Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | CHAB381_1725 |
Symbol | |
ID | 5408771 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Campylobacter hominis ATCC BAA-381 |
Kingdom | Bacteria |
Replicon accession | NC_009714 |
Strand | + |
Start bp | 1643778 |
End bp | 1646405 |
Gene Length | 2628 bp |
Protein Length | 875 aa |
Translation table | 11 |
GC content | 35% |
IMG OID | 640871393 |
Product | DNA polymerase I |
Protein accession | YP_001407237 |
Protein GI | 154148288 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG0258] 5'-3' exonuclease (including N-terminal domain of PolI) [COG0749] DNA polymerase I - 3'-5' exonuclease and polymerase domains |
TIGRFAM ID | [TIGR00593] DNA polymerase I |
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Plasmid Coverage information |
Num covering plasmid clones | 16 |
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 | ATGAAAACTT TAACGATTAT AGATACTTTC GGCTTCTTTT TCAGACTTTT TTACGCACTT TCTTCATTAA AAAACAAAGA CGGCAAACCA AGCGGAATGA TTAGCGGATT TGCAAATTTC ATAGCAAACC TAAAAAATGA ATTTAATAGC GATTATATCG TATTTGCACT TGACAGCAAA GGTAAAACAT TTCGCTCAGA TATAGATCCG AACTACAAAG CAAACCGCCC GGAGCCGCCA AAAGCGCTTT TGGATCAACT TCCTGTTTGC ATAGAAATGA TAGAAAAAAT GGGGCTTTGC TCTTTTTGTC AGGAAGGATA TGAGGCTGAT GATATAATCG CCAGTTTCGT TAAAAAATAC TCTAAAAATA TGCAAATAAA CATAGTTACG CACGATAAAG ATTTGTATCA GCTGATAGGC GAAAACGTAC GGGTTTACAG TCCTGCAAAA AAAATGCTTT ACGACCGTGA CGGCTGCTTT GAAAAATACG GCGTTTGGCC TGAGCAGGTT CGCGATTTTT TAGGAATTTG CGGCGACAGC GCCGATAATA TCCCGGGAAT CAAAGGCATA GGCGAAAAAG GCGCAAAAAA GCTACTTGAA AATTTCGGCT CACTTGAAAA AATTTATGAA AATATTGATA ACTTACCGCA AAATCGCCAA AAAGATCTTC TTATTGAAGG CAAAGAAAAT GCGTTTATGA GTAAAAAACT TGCTTCGCTT TACGATGGAC TTGAAGTTCC TGATCTTCTT GGAGCAGAGT TTCCGACCGA AAATCCGCTT TTAAAAATTA CTGAAATTTT AAAAGAATAC AATTTAAACA GAATTTTATC CGCACTTGAA AATTCCAAAG ATACAGATAA AACACTTAAT TTCAAAGCCA TAACAGTCAG TACAAAAGAG CAGGCAGATA AAATTTTAAA CGATTTGGAA AATGTAAAAG AAATCGCATT TGATACGGAA ACCACGAGCG TGGATAGTCA TAATGCCAAA ATCGTAGGAT TTTCGTTTTG TTGGGATGAA AAATCAAGCT TTTACGTACC TTTAGCTCAC AGCTATCTTG GAGCGCCGGA TATGCTTGAT AAAAATATAG CAAAGCGCCT TATTGAAGCG ATTTACACCA AATTTATAAT AGGTCAAAAT TTAAAATATG ATTTTCGCAT AGTAAGAAAT AATTTTGGAT TAAATCCACC AGCAAAATAT GCCGACACGA TGATTTTGGC ATGGCTAATG GATCCTGATA ACAGCGTAGG AATGGATAAT CTTGCAAAAA GATATTTTGA TTATGATACT ATAAAATTTG AAAATGTAGT CAAAAAAGGA GAGAATTTTT CAAGCGTGGA TGTAAAAAAC GCTGCAAATT ACGCGAGTGA AGACGCATGG ATAACTTTGA AATTTTATAA