Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Sbal223_4395 |
Symbol | |
ID | 7090182 |
Type | |
Is gene spliced | No |
Is pseudo gene | Yes |
Organism name | Shewanella baltica OS223 |
Kingdom | Bacteria |
Replicon accession | NC_011664 |
Strand | + |
Start bp | 68723 |
End bp | 71845 |
Gene Length | 3123 bp |
Protein Length | |
Translation table | |
GC content | 42% |
IMG OID | 643662653 |
Product | |
Protein accession | |
Protein GI | |
COG category | [V] Defense mechanisms |
COG ID | [COG0286] Type I restriction-modification system methyltransferase subunit |
TIGRFAM ID | |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 7 |
Plasmid unclonability p-value | 0.00345264 |
Plasmid hitchhiking | Yes |
Plasmid clonability | hitchhiker |
| |
Fosmid Coverage information |
Num covering fosmid clones | 30 |
Fosmid unclonability p-value | 0.00443856 |
Fosmid Hitchhiker | No |
Fosmid clonability | decreased coverage |
| |
Sequence |
Gene sequence | GTGGTTGGAT TACTTGTGGC AAATGAAAGA ATTACCGAAA ACTATGTAAG AGAAAAGTTG AGAGAAAACG GCTACTATGA AGCTGACAAT GGCGTAGTCA TTGAAGAACA AAAATCGCAA ATCAAGCGAG TTCAAACCAT CTTAAAATCT GCAAGTAAAG CGAAAACAGG TAAAGGTGGC TATCCAGAGT TTATTATCAC TTGGGAGTCA GATCCTAACT TCCTAATCGT GGTTGAGTGT AAAGCTGACA CGAAGTATCA CGAAAGCCCA GATTTAGACA AACCAAAAGA CTATGCGGTT GACAGGGCCG GAGCATACTT TGTTAAATTG ATTTAACATC TGCAAAAATC ATCAATTCCC GATATTCATC ACTGAGTAAA GAACGATGTA ACTTACTCTT CATACTGCGT TTTTGTGTTA TTTCGAGTTT TGCCAGATTC AGGGCCATTC GCCTCACTAT CGCCAGTGAT TCGGCAGTTC TTTGCTCGTG AACCCGACAA GCATCTTCTC GATAAACCAC ATCCAGGACC CAGTGCAGAC TATTCTCAAT TCGCCAGTGC CCTCGGACAG CAGTCGCAAT ATATTCGGGA TCGATATCAT GGGATGAGAG ATAGAAACTG GTCTCTATGC TGGTCTTATT GCCTATTTTT CTGTGTCGCT CAACGGCTAT TAATGTCTTA ACTGAAGGCC ACTTTTCTTG CAATTTAGGA CTCAGCTTCG ATGGGATTTG AAATGTAATC CGCTGCTCTG TTCTTCCATG CCCTTTTTCC GAACAGGCAA ATTGGGCTAA CTGACTGTCA TCTTGGAAGG CCACATCATA CTGCGCTTTA ACTGCTTGAA ATAAAGTCCG TTGATTACTT TTCACCTGCA CCACATAATC TCCTTTACGA GCGACTATCG CTTCCAGCGT CGCGCGTTGG GCATGCAAAG CATCCATGGT TATCAATGCT TTATTTATGT TAAGCATGGT AATAAGTGAT TGTACCGTTT CAATTTCCTT GCCTTTTCCA GAGGCCATTT CTTGATAAAG CGCCAAGCCA TTATTAATGT CGAACGCACC CACGGAATGT AAGGTGTTGC ACCCTAACTT AGAGGCACCT CTGAGTGTTT TACCATCGAT AGCAATGATG