Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Taci_0831 |
Symbol | |
ID | 8630653 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Thermanaerovibrio acidaminovorans DSM 6589 |
Kingdom | Bacteria |
Replicon accession | NC_013522 |
Strand | + |
Start bp | 862189 |
End bp | 865587 |
Gene Length | 3399 bp |
Protein Length | 1132 aa |
Translation table | 11 |
GC content | 60% |
IMG OID | |
Product | DNA polymerase III, alpha subunit |
Protein accession | YP_003317346 |
Protein GI | 269792442 |
COG category | |
COG ID | |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 12 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGAGCGTGG AGTTTGTGCA CCTTCACGTC CACAGCGAGT ACAGCCTTCT GGATGGGGCC ATAAGGTGCG GTGAGCTGGT GGACACGGTG GCCTCCATGG GCATGGGGGC GGTGGCGATA ACGGATCACG GGGTCATGTA CGGTTGCGAG GAGTTCTACG AGAAGTGCGT GGCCAAGGGG ATCAAACCCA TCATCGGTTG CGAGGTCTAC GTGGATCCCA ACGGCATGGA CTCCCGGGAC GGCAAGGGCA GGAACAACCA CCTGGTTCTG TGGGCGGAGG ATCAGGTGGG GTACAAGAAC CTCATCAAGC TGGTCTCCAT AGCCAACACC GACGGCTTCT ACTACAAGCC CCGGGTGGAT CATCGGGTGT TATCCCAGCA CTCCAAGGGG ATAATAGCTT CATCCGCCTG CCTGGCGGGG GAGATACCCC AGCTGCTGAT GGACGGCGAC TTTGATGGGG CGGTGAGCAG GGCCAACCTC TACCGGGACA TCTTCGGGGA GGGCAACTTC TTCATAGAGA TAATGTACAA CCAGTTACCA GAGCAGGCCA TGGCCAACGC GGAGCTCATA AGGCTGGCCA AGCGATGTTC CCTTCCTCTG ATAGCCACTA ACGACGCCCA CTACCTGAGG AGGGAGGATG CGTCGTGGCA TGATGTCCTT CTCTGCGTCC AGACCAACAG TACGGTGGAC ACCCCGGATA GGTATCGTTT CGGCTCCGAC GACTTCTACC TGAGGACCCC GGAGGAGATG TGGTCCCTTT TGGGGGGAGA GGTGCCCGAG GCGTTGAGGA ACACCCTGTT GGTTGCGGAG AGGTGCAACG TGGAGCTTCA GCTGGGTCAC TACATGTTGC CCGAGTTTCC CCTTCCCGAG GGGGAGACCC TCGATTCCCA TCTTGAGAAG ATGGCCCGAG AGGGGCTGAG GGCCCGGGTA GGGGAGCCGA TTCCCCAGGA GTACCGAGAC AGGCTGGAGT ACGAGCTGGG GGTAATAAAG CAGATGGGCT TCCCAGGCTA CTTCTGCATA GTGGCGGACA TAATAACCGC AGCCAAGTCC AGGGGCATAC CCATAGGTCC GGGGCGAGGC TCCGCCGCGG GATCCCTGGT TGCCTGGTGT CTTGGAATAA CCGAGCTGGA TCCCATAAAG TACAAGCTCC TGTTCGAGCG GTTTCTGAAT CCGGAGAGGA TAAGCATGCC GGATATAGAT ACCGACGTTT CGGATAAGCG GCGGGACGAG GTCCTTGCCT ACATAGTGGA GAAGTACGGC ATAGACCGGG TGTCCCAGAT CATCACCTTC GATAGGATGA AGAGCAAGGC GGCCATAAGG GACGTGGGAA GGGCCCTCGC CATGCCCTAC CCGGAGGTGG ACCGGGTGGC CAAGCTGGTC CCCGATGGGG TGAAGTCCCT GAAGGAGGCG CTGGAGAAGT CCCCGGATCT AAAAGAGGTT CACTCCTCGG ATCCGAAGGT CAGGAGGCTG GTTGACACCG CCTCCCACAT AGAGGGTATA GCCAGGCACT GTTCCCAGCA CGCGGCCGGG GTGGTCATAA CCCCGGTTCC CCTGGTGGAG ATGGTCCCGG TGAGGAAGAT AGGAGAGAAC CAGGTGGTCA CCCAGTACTC CATGGAGCCC CTTGAGCACC TGGGTCTGGT GAAGATGGAC TTTCTGGGGC TGAGGACCCT CTCGGTAATA GAGGGGGCCT TGAGGAACGT GGAGGCCAAC CGGGGCCTTA AGATCGACCT TAGGGCCATC CCTTTGGACG ACCCCAAGAC CTTCGACATG CTCCAGCGGG CGGACACTCT GGGCGTATTC CAGCTCGAGT CCTCGGGGAT GCAGGACCTG CTTAGGCGGC TTCGCCCTGA CTGTTTCGAG GATCTGATAG CGGTGCTGGC CCTTTACCGA CCTGGTCCCC TGGGCAGTGG GATGGTGGAC GACTACATCG AGAGGAAGCA CGGAAGGAGC CCGGTGACCT ACCCCCACCC TTGCCTCGAG GAGGCCCTGA AGGAGACCTA TGGGGTGATC CTCTACCAGG AGCAGGTCAT