GAAATTTTGC GGAATTTTAA GCACCGAGCT TTTGGATTTA GCAAAAAATT TGGAATTTCC ATTTATAAAA GTGCTTCTTA ATATGGAAGA AAACGGCATA AAAATGGATA TTTCATCATT AAAAGAAATG ATAAACGAAA TCGCAGAACA ACTTAAAATT TTAACGAATG AAATTTATGA TTTAAGCGGC GAAAATTTTA ATATAAACTC GACTAAACAG CTTGGCGAAG TTCTTTTTGA ACATCTTGGC CTACCGGCGA AGAAAAAAAC AAAAACAGGT TACAGCACGA ATGAAAGTGC GCTTAGCGCT ATTTCAGAAC TTCACGCTGT AGTTCCTAAA ATTTTAGCCT ACCGCGAACT TTATAAACTT CAAAGTACCT ACACAGAGCC GCTTTTAGCT CTAGCTTTAA AAAACGATGA AAACAGAATT TTTTCAAATT TCTTGCAAAC AGGAACCAGC ACAGGAAGAC TTTCAAGCAA AAATCCTAAT CTGCAAAATA TACCGGCTCA CGGGTCAATG GCCGTGCAAA TGAGAAATTG TTTTGTCTCA AAAGACGGAT TCAGTTTCGT GGGTCTTGAT TATTCGCAAA TCGAACTTAG GCTTCTAGCG CATTTTAGTC TTGACAAAGA GTTACTAAGA GCTTTCAGAG AAGATGAAGA TATTCACTCA AGAACCGCTA TCAGTATATT CGGAACAAGC GATAAAGAAA AACGCGCGGT TGCCAAAACA ATAAATTTCG GACTGATTTA CGGAATGGGA GCGAGCAAAC TTTCAAACGA ACTTGGCATA AGCAGAAGCG ACGCCAAAGA CTATATAGAA AAATATTTCA AAGCATTTGC AAGCATAAAA AATTTTATGG AAAATTTAAA AAGCGAAGCG AAAAAAAATG GCTACACAAC AACTCTTTTC GGAAGAAAAA GATATTTTGA TTTTGCAAAC GCCACACCTA TGCAATTTGC AATGTATGAA AGAGAAAGTG TAAATACCAA ATTTCAAGGC AGCGCCGCTG ATATCATAAA AAAAGCAATG GTTGAAATTT CTCCGTTTTT AAATGAAAAT ACAAGACTTC TTCTGCAAAT TCACGATGAA CTGATTTTTG AAGTAAGAGA TGATATGAGC GAAAGTTTCG GCAAAAAAAT GCAAGAAATT ATGCAAAATG TCGTTAAACT GAATGTTCCG TTAAAAACCA GTTTAAGCAT AAACAAGCGT TGGGGCGATT TAAAATAA
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Protein sequence | MKTLTIIDTF GFFFRLFYAL SSLKNKDGKP SGMISGFANF IANLKNEFNS DYIVFALDSK GKTFRSDIDP NYKANRPEPP KALLDQLPVC IEMIEKMGLC SFCQEGYEAD DIIASFVKKY SKNMQINIVT HDKDLYQLIG ENVRVYSPAK KMLYDRDGCF EKYGVWPEQV RDFLGICGDS ADNIPGIKGI GEKGAKKLLE NFGSLEKIYE NIDNLPQNRQ KDLLIEGKEN AFMSKKLASL YDGLEVPDLL GAEFPTENPL LKITEILKEY NLNRILSALE NSKDTDKTLN FKAITVSTKE QADKILNDLE NVKEIAFDTE TTSVDSHNAK IVGFSFCWDE KSSFYVPLAH SYLGAPDMLD KNIAKRLIEA IYTKFIIGQN LKYDFRIVRN NFGLNPPAKY ADTMILAWLM DPDNSVGMDN LAKRYFDYDT IKFENVVKKG ENFSSVDVKN AANYASEDAW ITLKFYKKFC GILSTELLDL AKNLEFPFIK VLLNMEENGI KMDISSLKEM INEIAEQLKI LTNEIYDLSG ENFNINSTKQ LGEVLFEHLG LPAKKKTKTG YSTNESALSA ISELHAVVPK ILAYRELYKL QSTYTEPLLA LALKNDENRI FSNFLQTGTS TGRLSSKNPN LQNIPAHGSM AVQMRNCFVS KDGFSFVGLD YSQIELRLLA HFSLDKELLR AFREDEDIHS RTAISIFGTS DKEKRAVAKT INFGLIYGMG ASKLSNELGI SRSDAKDYIE KYFKAFASIK NFMENLKSEA KKNGYTTTLF GRKRYFDFAN ATPMQFAMYE RESVNTKFQG SAADIIKKAM VEISPFLNEN TRLLLQIHDE LIFEVRDDMS ESFGKKMQEI MQNVVKLNVP LKTSLSINKR WGDLK
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