| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Dfer_3476 |
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| Symbol | |
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| ID | 8227060 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Dyadobacter fermentans DSM 18053 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013037 |
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| Strand | - |
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| Start bp | 4252680 |
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| End bp | 4255775 |
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| Gene Length | 3096 bp |
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| Protein Length | 1031 aa |
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| Translation table | 11 |
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| GC content | 49% |
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| IMG OID | 644931312 |
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| Product | molybdopterin oxidoreductase, iron-sulfur binding subunit |
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| Protein accession | YP_003087851 |
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| Protein GI | 255037230 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG0437] Fe-S-cluster-containing hydrogenase components 1 |
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| TIGRFAM ID | [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
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Plasmid Coverage information |
| Num covering plasmid clones | 16 |
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| Plasmid unclonability p-value | 0.460173 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | 15 |
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| Fosmid unclonability p-value | 0.230979 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGGAAAATA CTAATAAAAG ATACTGGCGG GGACTTGAAG AGCTGAGGAA TGACGAAAAG
TTTGTCAAAG ATGCAAGTTC TGAGTTCCCA AGTGCTCCGA CCGAAAGTCA GTATGAAAGC
CTGGTGGATG GCGTAGGAAC CCATCGTCGT GATTTCCTTA AAGTACTGGG CTTTGGAATG
GCAGCCGTAT CTCTCGCAGC TTGCGAAGCG CCGGTGAAAA AAGCCATCCC TTACGTAAAT
AAGCCGGAAG GCGAATTCCC TACTATATCT AACTGGTATG CATCCACTTA CGCAGAAGGT
GGAGACTACG CAAGTATTCT GGTCAAAACC CGCGAGGGCC GGCCGATTAA AATAGAAAGC
AATTCCCTTT CCAAAGTTTC CTACGGTGTA AGCTCGCGCG CACACGCTTC ATTGCTCGGC
TTGTATGACA ATGAGAAACT GAAAGGTCCT AAAAAAGGAG AAGATACCAA AGTAAGCTGG
GAGGCTGTTG ACAAGGAGAT CGCCGATCAA CTTGGAGCTA TCGCAGCAAA AGGCGGCGCG
ATCCGCATCC TTTCTTCTAC GATTCTAAGC CCGTCTACCA AGGCGGTTAT TGCAGACTTC
ACTGCAAAAT ATCCAACCAC TACCCACGTG GTTTACGATG CCAACTCTTC CTATGCGTTA
GTAAAAGGTA ACGAGTTGTC ATTCGGCAAA GCCGTTATCC CTTCCTACGA TTTCAGCAAA
GCGAAAGTAG TAGTAGGCAT CGACGGTGAT TTCCTCGGAA CATGGCTTGC ACCGGATACA
TTCTCGAAGC AATTTGCCGA CACACGTCGC GTGAGCAGCG AGAAAGAAGG TAACAAGGAA
ATGTCCCGTT TGTACCAATT CGAATCTACC CTTTCACTGA CCGGTGCCAA TTCGGATTAC
CGTACTGCGG TAAAACCTTC GCAAATCGGC CTGGTTGTAG CTGCACTATA TAATAAAGTA
GCGGCGAAAT TGGGCGGAGC TCCTGTTGCA ACACCTGCAT TGAACATCGA TAACCTGGAC
AAAGCTGCTG CGGACCTCGT GGCTGCAAAA GGACAGGCAT TGGTTGTATC GGGTATCAAC
GATCCTTCGG TACAAGTAAT AGTGAACGCG CTGAACAGCC TGCTGGGAAG CTACGGAACT
ACGATCAACC TGGATAAGCC TGCCAACTAC CGTCAGGGTA ACGACATTGC TACCAACCAA
CTGATCGACG AAGTTAAAGG CGGTAAAGTA TCTGCATTGA TTTTGTGGGG TGCCAATCCG
