGGCGGCATCCTCATCTTCGGCGGCGAACTCA ACGGCTTCTTGCGCACGTTGATCTTCATCGTCCTGGTCATGGGCCTGCTGGTCGGCGCGCAGAACATGAT GAGCACGTTCTTCGGCCGTGGCGCGGAAATCGCCGCCCTGACCGATGGCGCGCTGCACCAGGTCAAGGTC GCCGCGCTGGACGTGGCCGGCTTCCCCGGCGAAGCCGTCATGCGCTGGGCCGAGCGCGGCCACATCGCGG GGTAAGTCATGGCTCTGCGCGCGATCCCCATCCGTAGGGCCGGCAACCGAGAAAACCTGTTCATGGGCGG GGATCGTGAGCTGGTGATGTTCTCGGGCCTGTGTGGCGGCGCGCTGATTTTCAGCGCCCAAGAAGTGAGG GCAACGGTGTTCGGCATCGCCTTGTGGTTCGGCGCGCTCTTCGCGCTGCGCCTCATGGCGAAGGCCGATC CGAAGCTGCGACACGTGTACCTGCGGCACCGCCGGTACAAGCCGTACTACCCGGCTCGCAGCACGCCCTT CCGTGACAACACGCCGAGTCAAGGGAAGCAATACAAATGATCGAAGCAATCGCAATTGCCATTGCTGTGC TCGGTGCGGTTCTGTTGCTCATCCTCTTTGCCCGCATCCGGGCTGTCGATGCCGAGCTGAAGCTCAAGAA GCATCGCGCCAAGGATGCCGGCCTGGCCGATCTGCTCAATTACGCCGCCGCGGTCGATGACGGCGTGATC GTGGGCAAGAACGGCTCCTTTATGGCCGCCTGGCTGTACAAGGGGGATGACAACGCCAGCAGCACCGAGG AACAGCGGGAAATGGTGTCGTTCCGCATCAACCAGGCCCTGGCGGGCCTGGGGAACGGCTGGATGGTGCA TGTCGATGCTGTGCGTCGGCCTGCGCCGAACTACTCGGAGCGGGGCGTGTCATCGTTCCCCGACTCCGTT TCCTTCGCCATTGACGAGGAACGCCGGCGCTTGTTCGAGGGCCTGGGCGCGATGTTCGAGGGCTACTTTG TCCTGACCGTCACGTGGTTCCCGCCAGTGCTGGCCCAGCGCAAGTTTGTCGAACTCATGTTCGATGACGA TGCGGTGGCTCCCGACCATACGGCGCGCACTACGGGCCTGATTGCGCAGTTCAAGCGCGAGATCACCAGC CTGGAATCGCGCCTGTCCTCGGCGGTCAAGATGACGCGCCTGGGCGGCCAAAAAGTCGTGTCGGAAGAGG GCAGGGAAGTCACGCACGATGACTTCCTGAGCTGGTTGCAGTTCTGCGTGACGGGCCTCCATCACCCGGT CATGCTGCCCAGCAATCCGATGTACCTCGATGCGGTAATCGGCGGGCAAGAGCTGTGGGGCGGCGTCGTG CCCAAGATCGGGCGCAAGTTCATCCAGGTGGTCGCCATCGAAGGCTTCCCCTTGGAGTCAACGCCTGGGG TGCTCTCGGCCCTGGCCGAGCTGCCCAGCGAATACCGCTGGTCGAGCCGCTTCATCTTCATGGATCAGCA CGAGTCCTTGAAGCACCTGGACAAGTTCCGCAAGAAGTGGAAGCAGAAGATTCGCGGCTTCTTCGATCAG GTGTTCAACACGAATACCGGGTCGATCAACCAGGACGCGGCCGCGATGGTCGGCGACGCCGAGGCGGCCA TCGCCGAGGTCAACAGCGGCTTGGTGGCGGCCGGCTACTACACCAGCGTGGTCGTGCTGATGGACGAGGA TCGGGAGCGCCTGGCGGCCTCCGCGCTCCTGGTCGAGAAGGCCGTCAACCGCCTGGCCTTCGCGGCCCGT ATCGAGACGATCAACACGCTCGATGCGTACCTGGGCAGCTTGCCCGGCCACGGCGTCGAGAACGTGCGCC GGCCGCTCATCAACACGATGAACCTGGCCGACCTGCTGCCGACAAGCTCGATCTGGACGGGCAGCGCCAC GGCTCCGTGCCCGATGTACCCGCCGCTGTCGCCGGCGCTCATGCACTGCGTGACGGTGGGCGCTACGCCG TTCCGCCTGAACCTGCACGTGCGCGACCTGGGCCACACCTTCATGTTCGGCCCGACCGGCGCAGGCAAAT CGACGCACCTGGGCATCATCGCCGCGCAGCTCCGTCGCTACGCCGGCATGTCGATCTACGCCTTCGACAA GGGCATGTCGATGTACCCACTCGCGGCCGGCATCCGCGCGGCCACGAAGGGCAAGAGCGGCCTGCATTTC ACGGTGGCCGCCGACGATGACCGCCTGGCGTTCTGCCCGCTCCAGTTCCTCGAAACGAAGGGGGATAGGG CCTGGGCGATGGAGTGGATCGACACCATCCTGGCGTTGAACGGCGTCAACACCACGCCGGCGCAGCGCAA CGAGATCGGCAACGCGATCATGAGCATGCACGCCAGCGGCGCGCGCACGCTCTCCGAGTTCTCGGTGACG ATTCAGGACGAGGCGATCCGCGAGGGCATCAAGCAGTACACGGTGGACGGCTCGATGGGCCACCTGCTCG ACGCCGAAGAGGACGGCCTGTCGCTGTCCGACTTCACGGTGTTCGAGATCGAAGAGCTGATGAACCTGGG CGAGAAGTTCGCGCTGCCGGTGCTGCTCTACCTGTTCCGCCGCATCGAGCGCGCACTGAAAGGCCAGCCC TCCGTCATCATCCTGGACGAAGCCTGGTTGATGCTGGGCCACCCCGCGTTCCGCGCCAAGATCAGGGAAT GGCTCAAGGTGCTGCGCAAGGCCAACTGCCTTGTGCTGATGGCGACGCAAAGCCTCTCCGACGCGGCCAA CTCGGGCATCTTGGACGTGATCGTGGAATCGACCGCGACCAAGATTTTCCTGCCCAACGTCTACGCCAGG GATGAGGACACATCGGCGCTCTATCGCCGTATGGGCCTCAACGCGCGTCAGATCGAAATCCTGGCGACTG CCATTCCGAAGCGTCAGTACTACTACGTCTCGGAGAACGGCCGCCGTCTCTATGACCTTGCCCTGGGGCC GATGGCCCTGGCCTTCGTCGGTGCGTCCGACAAGGAATCGGTCGCCACCATCAAGAGCCTCGAAGCCAAG TTCGGCCACGAATGGGTGCATGAGTGGCTGGCCGCCCGTGGGCTGAATCTCAACGACTACCTGGAGACCG CATGAGCATCGCCGACACCCTCAAGGGCTTGATCTTCAAGAAGCCCGCCAACTCCGCCGAGCCGCGCGAT CCGCGCCGCTCGAAGGAACCGCTCGCCGGCGGCCGCCGTGCGGGCGAGGCCGAGAACCCCTACCTGGCCG CGCGCCGCACCTGGAACGATCACGTGGGCGGCGTCGTCTCGCAGCGCCAAACCTGGCAGGTGATCGGCAT CCTGTCGCTGTTGATCGCGCTGGCCGGCGTGGGTGGCGTGATCCACATCGGCAGCCAGTCGAAGTTCATC CCCTACGTGGTCGAGGTGGACAAGCTGGGCCAGACGGTGGCCGCCGGCCCGGTGCAGGCCGCAGGGAAGG CCGATCCGCGTGTCATCCACGCCGCCGTTGCGGACTGGATGAGCTGCGCGCGCATGGTGTCGCCTGACGT GGCCTTGCAGCGCAAGTGCGTGTTCAAGGCGTACTCGATGTTCGCCCCCAACGATCCGGCGACGCCAAAG ATGAACGAGTGGTTGAACGGCACGCCCGATTCCAGCCCGTTCAAGCGCGCCGAGAAGGAAATGGTCAGCG TCGAGATCAAGACCGTCATCCCGCAAACGCCCGACACCTGGCAAGTCGAGTGGGTGGAAACCACGCGCGA CCGCCAAGGCACGCTGAAAGGTCAGCCCGTCACCTGGCGCGCGCTCGTGACTACCTACATCGCCGAGGTC ACGCCCAACACCACCGATGAGCAACTGCGGAACAACCCGTTGAGCATCTACGTGCGTGATTACTCCTGGT CCCGCATCCAATGAATTCGAGGTCATCCACCATGAAGAAAACCCTCTCCGCTTTGATCGTGGGCGCTGCT GTGGCGGTGCCCTCCCTGGCTCTGGCCGCCCCTGGGGACGACATTGCCGACAAGTATTTCAACAAGACCA ACCCGACGCTGACCGCTCAAGAGCGCGCGGCGCTCGCCATCGCCAAACGGTGGGAAGCGGGGTCGGCGAC GGGCATCAAGCCGGTGGCCGGCTCGGGCGGTGCCATCAAGTTCGTGTACGGTGCGCAGCAGCCGAGCATC GTTTGCGCGGTGCTCCAGGTGTGCGACGTGGCCTTGCAGCCCGGCGAACAAGTGAACTCGATCAACCTGG GCGACACGGCCAGGTGGACGGTGGAACCGGCCATCACCGGCAGCGGCGCGACCGAGGTTCAGCACCTCAT CATCAAGCCGATGGACGTGGGCCTCGAAACCAGCCTAGTTGTGATCACGAACCGCCGCAGCTACCACTTC CGCCTGCGCTCGCATCGCACCGAGTACATGCCGCAAGTCTCGTTCACGTACCCCGAGGAAGCGCAAGCCA AGTGGGACGCGATCCAGCGCCGCGAGAAGCAGGAACGCACCGACAACACCCTGCCGGTGACGGGCGAGTA CCTGGGCGATCTCTCGTTCGACTATGAGCTGTCCGGGTCGGCGAGCTGGAAGCCTGTGCGCGTCTACAAC GATGGCCGCAAGACCATCATCGAAATGCCCGGCACGATGCAGCAGACCGAAGCGCCGACGCTCCTGGTCG TGCGCAAAGAGGGCGGCTTGTTCACCGACGACGAAACGGTGCTGGTCAATTACCGCGTGCAGGGCAATCG CTACATCGTGGACACGGTGTTTGACCGCGCGATCCTGATTGCCGGTGTTGGCAGTAGCCAAGACCGCGTG ACCATCAGCCGGAGGAAGTGACCATGCGCAAGATCGTCTCTCTCGCGCTGCTCGCCCTCGCCCTGGGCCT CGGCGGCTGCGCAACCACCAGCCAGTACGGCAACTTCGTCCAGTCGGCCGCGCTCGATCAGCAGAAGCTC GCCACCGACGCGGTGCAGCAGCTCGCCACGCTGTACGCGCCGGCGCGCACGCGCCTGGAGCTGCAACAGC CGACGCCCGATCCGTTCGGCCAGGCGCTCGTCAATTCGCTGCGCGACAAGGGCTATGCCCTCCTGGAGTA CGCCCCGGCCGGCGCTTCCACGCAGGCCCCGGCCTCGGCGGCATCGCAGGCGAGCGCACCGGCCACCACG GCCGCGTCGGGCGGCCTGCCGTTGCGCTACGTGCTCGACCAGGCTGGCGACTCGAACCTGTACCGCCTGA CCTTGATGGTCGGCAATCAATCCATCACCCGCCCTTACCTGGCGCAAAACGGCACGTTCGCGCCGGCCGG GTACTGGGTGCGCAAGGAGTGACGCCATGACAGAAAACGCCGATCAGATGGCACCTGACGCTTCGCCTGG CGAAGTGTCCAAGAAGGCGGGCGTCCGTCGCGTCAACAACATGCCCATGTACATCCTCGGCGGCGTCCTG CTGTCGTTCGTGCTGGTCATGGCCCTGGTCGCGGCGGATCGCGCGGCCAAGCAGAACGCGCCGGCGGACG GCCCCAAGGAGAAGGCCGGCAACACGTCGATGTTCGCCAAGGAGATCGCAGGCGACAAGACCGGCGGCTT GATCGAGCCGGCAAGCCCGCTCAAGGTGCCCGACATGCCGACCGGCCCGGCGTCGGCTCCGCTGGAGATC