| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Teth514_0730 |
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| Symbol | |
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| ID | 5877405 |
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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 | Thermoanaerobacter sp. X514 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010320 |
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| Strand | + |
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| Start bp | 753182 |
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| End bp | 756451 |
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| Gene Length | 3270 bp |
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| Protein Length | 1089 aa |
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| Translation table | 11 |
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| GC content | 36% |
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| IMG OID | 641541078 |
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| Product | peptidoglycan binding domain-containing protein |
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| Protein accession | YP_001662373 |
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| Protein GI | 167039388 |
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| COG category | [M] Cell wall/membrane/envelope biogenesis |
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| COG ID | [COG3409] Putative peptidoglycan-binding domain-containing protein |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 37 |
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| Plasmid unclonability p-value | 1 |
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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 | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | GTGTCAAAAA TTAAAGTAAA CAAACGCAAA ATAATTGTTT TTACTGTTAT AGGAATTTTA
TTATTAGCTT TTATACTAAA AGGCTTGGCA TATATGGATA TTATATCTTT TGGTTTCAAT
CAAAACCGAA CGAGATATAA TTATGAGATG TACGGTGGGA TAGCAGCAAC ACAGGTCACA
AGCACAACAA AGGCTAAGCT AGGATGGTAT GTTACTGGCT TAGGGCCAAG CTTAAGCCAG
CCTTTGATAA TAAGCCCAAA AGAATTAGGT ATCAATGCTT CTCAGCCAAT AGTTATAGCG
TTCAATGGCA ATAATTTGTA TGCTTATGAA AGTATATCTC CATACTCAAA AAGTTTATAC
GATTTTAATA CAAGCACAAG TCCCTACACA TTTACACCCA AAATTGTTCC AAACAGCAAT
AAAAAATGGG GGCCTTTGCC TGTATATGGG TCTTCCACAG TACCAGCCAA TCCATCTGGC
AGCCATCCAA CCTATTATGT ATCACCAAAC GGTAACAAGT ACATTGCAGC AGGTTCAAAG
GATGGATATG TTTTTATATA CCAAATAATA AATGGCTCGC CTGTTTTAAA ATTAAGAATC
AATACAACAA TGGTAGGCGG TACTGATATA GTTTCTGCTC CACTTATGAT GAGATGGCAG
GGATATAATA TTGTGGTGGT AGGAAATGGA AACGGAGGAC AAGTTGCAAT AGGCTATTTT
ACCGATGATT TTAGCGATGT TAGAATTGCA GATATCACAT TAGGCACCAC TTATACACGT
ATAAGCTCAT CAGCAGCACC AGTAAACGCA GGAGAAACAT CACCTGAAAC AGGCTTTATA
ATCGGTACAA CACATGAGCC TAACAAAACC GCAGATGGCT ATCTTTACAG AATTAGATTT
AGTGATTTAT TCAATGTCAT TTCATCTTCA ACAATATCTT CAAGAACAGA CATCTTAAAA
TTAGGCAGCA CAGGAAATGG AGTTAAGATA CTTCAAGAAA CGCTTAATAT TATAGGCTAT
TCTCTTGTTG AAGATGGACA ATTTGGTACT AGAACTCAAG CAGCAGTCAA GGATTTTCAA
AGTAAAAATG GGCTTACGGT AGATGGAATA GTCGGACCAC AAACGTGGCA AAAGCTTGGG
AGTAAATTAA CAAGAACTTA TATAAGACCT ATATATCAAT GGAACTATGC ATGGGGAATA
AATATTTCAA AAGCCTATGC TGGTGCAGGC ATAGGTATTC CAGCAAGTTT TTCAGTAGAC
GGCTCAAACG CCTACTTCAC TGATGTGCTT GGTGGTATCT ACAAAATAAA TAATATCTTC
AGCAGCACCT TAAATCTTAC AGTAAACGGA AACCTTAGGA ATACAAACAA CCTTGTTAAC
