| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | BR0123 |
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| Symbol | polA |
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| ID | 1165780 |
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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 | Brucella suis 1330 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_004310 |
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| Strand | + |
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| Start bp | 134957 |
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| End bp | 137896 |
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| Gene Length | 2940 bp |
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| Protein Length | 979 aa |
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| Translation table | 11 |
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| GC content | 59% |
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| IMG OID | 637329076 |
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| Product | DNA polymerase I |
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| Protein accession | NP_697164 |
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| Protein GI | 23501037 |
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| COG category | [L] Replication, recombination and repair |
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| COG ID | [COG0258] 5'-3' exonuclease (including N-terminal domain of PolI)
[COG0749] DNA polymerase I - 3'-5' exonuclease and polymerase domains |
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| TIGRFAM ID | [TIGR00593] DNA polymerase I |
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Plasmid Coverage information |
| Num covering plasmid clones | 3 |
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| Plasmid unclonability p-value | 0.389931 |
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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 | ATGAAAAAAG GCGATCATCT CTTTCTCGTT GACGGCTCGG GCTATATTTT CCGCGCCTAT
CATGCCCTGC CGCCGCTGAC CCGCAAGACG GATGGCCTGC CTGTCGGTGC GGTTTCCGGT
TTCTGCAACA TGCTGTGGAA GCTGTTGAAG GATGCGCGCA ACACGGATGT CGGCGTGGTG
CCGACCCATT TCGCGGTCAT TTTCGACTAT TCGTCGAAGA CGTTCCGCAA GGAGATTTAT
CCTGATTACA AGGCGAACCG CACCGCGCCC CCTGAAGACC TGATCCCGCA ATTCGGCCTC
ATCCGACAGG CGACCCGCGC CTTCAATCTG CCCTGCATCG AGAAGGAGGG CTTCGAGGCT
GACGACCTTA TCGCCACCTA TGCGCGTCTG GCTGAGAAAG CGGGCGGCGA TGTCACGATC
ATCTCCTCCG ACAAGGACCT CATGCAGCTC GTGACACCAA GCGTGTCGAT GTATGACAGC
ATGAAGGACA AGCAGATTTC GATCCCGGAA GTGATCGAGA AATGGGGCGT GCCGCCGGAA
AAGATGATCG ACGTGCAATC GCTGACCGGC GACAGCACCG ACAATGTTCC GGGCATTCCC
GGCATCGGCC CGAAAACGGC GGCGCAATTG CTGGAAGAGT TTGGCGATCT CGACACGCTT
TTGGCCCGCG CCTCTGAAAT CAAGCAGAAC AAGCGCCGCG AGAACATTCT GGCTTTTGCC
GACCAGACGA AGATCGCGCG CGAATTGGTG ACACTCAAGA CGGATGTGCC GCTCGATATC
GATCTGGACG GGCTGGTGCT GGAGCCGCAG AACGGGCCGA AACTGATCGG CTTCCTGAAG
GCAATGGAAT TCACCTCGCT CACCCGCCGC GTGGCCGAGG CAACCGATAC GGACGCTTCT
TCGGTCGAGC CATGCCATGT GGAGACCGAC TGGGGGGCGG ATGCTCATGG CCCCGATGTC
GATGTTCCCG AAAAGGCCGA TGCTGCTGCT GCATCGCAAC TGCTCTCGGC GCCGACTGCC
GCTGAGCCCG ATCAGGGCTA TACGCCGAAA GCGCTCGCAG AAGGGCGGGC GGCGCAAGCC