GCGCGGCCGTCCAACCCGGAAGCGCCGCCGGCCCCGCCGGCCAACCCCGGCAACCCGGGCCAGCCGGTGA ACGACGACGAGGCCCAGCGCATCCGCATGGCGAAGATGCAGATGTTCGGCGAAGCCGTGAAGGCCAAGAC CACCGTGCGCGTGGATGGCCCGCGTAGCAACGGCTCCGCGCCGGGTGGCCCGAGCACCTACACCGGCACG CCGCAGACGCGCGATGAAATGCTGAACCGCATCGCAGCGGTGCAGCAGCAAATTGACGCGCAGCGCAGCA ACGATCCGACCGCCGCCTATCAAGCACGCCTGGCGCAGATTCGCGGCATGGGCGTCGGTGGTGGCGGCGC GGCTCCGGCCGCCGGCGGTATGGGCGCGGGCGGTGCGCCGCAGCTCCTGCAAACCTCGACCAGCGGTGGC GGGCGCAACAGCATGGCGCAGTTCGGCCAAGGTGGGCAGGGCGACCGCTGGAAGCTGGATTCGCAGCCGG AAGCGCCGCGCACACCGTTCGAGCTGCGCGCGGGCTTCGTCGTGCCGGCCACGCTCATTTCGGGCATCAA CTCCGATCTGCCGGGCCAAATCATGGCCCAGGTCGCGCAGGACGTGTACGACACACCGACCGGCAAGCAC CTGTTGATCCCGCAGGGATCGCGCCTCGTCGGCTCGTATTCGAGCGACGTGGCCTACGGCCAAGCGCGCG TGCTGGTTGCGTGGCAACGCATCGTGTTCCCCGATGGCAAGGCGATGGACATTGGCGCGATGCCAGGCGC GGACAGCGCGGGATACGCGGGCTTCCACGACCAGGTGAACAACCACTATGTGCGCCTGTTCGGCTCGGCC TTCCTCATGTCCGGCGTGACAGCAGGCATCACCTACAGCCAACGCCAGAACCAGGCCACAAACACCTATG GCGCACCGAGCGCCAGCAGTGCCCTAAGCGAAGCCCTCGGCCAGCAGCTCGGCCAGGTTACGGCGCAACT CATCGCCAAGAACCTGAGCATTTCGCCGACGCTGGAAATTCGGCCGGGGTATCGCTTCAACGTCGTGGTC ACGAAGGACATGACGTTTTCCAAGCCGTACCGTTCCTTCGATTACTAACGCCATAGGAGAAAAGCACCAT GAAGCCGAAGTTTTTAGCCGCTAAATTGGCCCTCGTCATTGCTGTTTCGAGCACGCTGGCGGTCACACCT GTGCAGGCTGGCATCCCCGTCATCGACGGCACCAACCTGTCGCAGAACATCATGACGGCCATCGAATCGG TGGCCCAAACGCTCAAGCAAATTGAGCAGTACAGCACCCAGCTCCAGCAGTATCAGAACCAGCTCCAGAA CACGATGGCCCCGGCCGCGTATATCTGGGATCAGGCGCAATCGACCATCAACGGGTTGATGAACGCGGTC AACACGCTGGATTACTACAAGACCCAACTCGGCAGCCTGGACAGCTACATCGGCAAGTTCCAGGACGTGA ACTACTACAAGAACTCGCCGTGCTTTACGGCGGCAGGGTGCTCCGACGCGGAACGCGCAGCACTTCGGAA TGTGGCCCAGCTCGCGAGCGAGTCGCAGAAGAAGGCCAACGATGCCTTGTTCAAGGGCCTCGATAGGCAG CAAACGAATCTCACGGCCGATGCAGCGACGTTGCAGCGTCTTCAATCGGCAGCGCAGGGCGCGCAGGGCC AAATGCAGGCCATCGGTTACGCCAACCAGCTCGCCAGCCAGCAGGCCAACCAGCTCTTGCAGATTCGTGG CCTGCTGATCGCGCAGCAGAACGCGATGGCAACCAAGATGCAGGCCGACGCCGACAAGGAAGCCCAGCAG GCGGCAGCGGCCGCACAACTGCGCCAGGGCAGCTACCGGGCCAGCCCGGCGCGCACCTGGTAAGGGGGGA TTCATGAAAGCAATCAAGGCTCTGTCCTTGGCCTCGGCCGCCCTCGTGGCGGCCTTGGTCGCCGGCTGCG ACAACAAGCCGGCCACGGCCCCCATGCCGGAAGTGAACGACGAGAGCTGCAAGCCCGAGAACATCGCCAA GATCGAGGACAAGGGCGTCCAGCAGGCTTTTTCGTCGCTGTGCTTGCGTCGTGGTGGGGATTTCAAGCCC AGCCCGAAACGCGAATGGTGAGGTGCTGACGATGAGAATGCCAGCCAATCTAAAAACCCTCGCCCTGCCG CTGTTCGTCTGGCTGGCGTTCTTCGCGGTCGATGCCCACGCGGCCATCGACAACGCCGGCGTGTTCGATA GCGTGCTGGATCGCTACCAGACCGCCGCGAGCGGCTGGGCCGGTGTCATCACCACGGCCGCAACCTGGCT CTTCTGGACGCTGGTTGTGATCTCGATGGTCTGGACGTTCGGCATGATGGCCTTGCGCAAGGCCGACATT GGCGAGTTCTTCGCGGAGTTCGTCCGCTTCACGATCTTTACCGGCTTCTTCTGGTGGGCGCTGACCAACG GCCCTAACTTCGCCTCGTCCATCTATGCGTCGTTGCGGCAGCTCGCCGGCAACGCGACGGGCCTGGGCAA TGCTCTGTCGCCCTCGGGGATCGTGGACGTGGGCTTTGCGATCTTCGACAAGGTGATGGATCAGTCCTCG GTGTGGTCGCCGGTGGACAGCATGGCCGGCATCCTCATGGCCGTGGCGATCCTGGTCATCCTGGCCCTGG TCGGTGTGAATATGCTTCTGCTGCTCGCGTCGGGCTGGGTGCTCGCCTACGGCGGCGTGTTCTTCCTCGG CTTCGGTGGTTCGCGCTGGACTTCCGACATGGCGATCAACTACTACAAGGTCGTCCTGGGCGTGGCCGCG CAGCTCTTCGCAATGGTGCTCCTGGTGGGCATCGGCAAGACCTTCCTCGATGACTACTACTCGCGCATGA GCGCCGGCATCAGCCTCAAGGAAATGGGCGTGATGCTGATCGTCGTCATCATCCTCTTGGCGTTGGTCAA CAAGATTCCGCCGCTCATCGCCGGGATCATCACCGGCGCGAGCGTGGGCGGTGCCGGCATCGGCCAGTTC GGTGCAGGCGCTGCGTTGGGTGCCGCAGGCATGGCAGCAGCAGCGGCCGCGACCGGCGGCGCCGCTCTGG CCGCCGGCGCAGCCTCGGCCGCCGGTGGTGCCTCTGCCGTCATGGCCGCCTTCTCGAAGGCCAATGAGAA CGTGTCGGCAGGCACGGACGTTATGTCGGCCTTCTCGGGCGGCGGCAGCTCGGGCGGCGGTGCGGGCGGC GGCGGCGACGCCGGCACCGGCAGCACGCCCTTCGCTCAGGCTGCGGGCTTTAGCGGCAGCTCCGGCGGTG GCTCTTCGTCGGGTGGCGGCAGCCCCTCGACCGGCAGCAGCTCGGGCAGCTCGAAGGGCGGCGATAAGGG CGGCGGCAAAGCCGACGCCGGCGGCCAGGGCAGCAGCTCGACGGCCAGCACCGGCAGCAGTGCCGACAAG GCCGCCAAGAACGAACCCAAGCCCGCCGGCGGGGCAGGGCAAGGGCAGCAGGCCGCACCGGGCAGCACCG GCCCCGGCTTGCTCGCATCGGCCGCATCGGCCCTCGGCACGGCCGGCCGCATCGCCGCCGACGCCGGCGC GAACTTGGCGAAGGGAACCGCCGATGTTGCCAAGGCCAAAGCCGCGAGCCTGCGCGAAGCCGCAGCCGAG CGGATCGCCGACACCACTGGCGGAAAGATCGCCGCCGCGATCAAGGCGCAAGGAAGCGGCACGGCCGAGA ACATCGACGTGCCCGACCAGCAGCCCGCGCCGAGCTTCGGCGACAACAGGCTGGCAGGCGGCCCCGCCGA TGCCGATCCCGAGTCCGAAGTAGCTGCGTTCGCCAACCGCGAGCAAGGCCGCGACGGCACAACTGCGTAA CCAAGGAGAGTCCAACCATGAAGAAGAAACTGTTTGCCCTGGCCGCCCTCGTGGCAGCCCTCGGATCGAC CGCCGGCACGGCCAGCGCGCAAGACGTGCTGACCGGCGACACGCGCCTGGCCTGCGAGGCGATCCTGTGC CTGTCGTCGGGCACGCGCCCGAGCGAATGCACGCCGTCGCTGTCGCGGTACTTCAACATCACGAAGCGCA AGCTGTCGGACACGATCCGCGCCCGCCTGAACTTCCTCCAGCTTTGCCCGGTGGCGAGCCAGACGCCGGA AATGCAGTCGCTCGTGTCGGCGATCTCGCGCGGCGCTGGCCGTTGCGACGCGCAGTCGCTGAACTCGACG TTGGTGATGTGGACGGGCGGCTACGACGATGGGCGCACGTACATCAGCAACCAGTTGCCTGACTACTGCG GGGCCTACACCGGCCACGCCTACACCGACTTCGCCAGCAGCGGCACGCTGCCGCGCTATGTCGGGACGCC AGAGCGGGGCGGGTATTGGGTCGAAGCGCGCGACTATGACCGCGCCTTGGCCGAGTACAACGAACGCATC CGGCGCGAGGACGAAGAGCGCCGCCGTCAGTCCTGGCTGAACTGAGGGAGGGGAGGGCATGCCGTTCTTC GCCGATCTGCCGCCGCAGCTCCAGGAGCGCGTCGTCTGCTCGATCTCGGCCGCCGTCAAGTACGAGGTGC CGGTCAACATCGTGTTGGCCGTCGCCGAGAAAGAGGGCGGCAAGCCGGGCCAGTGGGTGCGCAACTCGAA TGGCACGCATGACGTTGGCCCGATGCAGTTCAACACCGCGTACCTGGGCGACCTGGCCCGATACGGCATC ACGGCGAACGATGTGGCGGCTGCCGGCTGCTACTCGTTCGACCTGGCCGCCTGGCGGCTGCGGATGCACA TCCGCAACGACAAGGGCGACCTCTGGACGAAGGCGGCGAACTACCACTCGCGCACGCCGCAGTACAACGC GGTGTACCGGGCCGACTTGATGCGCAAGGCGTCGAAGTGGGCCGATTGGCTCGAAGCTCGGTTCGTCACG CTTGACGTGACGAAGGCCGGGGCCACGCCCTTGACGCCCAGCCAGCCCGCGACGGTGGCCCAGCGGGCGA CGCCGGCGGCCAGGCCGGCACCAGCACCCCAGCAGGCCGCCCCAGCGGCCGCAGCAGCTCGCAGCGTGTC GGTGGCCGGCTACGTGCCCCGCACGGTGTCTTTCAACACTTCACGCGAGGGGTCGGCCGAGTAGCCCCTC TTCCGAATTAGCGGCTAAACATGGACAAATTCCACGCCTTCATGATGCGGTATACGCTGGGCGTCGGCCG GTTGCTTCAAGCCTATTGCAAGTGGGCGGAAGGACAGGCCAAGAACCAGCTCGATTTGCTTCTGCTGGGC CTCGGCCCGATCTTCGCCTTGGGCCTTCTGCTGTGGGCGCTGCCGGCGTGGATCGGCAAGCCCATCGCCT TCGTGCTCTCACTGCCAGCGCTCTACATCATCTTCCTGGTGCTGCGCGCCTACGCGATTCGCGGGGGCCG GCGCTGATGAAGGCCCTGCGGATTCCTGATGGAACCGTCGAAGCGTTGAAGTGGCTCGCACTGGTTCTCA TGACCGGCGATCACGTCAACAAGTACCTGTTCAACGCGACGCTGCCGGTGCTGTTCGAGGCCGGCCGCGT GGCGCTCCCCCTTTTCGTGTTCGTCCTGGCCTACAACCTGGCCCGGCGCGGCACGCTCGAACGCGGCGTG TACGGCCGCACCATGTCGCGCCTGGCGATGTTCGGCGCGCTGGCCTCCGTGCCCTTCGTGGCCCTCGGCG