Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Swoo_4809 |
Symbol | |
ID | 6119186 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Shewanella woodyi ATCC 51908 |
Kingdom | Bacteria |
Replicon accession | NC_010506 |
Strand | - |
Start bp | 5793492 |
End bp | 5796347 |
Gene Length | 2856 bp |
Protein Length | 951 aa |
Translation table | 11 |
GC content | 48% |
IMG OID | 641636390 |
Product | molybdopterin oxidoreductase |
Protein accession | YP_001763153 |
Protein GI | 170729127 |
COG category | [C] Energy production and conversion [R] General function prediction only |
COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing [COG3383] Uncharacterized anaerobic dehydrogenase |
TIGRFAM ID | [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
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Plasmid Coverage information |
Num covering plasmid clones | 15 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 12 |
Fosmid unclonability p-value | 0.215861 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGCAATTAA CTCGCAAATC CAACGAGGCA CCTAAAGTTG AGAAAAAGAC TCTAGGTATT AGCCGTCGTC AGTTTATGAA GCATGCTGGT ATCACATCTG GTGGTATTGC TGCAGCTTCA CTTTTGGGTA CTGGCATGAT GCGTAAAGCT GAAGCTAAAG ATATCCCACA TGATGCACCA ATCGAGATCA AGCGTACTGT ATGTAGTGCT TGTGCGGTAG GTTGTGGTCT ATATGCTGAA GTTCAAAATG GCGTATGGAC AGGTCAAGAG CCTGCTTTCG ATCACCCATT CAACGCGGGC GGTCACTGTG CAAAAGGTGC AGCTCTTCGT GAACATGGTC ACGGTGAGAA GCGTCTTAAG TACCCAATGA AGCTTGTTGA TGGCAAGTGG AAGAAACTAT CTTGGGAGCA GGCTTTCAAC GAAGTTGGCG ACCAGATGCA GACCATTCGT AAAGAATCAG GTCCTGACTC TGTTTACTTT ATGGGTAGTG CTAAGTTCTC GAACGAAGGC TGCTACATGT ATCGTAAATT TGCAGCTATG TGGGGTACGA ACAACGTCGA TCACTCTGCA CGTATCTGTC ACTCTACCAC GGTAGCCGGT GTTGCTAACA CTTGGGGCTA CGGTGCGCAA ACTAACTCTT TCAACGATAT TCAGAATGCA AACGCAATCT TCTTCATCGG GGCGAACCCT GCTGAAGCGC ATCCTGTTGC TATGCAGCAT ATTCTGCTCG CGAAAGAGAA GAACAACGCC AAGATTATCG TTGTTGACCC TCGTTTCTCT CGTACTGCCG CTCACTCTGA TCTTCACTGT GCATTGCGTC CAGGTACTGA TATTCCATTT ATCTACGGTA TGCTTTGGCA CATCTTTGAA AATGGTTGGG AAGATAAGAC TTTCATCAAA GAGCGTGTGT TCGAGATGGA GTCAATTCGC GCAGAAGCGA AGAAGTTCCC ACCTAAAGAG GTTGAGCATG TTACTGGCGT TAGCGAAGCT GAAGTTTATC AAGCCGCTAA GCTTATGGCC GACAACCGCC CAGGTACTGT AGTTTGGTGT ATGGGTGGTA CTCAGCATCA CGTGGGTAAT GCTAACACTC GTGCTTACTG TATCCTTCAG CTTGCTCTTG GCAACATGGG TGTGTCTGGT GGTGGTACTA ACATCTTCCG TGGTCACGAT AACGTGCAGG GTGCAACCGA TTTAGGTCTG CTATTCGATA CGCTACCTGG CTACTACGGT CTTAAGACTG GTTCTTGGAA GCACTGGACC CATGTTTGGG ATCTGGACTT TGACTGGGTT AAGAATCGTT TTGACCAAAA TGAATACCTA GGTCGCGTTC CTATGAACAC TCCTGGTATC CCATGTTCTC GCTGGTATGA TGGTGTACTT GAGACACCTG AGAAACTAGC TCAGAAAGAC CGTGTTCGTA TGGCATTCTT CTGGGGTCAG TCAGTGAACA CTGCGACTCG TCAGAGTGAT GTACGTGATG CACTAGATAA