ATCGCGCAAA AGATCGATAC GAGCGCCTAT GTCTGCATCC GCGATATTGC GACGCTGGAG
CAATGGCTGG CCGAAGCGGC CGAAACAGGT ATCCTTGCTT TTGACACGGA AACGACTTCG
CTTGATCCGA TGCAGGCCGA ACTTGTTGGC TTCTCCCTGG CGCTCGCACC GGGAAAGGCC
GCCTATGTGC CGCTCCAGCA CAAGTCTGGC GCGGGCGATC TTCTGGGCGG TGGCATGGTG
GAGAACCAGA TCCCGCTTGA TATGGCACTC GCGGCGCTGA AACGCGTGCT TGAGGACGCT
TCCATTCTCA AGATCGCGCA GAACATGAAA TATGACTGGC TTGTCATGCG CCGCCACGGC
ATCAACGCCG TTTCCTTCGA CGATACGATG CTGATTTCCT ATGTTCTGGA TGCGGGTACA
GGCAGCCACG GCATGGACCC TTTGTCCGAG CGATGGCTTG GCCACACCCC GATTGCCTAT
AAGGACGTGG CGGGAAGCGG CAAGAGCGCC GTCACTTTCG ACATGGTGGA TATCGACCGT
GCGACGGCCT ATGCCGCCGA AGATGCCGAT GTGACCTTGC GCCTGTGGCA GGTGCTGAAG
CCGCGCCTTG CAGCGGAGGG GCTGATGTCG GTCTATGAGC GGCTGGAGCG TCCGCTGGTC
GATGTGCTGG CGCGCATGGA AGAACGCGGC ATTGCCGTTG ACCGTCAGGT GCTGTCACGC
CTTTCCGGCG ATCTGGCGCA GGCCGCTGCC GCTTATGAAG ACGAGATTTA CGCGCTTGCG
GGCGAGAAAT TCACCATTGG CTCGCCCAAA CAGCTTGGCG ATATCCTCTT CGGCAAGATG
GGGCTGCCCG GCGCATCCAA GACCAAGACA GGCCAGTGGT CGACCTCCGC GCAGGTTCTG
GAAGACCTTG CCGCCGAAGG TCATCCTCTG CCGCGCAAGA TCGTGGACTG GCGCCAGCTT
ACCAAGCTCA AATCCACTTA TACGGATGCG CTGCCGGGTT TCATCAACCC CCAGACCAAG
CGCGTCCATA CATCCTATGC AATGGCATCC ACCTCGACGG GGCGCCTTTC CTCGTCCGAC
CCCAATTTGC AGAATATTCC GGTGCGCACC GCAGAAGGCC GCAAGATCAG GACAGCCTTC
ATCGCCGAAC CCGGCAACAA GCTGATTTCC GCCGACTACA GCCAGATCGA ACTGCGCGTT
CTGGCACATG TGGCCGATAT TGCGCAATTG AAACAGGCCT TTGCCGACGG CATCGATATT
CATGCCATGA CGGCGTCGGA AATGTTCGGT GTTCCGGTGG AAGGCATGCC CTCGGAAGTG
CGCCGCCGCG CCAAGGCGAT CAATTTCGGC ATTATTTACG GCATTTCCGC TTTCGGTCTG
GCGAACCAGC TTTCCATCCC GCGCGAGGAA GCGGGGCAAT ATATCCGCAC CTATTTCGAG
CGTTTTCCCG GCATCAAGGA TTATATGGAA GCAACCAAGG CATTCGCCCG CGAGCATGGC
TATGTCGAAA CCATTTTCGG GCGGCGTGCA CACTACCCGG ATATCCGCGC ATCCAACCCG
CAGGTTCGCG CTTTCAACGA GCGCGCGGCC ATCAACGCGC CGATCCAGGG GGCTGCTGCC
GATATCATCC GCCGCGCCAT GATCCGTATG GAAGATGCGC TGGCCAAGGA AAATCTCGCC
GCGCGTATGC TTTTGCAGGT CCATGACGAA CTGATCTTTG AAGTGCCTGA AAATGAGGTT
GAAAAGACTA TTCCGGTCGT GCGCCGCGTA ATGGAGAATG CGGCTATGCC TGCCGTCTCG
CTTGCGGTGC CGCTGCGTGT GGATGCAAGG GCGGCGCATA ACTGGGACGA GGCGCATTGA
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| Protein sequence | MKKGDHLFLV DGSGYIFRAY HALPPLTRKT DGLPVGAVSG FCNMLWKLLK DARNTDVGVV
PTHFAVIFDY SSKTFRKEIY PDYKANRTAP PEDLIPQFGL IRQATRAFNL PCIEKEGFEA
DDLIATYARL AEKAGGDVTI ISSDKDLMQL VTPSVSMYDS MKDKQISIPE VIEKWGVPPE
KMIDVQSLTG DSTDNVPGIP GIGPKTAAQL LEEFGDLDTL LARASEIKQN KRRENILAFA
DQTKIARELV TLKTDVPLDI DLDGLVLEPQ NGPKLIGFLK AMEFTSLTRR VAEATDTDAS
SVEPCHVETD WGADAHGPDV DVPEKADAAA ASQLLSAPTA AEPDQGYTPK ALAEGRAAQA
IAQKIDTSAY VCIRDIATLE QWLAEAAETG ILAFDTETTS LDPMQAELVG FSLALAPGKA
AYVPLQHKSG AGDLLGGGMV ENQIPLDMAL AALKRVLEDA SILKIAQNMK YDWLVMRRHG
INAVSFDDTM LISYVLDAGT GSHGMDPLSE RWLGHTPIAY KDVAGSGKSA VTFDMVDIDR
ATAYAAEDAD VTLRLWQVLK PRLAAEGLMS VYERLERPLV DVLARMEERG IAVDRQVLSR
LSGDLAQAAA AYEDEIYALA GEKFTIGSPK QLGDILFGKM GLPGASKTKT GQWSTSAQVL
EDLAAEGHPL PRKIVDWRQL TKLKSTYTDA LPGFINPQTK RVHTSYAMAS TSTGRLSSSD
PNLQNIPVRT AEGRKIRTAF IAEPGNKLIS ADYSQIELRV LAHVADIAQL KQAFADGIDI
HAMTASEMFG VPVEGMPSEV RRRAKAINFG IIYGISAFGL ANQLSIPREE AGQYIRTYFE
RFPGIKDYME ATKAFAREHG YVETIFGRRA HYPDIRASNP QVRAFNERAA INAPIQGAAA
DIIRRAMIRM EDALAKENLA ARMLLQVHDE LIFEVPENEV EKTIPVVRRV MENAAMPAVS
LAVPLRVDAR AAHNWDEAH
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