GCCTGTACGCCGGTTGGTGGCCGCTCAACGTGATGTTCACGCTGCTGGTCGTCACGGCCACGGCTTACCT GGTCGAACGTGGCGGCAAGCTGCACCTGGCGGCCGCCGGCGTGGTGTTCCTGGTCGGCGGCAGCTCGGTC GAATATTGGTGGCCGGCCGTGGCTTTCGGCCTGGCGGTGTGGTCGTACACGCGCCGGCCGAGCTGGGCCG CCGCGGCGGTCGCGGTGCTGGCCTGCGCGGCCCTGTGGTTCGTCAATCGCAACCTGTGGGCCTTGGCAGC CCTGCCGGTGCTCTTCCTGGCCTCGCGGGTGGATGTGCGCGTGCCGCGCCTGCGCTGGGCCTTCTACGCC TATTACCCGCTGCACCTGGCCTCGCTCTGGTTGATCCGCATCCCCATGAGCAAGGCCGGCTACCTGTTCT TCTGATTGGAGTCCTGCCCCATGCGAAAACCCGTTCTTCTGGCCCTCTCTCTGGCGTTCCTGGTCAGCGC GCAAAGCGCACTGGCCGGCGACGCCGGCAACTTCGGCACGCCGATCAAGTCCGGCGTATCGGTGTCCTTC CCCGACAGCAGCGCGACATTCCAGCCGACGCCAGAGGCCCTGGAGCTGCTGGCCGACGCTAGGAATGCGG CGATCATCTACATCAGCGGGCGCACCAGCACACTACGGCCCAGCGCGGCCGATGAGGCCCTTGCACTACG CCGTGCGCTCTCGGCCAGGTCGTACTTGGTGGCGCGCGGCGTCTCGCCGCTCAAGATCATGGTGAACTTC GCATCGGCCGCCGATTTCGTGGCAGACAACTCGACGGCCGAGGGCCGGCGCGAGAACCAGCGCGTGGACA TTGAGGTGGTCTACATCCCCACCTACTGAGCGATCCGGCATCGCCATTCCTGGCGGTGCTGCAGGTCGCT CCAGCAGCTTCGCATCGTCGGCTCTGACGATGCAGGCCCGGCCGGCTTCCCTTGACAGCATCGCCATTTC TGACGATGCTGGCCAAGTCCCGATTTACTCCAGGAAGAAGGCCATGAGATACCCCGGCGGCAAGGGCGGT GCCGGCGTCTACCAGACGATCATCAACAACATCCCGCCTCACGACACGTACATCGAAACGCACCTGGGCG GCGGCAACATCCTGGAGCGCAAGCGGCCCGCTGCCCGCAGCGTCGGCATCGACGTTGATCCCGAGGTGAT CGAGGTCTGGCAGCAGCTCGACGTGCCCGGCCTGGAGCTGCACCACGGCGACGCCGTGGCCTGGCTGGAG TCCCACCAGTTCACCGGCTCCGAGTTCGTCTACGCCGATCCGCCCTACGTGATGGACAGCCGGCGCGGCG GCAAGCTATACCGCCACGAATACGACGACGCCGACCACGTGCGGCTGCTCGACGTGCTGGCCGGCTTGCC GTGCGCGGTGATGGTGTCGGGCTACAGCTCAACGATCTATGACAGCTCTCCCTTGGCGTCATGGAGAACC ATCGACTTCAACGCGATGACGCGCGGCGGCATCGCTATCGAACGGCTGTGGATGAACTACCCCGAGCCGG CCGAGTAGGTCACGCCTGCGCCTGGTTGTGCAGCGCCCATACGCGCTTGACCTGTCGTTTTCAGAAGACG GCTGCACTGAACGTCAGAAGCCGACTGCACTATAGCAGCGGAGGGGTTGGATCCATCAGGCAACGACGGG CTGCTGCCGGCCATCAGCGGACGCAGGGAGGACTTTCCGCAACCGGCCGTTCGATGCGGCACCGATGGCC TTCGCGCAGGGGTAGTGAATCCGCCAGGATTGACTTGCGCTGCCCTACCTCTCACTAGTGAGGGGCGGCA GCGCATCAAGCGGTGAGCGCACTCCGGCACCGCCAACTTTCAGCACATGCGTGTAAATCATCGTCGTAGA GACGTCGGAATGGCCGAGCAGATCCTGCACGGTTCGAATGTCGTAACCGCTGCGGAGCAAGGCCGTCGCG AACGAGTGGCGGAGGGTGTGCGGTGTGGCGGGCTTCGTGATGCCTGCTTGTTCTACGGCACGTTTGAAGG CGCGCTGAAAGGTCTGGTCATACATGTGATGGCGACGCACGACACCGCTCCGTGGATCGGTCGAATGCGT GTGCTGCGCAAAAACCCAGAACCACGGCCAGGAATGCCCGGCGCGCGGATACTTCCGCTCAAGGGCGTCG GGAAGCGCAACGCCGCTGCGGCCCTCGGCCTGGTCCTTCAGCCACCATGCCCGTGCACGCGACAGCTGCT CGCGCAGGCTGGGTGCCAAGCTCTCGGGTAACATCAAGGCCCGATCCTTGGAGCCCTTGCCCTCCCGCAC GATGATCGTGCCGTGATCGAAATCCAGATCCTTGACCCGCAGTTGCAAACCCTCACTGATCCGCATGCCC GTTCCATACAGAAGCTGGGCGAACAAACGATGCTCGCCTTCCAGAAAACCGAGGATGCGAACCACTTCAT CCGGGGTCAGCACCACCGGCAAGCGCCGCGACGGCCGAGGTCTTCCGATCTCCTGAAGCCAGGGCAGATC CGTGCACAGCACCTTGCCGTAGAAGAACAGCAAGGCCGCCAATGCCTGACGATGCGTGGAGACCGAAACC TTGCGCTCGTTCGCCAGCCAGGACAGAAATGCCTCGACTTCGCTGCTGCCCAAGGTTGCCGGGTGACGCA CACCGTGGAAACGGATGAAGGCACGAACCCAGTTGACATAAGCCTGTTCGGTTCGTAAACTGTAATGCAA GTAGCGTATGCGCTCACGCAACTGGTCCAGAACCTTGACCGAACGCAGCGGTGGTAACGGCGCAGTGGCG GTTTTCATGGCTTGTTATGACTGTTTTTTTGTACAGTCTATGCCTCGGGCATCCAAGCAGCAAGCGCGTT ACGCCGTGGGTCGATGTTTGATGTTATGGAGCAGCAACGATGTTACGCAGCAGGGCAGTCGCCCTAAAAC AAAGTTGGGCTTCACCGACGCAGCGTTGTCGGGCTAGCAAGCATCTCAAGAAATTCACAAGAAAGGTCAG ATATGGACCAACACAACAATGGAGTCAGTACTCTAGTTGCTGGCCAGTTTGCGCTCCCATCGCACGCCAC GTTTGGCCTGGGAGATCGCGTGCGCAAGAAATCTGGCGCCGCTTGGCAGGGTCAAGTTGTCGGGTGGTAC TGCACAAAACTGACCCCTGAAGGCTATGCCGTCGAGTCCGAGTCTCACCCCGGTTCAGTACAGATTTATC CTGTGGCTGCGCTTGAACGCGTGGCCTGAATTCACGGTTGAGTGCACCGCTCAGCGCTCAAGCCGTGCAG TACCGCCCACAGCCCAACTGGTCGCTCCAGCGGACGGCTTCGCCGCCCGCTGAGCTAGAGCGTTAGTACC ACTGAAACCCTCCTTTATTTCGCCCATGTTTATTCAAACGGCATTCAGTTTCTCAAACGCTGTGCAGCGC TGGGTTTGCCGTTTCTCTGGGCTTCGCCTGGTGGCGTTACGCTGGTTTGTGGTCTTTTTGGCCTCTGGCC CTTGTGTAGCAAGCGCGAGCAGCTATTTTTTTCGTAGTGCTGTGCCGCCTCGGTGGCACCGTGCCTTTTC GCAGTTAGCGCCCGTCGCCAAGTTACGGTTATCCGTTTTGGCTTCTGGCTCTAACATTTCGGTCAAGCCG ACCCGCATTCTGCGGTCGGCTTACCTCGCCCGTTAGATGCACTAAGCACATAATTGCTCACAGCCAAACT ATCAGGTCAAGTCTGCTTTTATTATTTTTAAGCGTGCATAATAAGCCCTACACAAATTGGGAGATATATC ATGAAAGGCTGGCTTTTTCTTGTTATCGCAATAGTTGGCGAAGTAATCGCAACATCCGCATTAAAATCTA GCGAGGGCTTTACTAAGCTTGCCCCTTCCGCCGTTGTCATAATCGGTTATGGCATCGCATTTTATTTTCT TTCTCTGGTTCTGAAATCCATCCCTGTCGGTGTTGCTTATGCAGTCTGGTCGGGACTCGGCGTCGTCATA ATTACAGCCATTGCCTGGTTGCTTCATGGGCAAAAGCTTGATGCGTGGGGCTTTGTAGGTATGGGGCTCA TAGTTAGTGGTGTAGTAGTTTTAAACTTGCTTTCCAAAGCAAGTGCCCACTAATAAACTCAGTCATCTAA CAAGTCGTTGCAGCACCGCTCCAGCACTTCGTGCCTGCGCTGGACAGTTTTTAAGTCGCGGCTTTATGGT TTTGCTGCGCAAAAGTATTCCATAAAATCACAACTTAAAAACTGCCGCTGAACTCGGCGTTGAACGACAG CTTTCCCAAAAGCTCTACGGCTGCTCTGGGTCGACACCGGTAATCGGATCGTTGCCGCACTGAACAGCGC CCCGTTCCAGGTCGCCTCCATTTATGCGGCTGAACCGAGGGAGAGCAGCTTTACGCCGTCTGGCCGCAGT TCGCCCTTGGGCGACACGTGCCGGTAGAGCGTCTGCCGGGTAATCCCGAGTTCTTCGCAGAGATCGCCCA CCTTGGTTTCCGGTTGCCCCATGCTGGCCATCGCCAGGCGTAGCTTGGCGGCGGTCATCTTGAAGGGGCG CCCCCCTTTCCTGCCGCGAGCGCGCGCCGAGATAAGTCCAGCGACTGTTCGCTCGGAAATCAACTCACGC TCGAACTCGGCCAGCGCGGCAAAAATACCGAACACAAGCTTGCCGGCGGCAGTCGTCGTGTCGACCGCCG CACCGTGACCGGTCAGGACCTTCAGGCCCACGCTACGCGCAGTTAGGTCGTGCACGGTGTTGATCAGGTG GCGCAGATCACGGCCAAGCCGATCGAGCTTCCACACGATCAGCGTGTCCCCTTCACGAAGCGCCTTCAGG CAAGCAGCCAACCCTGGGCGATCATCGCGCCTGCCCGAGGCCAGATCCTCGTAAAGGTGCGCAAGGCTCA CACCAGCGGCGATGAGCGCATCGCGTTGCAAATTGGTGGACTGGGATCCGTCCGCCTTCGATACCCGCAT GTAGCCGATCAGCACCTTTTCACCCGTCACGTATACGTTCGATTATGTGACAGTGTGAGCCGGAAAGCTC TATCCGTCAAAATTTGTCACTTAACCCGTCATTTTGTTTAAGACATGCAAAGGGTGCATCAGGCAGGTAA TGTGACAGAAATTCCGGCGGGATGCCTTCCTTCACGAAGGTGGCGCGCAACCGTTCCAAGGAAGCGGGAT CGCGCCGACCATAGGAAGCCAACGCGAACAGCGAGCGTGCCGTCTCGGGGTTGTGTCGCGCTTCAATGAT GGCCTCGTCGATGGCCTGGACTGCACGCTGCCAGTGATTGATGGGCTCGGGCTTCGGCGCTTTCGTCGGC AGGCCACTGGTGAACCCGGTTTGGGGCTCGGACCAGAATAGCTTTGCCTGCTCGCCTGGCGGGCTGATGT CCCTCACCTCAATCAAGCTGATTGCCGTTGCCGCCGCCTCCAGCATCTGTAACCGTACTATCGGATTCAG GGTTTCATACGGTCGCCACAGACTTTGCCCAGCACGCAGCGGATGCCCGCAGCCTTCCCAGACTTGGCGG GGATACCCCGCGCAGGTTCCGCACGCGGAAAGCGGGGTGTTCAGCTCATCGAGCAGCGTGCGAAGAAGTC GAAACCACAATCCGGCGTGGATGCGTCGGCGCGGCAGCTCCACGTGACCGGTTGTCAGTGCCTGCCAGGT