GCAGTGCGCC GCCGAGCTGG CGGGTTACAC CCTGGGGGAG GCGGATCTGC TCCGACGGGC GATGGGCAAG AAGAAGGCGG ACGTGATGGA GAAGCAACGC TCCAAGTTCG TCGAGGGGGC CAAGGCCAGG GGGGTTGAGC CCAAGATGGC GGAGGACATC TTCAACAGCA TAGAGAAGTT CGCCGAGTAC GGCTTCAACA AGTCCCACAG CGCCGCCTAC GCGCTGATAA GCTATCAAAC CGCTTATCTG AAGGCCCACT ACGGTCCGGA GTTCCTGGCC TCTTACCTGT CCAGCATAGT GGGTTCCAGG ATGGACATCC TGGGTAGGTA CATAAAGGAG GTTCGCAACC TGGGGTACTC GGTCCTTCCG CCGGACATAA ACGAGTCCCA GAGCGACTTC GTGGCGGTGG GGGAGGTCAT AAGGCTCGGG CTCTCCGCGG TGGCCAAAGT GGGGGATTCG GCGGTGGATG CCATACTGAG GGCCAGGTCC GAGGGGCCGT TTCGTTCCTT CTGGGACTTC CTCTGCAGGG TGGACCTGAG GACCGTTAAC CGTGGTGTCA TTGAGAACCT GATAAAGGCC GGGGCTTTCG ACGTCCTATG CCCCAATCGC AGGATGTTGC TGGATAACCT GGAGGGTCTA TTGGAGATGG CCCAGCGACG GTGTGATCCC AGCAAGCAGG TTAGCCTCTT CGACGGGGAC GAGGAGGAAG AGGAGGAGCC CAAGATGGAT GTGGTGGACG ATGTGGACAT CCATCAGCGG TTGGAGTGGG AGCGAGAGGT GTTGGGCCTT TACATATCGG GACACCCCTT CGAGCAGGTC GAAGGGGAGC TGGCCCCCTT CCTGGTGTGC AAGATATCGG ACCTTAGGTC CTGGCGGTCC TCCAACGTGG CCCCCGTTAC CGCCGGCTTG CTGGCGGGGA TCAGGGAGAG GTACACCAAG CGGGGGGATC CGATGGGTAT ACTGGAGATG GAGGACGGGG ACGACAAGGT GGAGGCGGTC TGCTTCCCCA AGGTGTGGCA GAAGGTTAAG CCCATGCTTA GGACCGGCGG CATATACGTC TTCTCCGGCA TGGTGAAGGA CGATGGCAGG TTATCGGTGC TGATAGATGA GATAATGGAG GCCAGGGAGT GGATCCGAGA GAAGGTCCCG GTGGCCAAGT TGAGGGTTTT GTCCAAGAGG GCTGGCCTTT TTAGAGATCT TGCAAGAGAA TTAAAGGGGC ACTCCGGCCC CAGCCCGCTC CTCATATATG TGGAGGAAGG GGGTATCATT ACGGCCCTGT GGTCCAGATC TATAAAGGTT AGGGTTGATG ATTCCTTGAG GAGGAGCTTG GAGGACGCCT TCCTTGGCCA GGTGGCGTTG GACTTCTAG
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Protein sequence | MSVEFVHLHV HSEYSLLDGA IRCGELVDTV ASMGMGAVAI TDHGVMYGCE EFYEKCVAKG IKPIIGCEVY VDPNGMDSRD GKGRNNHLVL WAEDQVGYKN LIKLVSIANT DGFYYKPRVD HRVLSQHSKG IIASSACLAG EIPQLLMDGD FDGAVSRANL YRDIFGEGNF FIEIMYNQLP EQAMANAELI RLAKRCSLPL IATNDAHYLR REDASWHDVL LCVQTNSTVD TPDRYRFGSD DFYLRTPEEM WSLLGGEVPE ALRNTLLVAE RCNVELQLGH YMLPEFPLPE GETLDSHLEK MAREGLRARV GEPIPQEYRD RLEYELGVIK QMGFPGYFCI VADIITAAKS RGIPIGPGRG SAAGSLVAWC LGITELDPIK YKLLFERFLN PERISMPDID TDVSDKRRDE VLAYIVEKYG IDRVSQIITF DRMKSKAAIR DVGRALAMPY PEVDRVAKLV PDGVKSLKEA LEKSPDLKEV HSSDPKVRRL VDTASHIEGI ARHCSQHAAG VVITPVPLVE MVPVRKIGEN QVVTQYSMEP LEHLGLVKMD FLGLRTLSVI EGALRNVEAN RGLKIDLRAI PLDDPKTFDM LQRADTLGVF QLESSGMQDL LRRLRPDCFE DLIAVLALYR PGPLGSGMVD DYIERKHGRS PVTYPHPCLE EALKETYGVI LYQEQVMQCA AELAGYTLGE ADLLRRAMGK KKADVMEKQR SKFVEGAKAR GVEPKMAEDI FNSIEKFAEY GFNKSHSAAY ALISYQTAYL KAHYGPEFLA SYLSSIVGSR MDILGRYIKE VRNLGYSVLP PDINESQSDF VAVGEVIRLG LSAVAKVGDS AVDAILRARS EGPFRSFWDF LCRVDLRTVN RGVIENLIKA GAFDVLCPNR RMLLDNLEGL LEMAQRRCDP SKQVSLFDGD EEEEEEPKMD VVDDVDIHQR LEWEREVLGL YISGHPFEQV EGELAPFLVC KISDLRSWRS SNVAPVTAGL LAGIRERYTK RGDPMGILEM EDGDDKVEAV CFPKVWQKVK PMLRTGGIYV FSGMVKDDGR LSVLIDEIME AREWIREKVP VAKLRVLSKR AGLFRDLARE LKGHSGPSPL LIYVEEGGII TALWSRSIKV RVDDSLRRSL EDAFLGQVAL DF
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