CATTCCCCAG CTGTAGACGA TAGATATTTA TACATTCCAT ATTATTATTC AGATAGTTCA
AAACAACACG GAAAAATTGT TGTTTTAGAT AAAAATAATT TAAATGTTAT AAAACAAATA
GATTTTTCTT CCTCCAGTTT AAAATCTCAA CTACCTAATT CTTCAAACTA TATCGTATAT
TCTGCTGTTT CTGTCGGAGC AGACAGAATA TATGCTAATG TAGGAAATTA TCTTGTCACG
ATCAAAAAAT CTGACTGGAC AATAGATGGA GACGGAACAA TACAATTAAA TGCTCCAGCT
ACAGGAGAAG TTTCTATAGC ACACGGTTTA GTTGCAACAG AAACTTCTGA TGGAATATAC
GTATATTACC TTGCGAAAAA TGGTATAGAT TTGGCAATTA CAAACGTAAA TCCAATAGGC
TATATGGAGC CAAATAAAAA TTACACTGTG CAGGTCACAG TAAGTTTAGG TAATAGTTCA
ACAAGTATTC CTGCAACAGT AGCCTTATAT GATGCAGGAA GTTTTAATTT CAATACAGTT
ATAACCGGAG ACCCTGTAAG ACTCAATACT GCAAATGCTG TAGCAAGTGC ACAAATCACT
TTAAGTCCCA ACAGTTCTCA AACAGTCAAT TTAAGCTTTA CAGGGACAAG TTCAGATAGA
AACTTAATAG CAGTAGTACA GCCCAATCCA CCATCAAATC CAGACTCTTA TTTGCAGTAC
TGGGATTATA ATCAAACAAA CAATACAAGG CAGTTTACTG CACCTGCAAA AAGGTTGGTG
GATTTATATG TCACTAATCT TAATGCAGGA ACTTCAAACA TGGTAGGAGG GCAAACCTAC
ACATGTTCAG TAGTAGTAGG ACTCCAAAAT GCTTCTTTTA TATCAGGATA TCCAGTTACG
GGAACATTAA AGATATATGA TGCAGCTAAT CCATCCTCAC CATTTAAAAC TCAAACAGTG
TCATTTACAA GCAATACTAC ACAGACAGTC AGTTTTAACT ACACAGGAAA ATCGTCTGAT
ATGATACTAG TAGCAGAAAT ATCATTAGCA AGTACTGATA AATATTATGA GACTAACCTT
TCCAATAATA AGATACAAAC ACTTGTTAAA GCGAACAATG GAGTGGATTT ATATATTGCA
AGCATAAATC CGGGAACTAC CTATGTAGTC CCTGATGAAA CCTACACAGG CTCTGTAACT
GTGGGACTGC AGAAAAGCTA TGCATTCCCT GTTAATGGTG TTGTAAAAGT TTATGACAAA
GCTGATTCTT CTGTGTTTTT AACAAAATCT GTGCAGTTTA ACAGCAACTC CACACAGACA
TTCAGCTTCA GCTATCCTGG AAAAAATACT GACATTACTC TGGTAGCTGA AATACAATTA
ACAGATACAA ATAAATATGA TTTAGACTTA AGCAACAACA AAAAGGAAGT TACAGTGCCT
TATTCGTCAG AAATGGATAA GCTAAGAGGT ACTGTAACAA TATCAAAAAC ACCTCAATAT
GTGTTTACTA ACAAGCACAC GAGAGAAGAC GGATCTGTCT GCGATATGAC TCTGAACATT
TCATACACCT TTAACAAAAA AATCACCAGC ATAAGAGCAG TACACGTGAT AAACAGGTAT
CAAAATAAGG GTGTACTTTA TGTAGAGCCT TATTCGGTTA TAAAAAATAT AGGTGACGTT
ACAGGAAGCG CAGTAATGAA GTTCCAGTAT GATAAACCAG GAGATGAGAA TTCAACACTG
TATATTTACT TCACTGCTGA AGATGGAAAA ACAGCCGAAG TACAGCTTAA AATCCCGGTA
AACGGCTTTT ATGCAGACTC AAAATTTAAT CTTCCTGATC CACAGTGGAA AAAGTCAGAG
CAAGATAACT GGACGGTGAT TTTTAAATGA
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| Protein sequence | MSKIKVNKRK IIVFTVIGIL LLAFILKGLA YMDIISFGFN QNRTRYNYEM YGGIAATQVT
STTKAKLGWY VTGLGPSLSQ PLIISPKELG INASQPIVIA FNGNNLYAYE SISPYSKSLY
DFNTSTSPYT FTPKIVPNSN KKWGPLPVYG SSTVPANPSG SHPTYYVSPN GNKYIAAGSK
DGYVFIYQII NGSPVLKLRI NTTMVGGTDI VSAPLMMRWQ GYNIVVVGNG NGGQVAIGYF
TDDFSDVRIA DITLGTTYTR ISSSAAPVNA GETSPETGFI IGTTHEPNKT ADGYLYRIRF
SDLFNVISSS TISSRTDILK LGSTGNGVKI LQETLNIIGY SLVEDGQFGT RTQAAVKDFQ
SKNGLTVDGI VGPQTWQKLG SKLTRTYIRP IYQWNYAWGI NISKAYAGAG IGIPASFSVD
GSNAYFTDVL GGIYKINNIF SSTLNLTVNG NLRNTNNLVN HSPAVDDRYL YIPYYYSDSS
KQHGKIVVLD KNNLNVIKQI DFSSSSLKSQ LPNSSNYIVY SAVSVGADRI YANVGNYLVT
IKKSDWTIDG DGTIQLNAPA TGEVSIAHGL VATETSDGIY VYYLAKNGID LAITNVNPIG
YMEPNKNYTV QVTVSLGNSS TSIPATVALY DAGSFNFNTV ITGDPVRLNT ANAVASAQIT
LSPNSSQTVN LSFTGTSSDR NLIAVVQPNP PSNPDSYLQY WDYNQTNNTR QFTAPAKRLV
DLYVTNLNAG TSNMVGGQTY TCSVVVGLQN ASFISGYPVT GTLKIYDAAN PSSPFKTQTV
SFTSNTTQTV SFNYTGKSSD MILVAEISLA STDKYYETNL SNNKIQTLVK ANNGVDLYIA
SINPGTTYVV PDETYTGSVT VGLQKSYAFP VNGVVKVYDK ADSSVFLTKS VQFNSNSTQT
FSFSYPGKNT DITLVAEIQL TDTNKYDLDL SNNKKEVTVP YSSEMDKLRG TVTISKTPQY
VFTNKHTRED GSVCDMTLNI SYTFNKKITS IRAVHVINRY QNKGVLYVEP YSVIKNIGDV
TGSAVMKFQY DKPGDENSTL YIYFTAEDGK TAEVQLKIPV NGFYADSKFN LPDPQWKKSE
QDNWTVIFK
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