ACGCTGGTCCATCGCCGCAATCGCGTCGCTGGCGGTGCGCGGTTCGGCGTCGGCGTTCTCCCAACCGAGA AACCGCCCTGGCACGCCCCAATAGGATTCCAGCCAGCAGCCATGCAGCGGGCAGCTCAGCATCAGGGGCA GCTTCCACGCGAGCAGTACGGCTTGGTTCTCCGGATCGCTCAGGCAGAGCGGACAGGCGCGGTTTATCGG CTGGCTGGGCAGCCAGGCACGCCAGCTCGTGATGGATCGCGTCTTACGGCGGAGTCTTGGCAGCAACACC GAGAGCTGAAACGCATAGGTTTCCAAGGCGTCTGGAATCTGGTCATCAAGGCTGTCCAGTAGCCAAGGCA CCCATCCGGCGAAACTCATACAGCGCAGCCGGTCCAGCTCGATGCCGCTCCGCTGGGAAAGCAACGCCAG CAGCGAGAGTGGTGGCGCGGTGTCCAGGTCATCGACCTGGCCGTGACCAAGATCGTGCTCCAGCAGGTCG GGCTCCTCCATGTGATAGCAAAGGGCCACGCGGTTGAGCCATGAGGACAGCGCCTCGCCTTCTTTCGGGG CGGGATGCAGCGGCCAGCGCGGCGCAGGCTTCACATCAGTTCCCGCTCGAATTGCCGCCGCCGCTCGCTG GGTCCGGTGTAAACGGCCATGCTGAGTGTGCGATGGTTGATCGCTTCCTCGCCGCTCTCCACGGCGACGA TGGCCGCCGCCATCAGCAAGTGCGCCAGTTCCCCTATGGTGCCCTCGCTGCGTGTGAGCAGGTAGCGAGC CATGTCCAGCGTGGCAATTGGGGAAGGCCGGCGCAGCGGGAGCGAAGCGGCGAAGCTGGCCAGCAGTGAG CAGCAATCGTCGTTGGCCTCCCATACCGGCAGCATCATCGGCTCGAAGCGATTTTCCAACTGGTCATCGG AGCGGATGGCTAGGTAGGCGTCGCGCGTGCCTACCCCAACCAACGGGATGCGCAGTTCGTTGCCGAGGAA GCGCAGCAGGTTGAGGAATTCCCGGCGGTTGACGCTGTTGCCGGCCAGCACGTTGTGCAGCTCGTCGATC ACCAGCATGCGCACGCCGACCTTGCGCAGCAGTGCCAGAGCCAGTTGCTCCATTTCCGGCAACCGTGGGC GTGGGCGCAGCGGCGCGCCCATCGCGGCGAGCAGCGCGACGTAGAAGCGGATCACGGACGGCTCGGACGG CATCTGCACGACCAACACCGGGATGTGCTCCTGGTCGGCGTCGGAGCTGGCCGGGTGGGTGCGGCGGAAC TTCTCGACGATCATCGACTTGCCATTGTTGGTCGGGCCAACCAGCAGCAGGTTGGGCATGCGTTGCTTGT TTGGCCACGCATAAAGGGCTTCCAGCCGGTTCAGCGCCTCGACTGCGCGCGGATAGCCGATCCAGCGGTC GGCGCGAAGGCGCTGGATGCGCTCGTCCGCCGGAAGACGGGCCAAGCCCTGGGCCGCCGGCAGCAGGTGG GACAGGTCGATGATGGGATATTCGTCCACGGCTACCACTCCTCAATCTGGTCGAACGGTTTGGCGGGTGG CAAGTTGTCTGCCTGCGGGTCGGCAATATCCGTATCCGGCGGAACGGGCTTGTCCGGCCGAGCTGATGTC TTGAGGTGCTGGCGGCGATCCGCGTCACGCCGCGCCTTGCGTGTGGCCTTCTGCGCGCTGGTCACAATCT CACGCATCTGGCCGATCATGCGGAACAGCGCCGACTCATCCACCTGTTCGCGCCCTTGCTGCCGCAGTTT CGCCAGCGCCTGCCGTTGTTCCCAGAGGGTGACAGCCGGATGCGACAAGGTACGGTAGGGAATTTCCAGG TAATGCTGTCCCTCCGGTTCCAGGACCCAGATACGGCTGATGTCGCGCGGATCGCGCCGGATCAGAAAGG ACGGCCAGCGTTCACGCCGCGCAATCCACGGCTTGAGCGCATCGGCGTAGTAGTGGATGTGGTCGATGAC AAAGCCGGTGCGGGTCAGCGTGCGCCGGAGGATCGGCAGAAAATCGACCAGGAACGAAGTAGCGCGTGTG ACGACGGCCGGTACGCCGACACGCGCCACGGCCTCGGCCCAGCGCGCGGCCGGCGGTTGGAGCAGGCCGT TGTGCACCGAACCGTGGTAGGTGCCGACCGCCAATGTGAGCCAGCGCTCTAGCTCGCGCAGCGTCAGGGC GGCCTTGTTTTCGGAATCGTAGTCGCCGCGCTGGTCAGGGTTGGAGAAGGTCGTTCCCGGCAGTTCGTCG TGAATCATCTGCATCGCCGTGCCGATGATCCGTTCCACGATGCCGCCATAGTGCGGCTGTCCCAGCGGGC GATAGTCCAGCCGGATGCCATGCTGCTCGCAACCCCGGCGCAGGGCCTCGCTCTTGAACTCGGCCGCGTT GTCTAGGTAGAGCAGCAAGGGCTTGCCGCTCATCTGCCAATCCATTTCCACGTTCAGTCCTTCCAGCCAA GGGCGCTTGTCGCAGGCGACATGCACGAGGCACAGGCCAACCGAAACGGCAGACGGCGCTTCCAGCGTGA CGACCATGCCGAGCACGCAGCGGGTGAACACGTCGATGGCGAGGGTCAGGTACGGGCGGCCAATAGGTTG CCGGTCGCGGTCATCGACCACGATCAGGTCGATGACCGTATGGTCTATCTGCACCTGCTCCAGCGGCGCG GTCACGGCAGGAGGCTCGCCGCCCACACCTTGTAGGTCACGAGCGGCATCCTGGCCTTCCCGCCGGCGGA TGACCTTGCGCGGGTCAAGGCTAGCGATCCGTAAGGCCACGGTATTGCGCGCCGGCACTCGCAGTTTTTG AGCCTTGCACACCTGAGTGACTTCGCGGTGAAAGGCCGCTAGGCTGCGCTTCTGCTTGGTCAGGAACCGC TTTTGCAGTAGCTCGTGGATGACGCGCTCGACCGGTTCCGGCAAGCGCCCCTTACCTTTACCTCCACCGG ACTGGCCGGGCACCAGATCCGTCACGAGGCCGCTGCCTTGCCGGGCACGCCGGATCAGAACGTATACCTG GCGCCGAGACAAGCCCAGCGCCTGAGCCGCCATATCGGCCGCTTCGTGCCCGACCGTCTCCGACTGCGCC AACGGACTGATGATCTCCGCACGACGGCGCGCACGCTCCCAAGCCTCATCAGGCAGAGTGGCCACGCCTT GTTCTGGAATCCGTGGGGTGTCCGTCGCCATGCTCACCTCGCTTTGGTGCACACGAGTATTGAGCATAGT CGAGATTGGTGCAGATCACTTCTGATATTGAACTGTCAGGAGCTGGCTGCACAACAGCCATTACGCCCAA TCAACTGGTGCAGTCGTCTTCTGAAAATGACATCTTGGCCGGGTCGTTATTGGCGGGTCTAAATGGCCGC TCCGTGGATCTCATCGCCAGAAATGGCGATGCGAGATCCAGGGCAGGGCGGCCGCCATCGTCAGACCTGG CGATGGTCGACGCCGGCGCGCATCGTCGGATGTGGCGATGCGAGCTCGAGGTCGGTGGCCACCGCCGGCG ACCTGGTGCCATCGTCGGCAATGGCGATGCTGCAGCTCGACGTGCGCGGCCTGGTCGTCTCGGCATCGTC GGATGCGGCGATGCTCGAGCGAGGCGAAAAAAAACCGCCTCGGGGTGTCCGAGGCGGCAAGTCTGCATGC GGTTCAGGGAGGAAGAAACCGCGCCGGCGATCAGGGAGGAAAACCGCGCGGCCTGATGTGCAGCTCGGCC ACTTTAGCCGGATTTTTCGACTTATCCGATGCGAGCGGCCCGCCGTGGGCGCTGCTCGATCTGCTGTTGC TTTTTCTCGACGTGCTTCTGCTCCTGGTGCTGCTGCTCGTCGCGCTGCACCTGGCTGATGGCCGCGCCGA TCTGCCGCTTCACGCCCTCGATGCCCAGCTCGCTCTTGTGCGCCAAGTCGTTGAAGTCGGTGTGCTGCTT CATCGTGGACAGCGCCGCGATCTGCGCGCCGCTCAACATCGACGCCTTGAGCTTGGCCGCCTCGTCGCCG GCCAGCTCGACCTTGCCGGCGGCGGCGTCGGCAAGGCGCTGCTCGGCGCGCAGGTGGGTCTTGAAGCTGT CGGGCGTGATGGCGGGCAAGTCGCGCGGGTAGGTGTTCTCGGCCGGCGCGAAGATCGGGAAGATCGCCTT GCCGCCCACGGCCTGGGCGGCCGCCTCGGCCTTCTCCCGGCCGGGGTTGTTGCCGTGGGTCATGACCAGG TGCCGGTCGTCGTCGCCGGCGATGATGACCGGCTTGTCCGGGAACTTGGCGTGCAGCGCCTTCGCCACGG CCTCAAGGTTGCCGCTGTCGAAGGCGGCGACCGTGGCGTGGCCCACGGCCTCGGCCACCTGGGCCGCCGT GGCGTAGCCCTCCGAGATCACCAGCGCCGGCGCGGCCGCCAGGGCGTCCATGCCGCCGACCGGGTGGAAG CATCCTTCCTTCTTCGAGTCCTTGGCGAACCGCTTAGTGCCGTCCTCCTGGATGTATTGCATCGTCCATT GCTTGCCCTCTGCGTCGAAGGCCGGGATGTAGGTCTTCTGGCCTTCGCGGTCGGTCATCACGCCGGCCTG CGCCTGGATGCCTTTGGCTTGCAGGTAGGGCGTCGGCTGCTCGATGGGCACGAGGTCGGCCATCTGCCGA CCGACGCGCTGCGCGGTGGCCTCCTGGGCCTTGTCCTGCTCGACGGCTCGCTGTGCCAGCTTCTCGGCCG CCTCGGCCTGGAGCTTGGCCTTCTCCTGGTCGCTCAAGGCGTAGCCCTTGCTCTTCCAGGTAATGTCCGT GCCGGTCTTGTTGTTGATGATCCGCCCGGCCGGGTGCCCGTCCAGGTGGCCCACGTAGAAGCCATCGAGC GCGCCCTTCTTGCCGCCCTCGACCGGCACGCGGTGCCGCTTGCCATCCATGATCGGGTGATCGCCCTGGG CGTTGCTGCCGGTGAACAGGCCGGCGCTGCGCATGGCCTCGGCGAACTCTTCCCTTGGCGTCATCGCTGG CCCTTGCTGGGCCTGCACGTTCTCGGGCTTCCAGCGTTCGAGCTTCGCCGCGTCGGCGCGCGGGCCGACA TACCAGGACTTCGCGGCCTTGTCCCAAAGCGCGCCGGCGGCCTTGGCCGCGTTGCGCTGCTCGTAGGGCA CGGCCAGGTACTGGCGGGCCTGCTGGGCCTGCTGCGCGGGCTTCTGCGCCTCGCCCTGGGCTTCGGGTGC CGGCTGGGCCGAACGCGGCTCTACGGCCGCTGTAGCGGCTCCCTGCGCCCATTTGGCGAAGGGAGCGGCA TCGGTGCCCGGCGGCACGTACCAGGACTGTTGCTGCCGATCCCAACGCGCCCCGAGGCTCTTGGCCTCGT CCTTCTCCTTGTACGGCACGTTGATGTACTGCCGTTCGGGCTTCTCGGCCTGCGGCTGCGCCTGCTGCCG ATCGCGTTCCTGGCGCTCCAGCTCGGCCGCGCGGCGCTGCGCGTCGCTGTCGTTGAGCATGGCCGACGCC TCGGCGGTCTTGCGTGCCTCTTTAGCGGCTGAAATGTCCTCTTCGGTCGCGTTGGGGTCGCGCCGTACAC GCTCTTCCTGCACGCGGGCCAGCTTGGCGGCGCGCTCGTGCTGGTTGTCGGTGCCCAGCGCATCGACCAG GTGCAGGCGCTCGGCCAGAGCCTCGGCCTGGCCCTCGGTGCGGGTGCCGGCGACGAAGGCAAAGGCGTCC