Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Sbal223_2668 |
Symbol | |
ID | 7089953 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Shewanella baltica OS223 |
Kingdom | Bacteria |
Replicon accession | NC_011663 |
Strand | + |
Start bp | 3135196 |
End bp | 3138651 |
Gene Length | 3456 bp |
Protein Length | 1151 aa |
Translation table | 11 |
GC content | 47% |
IMG OID | 643461557 |
Product | protein of unknown function DUF748 |
Protein accession | YP_002358581 |
Protein GI | 217973830 |
COG category | |
COG ID | |
TIGRFAM ID | |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 5 |
Plasmid unclonability p-value | 0.347388 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | 15 |
Fosmid unclonability p-value | 0.0417996 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
| |
Sequence |
Gene sequence | ATGCTGACCC AGCTATCGCA ATTCAAACAC ACTTTTTTTG CTCTCCCAAG GTACCTGCGT GTGCTTGCTT ACCTCACCGC CGTCTACCTT AGCTATGTCT GCACATTAGG CTTAATCCTG CCCTATGCGA TAACCACGCT GGCACCCGAA AAACTATCTG CTTTACTCGG CCGTCCCGTC ACCCTCGGGG ATATCCGCAT CAATCCCTTT AATTTCAAAG TCGCAATCGA CCAACTGGCC ATTAAAGAAA AAGACGAAAA ACCGTTTGCA GGCTTAGCGC AAGTCCAATT CGAAGTGAAC TTTTGGCAAT CTGTTTTTAA TCGCGCCGCC GTTATCGAAA ATATACACAT ACAAGCGCCC TACGCACACA TCATCCGCGT GCAGAAAAAA GGCAAAGCTG GATTCAACTT CGACGATATT CTGCAGACCT TGAACGAGCA TTCATCCGCG AGCACAGAAA CAACACCCGC AGAAACCAGC GCCCCCGTTC GTGTCCTGCT CAGCCAATTT GTATTAGATG CAGGGCAATT TAACTTCGAT GACAAAATTA CCCATGCTCA AGTTAATTAT CCCAATATCA ATTTAAAACT CAGTCAGCTC GATACTGAAT ATTTGATGTC GGCATTGTCG GCCTCAGTAG CACCAGCCAC AAAAGCAAAT AAGACTGAAG CCAACCCGAC ACCAAACGCC CAATCAGCCT CTGACACTGG CTCTGGCTCC CAAGTTATGC CAATTCAGCA CAATCACTAT GTGATACAAC TCAGTGATGA TCATGCTGGT GAAATCAGTT CGCAGGGGCA ATTCCAACTG TTCCCATTAA AAATCGCAGG TGACGTCCAC ATCGCCAAAC TGAAACTGAC ACCCCTGTGG CGGTTTATCG ACGATCAATT TAAGCCAGCA CTTACCGATG GCCAAATCAC TGCCAAGACT CAGTATCAAG TGGATCTTGC CGAGAATGGC GAGTTACAAG TCACCAGCAA CAATGGCCAG TTTATTGTTG AAAAACTGAA CTTTAACGAC CAAGAGCGCT CAGTGGTCAA GCTGCCAATC TTTGCCCTCG ACGGTATTTC GATGGATCTG AAGCAGCAGC AAGTGCACAT CAATAAGCTT CACAGTGATG GCCTCACTGT AAACGCCATT TTGAATCAAG ACGGACTCGA TCTCGCCGGC TTGTTCATGC CTAAATACGC CAGTGCGCCT ACAAGTGCAG CGCCGCCAGT TGCTAATTCC ATCAATGCTA ATTCGATAGA AACTAAGCCG GCAGATGCTA AGTCACTAGA GGCCAAAAAT GTTGAGAGCG TACAAGTCGC GCAAGTGGAA GAAAAGCCTC AAATAACCGG GACGGCAACT GATGCAAGCG AGACCGCAGA CAAACTAACA GAAAGCGAAT TAGCCACAGC CAGCGAGAAC AATAAAACGG AGCAAAATAC TGAGGCCGCC GCAAACATCA CAGCTGATGC CACTCATGAA GCCACTGCAG AAGTCGCTTC TGAGGCAGAT CCACAACAGA CAATCAAGCA AACACCAGTA ACGAAGTCAA CAGACACTTG GTTCGTACAA CTCGATGCGC TCAATATTGA AAACTACGAT CTTAATCTGT CGGAGCAAAA GTTAACTGAG ACACCGCAGC AATGGCGTGT GTATCCACTT AACTTTTCAA CAAAAACTAT CACCAGCACC TTGGCCGAGC CGATTGATTA TGCGCTACAA CTCAGCATTA ATGACAAAGG TACTTTAAGC TCCCAAGGCC AGGTCGATGT GCCAGGCGAA GCCATAGATG CCGATATTCA ACTCGATAAG CTCGCGTTAA TCCAATTCCA ACCGTATCTC GCGCCCTACG TGAATATCCA GCTCAAGAGT GGTTTATTAA GCTCTGCAGG CAAGCTCACG GCTGATGCCA AGGGCAAAGC CATTTACGGC GGCAGTGTTG AGCTCGATGA