GTTTATGATC ACCCACGCGG TGCTGAACTG GCGGCTGCAT TGCCACAGGT TTCATTGAGC
GTATCATTCA ACGATCGCGC TGATGAAACA TCATCTCTTT TGAAATACAT CCTTCCTGCA
CCGCACTACC TCGAATCATG GGGTGATGCA GAGCCTGTTG CAGGATCATA CAGCTTAATC
CAGCCGGCGA TCAGCCTGAT TTTCAGCACA CGCCAGGCAC AATCATCGCT TTTGAAATGG
GCAGGCGCTT CGGCTGACTA CCATGAATAT GTAAAAGCGT ACTGGAGAAA GAACATCTTC
CCGCAAGCCG GAGGTGGTGA CTTCGAGAAA TTCTGGATTA AATCGTTGCA CGACGGCGTA
TTCGATGTGG CTTCTACCGC TACCGGCGCA GGTGCTGCAT TCTCCGGAAA CCTCGCTGCT
GCTGCGGCTG GCATTGCTAA AAAATACAAG GCGTCGTCAT CAGGCCTGGA ACTTGCGATC
TTCGAGAACG TAGGTATGGG TACCGGTTTC GCTGCAAACA ACCCTTGGTT GCAGGAAAAC
CCTGATCCGA TCACGAAAGC TACCTGGGAT AACCACGCAG GTCTTTCGCA AAAAACGGCT
ACTGAACTCG GCGTTGCGCA GGGTGATGTA GTGAAATTGG ATATCAAAGG CAAATCGGTA
GAGCTGCCGG TGATCATCCA GCCAGGTTTG GCACAAGGAA CTGTGGCGGT AGCCGTTGGT
TACGGCCGCG AAAAAGCTGG TAAGTCTGCA AACGGTGTAG GTAAAAACGT GTTCCCGCTT
GCTGCATTCA CCGAAGGCTT CCTGAACTTC ACGCCAGGCG AAGTAACCCT GTCGAAAACA
GGCGATACCC GCGAAATCGC GCAGACTCAG ACGCATAACA CGGTAATGAA CCGTAAGTCG
GTTTTGCAGG AAACTGTACT CGCTCACTTC CAGAAAGATC CGATGGCCGG ACGTTTTGTT
CCGAAAATCC AGACTTCGGA TGGCGAGGTT GACGCAACAG ACCTGTCATT GTGGAATGGT
CACAAATACA AGAACCACTC GTGGGGTATG GTGATCGACC TGAACACCTG CTTCGGTTGC
GGATCTTGCG TGATCAGCTG CCAGAACGAA AACAACATCC CTGTTGTAGG TCGTCAGGAA
ATCATCAATG CACGCGAAAT GCACTGGCTG CGTATCGACC GCTATTACAG CAGCGACGCG
GATGTGGAAG ATCTTCGCGG ATTGGAAATT GCTTCTGAGA ATCCGGAAGT TACGTTCCAG
CCAATGCTTT GCCAGCATTG TAACAATGCC CCTTGCGAAA CGGTATGTCC GGTATTGGCA
ACCACCCACA GCTCTGAGGG CTTGAACCAA ATGACTTACA ACCGTTGTGT AGGTACGAGA
TATTGTGCAA ATAACTGCCC ATACAAAGTA CGTCGCTTCA ACTGGTTCAA ATATTTTGAT
AACGACAACT ACGATTACAA CTTCAACAAT GACCTCGGTA AAATGGTCAT TAACCCGGAT
GTAACAGTAC GTTCAAGAGG GGTTATCGAG AAATGCTCAA TGTGCGTTCA CAGAATCCAG
GAGGCTAAGC TGACTGCGAA GAAAGAAAGA AGACGCATCG TTGACGGTGA AGTGAATGTA
GCTTGTGCAT CGTCCTGCCC AACAGACGCG ATCACATTCG GCGACATGAA CGATCCGGAA
AGCCGCATCT CGAAATTGCT TGAAGTGGAG AGAGAAGGAC GTGCATTCCA CATGCTGGAA
GAGATCAACG TTCGTCCGCA GATCTCTTAC CTCACCAAAG TCCGTAACAA GGATGCAGCT
GCGAAAGCTG AAAAGGCTGA AAAAGAGCAC GCTTAA
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| Protein sequence | MENTNKRYWR GLEELRNDEK FVKDASSEFP SAPTESQYES LVDGVGTHRR DFLKVLGFGM
AAVSLAACEA PVKKAIPYVN KPEGEFPTIS NWYASTYAEG GDYASILVKT REGRPIKIES
NSLSKVSYGV SSRAHASLLG LYDNEKLKGP KKGEDTKVSW EAVDKEIADQ LGAIAAKGGA
IRILSSTILS PSTKAVIADF TAKYPTTTHV VYDANSSYAL VKGNELSFGK AVIPSYDFSK
AKVVVGIDGD FLGTWLAPDT FSKQFADTRR VSSEKEGNKE MSRLYQFEST LSLTGANSDY
RTAVKPSQIG LVVAALYNKV AAKLGGAPVA TPALNIDNLD KAAADLVAAK GQALVVSGIN
DPSVQVIVNA LNSLLGSYGT TINLDKPANY RQGNDIATNQ LIDEVKGGKV SALILWGANP
VYDHPRGAEL AAALPQVSLS VSFNDRADET SSLLKYILPA PHYLESWGDA EPVAGSYSLI
QPAISLIFST RQAQSSLLKW AGASADYHEY VKAYWRKNIF PQAGGGDFEK FWIKSLHDGV
FDVASTATGA GAAFSGNLAA AAAGIAKKYK ASSSGLELAI FENVGMGTGF AANNPWLQEN
PDPITKATWD NHAGLSQKTA TELGVAQGDV VKLDIKGKSV ELPVIIQPGL AQGTVAVAVG
YGREKAGKSA NGVGKNVFPL AAFTEGFLNF TPGEVTLSKT GDTREIAQTQ THNTVMNRKS
VLQETVLAHF QKDPMAGRFV PKIQTSDGEV DATDLSLWNG HKYKNHSWGM VIDLNTCFGC
GSCVISCQNE NNIPVVGRQE IINAREMHWL RIDRYYSSDA DVEDLRGLEI ASENPEVTFQ
PMLCQHCNNA PCETVCPVLA TTHSSEGLNQ MTYNRCVGTR YCANNCPYKV RRFNWFKYFD
NDNYDYNFNN DLGKMVINPD VTVRSRGVIE KCSMCVHRIQ EAKLTAKKER RRIVDGEVNV
ACASSCPTDA ITFGDMNDPE SRISKLLEVE REGRAFHMLE EINVRPQISY LTKVRNKDAA
AKAEKAEKEH A
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