TCGCCGAACTGCGCATCGGCCTTGCGCGCGTAGACCTGGAACGCCTGCGGCTCGATGCCGGCCTGGGCGG CATCGACGGTCTGGCCGTCCTGCTCGGCCACGCCGACGATGCGCAGCTCTCCGCTCCAGTCGGGCGGCAG CTCAACGCCAAGGTGTTGACGGGTCGCGTCGGCGAACGCCTGGCCGTCGATCTCGCCGGCGGCGAGCTGC CGGCGCGCGGCGGCGGCCTGCTCGATGCCCTGCACCGCGTCGGCAGGATGGGCGGCCAGCAGGGCGGCCG CCTGGTCGATGGTCGGTGGGGTCATGTTCGCCTCCTGGTCTGCGACGGCCGCTTGCTGCTGGGTCAGCGC CGGCAGGGCCATCAACTGGTCGGGCGCGTAGTTGTTCAGCTCGTCCAGGCTGCGAACCTGGTGGGGTTCA CCGTCCTGGTCGTGGAACGCAAAGATGCGCTGGCCGTCGCTCCACCTGGCTTCGGCGTCGATGCTCGACA CGATCTGTTCGCCGTGCTGCTGGAGCTGCTGCGCGAGGTGGAGCTGTTCGGCCATGTTGGCGAACTCTTG CGCCAAGCCCTTGCGCTCCAGGTAGGCGTTGTCGGTGTCGGTGTGGCTCGGGTCGATGCCGAACACCGGC GACAGCCGGTCATGCGCGACCGCGTAGAACTGCTCGGGATCGGTGCCGGTGATGCTGCCCACGGTTTCGA GGCCACGGCTGCGCAAGGCGTCTTCCAGGGTGTCGCCCTGGAATGCCTGGTAGTGGCTGAAAGACACGTC CGGGTTGTCCAGGACTTCGGCAATGTCCACGGCCAGGGCCTGGGCCACGGCTTCGTCCTGGGCCTGGCTC TGCTGCTGGTCTTGCTCCTGAACCTGCTTCTGCTCGAAGGCCAGCACGTAGTCGTGAATCTTCTCGGCAT CGGCGGCCGCGCGGAACACCTCCAGCGGCTCGTCTTGCAGCGCCTTGATCCACGAACCCACATAGGCGGC GTGCTGGCCCGGATCGTGGCCGATGCCCAGCTCGTCGCCGACGATCATGGAAGCGATCTCGGCGCGCAGC TCTTCCTTGGCGTACCCCTCGCTCCCGAACGGGTGCGCCAGGTCGCGGTCAAGGCGCGAAGCGTGGCCCG TCCAGTGGCCCAGCTCGTGCAGCGCGGTCGCGTAGTAGCGGTCGGAGCTGGGGAACTGGCCGCGCTCCGG CAGGGTGATGCTGTCGGTCGAAGGGCGGTAGAACGCCCGATCACCGGCGGCGTGGGTGATCGTCGCGCCC GAGGCTTTCAGGATGTGCTCGGCGCGCTCGACGGCGTTCCAAGTCTGTTCCTTCTTCGGCTGGAGCGGCG GCAGGCCGTCGATCTGCTCGCCGTTGAACACGGTCGCAAAGAACACGCGCGGCCGCTCCAGCATGACGGT TTCCTTGACCGGCTGGCCCTTCGCATCGAGGACGGGCCGGCCGCTGTCGTCCAGCTTGTCTTGCTCTTCG CTGAACTTCCAGTATTGAACCGGCGTGCCTTTCTCGCCCTTGCGAACCTGCGCGCCCACGGCGGCGGCCT GCTTGTAGGTCATCCAGCGCGCATCGCTGCGGCCCTGGGCCATCAGGTGGATGGCGTTGATCCCTTTGTA CCGCTTGCCGGTGGTCGGGTTCATCGGCAGGTAGGCGTTGGGTTCGCCCGGCTCCCACGGCTTTTGCCAC GGTGCGGTGCCGGCCTTGAGCTGCTCGATCAGCTTTTCGGCCACGACTTCGTGAAACGGCTTCTTCGGCT CCATGTTCTCGTCCCTTCGGAATAGCTCGTTGAACTGAGGGAAGTTCTGCTGTGTCCGGGAACGGTCGCG CAGGCCCTGGGCGACCATGCACACGATGTTGTGCAGGTCGTCGGCCTGCATGGGCCGCACGCGGGCGATG CAGGTTTCCGTGAATGACTGTTGGCCGCGCTGCTGCACCTGGTCGGCGACCTGGTGCTGGCTCGGCTCGA TGCCCTCGCAGTGCAGGGCAAACACTTCCTCGGCGCGCACGTCCAGGGACTGGCCGGCATAGCGCCGGTT CACGTCATCCCATAGCGGCTTGAGGGTGGGTTCGTTGCGGGCGGCCGCCAGGCCGTCCAGCAAGGCGCGC TTCTCGCCCGGCGCGAAGGTGTTGGCCCCGTAGTGGCCTAGCACCTCGTGCCGCAGCGTCATCAGTAGGT CGCTGGCGCTCTCGACGTTCTGCAAGGGCACGTCCACGCGGCCACGGTAAGCGCGGCCGGCGTGCAGCGT CTCCTTGGGCACGTAGCCGCCCTTCATGTCGGCCGGCACCTCGGCCGCTCGCGGCCCGTACAGCTCGGCC GCGTCCTCGCGGAACTTGTAGGCCAGCTCCAGCGCGCCGGGGTAGTCGCGGACGAAAGCCCGCGTCACCC CTTGCGCCTCGGCTTTCGTGATCGGCATGGGTCAGCCCTCCGACGCCTTGCGCGCGGCGGCCTGGGCAAC CGTCTCGCCGGGCCGCAGGTCGTACAGCTCGCGGGCGTTCGTGGTGGTGATGAACGGCGGGATGTCGGCG CTCGGGCCTTCGTCGTCCAGGAATGCCGGCTCCAGCGCGCCATCGACTTCCACCAGGTCGTCGCCGCTCG CGGCGGCGTCCTGCTCGGACAGCGCGTCCTCCACGAACGCGCCCACGCGCTCGGCTTCGTCGGGGTCGAA CTCGACCTGGAAGCCGGGCGTCAGCGCGTCGGCCATCTTCTCGCGCACGGCCTCGCGGCCGGCGGCGTCG TCGTCAACCGGCGGCAGGACGGCCAGCGGCTCGTCGTGGGCGGCGGTGTTGGTGGTGGTTTGCTCGTTCA TGGTCGATCTCCTTCGCTGTGGTCATTCGGATGCCTGGCCGTTGCGGCCCTTGCTGTAGTCGGGCCGACC CTTGAGGTCGGGGTAGGTCTGCTTGCATGTGGGGAAGTTGCTGCAACCCCACCAGAATTGCCCCTTCTTC TTGCTCGGCCGGCGCGACAAGCCGCTGCCGCAGGCCATGCACTTGTGAAGGGATGACACCGGCGCGGCTT CCTTGCCGCCGGCGATGGTCACGGCTCCGCTGTTGGCCTTCGCCACCTGGTCGCGGATGAACGTCTCTTG CTTCGTGATGAAGGCGTCCAGGGCGGCCGTGCCCTGCTCGACGCCTTTCAGCATCCGCTCGTAGAGCGCG GTCAGCACCGGGCTTTTCACAACCTCGGGCAGCGCGTCGATGACGCTGCGGCCGAGGGTCGTGCTGATGA TCTGCTTGCCTTTGACGGCCAGGAACTCGCGCCGCTTCAACTCGGAAATGATCGACGCGCGGGTGGCCGA CGTGCCGATGCCGTCGCCCTCGCGCAGCATCTTCTTGTGCTCGGCATCGCTGACGAACTTGTGGATGTTC TCCATCGCGCGGATCAGCGTGCCCTCGGTAAAGCGCGCTGGCGGCTTCGTCTTGGCGTCCTTGCGGGTGG CGTCCGTGCAGGTCACGGCGTCGCCCTGGGCCATCGACGGCAGGGCCTGCGTGCCGCTGTCGTCGTCCTC GTCCTTCTCGCCTTCCTCGTCGGCCTGGCTGTACACGTCACGCCAGCCGTTGCGCGTGACTACCTTGCCG CTCGCGGCGAAGTTCTCGCCCGCGAATCTCGAACGCCCACGGTGGTCTGCATGTACTCGTGCAGCGGGTA GAACTGCGCCAGGTAGGCGCGCACGATCAGGTCGTAGATGTTGCGCTCGCGCTCGCTGAGGGCGGCCTTG CTGCCCTTCTGCATGGTCGGCACGATGCCGTGGTGCGCGGTGATCTTCGAGTCGTCCCACGTCTTGGACT TGATACGCGGATCGGCACCATCGACCAGGCCGGCCAGTTGGGGTTGACGTGCTTGATCGCCTCCAGCACG CGCGGCGCGTCGGCGTGCTGCGACTCCGGCAGGTAGGCGCAGTCGGTGCGCGGGTACAAGTCAGCTTGTG CGTCTCGTAAAGCGCCTGGCAGGTGTTCAGCACGTCCTCGGCGCTGTAGCCGAACTTGGCCGAGGCCAGT GCCGTGATGTCGGACAGGGCGAAGGCCAGCGGCTGGTTCTGCTTCTTGGCCTCCTGTTTGTACGCGGCGA TGGTGCCCGGCTGGCCCTTGACGGCGGCCACCAGGGCGTCGGCGACGGCGGTATCGACAAGGCGGCCTTC GCTGTACAGGCCGGCTTGATCCTCCTTTGCCTTCCATGCGGCGGCGAAGCTGCCGCCGGCGTGCTGCACC ACCGCCCGGATGGTGTGGTACGGCACGGCCTTGAATGCCTCGATCTCGCGGTCGCGGGCGACCACGAGGG CCAGCGTCGGCGTCTGCACGCGGCCCACGGTCAGCAGGGCGCGCGAGCCGCCGCGCTGCGCGCGCAGCGT GTACGCGCGGCTGAGGTTCATGCCGATCAGCCAGTCGGCGCGCTGCCGCCCGCGTGCAGCGTCGGCCCAG CCTGCATAGGTGGTGTTCTCCTTCAACGCGGCCAGGCCGCGCTTGACGGAAACGGAGTCCTGCGCGCTCA CCCAAAAGCGGCGCACCGGCTTGCTGTTGCGGAAGTGCTCCAGCACTTCGTCAACCAGCAACTGGCCTTC GCGGTCGGGGTCGCCGGCGTTGACGATCTCCTTGGCCTCCTTGAGCAGCTTGCCGATCACGGCGAGCTGC TTCTTCGCGTCGTCCTTGGGCTTGAGAATCCAGCTCTCGGGGATGATGGGCAGCTCATCGACGCGCCAGA CCTTCTTGCCGGACTGGCCGCGCGGCACGTCATCGGGCGTGTACTCGTCGGGGTCGGCCTGTTCGAGCAT GTGCCCGAAGCACCAGGTCACTTTGTCGGTGCCGCACTCGATGAAGCCGTCGCCCTTGCCGGTCGCGCCC AGCTCGCCGGCGATGGCCTTGGCGACGGACGGCTTTTCTGCGATGAAAAGGCGCATGGTGTGTCTCCCTA CCAGGTGATGACCGGACGGATCACGGTCTTGATTTGCGAACGATTGATCGGGCCGAAGTAGCGGCCGTCG AAGGATGTGGCGCTCACGTCCGACATAAGCAGCACCTCGGAATTGCCGAGCGTGTAGCTGTTGGACTGAT AGCGCGGCAGCGGCCGACCGGCCTTGTCGGCCTTGATCGGCGCGCTGAGGGGCAGCAGCTCGCCGTTGAC GCGCACGCCGTCATCGGCGACGGCGACGGCATCGTCTTTAGCGGCTAAAACGCGCTTCATCATGTAGCCG TAGCCGCCCTGGCAGAAGCCGGCCCCGATGTAGCCCCTCTCCTTGGCGTCATCGAACACGCCGAGCTGCG GCGGGCAGAAGAGGACGTAGGCCCCCTTCTCCACCGGCGCGCTGCTCGTCCAGTACAGGCCGACCGGAAT GCTCTTGGTGGTGTTCACGCGGGCACCGGCGGCATAGCCGCCGGCGGCCAGCAGCAGGGCGGCCACGCCC GCGATGACGACGCCTGCCGCGATACGTTTCAGGATGCGGCTCATATCGTGATGCCCTCCCCTTCCGTGTC GGCCTGTGCGACGGCGCGCAGGCGGTCGCTGACCTTGGGCGCAGGGATCGCGGCGCGTGCCGAGAACACT GGGTCTTTGAAGTACAGGGGTTGCTTGCCGTAGATCGCCGGGTAGCCCGCGACGTAGATCACCATGTCGC CGGCTTCTTCGATCTCGCCCTGGGCGTTCTTCTTTGGCCCCGGCATGCGCAGGCATTCGTCGGGCGTCAG