| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | CCC13826_0736 |
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| Symbol | nrdB |
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| ID | 5595642 |
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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 | Campylobacter concisus 13826 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009802 |
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| Strand | + |
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| Start bp | 278704 |
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| End bp | 281523 |
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| Gene Length | 2820 bp |
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| Protein Length | 939 aa |
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| Translation table | 11 |
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| GC content | 39% |
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| IMG OID | 640928882 |
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| Product | putative recombination protein RecB |
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| Protein accession | YP_001466192 |
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| Protein GI | 157163878 |
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| COG category | [L] Replication, recombination and repair |
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| COG ID | [COG1074] ATP-dependent exoDNAse (exonuclease V) beta subunit (contains helicase and exonuclease domains) |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 7 |
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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 | ATGAAAAATT TTTTAGCCCT AAAAGCAAGC GCTGGAAGCG GTAAGACCTT TGCGCTGAGC
GTTCGCTACA TCGCTTTGGT GCTTCGAGGC GAAAATATAA ACGAGATCGT CGCTCTAACT
TTTACAAAAA AGGCAGCAAA CGAGATGAAA GAGCGCATAA TCGCAACTTT TTTGGACTTG
CAAAACAAAA AAGGCGAGCT TGAAGCGGTG TGCGCGCAGC TTAATATAAG CCAAGATGAG
GCGATAAAAA GGCGAGATGA GCGCCTTGGC GTCTTTTTGC AAAGTGAGCT AAAAATTTAT
ACATTTGATG CGTTTTTCTC TGGGATTTTG AAGAAATTTA GCCAAAATTT AGGCATTAAC
CCTGATTACA GCGTGCAAGA TAGCTTGCAA GATCTGGCGT GGAAAAAATT TGTAAAAGAG
GCGAGCAAGG ATAAAAAACT TCTTAGCGAG CTAGCCTTAA TGATGATCAT TTCAAGTCAA
AAAGAGGCTA GCTTTTCGCA GACTTTGGCG AAATTTTATG AGAGCTTTGG CGGCGAGCTA
AAAGATAGTG GCGCAAGCTA TCCAGATGAT AGCAAGGTAA GGGCGGCGCA AAAGGCGATA
AATGAGCATA TAGCCTTGCA AAATGGCGCT AGCGATGTAG CTAAAAAGAC ATTTAGCGAG
CAGAATTTAT TTGAGCTATT TAAGAGTAAG GTTTTTGCTA GAGAAAGCCT AGACTACCGC
TCTTTTAGCA AAATTTACAC AAGTGAGCTT GATAGGCTCT TTTTTGAGCT AAAAGAGGCA
GCAAAAAACT ACATTTTAGA GGTCGAAAAG TATAGGCTAA GTGGCTTTAG CAAGCTATTA
AAGCTTTATA AGGCTTCAAA TTTAGAGCTA AACAAGGAGA TAAATGCGTT AAGCTTTGCT
GATATAAACA AGCTGGTTTT TAAGCTTTTG GTGCAAAGCT TAGACAAAGA GGCGCTTTAT
TTTAGGCTCG ATGGCAGGAT AAATCACCTC TTGGTCGATG AGTTTCAAGA TACAAACGTG
ATCCAGTATG AGATCATCTT ACCGCTCATC GCTGAAATCG TCTCTGGATA CGGACAAAAC
GGCCTTGGAA GCTTCTTTTA TGTGGGTGAT ACGAAGCAGA GTATCTATAA ATTTAGGGGT
