Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Bfae_05980 |
Symbol | |
ID | 8399146 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Brachybacterium faecium DSM 4810 |
Kingdom | Bacteria |
Replicon accession | NC_013172 |
Strand | - |
Start bp | 691710 |
End bp | 695024 |
Gene Length | 3315 bp |
Protein Length | 1104 aa |
Translation table | 11 |
GC content | 76% |
IMG OID | 644996682 |
Product | ATP-dependent exonuclase V beta subunit, helicase and exonuclease domain-containing |
Protein accession | YP_003154054 |
Protein GI | 257067799 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG1074] ATP-dependent exoDNAse (exonuclease V) beta subunit (contains helicase and exonuclease domains) |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 9 |
Plasmid unclonability p-value | 0.061722 |
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 | ATGAGCCCCA CCTTCACCCT GATCAACGCG TCGGCCGGCT CCGGCAAGAC GCACACCCTC ACCCACGAGA TCGCGGAGCG GATCGCCCGC GGCCTGGACC CTTCCGAGCT GATCGCCACC ACCTTCACCA CGAAGGCCGC CGCCGAGCTG CGCGACCGGG TGCGCCGCAC CCTGCTCGAG CGCGGCCAGC TCGAGGCCGC CCGCGGTGTG GACAGCGCCC TGATCAGCAC CGTCAACTCC GTCTCCGGGG AGCTGCTGCG CGAGTTCGCG CTCGACGCCG GCATCTCGCC GGACGTGCAG GTGCTCGACG AGGACCGGCA GAAGGCGGCG TTCCGCGCCG CGATCGACGA GACCGCCGCG CTGGCCGGCT CGCGCGCCGC CGCGCTGCTG GCCCGCACCG AGCACGACGG CGAGGAGGAG CCGGAGATGC CCTTCGGCGC TGCCCCGTCG TGGCGCGCGC ACGTGCGGCA GCTCGCCTCC CGCGCCCGCA CCAACCTGCT GGACGAGACG GCGCTGCGCG AAGGGGCAGA GGCCGCGTGG GAGGACTACC GCGAGGCCGC GCTGCCGCCC GCCGCCGCCG AGGACCGGCG CGGCGCCTGG CTGTCCGCCC TCGATGCGGC GCTCACGGCG CTCGAGGCGG AGCAGCGCAG CGCCGAGGCC GGCGAGGGGC CGTTCAGCGT GAAGACCGCC GGCACGGTCC GTCGGCACCT CGACGCGCTC GAGGCGCTGC GACGCGAGGT GGCCGACCCC GTCCGGGCGC CGTGGTCGCG ATGGGCGAAG CTCGCCGCCG TCGCCTCCGC GAAGGCCGCC GACCCCGAGG CGAAGGGCTA CGCCTACAGC AAGGACGTCG ACCACGCGCT GCTGGGCGCG GCGAGCACCA TCGCCGAGGA GCTGCTCGAG AACCCGGTGC TGCAGGCCGA TGTGCGGGCC TTGATCACGC TCGTGATGGA GACCGCCGCG GACTCCCTCG AGGCATACCG CCGGTACAAG GACGAGCTGG GGCTCATCGA CTTCATCGAC CAGGAGGTGC GCACCCTCGC CCTGGTGCGC GACTCCGCAC GGGCCCGCGA GGTGATCCGC TCCCGCTTCC GGCTGCTCGC GGTCGACGAG TTCCAGGACA CCTCCCCCGT CCAGCTCGCC CTCTTCCTCG CGCTCAGCGA GCTCGTCGAG GACAAGATCT GGGTGGGCGA CCCGAAGCAG GCCATCTACG GCTTCCGCGA CGCGGATCCC GCCCTGATGC TCGGCATCAT CGGCGAGCTC GACAGCGGCC GCACGAACCT CGGCGCCGCG GCGGTGCGGG ACCTCGAGCA CTCCTGGCGC TCCCAGCAGC CGGTGCTCGA CCTGGTCAAC GAGGTGTTCC CGCAGGTGTT CCCCGAGCTG CCGCGCCACC GCGTGGTGAT GGACGCGGCC GAGCCCGCGA CCGCCCGCCG CGCCGCCGAC GGGCACCGGC CCGGACGCCT CGAGGCGTGG CTGCCCCAGG TGCCGAAGCG GCTCACCCAC GGCCAGCACG CCACCGCGGT CGCCGACGGG ATCGTCGAGC TGCTCGAGGA CGAGGGCACC TGCCCCGCCG ACATCGCCGT GCTGGTGCGT TCCAACCGGC GCGCCGCCGA AGTGGTGCAG GCGCTGTCCG ACCGGGGCGT GCCCGCCACC GGGGAGGGCG TGGGCATCCT CGCCTCCCGC GAGGGGCGCC TGGTGCGCGC CGCGCTCGCG GTCACCCTCG ACCTCAGCGA CACCCTCGCC CTCACCGAGC TCGTGGACCA GCTGCCCGAT CACGCCGCGC ACGGGCGCTG GTTCGAGCAG CTCACCGCCG CACCGGACCG GGAGGCCCGC CGCGGCGTGT TCGCTCAGTG GTGGCAGGAT CCGGTGCTCG