CAAGGGCCGCTGCACTTCCTGGTAAGTGCGCGACACCTGGCCCAGCATCGCCGCCGTGCGGCGGCCGCTG GTCGTGATCTGCTCCTTCACCACGGTGGTCTGCCCGGTGAGGCGGGACAGGTGTTCGGCCGTCTCGACGC GGTTGGGCGGGTAGGCGTTCTGCACGTGGCAGTTCGACGTGATGCTTTCGTCGTGGCCGTAGCCCGTCTC GCGGCTCTTGAGCTGGTTAATGTCCTGGCAGATGAGGTAGCACTTGATGCCGTAGCCGGCCACGAAGGCC AGCGACTCTTGCATGATCTCCAGCTTCCCGAGGCTCGGGAACTCGTCCAGCATCATCAAGAGCCGGTGCT TGTAGTGCGCCACCGGCCGGCCGCCCTCGAAGTCCATCTTGTCGGCCAGCAGGCGCACGATCATGTTCAC CATGACGCGCACCAGCGGCCGCAGGCGGGCCTTATCGTTGGGCTGGGTGACGATGTAGAGGCTTACCGGG TCGTCCTCGTGCATCAACTGCTTGATGCGGAAGTCCGACCGGCTGACGTTGCGGGCCACCACGGGGTCGC GGTACAGGGCCAGGTACGACTTGGCCGTGGACAGCACCGATCCGGCTTCTTCCTCGGGCCGATCCATCAT GTCGCGGGCCGCCGAGCCGATGGCGTGATGGTTCTGGCCGTCTACGTGCCCGTAGGTCGCCATTTCCATC CAAAGCTCGCCAATGTCCCGGTTCGGGTCGGCCAGCATCGCATCGACGGACGGCAGCGTGGCGGTGCCGC CATCGTCCTTGGCCTTGTACAGCGCGTGCAGGATCACGCCGACCAGGAGCGCGAAGGCGGTCTTCTGCCA GTGCGAGTCCAGGCCCTTGCCGTCCGGGTCAACGATCAGCGTGGCAAGGTTCTGCACGTCACCCACCTCG TATTCGGTGCCGAGGCGGATTTCGTCCAGCGGATTCCAGCAGACGCCGCCCGAGGTGCTGGCCGGCTCGA AGCGCAGCACCTTGTTCTTGGCGTGCTTCTGCCGCCAGCCGGCGGTCAAGGCCCACAACTCGCCCTTCAA GTCGGTGATGACGCTGCTCGCGCCCCACGACAGCAGCGTGGGCACCACCAGGCCGACGCCCTTGCCCGAG CGCGTGGGCGCGTAGGTCAGCACGTGCTCGGGGCCGCTGTGCCGCAGGTAGAAGAAATTGCCGTCCTTGT CCTGCCAGCCGCCCACGTACACGCCGGTAGCCGTGGGTGCGGCCTTGCCGGTGACGATCTCCAGGACGTT GCGCTCGCGTGGCAGCAGGCCGGCCGCCTGAATGTCCTTCTTCTCGGCCCAGCGGGCCGAGCCGTGCAGG TACTCGTTCGCCTTCGAGCTGTTGGACGTGACGACCTTCGCCACGGCCACGCCCAGCAGGCCCACGGTCG AAACCAGCATCCCCATGCTGCCGGCCTTCATGATCTCGTCCGGGTACTGGCTGTACCACTTGTACGTCCA GTGCAGGATCGACCAGGGCGCGTACACGTGGCCCACGTTGGGGCCGAGGGTCGCGTGATAGGCGAACGTG TGGGCGAAGAACTGCGTCGCGGCCTGGAGGCCGCCGACCATCGAGGCCGCGCCCAGCACCGGCAGCAGCT TGCTCGGCTTCGGTTTGGCGGTTCGGACTTGCGGCCCTACCGCGTTGTTCATCTTGATCTTCATCTACTC CTTCCTTTCGACGTTTTGATGGAGCCTTTCGCGGTGATCGAGACGGCATCGCGACCGACCGCGATGCGCG TCAAGCGCCGGGCCGTGGCCTGGTCGATGGGCATAACCATGACCTCATCACCTCGTTTCAAGAGGGCCAG CGCCTGGCCCTCGATAGTCCTGGTGCCCTGGAACGTGAGCGCACCATCACCGGCAGTATATCGGGAATGC TTCGGTATATCGAAACCTTTTAGGCGCTTTGCCTCGCGTTCGGCGATGTACTTGTCGGCGGCGGCGACGC CCGGCGGCGTCTGGCCTACTCCTGTTCCTGGCCGAGAAATTCCCCGTCGCAGTGCGTGATCTGGTTGGGT TCCTTGCTGCTCCACGTGACGAGGAACATCACGCGGCAATAGCACTTCACTTCCGCCGGCGATGCGAACC ACACCGAGTTCGGACAGTGCTCGCAAACGGTGCTGGCTTTGGGGCGGCGGTTTTCTTCCAAGGCGTCCAA CGTCGGGCTTCCGGTGGACGGTGGCGGCGTGAAGGCCGGCGTCGGCGCGGTCGCCTCGGCCGGCGGCTGG CCGGCCGTCGCCTGCTCGGGCGACGGCTGCGGCTCCGGTAGCGTGCTGGTCGGCAGCGGGCCGCTGTCCA GGGCCGCCAGCGCCGCGTCCAGTTCGTCCTCGATGCTCTGGTCTTTCGGTTCGCTCATGGGTGTTCTCCT TGTTCAAAAGCGCCTGCCGCCGGCTCTCAAGAGCCGGATCGGTGAAGGTGATGGGTAGCTGGGAATCGAC GGCGGCGCGGATCATCTGCGCCTTGAACTCCACCGTGCCGTTGACGGTGATGCGGTTGCCGTAGCGTTGC ATCGCCAGGCGCAGGGCTTCTTGCAGCCCTTCGCGCGTGGCCTCGCGGGAGACTTGCAGGCGGTCACCGT CATCGCGCACGGCGCTCATGCCGGCGCGGAAGATGATCGTCCCCTTCTTCGTGATGTTGTCCACCGCCGG CGCGTGGCCGGGCTTCGCCTGGCCCTCGCCCCGGATGGTGTTGCCCTTGAGGCCCTGGGCCGCCTCGCGG GCGCGCAGGGCGGCCAGGGCGTCGGCGCCGCCGTGCTGCGCCTCCTTCTTGAGCCAGTCGGCCCACGTGC GCCGGCTGTGCTCGGCGTAGAGGGCCGTGCGCTCCTGCTGGAACTGCTTGTTGATCGCCTGGATTTCGCT GCGCAGGGCCTTGCTCGCCTGGGCGTACAGCAGCTTCTTGTTCGCGCGGCCCTCGCCGACCACCTTAATC GTGGCGCGGCGCAGGCGGTTCGACCTCTTGGCCGCCTCGATCAGCCGATCCTTGCGATGCCGGGCGCGCT CCAGGGCCTGGGCGCGCGCCGTGGTCAAGCTCTGCTGCTCGGCCTTGTACTTCGCGTACAGCTCCACGGT GTTGACGCGAAGGCGGATGGGGTCTTTGCGGTACTGCCGCTTCGCGGTGGTTTGCGCCTGCCGTTCGGGC GAAGCCTCGAACGGGCCAAGCCGCGCCTCCAGGCTCGGCTTGGAAAGGTCGCGGGCTACTGTGCTCGCCT TCACCATCGTTCCGTCGCCGGCCTCGAACACGAGGCCATTGGCGCGGACGCGCAGCTCCATTCCGTTGTC GCGCATGACCTGGTGCAGTTCCTGCCAGGACTGCGCGCCCTTGATCTCGTCCAGGCACTCGCGCTTGATC CAGCCGACCAGGCTTTCAACGCCGGCATGCCGCTCCATGTCGGCGGCCCGGCCCTCCGCGCCGCGCTTGC GCGGCTCGTGGTTGTCGCGCTCCAGGCCGTAGTCGCGCTCCAGGGCCGTGCAGAGTTCCGCCAGCGCCCG GTGCGGGTAGTACGGCTCGTGCATCGTGTGCCGCGTCGGGTGAATCTTGTTGATGGCGATGTGGATGTGC AGGTTGTCGGTGTCGTTGTGGACGGCACTGATTCGCTGATGCTCGCCATAACCCAGCCCGACGCAGATGC GTTCCTCAATCGCGCGCAAGGTGTCGGCGCTGGGCTGCTCGCCGGCCCGGAAGCTGACGATCAGGTGGTA GGTCTTGTCGCCCTTCGCGCGGGTGTTCGTGTGCTGGGTCGCCAGCACCTCCGTGATGGCGTCCTGGATG GAACCGGCTTCGCAGTTCGTCGCCTGCACGTGGCCCAGCCGGTGGTCTTTGCTTTGGGCGTCGGTGATGT AGTTCGCCAGGCCCGCGAAGTCGCTCTTGCCAAGCGAGCGCATCGGCACGTGCTTGGCGATCATGGCCGC CCCTCCGGCTTTTT
Region Details
| Region | 1 |
| Region Length | 33.6Kb |
| Completeness(score) | incomplete(40) |
| Specific Keyword | integrase,transposase |
| Region Position | 17377-51060 |
| # tRNA | 0 |
| # Total Proteins | 11 |
| # Phage Hit Proteins | 8 |
| # Hypothetical Proteins | 2 |
| Phage + Hypothetical Protein % | 90.9% |
| # Bacterial Proteins | 1 |
| Attachment Site | yes |
| # Phage Species | 8 |
| Most Common Phage Name(hit genes count) | PHAGE_Acinet_Acj9_NC_014663(1) PHAGE_Mycoba_Shipwreck_NC_031261(1) PHAGE_Acinet_Acj61_NC_014661(1) PHAGE_Pseudo_F116_NC_006552(1) PHAGE_Rhodov_RS1_NC_020866(1) PHAGE_Escher_D108_NC_013594(1) PHAGE_Sinorh_phiM9_NC_028676(1) PHAGE_Rhodob_RC1_NC_020839(1) PHAGE_Mycoba_Charlie_NC_023729(1) PHAGE_Burkho_KS14_NC_015273(1) PHAGE_Mycoba_Malithi_NC_026605(1) PHAGE_Entero_Mu_NC_000929(1) PHAGE_Salmon_SEN5_NC_028701(1) PHAGE_Rhizob_vB_RleM_PPF1_NC_025427(1) PHAGE_Brevib_Jenst_NC_028805(1) PHAGE_Xantho_Cf1c_NC_001396(1) PHAGE_Mycoba_Butters_NC_021061(1) PHAGE_Bacill_G_NC_023719(1) PHAGE_Salmon_SEN4_NC_029015(1) PHAGE_Entero_SfMu_NC_027382(1) PHAGE_Lister_LP_030_2_NC_021539(1) PHAGE_Escher_pro483_NC_028943(1) PHAGE_Pseudo_PS_1_NC_029066(1) PHAGE_Acinet_ZZ1_NC_018087(1) |
| First Most Common Phage # | 1 |
| First Most Common Phage % | 9.09% |
| GC % | 65.15% |
| 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|NC_001735.4| Enterobacter aerogenes plasmid R751, complete sequence. 53423, gc%: 64.12%
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 15 CDS
| # | CDS Position | BLAST Hit | E-Value | Sequence |
|---|---|---|---|---|
| 1 | 17377..17388 | attL | 0.0 | Showinfo_outline |
| 2 | 29843..30541 | PHAGE_Xantho_Cf1c_NC_001396: hypothetical protein; R751p44; phage(gi17975752) | 5.28e-27 | Showinfo_outline |