TTTAGCCATT CATGACAAAT TGCGTAATGT CCCGCTGGTC AAATGGCAAA AGATGAATAT CAATCAGCTG GATTTTGACC AACAAAAAAA TCAAATCAAA ATCGATCACT TAGCCTTTAG CCAACCCTAC GCCAAAGTGG TGATCGCTAA AGATAGAAGC ACTAATATCA GCGACCTTAT CGTCGAAGCG CCTATTGCTG CTGCGACGAC AAATAGTACG ACTACGAACA GCACGCCCCC TGCTAAGCAA ACCGCAACCG AGCCGCAAAT GGCGAGCAAG TCAGCAACGC CTGAGCTGAG CCTCGATATT CAAAAAATTA GCTTTAGCCA AGGCTCGGCT TACTTTGCCG ATAACTCACT AACCCCTAAT TTTGCTTCGG GAATTGAGCT GCTTGAAGGC AATATCACTC ACCTGTCATC CACGCCAGGC ACTAAAGCCT CGGTCGATAT CAAAGGTAAG ATTGACAAGT ACGCGCCTGT AACCCTAAAA GGCGATATTA ACCCTTTGTT AGACATGCCA TATTTAGATC TCGATTTGGT CTTCAAAAGT GTTGAGCTAA CCTCAGTCAA TCCTTACTCA GGCACCTATG CGGGTTACTA CATAGATAAG GGACAGTTAT CACTGTCGCT GAACTACAAA CTCGATCAGA TCAAACTCAA GGGCAATAAC CATCTAGTCA TAGATCAACT GAAACTCGGT AAACCCAGTA ATAGTGACCT TGCCACTAGC TTACCTATCA CGCTCGCCAT TGCGCTGCTA CAGGACCGTA ACGGCGTGAT TGATTTAGGC ATGGAAGTCT CAGGCGATTT AGACTCACCC AGCTTTAGTG TCGGCAGCAT CATAATGACG GCGATTACCA ATGTGATCAC TAAAGCCGTC ACTGCGCCCT TCACTTTCTT AGCTGGGCTG ATAGGTTCAG ATGAAAGCTT AGACAAAATC AGCTTTGCCG CTGGTCAATT CAGCCTAAGT GAAGATGAGC AGAAAAGTTT AGACAAACTC GCCAGCGCCT TACTCGACAG ACCTATGCTT AAGCTCAGCG TTGAAGGTGA AGTCGATGCC ATCAATGACA GCCAAGCGAT TGCTGAGCGT ATCATGAAGC GTAAATTGGC TAAGTTAGCC AATATCGAGT TCAGTGCGTT ACCTAATGAT TTAAGTCCAA GCCAATTCCC GACCCAAGGG CCGCTAGCCG ATGCGCTAGT GAAGCTTTAT GAGCAGGAAG TTAAAGCCGA TCCGGCACGA ATAAAAGACA CAGTTATAGC TGAGGCCAAA GACGCGCAGC TTTCCGATGA CGAGATCACC ACCCGCTGGC ATATCGCTTT ATATAATCTG TCGGTAAAAG CGCAGAATGT TAACGATGGC ATGTTGGGTA ATTTGGCCCA AGAAAGAGCT AAAGCCGTTA AAGCTTACCT TGTAGACGTG AAAGAGATTG CCCCAGAGCG GATCTTCTTG CTCGAAAGCC GAGTGAATTT AACCCAGAAT GTGGCCCAAG TGAGCCTCAC CATAGATGTG CAATAG
|
Protein sequence | MLTQLSQFKH TFFALPRYLR VLAYLTAVYL SYVCTLGLIL PYAITTLAPE KLSALLGRPV TLGDIRINPF NFKVAIDQLA IKEKDEKPFA GLAQVQFEVN FWQSVFNRAA VIENIHIQAP YAHIIRVQKK GKAGFNFDDI LQTLNEHSSA STETTPAETS APVRVLLSQF VLDAGQFNFD DKITHAQVNY PNINLKLSQL DTEYLMSALS ASVAPATKAN KTEANPTPNA QSASDTGSGS QVMPIQHNHY VIQLSDDHAG EISSQGQFQL FPLKIAGDVH IAKLKLTPLW RFIDDQFKPA LTDGQITAKT QYQVDLAENG ELQVTSNNGQ FIVEKLNFND QERSVVKLPI FALDGISMDL KQQQVHINKL HSDGLTVNAI LNQDGLDLAG LFMPKYASAP TSAAPPVANS INANSIETKP ADAKSLEAKN VESVQVAQVE EKPQITGTAT DASETADKLT ESELATASEN NKTEQNTEAA ANITADATHE ATAEVASEAD PQQTIKQTPV TKSTDTWFVQ LDALNIENYD LNLSEQKLTE TPQQWRVYPL NFSTKTITST LAEPIDYALQ LSINDKGTLS SQGQVDVPGE AIDADIQLDK LALIQFQPYL APYVNIQLKS GLLSSAGKLT ADAKGKAIYG GSVELDDLAI HDKLRNVPLV KWQKMNINQL DFDQQKNQIK IDHLAFSQPY AKVVIAKDRS TNISDLIVEA PIAAATTNST TTNSTPPAKQ TATEPQMASK SATPELSLDI QKISFSQGSA YFADNSLTPN FASGIELLEG NITHLSSTPG TKASVDIKGK IDKYAPVTLK GDINPLLDMP YLDLDLVFKS VELTSVNPYS GTYAGYYIDK GQLSLSLNYK LDQIKLKGNN HLVIDQLKLG KPSNSDLATS LPITLAIALL QDRNGVIDLG MEVSGDLDSP SFSVGSIIMT AITNVITKAV TAPFTFLAGL IGSDESLDKI SFAAGQFSLS EDEQKSLDKL ASALLDRPML KLSVEGEVDA INDSQAIAER IMKRKLAKLA NIEFSALPND LSPSQFPTQG PLADALVKLY EQEVKADPAR IKDTVIAEAK DAQLSDDEIT TRWHIALYNL SVKAQNVNDG MLGNLAQERA KAVKAYLVDV KEIAPERIFL LESRVNLTQN VAQVSLTIDV Q
|
| |