CCGGGCTGCG GGAGCTGCGC GAGGACTGCA TCTCCCTCAC CCCCGTCGAG ATGATCACCG CCCTCGTCGA CGCGCTCGAC CTGCCCGAGC GGATCCGGGC CTGGTCCACC CCCGATCAGC GGCTGCGCAC CCTCGACGCG CTGCGGAAGG TCGCCGCGCA GTACGCGGAC CGGGCCCGGG CCGATTCCGC GCCGATCACG CTCACCGGGC TGCGGATCGA GCTCGACGCC GTCGAGCACG GCCCCGACCT CTCCGGCATG GCCGCGACCC GCCCGGGCGC CGTGTGGGTG GGCACCATCC ACGGGGCGAA GGGCCTGGAG TGGTCGCACG TGGTGGTCAT GCTCGACCAT TCCCCCACCG AGCGGTCCCA GACGGCCGGT GCCTTCGTGG TCCCCGCCCC GCAGCTGGAC GTCACCGCGC CGCTCGCCGG CCGCTCCCCG CGCTACTGGC CCGGGGTGCT GCCCCGCCAC GCCCCGCTCC AGGACGCGCT CGCGGACTCG GCGCACGCCC GGCGGCGGGC GCACGCCGAG CAGGAGGAGA GCGGGCGGCT GCAGTACGTC GCGCTCACCC GCGCGGCCGA CGTCACCGTG CTCAGCGGCA ACGGCTCCGC CCCCGTGCTA GACGCCCTGG TGCCCGCCGC GGAGGCGGAC GCCCCGCCGC TGCTGACCTG GGAGGCGGGC GGCGCCGCGG TCCACGTGCG CGGCGGCGCC TCGCTGCCGG CACAGGTGCG CTCGCCGCGC GGCGAGCTCC CGCCCGACGC GGCGACCTAC CGGGCCCGGC GCAGCCCGCT CGCGGCCACG GACCTCACCG GCCCCGCCCC GGAGCGGCCC GGCGGGCCCG CCGCCCGCTT CCAGGCCTCG GGCGTCGCCT CCGCGGAGGA GCTCGGCACC GTCGGCGCCC CGCGCAGCAT CGGCCGGCGC CTCGTCCCCG ACACCGGCGG ACCGCAGTGG GAACGGGTGG GCGAGGCGAT CCACGCCTAT CTCGCGCTGC CGCTCCCGCA CCTCACCGCG GTGCAGCGGG AGGCCGCGGC CGCGCGCCTG GTGCAGCGGT GGGCGGTGTC CCGGGCCGTG GACGCGGCGG TGCTGCAGGA GGCCGGGGAG GCGTGGGCGG CGTTCCTGGC CGCCGAGTTC CCCGGTGCCG AGGAGCTCAC CGAGCAGCCG ATCACCTGGT GGAACGAGGA GGACCAGGTG ATGGAGGGCT GGATCGACAC CCTGCTGCGC CTGCCGGGCG GAGAGATCGT GCTGGTGGAC CACAAGTCCT ATCCGGGCAG CGAGCCGGTG CGGAAGGTGC GCGAGGAGTA CCTGGGGCAG ATGGCGACCT ATGCGCAGGC GCTCACCGCC GCCGGGGTCG CCCCGTCCCG GATCCTCCTG CACCTGCCGC TGCGCGGCGA GGTGCTCGAG GTGCAGCTCG CCGCACCGGA TGGGGAGCCG GCACATGCCC GCTGA
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Protein sequence | MSPTFTLINA SAGSGKTHTL THEIAERIAR GLDPSELIAT TFTTKAAAEL RDRVRRTLLE RGQLEAARGV DSALISTVNS VSGELLREFA LDAGISPDVQ VLDEDRQKAA FRAAIDETAA LAGSRAAALL ARTEHDGEEE PEMPFGAAPS WRAHVRQLAS RARTNLLDET ALREGAEAAW EDYREAALPP AAAEDRRGAW LSALDAALTA LEAEQRSAEA GEGPFSVKTA GTVRRHLDAL EALRREVADP VRAPWSRWAK LAAVASAKAA DPEAKGYAYS KDVDHALLGA ASTIAEELLE NPVLQADVRA LITLVMETAA DSLEAYRRYK DELGLIDFID QEVRTLALVR DSARAREVIR SRFRLLAVDE FQDTSPVQLA LFLALSELVE DKIWVGDPKQ AIYGFRDADP ALMLGIIGEL DSGRTNLGAA AVRDLEHSWR SQQPVLDLVN EVFPQVFPEL PRHRVVMDAA EPATARRAAD GHRPGRLEAW LPQVPKRLTH GQHATAVADG IVELLEDEGT CPADIAVLVR SNRRAAEVVQ ALSDRGVPAT GEGVGILASR EGRLVRAALA VTLDLSDTLA LTELVDQLPD HAAHGRWFEQ LTAAPDREAR RGVFAQWWQD PVLAGLRELR EDCISLTPVE MITALVDALD LPERIRAWST PDQRLRTLDA LRKVAAQYAD RARADSAPIT LTGLRIELDA VEHGPDLSGM AATRPGAVWV GTIHGAKGLE WSHVVVMLDH SPTERSQTAG AFVVPAPQLD VTAPLAGRSP RYWPGVLPRH APLQDALADS AHARRRAHAE QEESGRLQYV ALTRAADVTV LSGNGSAPVL DALVPAAEAD APPLLTWEAG GAAVHVRGGA SLPAQVRSPR GELPPDAATY RARRSPLAAT DLTGPAPERP GGPAARFQAS GVASAEELGT VGAPRSIGRR LVPDTGGPQW ERVGEAIHAY LALPLPHLTA VQREAAAARL VQRWAVSRAV DAAVLQEAGE AWAAFLAAEF PGAEELTEQP ITWWNEEDQV MEGWIDTLLR LPGGEIVLVD HKSYPGSEPV RKVREEYLGQ MATYAQALTA AGVAPSRILL HLPLRGEVLE VQLAAPDGEP AHAR
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