| 3 | 30557..30985 | PHAGE_Bacill_G_NC_023719: gp250; R751p46; phage(gi593777706) | 5.42e-08 | Showinfo_outline |
| 4 | 31020..31031 | attL | 0.0 | Showinfo_outline |
| 5 | 31140..31664 | PHAGE_Salmon_SEN5_NC_028701: DNA methylase; R751p47; phage(gi966201553) | 4.48e-49 | Showinfo_outline |
| 6 | complement(31911..32924) | PHAGE_Mycoba_Butters_NC_021061: integrase; R751p48; phage(gi479336499) | 2.30e-12 | Showinfo_outline |
| 7 | 33129..33365 | PHAGE_Sinorh_phiM9_NC_028676: hypothetical protein; R751p49; phage(gi966199293) | 1.20e-17 | Showinfo_outline |
| 8 | 33426..33437 | attR | 0.0 | Showinfo_outline |
| 9 | 33502..33792 | hypothetical protein; R751p50 | 0.0 | Showinfo_outline |
| 10 | 33897..34229 | PHAGE_Acinet_Acj61_NC_014661: putative quaternary ammonium compound-resistance protein qacE; R751p51; phage(gi311992758) | 3.60e-09 | Showinfo_outline |
| 11 | complement(34478..35101) | PHAGE_Entero_Mu_NC_000929: Gin; R751p52; phage(gi9633542) | 3.38e-47 | Showinfo_outline |
| 12 | complement(35163..36380) | hypothetical protein; - | 0.0 | Showinfo_outline |
| 13 | complement(36377..37285) | TniB; R751p54 | 0.0 | Showinfo_outline |
| 14 | complement(37288..38967) | PROPHAGE_Brucel_1330: transposase, putative; R751p55; phage(gi23501616) | 1.16e-33 | Showinfo_outline |
| 15 | 51060..51071 | attR | 0.0 | Showinfo_outline |
Sequence
>17377..17388
TAGCCGCTAAAG
Sequence
>29843..30541
KlebsiellaaerogenesMKALRIPDGTVEALKWLALVLMTGDHVNKYLFNATLPVLFEAGRVALPLFVFVLAYNLARRGTLERGVYGRTMSRLAMFGALASVPFVALGGLYAGWWPLNVMFTLLVVTATAYLVERGGKLHLAAAGVVFLVGGSSVEYWWPAVAFGLAVWSYTRRPSWAAAAVAVLACAALWFVNRNLWALAALPVLFLASRVDVRVPRLRWAFYAYYPLHLASLWLIRIPMSKAGYLFF
Sequence
>30557..30985
KlebsiellaaerogenesMRKPVLLALSLAFLVSAQSALAGDAGNFGTPIKSGVSVSFPDSSATFQPTPEALELLADARNAAIIYISGRTSTLRPSAADEALALRRALSARSYLVARGVSPLKIMVNFASAADFVADNSTAEGRRENQRVDIEVVYIPTY
Sequence
>31020..31031
GGTCGCTCCAGC
Sequence
>31140..31664
KlebsiellaaerogenesMRYPGGKGGAGVYQTIINNIPPHDTYIETHLGGGNILERKRPAARSVGIDVDPEVIEVWQQLDVPGLELHHGDAVAWLESHQFTGSEFVYADPPYVMDSRRGGKLYRHEYDDADHVRLLDVLAGLPCAVMVSGYSSTIYDSSPLASWRTIDFNAMTRGGIAIERLWMNYPEPAE
Sequence
>complement(31911..32924)
KlebsiellaaerogenesMKTATAPLPPLRSVKVLDQLRERIRYLHYSLRTEQAYVNWVRAFIRFHGVRHPATLGSSEVEAFLSWLANERKVSVSTHRQALAALLFFYGKVLCTDLPWLQEIGRPRPSRRLPVVLTPDEVVRILGFLEGEHRLFAQLLYGTGMRISEGLQLRVKDLDFDHGTIIVREGKGSKDRALMLPESLAPSLREQLSRARAWWLKDQAEGRSGVALPDALERKYPRAGHSWPWFWVFAQHTHSTDPRSGVVRRHHMYDQTFQRAFKRAVEQAGITKPATPHTLRHSFATALLRSGYDIRTVQDLLGHSDVSTTMIYTHVLKVGGAGVRSPLDALPPLTSER
Sequence
>33129..33365
KlebsiellaaerogenesMDQHNNGVSTLVAGQFALPSHATFGLGDRVRKKSGAAWQGQVVGWYCTKLTPEGYAVESESHPGSVQIYPVAALERVA
Sequence
>33426..33437
GGTCGCTCCAGC
Sequence
>33502..33792
KlebsiellaaerogenesMFIQTAFSFSNAVQRWVCRFSGLRLVALRWFVVFLASGPCVASASSYFFRSAVPPRWHRAFSQLAPVAKLRLSVLASGSNISVKPTRILRSAYLAR
Sequence
>33897..34229
KlebsiellaaerogenesMKGWLFLVIAIVGEVIATSALKSSEGFTKLAPSAVVIIGYGIAFYFLSLVLKSIPVGVAYAVWSGLGVVIITAIAWLLHGQKLDAWGFVGMGLIVSGVVVLNLLSKASAH
Sequence
>complement(34478..35101)
KlebsiellaaerogenesMLIGYMRVSKADGSQSTNLQRDALIAAGVSLAHLYEDLASGRRDDRPGLAACLKALREGDTLIVWKLDRLGRDLRHLINTVHDLTARSVGLKVLTGHGAAVDTTTAAGKLVFGIFAALAEFERELISERTVAGLISARARGRKGGRPFKMTAAKLRLAMASMGQPETKVGDLCEELGITRQTLYRHVSPKGELRPDGVKLLSLGSAA
Sequence
>complement(35163..36380)
KlebsiellaaerogenesMKPAPRWPLHPAPKEGEALSSWLNRVALCYHMEEPDLLEHDLGHGQVDDLDTAPPLSLLALLSQRSGIELDRLRCMSFAGWVPWLLDSLDDQIPDALETYAFQLSVLLPRLRRKTRSITSWRAWLPSQPINRACPLCLSDPENQAVLLAWKLPLMLSCPLHGCWLESYWGVPGRFLGWENADAEPRTASDAIAAMDQRTWQALTTGHVELPRRRIHAGLWFRLLRTLLDELNTPLSACGTCAGYPRQVWEGCGHPLRAGQSLWRPYETLNPIVRLQMLEAAATAISLIEVRDISPPGEQAKLFWSEPQTGFTSGLPTKAPKPEPINHWQRAVQAIDEAIIEARHNPETARSLFALASYGRRDPASLERLRATFVKEGIPPEFLSHYLPDAPFACLKQNDGLSDKF
Sequence
>complement(36377..37285)
KlebsiellaaerogenesMDEYPIIDLSHLLPAAQGLARLPADERIQRLRADRWIGYPRAVEALNRLEALYAWPNKQRMPNLLLVGPTNNGKSMIVEKFRRTHPASSDADQEHIPVLVVQMPSEPSVIRFYVALLAAMGAPLRPRPRLPEMEQLALALLRKVGVRMLVIDELHNVLAGNSVNRREFLNLLRFLGNELRIPLVGVGTRDAYLAIRSDDQLENRFEPMMLPVWEANDDCCSLLASFAASLPLRRPSPIATLDMARYLLTRSEGTIGELAHLLMAAAIVAVESGEEAINHRTLSMAVYTGPSERRRQFERELM
Sequence
>complement(37288..38967)
KlebsiellaaerogenesMATDTPRIPEQGVATLPDEAWERARRRAEIISPLAQSETVGHEAADMAAQALGLSRRQVYVLIRRARQGSGLVTDLVPGQSGGGKGKGRLPEPVERVIHELLQKRFLTKQKRSLAAFHREVTQVCKAQKLRVPARNTVALRIASLDPRKVIRRREGQDAARDLQGVGGEPPAVTAPLEQVQIDHTVIDLIVVDDRDRQPIGRPYLTLAIDVFTRCVLGMVVTLEAPSAVSVGLCLVHVACDKRPWLEGLNVEMDWQMSGKPLLLYLDNAAEFKSEALRRGCEQHGIRLDYRPLGQPHYGGIVERIIGTAMQMIHDELPGTTFSNPDQRGDYDSENKAALTLRELERWLTLAVGTYHGSVHNGLLQPPAARWAEAVARVGVPAVVTRATSFLVDFLPILRRTLTRTGFVIDHIHYYADALKPWIARRERWPSFLIRRDPRDISRIWVLEPEGQHYLEIPYRTLSHPAVTLWEQRQALAKLRQQGREQVDESALFRMIGQMREIVTSAQKATRKARRDADRRQHLKTSARPDKPVPPDTDIADPQADNLPPAKPFDQIEEW
Sequence
>51060..51071
TAGCCGCTAAAG
Enterobacter aerogenes plasmid R751, complete sequence
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: 53423 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: 17377
ORF Stop: 17388
Strand: Forward
Protein Sequence: TAGCCGCTAAAG
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 2: R751p44 (Region 1)
Locus: R751p44ORF Start: 29843
ORF Stop: 30541
Strand: Forward
Protein Sequence: MKALRIPDGTVEALKWLALVLMTGDHVNKYLFNATLPVLFEAGRVALPLFVFVLAYNLARRGTLERGVYGRTMSRLAMFGALASVPFVALGGLYAGWWPLNVMFTLLVVTATAYLVERGGKLHLAAAGVVFLVGGSSVEYWWPAVAFGLAVWSYTRRPSWAAAAVAVLACAALWFVNRNLWALAALPVLFLASRVDVRVPRLRWAFYAYYPLHLASLWLIRIPMSKAGYLFF
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: R751p44, hypothetical protein, phage(gi17975752), PHAGE_Xantho_Cf1c_NC_001396
Homolog/Ortholog E-Value: 5.28e-27
Locus 3: R751p46 (Region 1)
Locus: R751p46ORF Start: 30557
ORF Stop: 30985
Strand: Forward
Protein Sequence: MRKPVLLALSLAFLVSAQSALAGDAGNFGTPIKSGVSVSFPDSSATFQPTPEALELLADARNAAIIYISGRTSTLRPSAADEALALRRALSARSYLVARGVSPLKIMVNFASAADFVADNSTAEGRRENQRVDIEVVYIPTY