GGCAAAAAGG AGCTTTTTGA CAAGCTTGGA GATGATTTTA GTCAGATAGA TATAGAAAAT
TTACCAAGCA ACTACCGCAG TTTAAAGGCT CTGGTGAAAT TTAATAACGC CGTTTTTGAA
GAAATTTATC ATAGATATGG CCTTGAGTTC GAGCCGCAAG ACCCAGCCAA AAAAGATGAG
ACGCTAAGCT ATGAGGTAAG TGGCGAGTGT GCGTATTTTG AAGTAGAAAA AGATGACTAC
GGCTACTTGC GTGTGCTAAG CGATGAAGAT ATCGCAGGTG CGGTCGTTTC GCAGGCAAAA
GAGCTTTTAA AAGCTGGCGT AAATGCAAGC GAGATAACCG TGCTTTGCTG GAAAAATAGC
GACATTAGTC TCATTTCAGA AGTGCTTAGC AGTGAAGGGA TAAAAAGCGT CAATGAAGGC
ACTTTGGAGC TAAAAAGAAC GCCACTTATC GCTGCGATCA TCGAGTATGC GAAATTTTGC
CTATTTAAAG AAGAAATTTA TGAGAAAAAT GTAAAAGCGC TAGTAAATGC AAATGTCAAA
AAACTAAATA TAAAGCCTGA AGAGAGCGCT ACAAATAGCC TATTTTACTT AGCTAAAAAT
TTAGGCATAA GCATGGCAGA CGTTGATATC TTGAGGCTGT TTGAGCTAAG CGCGGGGTAT
AAAAATTTAA GTGATTTTAT ATTTAACCTT GAAAGCTTTA GCTCTAAAAT CAGCCCAAAA
AGCAGCGACG GCGTGAGAGT TATGACCGTG CATAAGTCAA AGGGACTTGA GTTTGCTCAC
GTCATAGTTT GCGACATGAT GGGCAAGGGT AGGGGTGATG ACTCAAATTT CATAACCGAA
TACAGCGAAA AGGGCGAGTG GATCGTAAAG AGTAAAATTT CAGGCAGAGA GAATTTTGAT
AGCGACTATG CAAGCGTTTT GGAGCAGATG AAAGAGCTTG AAAAGCAAGA AAATATCAAT
AAAATTTACG TCGCTTTCAC AAGGGCAACA AAGTCGCTCA TAATCATCAA ACAAGCCGTC
CCAAGCGGAA ATAGCCCAAG CTTTTTCTCG TTTTACACAA GAAGCGACAA GAGCGAGGCA
AACGACTATC TTGATCTAAA GGAGTTTAGC TTTGGCAAAA TTTTACCTAG CAAGAGCGAG
CAAAAAGAGG CAAAAAAAGA TGAGAAAATG CCTGAAATTT TAAAGATAGA GAGGCAAGAG
GTAGAGGCGA AAGAGCAAAA GACGAGTGGT AAAAATTTAA GTGCGATATA TTTTGGTCTG
GCGTTTCACT ATCTACTTGA GATGAGCGAG AAATTTGATG AAATTTCACT AGAAAAAGCT
AAAAATTTGA TGCTAAATAA ATTTCATAAA TTCTTGCCAC TTGAGGTACT TGAAGATGTC
TTTTCTAGGG CAAAAATGCT TATAAGAGAG CCAAAATTTA TAGAGTGCAT AAGAGACAAA
GAAATTTATA AAGAGCAGCC ATTTAAAGTG AAAAATGAGC TAAAACAGAT GGATCTTTTT
TGCTTTAATG AGCGTGAAAT TTGCGTGATT GATTATAAAA CGACAGATAA AAACATAGAA
GAGAACAAAA AGCAGGTAAA AGAGTATAAA GATGCGCTCG CTAAATTTTA TGAAAAACAT
AGTATAATCG CCGTCATTTT CTATGCACTT GAAGGCAAAA TTTCATATAT TGAAGTTTAA
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| Protein sequence | MKNFLALKAS AGSGKTFALS VRYIALVLRG ENINEIVALT FTKKAANEMK ERIIATFLDL
QNKKGELEAV CAQLNISQDE AIKRRDERLG VFLQSELKIY TFDAFFSGIL KKFSQNLGIN
PDYSVQDSLQ DLAWKKFVKE ASKDKKLLSE LALMMIISSQ KEASFSQTLA KFYESFGGEL
KDSGASYPDD SKVRAAQKAI NEHIALQNGA SDVAKKTFSE QNLFELFKSK VFARESLDYR
SFSKIYTSEL DRLFFELKEA AKNYILEVEK YRLSGFSKLL KLYKASNLEL NKEINALSFA
DINKLVFKLL VQSLDKEALY FRLDGRINHL LVDEFQDTNV IQYEIILPLI AEIVSGYGQN
GLGSFFYVGD TKQSIYKFRG GKKELFDKLG DDFSQIDIEN LPSNYRSLKA LVKFNNAVFE
EIYHRYGLEF EPQDPAKKDE TLSYEVSGEC AYFEVEKDDY GYLRVLSDED IAGAVVSQAK
ELLKAGVNAS EITVLCWKNS DISLISEVLS SEGIKSVNEG TLELKRTPLI AAIIEYAKFC
LFKEEIYEKN VKALVNANVK KLNIKPEESA TNSLFYLAKN LGISMADVDI LRLFELSAGY
KNLSDFIFNL ESFSSKISPK SSDGVRVMTV HKSKGLEFAH VIVCDMMGKG RGDDSNFITE
YSEKGEWIVK SKISGRENFD SDYASVLEQM KELEKQENIN KIYVAFTRAT KSLIIIKQAV
PSGNSPSFFS FYTRSDKSEA NDYLDLKEFS FGKILPSKSE QKEAKKDEKM PEILKIERQE
VEAKEQKTSG KNLSAIYFGL AFHYLLEMSE KFDEISLEKA KNLMLNKFHK FLPLEVLEDV
FSRAKMLIRE PKFIECIRDK EIYKEQPFKV KNELKQMDLF CFNEREICVI DYKTTDKNIE
ENKKQVKEYK DALAKFYEKH SIIAVIFYAL EGKISYIEV
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