GGTTTAGCTG ATGCGGTGCG GATGTCGTTA ATCCAACTGA ATAGGCACAA CTGCAAATTC TCCGGCCCTA CGGCTTTTAG GATACGTGCT ATGGTATGCC GACGGGGAAT GCCATTAGCA AATGGACGAA ACTTACGTAG CCACTCAAGT TTTAGCTCGC CGAACTGTTG AATTTCTGCC CAACCATCTT GCCCACTGGC TACTGCCGAT AAGATTAAGA ACAGTACGTC GACAAGGTTG TGGCGTTGAT TAATGTGTGA GCGCGTGTCT TCGACTAAAG ATAGGTGATC AAAAAGTGAC ATGGAGAGTG GCCAAGTAAT TAATTTCTCA TTCAGATCAT GGCATTGCGG AATAGTTCAA TTTTTTTAAC AAAGTGCGAT CTCGCCCTGA TGCGGTTGAC GGTGTATTGC ACTATGCAAG GTATCTATCA AAAGACTTCA CTGTCCTTGC CTTAGCTGTT AGCGGCACGT CAGAGGACTA TACAAAAGTA TCTAATTACT TAATACCTTG TGGAAGTAAA GACCACAAAG TCCTGACTAA TGAAGATGGT ATCGAAGTAA ACGATATTCT TTCATTTGAA GACTATTACC GTTTAGCTTC TTTCGACCCA CAGGTTGAAA GGAAACGTCA TAGCGATCTA TTAGCGTTTG CAAAAGACCT CCACGAGCTG ATCTGGACAG CAGCGAAAAT ATCAGAAGAA GATAAGCCTT TGTTAGTTAG TGGAACGTTG ATTGCACTAA TGAACCAACC ATTTTTAAAC TCATTTCAAT ATTACAGTCC AGAGGATATG CCTCGAAAAT GGCTAGAAGC TATCAAAGAC GAACTTGATA AAGCTGACAT TCCCAAGGCT AAAAAAGACA CAATGCGTCA ACCTTATGCG GCTGTTGCTG GACAGCCAAA TTTAGGTAAA CCTGATGCAA AAATTGCTAA AAAGTATCCG AAAGGTGTTC TTTACGAGGT GATCAAAGAA ATCAACGATA ATGTCTGGCC ATTTATCAGC GTTTATCACA ACTTTGACGT TGTTGGTCAT TTTTACGGTG AGTTCTTAAA ATACACAGCA GGGGATAAGA AAGCCCTTGG CATTGTCTTG ACTCCAAGAC ACGTAACAGA ACTATTTTGC GATATCGCCA ACGTTACTAA AAAAGACACT GTTATAGATA TCTGTGCTGG AACTGGTGGC TTCTTGATTT CAGCAATGCA CCGAATGCTG AAAACAGCGA TGACGGAAGA AGAACGTTTA GACATTAAAA AGAACCGTCT GATCGGTATC GAGAACAGCC CTAAAATGTT TGCATTAGCT GCAAGCAATA TGATTTTACG AGGTGACGGC AAAGCAAACT TACACCAAAG TAGTTGTTTC GAACCAACGT TAAAGAAAGC TATTACAGTT CCCGATCCTG CTTTGGGTGT CAAAAGACCA AACGTTGGTT TGTTGAACCC TCCTTATGCT CAGTCAAAAA GCGATGCAGA GTTACACGAA CTCTATTTTG TGAAAGAAAT GCTAGACCTT CTTGAAAAAG GTGGCATTGG TGTCGCAATT ATTCCCGTTA GTTGTGTAAT AAGTCCAAAC AAAGCAAAAC ACGAGATACT AGAAAAGCAT ACTTTAAAAG CCGTTATGTC GATGCCTAGC GAGCTTTTCT ATCCAGTTGG AACCGTTACA TGTATTGTCG TTTTTGAAGC ACACAAGCCA CATAACGAAA CAAATAAGAA AACATGGTTT GGTTACTGGC GAGACGACGG CTATATCAAA ACGAAACATA TGGGACGCAT TGATTTAAAC CACCAATGGC AAGATATAAA ATCTCGTTGG TTAGAGGCGT ACAACAATAA CGAAGTTCAC GCTGGTGAGT CTGTTACTGC TTATGTTGAC GGTGATAGTG AATGGATTGC AGAAGCCTAT ATGGAAACCG ATTACTCTAC AATTACAGAA GAAAGCTTTG CTGATCTAGT CAAGAACTAT GCAATGTTTA AGATACTCAA TGAGGACAAA TAA
|
Protein sequence | |
| |