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: R751p46, gp250, phage(gi593777706), PHAGE_Bacill_G_NC_023719
Homolog/Ortholog E-Value: 5.42e-08
Locus 4: attL (Region 1)
Locus: attLORF Start: 31020
ORF Stop: 31031
Strand: Forward
Protein Sequence: GGTCGCTCCAGC
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attL
Homolog/Ortholog E-Value: N/A
Locus 5: R751p47 (Region 1)
Locus: R751p47ORF Start: 31140
ORF Stop: 31664
Strand: Forward
Protein Sequence: MRYPGGKGGAGVYQTIINNIPPHDTYIETHLGGGNILERKRPAARSVGIDVDPEVIEVWQQLDVPGLELHHGDAVAWLESHQFTGSEFVYADPPYVMDSRRGGKLYRHEYDDADHVRLLDVLAGLPCAVMVSGYSSTIYDSSPLASWRTIDFNAMTRGGIAIERLWMNYPEPAE
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: R751p47, DNA methylase, phage(gi966201553), PHAGE_Salmon_SEN5_NC_028701
Homolog/Ortholog E-Value: 4.48e-49
Locus 6: R751p48 (Region 1)
Locus: R751p48ORF Start: 31911
ORF Stop: 32924
Strand: Backward
Protein Sequence: MKTATAPLPPLRSVKVLDQLRERIRYLHYSLRTEQAYVNWVRAFIRFHGVRHPATLGSSEVEAFLSWLANERKVSVSTHRQALAALLFFYGKVLCTDLPWLQEIGRPRPSRRLPVVLTPDEVVRILGFLEGEHRLFAQLLYGTGMRISEGLQLRVKDLDFDHGTIIVREGKGSKDRALMLPESLAPSLREQLSRARAWWLKDQAEGRSGVALPDALERKYPRAGHSWPWFWVFAQHTHSTDPRSGVVRRHHMYDQTFQRAFKRAVEQAGITKPATPHTLRHSFATALLRSGYDIRTVQDLLGHSDVSTTMIYTHVLKVGGAGVRSPLDALPPLTSER
Homolog/Ortholog Species: Integrase
Homolog/Ortholog Protein: R751p48, integrase, phage(gi479336499), PHAGE_Mycoba_Butters_NC_021061
Homolog/Ortholog E-Value: 2.30e-12
Locus 7: R751p49 (Region 1)
Locus: R751p49ORF Start: 33129
ORF Stop: 33365
Strand: Forward
Protein Sequence: MDQHNNGVSTLVAGQFALPSHATFGLGDRVRKKSGAAWQGQVVGWYCTKLTPEGYAVESESHPGSVQIYPVAALERVA
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: R751p49, hypothetical protein, phage(gi966199293), PHAGE_Sinorh_phiM9_NC_028676
Homolog/Ortholog E-Value: 1.20e-17
Locus 8: attR (Region 1)
Locus: attRORF Start: 33426
ORF Stop: 33437
Strand: Forward
Protein Sequence: GGTCGCTCCAGC
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attR
Homolog/Ortholog E-Value: N/A
Locus 9: R751p50 (Region 1)
Locus: R751p50ORF Start: 33502
ORF Stop: 33792
Strand: Forward
Protein Sequence: MFIQTAFSFSNAVQRWVCRFSGLRLVALRWFVVFLASGPCVASASSYFFRSAVPPRWHRAFSQLAPVAKLRLSVLASGSNISVKPTRILRSAYLAR
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: R751p50, hypothetical protein
Homolog/Ortholog E-Value: N/A
Locus 10: R751p51 (Region 1)
Locus: R751p51ORF Start: 33897
ORF Stop: 34229
Strand: Forward
Protein Sequence: MKGWLFLVIAIVGEVIATSALKSSEGFTKLAPSAVVIIGYGIAFYFLSLVLKSIPVGVAYAVWSGLGVVIITAIAWLLHGQKLDAWGFVGMGLIVSGVVVLNLLSKASAH
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: R751p51, putative quaternary ammonium compound-resistance protein qacE, phage(gi311992758), PHAGE_Acinet_Acj61_NC_014661
Homolog/Ortholog E-Value: 3.60e-09
Locus 11: R751p52 (Region 1)
Locus: R751p52ORF Start: 34478
ORF Stop: 35101
Strand: Backward
Protein Sequence: MLIGYMRVSKADGSQSTNLQRDALIAAGVSLAHLYEDLASGRRDDRPGLAACLKALREGDTLIVWKLDRLGRDLRHLINTVHDLTARSVGLKVLTGHGAAVDTTTAAGKLVFGIFAALAEFERELISERTVAGLISARARGRKGGRPFKMTAAKLRLAMASMGQPETKVGDLCEELGITRQTLYRHVSPKGELRPDGVKLLSLGSAA
Homolog/Ortholog Species: Phage-like protein
Homolog/Ortholog Protein: R751p52, Gin, phage(gi9633542), PHAGE_Entero_Mu_NC_000929
Homolog/Ortholog E-Value: 3.38e-47
Locus 12: (Region 1)
Locus: ORF Start: 35163
ORF Stop: 36380
Strand: Backward
Protein Sequence: MKPAPRWPLHPAPKEGEALSSWLNRVALCYHMEEPDLLEHDLGHGQVDDLDTAPPLSLLALLSQRSGIELDRLRCMSFAGWVPWLLDSLDDQIPDALETYAFQLSVLLPRLRRKTRSITSWRAWLPSQPINRACPLCLSDPENQAVLLAWKLPLMLSCPLHGCWLESYWGVPGRFLGWENADAEPRTASDAIAAMDQRTWQALTTGHVELPRRRIHAGLWFRLLRTLLDELNTPLSACGTCAGYPRQVWEGCGHPLRAGQSLWRPYETLNPIVRLQMLEAAATAISLIEVRDISPPGEQAKLFWSEPQTGFTSGLPTKAPKPEPINHWQRAVQAIDEAIIEARHNPETARSLFALASYGRRDPASLERLRATFVKEGIPPEFLSHYLPDAPFACLKQNDGLSDKF
Homolog/Ortholog Species: Hypothetical protein
Homolog/Ortholog Protein: , hypothetical protein, -
Homolog/Ortholog E-Value: N/A
Locus 13: R751p54 (Region 1)
Locus: R751p54ORF Start: 36377
ORF Stop: 37285
Strand: Backward
Protein Sequence: MDEYPIIDLSHLLPAAQGLARLPADERIQRLRADRWIGYPRAVEALNRLEALYAWPNKQRMPNLLLVGPTNNGKSMIVEKFRRTHPASSDADQEHIPVLVVQMPSEPSVIRFYVALLAAMGAPLRPRPRLPEMEQLALALLRKVGVRMLVIDELHNVLAGNSVNRREFLNLLRFLGNELRIPLVGVGTRDAYLAIRSDDQLENRFEPMMLPVWEANDDCCSLLASFAASLPLRRPSPIATLDMARYLLTRSEGTIGELAHLLMAAAIVAVESGEEAINHRTLSMAVYTGPSERRRQFERELM
Homolog/Ortholog Species: Non phage-like protein
Homolog/Ortholog Protein: R751p54, TniB
Homolog/Ortholog E-Value: N/A
Locus 14: R751p55 (Region 1)
Locus: R751p55ORF Start: 37288
ORF Stop: 38967
Strand: Backward
Protein Sequence: MATDTPRIPEQGVATLPDEAWERARRRAEIISPLAQSETVGHEAADMAAQALGLSRRQVYVLIRRARQGSGLVTDLVPGQSGGGKGKGRLPEPVERVIHELLQKRFLTKQKRSLAAFHREVTQVCKAQKLRVPARNTVALRIASLDPRKVIRRREGQDAARDLQGVGGEPPAVTAPLEQVQIDHTVIDLIVVDDRDRQPIGRPYLTLAIDVFTRCVLGMVVTLEAPSAVSVGLCLVHVACDKRPWLEGLNVEMDWQMSGKPLLLYLDNAAEFKSEALRRGCEQHGIRLDYRPLGQPHYGGIVERIIGTAMQMIHDELPGTTFSNPDQRGDYDSENKAALTLRELERWLTLAVGTYHGSVHNGLLQPPAARWAEAVARVGVPAVVTRATSFLVDFLPILRRTLTRTGFVIDHIHYYADALKPWIARRERWPSFLIRRDPRDISRIWVLEPEGQHYLEIPYRTLSHPAVTLWEQRQALAKLRQQGREQVDESALFRMIGQMREIVTSAQKATRKARRDADRRQHLKTSARPDKPVPPDTDIADPQADNLPPAKPFDQIEEW
Homolog/Ortholog Species: Transposase
Homolog/Ortholog Protein: R751p55, transposase, putative, phage(gi23501616), PROPHAGE_Brucel_1330
Homolog/Ortholog E-Value: 1.16e-33
Locus 15: attR (Region 1)
Locus: attRORF Start: 51060
ORF Stop: 51071
Strand: Forward
Protein Sequence: TAGCCGCTAAAG
Homolog/Ortholog Species: Attachment site
Homolog/Ortholog Protein: attR
Homolog/Ortholog E-Value: N/A
Lysis
Terminase
Portal Protein
Terminase
Portal Protein
Protease
Coat Protein
Tail Shaft
Coat Protein
Tail Shaft
Attachment Site
Integrase
Phage-like Protein
Integrase
Phage-like Protein
Hypotheical Protein
Other
Transposase
Other
Transposase
Fiber Protein
Plate Protein
tRNA
Plate Protein
tRNA
Download data as .txt file: png_input file_download