GATGGACACT GTGGTTGTTG TGGATCCATT CCCAACGATG GCGGGTGTTA TGCACCGTCG TCAAAATGGT GTTTATCTAC TACCAGCAGC AACTCAGTTT GAAACTGAAG GTTCTGTGTC TAACTCTGGC CGTAGTCAGC AGTGGCGTGA GAAGGTTATC GAGCCATTGT TCGAGTCTAA GACCGATCTT GAGATCATGT ACCGTCTATC TCAGAAACTT GGTTTCGCCG ATGAGTACAC TAAGCGTATC GCTAAGAATG CTAACGATCT GCTTGTTATT GAAGATATTA CTCGCGAGAT TAACCGTGGT ATGTGGACAA TTGGTATGTC AGGTCAAAGT CCTGAGCGTA TCAAGCAGCA CACCATGAAC TGGGGTACGT TCAGCAACAA GACACTTGAA GCTGAGGGCG GTCCTGCTAA GGGTGAAACT TACGGTCTAC CTTGGCCATG TTGGGGTACG CCTGAGCAGA AGCACCCTGG TACACAGATC CTGTATAACA CAAACAAACA TGTGCTTCAG GGTGGTGGTA ACTTCCGTGC TCGTTACGGT GTGGAATATA AGGGTGAGAA CATTCTTGCC GATGGTAGCT ACTCTAAGGG CAGCGAAATT CAAGACGGTT ATCCAGAGTT CACCGCAGAG ATGCTTAAGC AGCTTGGCTG GTGGGATGAC CTAACAGCGA CAGAGAAAGC TGAAGCTGAC GGTAAGAACT GGAAGACTGA CCTTTCTGGT GGTATCCAGC GTGTGGCTAT GAAGCACGGC TGTATCCCAT TTGGTAACGC TAAAGCGCGT TGTATTGTGT GGACCTTCCC TGATCAAGTA CCTGTTCACC GTGAGCCTAT CTATACGCCA CGTCGTGATC TTGTGGCTAA GTATCCAACT TACGCTGATA TGCAAGTACA CCGTCTGCCG ACGCTGTACA AGACATTGCA AGACAATGAC AACACAGCTC AGTACCCATT AGGTCTGACC TCTGGTCGCT TGGTTGAGTA TGAGGGTGGT GGTGAAGAGT CTCGTTCTAA CCCATGGCTT GCAGAGCTTC AACAAGAGAT GTTTGTTGAG ATCAACCCTG CTGATGCTGC CGATCGCGGT ATCCGTAACG GCGACACTGT GTGGTTAGAG GGTGCTGAAG GTGGCCGTAT TAAGATCCAG GCCATGGTGA CGCCTCGCGT TAAACCTGGT GTGACATGGA TGCCTTATCA CTTTGCGGGT GAGATGCACG GCGAAAGCTT AGCACCTAAC TACCCAGAAG GTACTGTTCC TTATGTTATT GGTGAGTCAG CTAACACTGC ATTGACTTAT GGTTATGACC CTGTGACTCA GATGCAAGAA ACGAAAGCAT CGCTTTGTCA GATCACTAAA GCCTAA
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Protein sequence | MQLTRKSNEA PKVEKKTLGI SRRQFMKHAG ITSGGIAAAS LLGTGMMRKA EAKDIPHDAP IEIKRTVCSA CAVGCGLYAE VQNGVWTGQE PAFDHPFNAG GHCAKGAALR EHGHGEKRLK YPMKLVDGKW KKLSWEQAFN EVGDQMQTIR KESGPDSVYF MGSAKFSNEG CYMYRKFAAM WGTNNVDHSA RICHSTTVAG VANTWGYGAQ TNSFNDIQNA NAIFFIGANP AEAHPVAMQH ILLAKEKNNA KIIVVDPRFS RTAAHSDLHC ALRPGTDIPF IYGMLWHIFE NGWEDKTFIK ERVFEMESIR AEAKKFPPKE VEHVTGVSEA EVYQAAKLMA DNRPGTVVWC MGGTQHHVGN ANTRAYCILQ LALGNMGVSG GGTNIFRGHD NVQGATDLGL LFDTLPGYYG LKTGSWKHWT HVWDLDFDWV KNRFDQNEYL GRVPMNTPGI PCSRWYDGVL ETPEKLAQKD RVRMAFFWGQ SVNTATRQSD VRDALDKMDT VVVVDPFPTM AGVMHRRQNG VYLLPAATQF ETEGSVSNSG RSQQWREKVI EPLFESKTDL EIMYRLSQKL GFADEYTKRI AKNANDLLVI EDITREINRG MWTIGMSGQS PERIKQHTMN WGTFSNKTLE AEGGPAKGET YGLPWPCWGT PEQKHPGTQI LYNTNKHVLQ GGGNFRARYG VEYKGENILA DGSYSKGSEI QDGYPEFTAE MLKQLGWWDD LTATEKAEAD GKNWKTDLSG GIQRVAMKHG CIPFGNAKAR CIVWTFPDQV PVHREPIYTP RRDLVAKYPT YADMQVHRLP TLYKTLQDND NTAQYPLGLT SGRLVEYEGG GEESRSNPWL AELQQEMFVE INPADAADRG IRNGDTVWLE GAEGGRIKIQ AMVTPRVKPG VTWMPYHFAG EMHGESLAPN YPEGTVPYVI GESANTALTY GYDPVTQMQE TKASLCQITK A
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