Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Apre_0523 |
Symbol | |
ID | 8397300 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Anaerococcus prevotii DSM 20548 |
Kingdom | Bacteria |
Replicon accession | NC_013171 |
Strand | + |
Start bp | 604626 |
End bp | 607991 |
Gene Length | 3366 bp |
Protein Length | 1121 aa |
Translation table | 11 |
GC content | 36% |
IMG OID | 644994882 |
Product | UvrD/REP helicase |
Protein accession | YP_003152291 |
Protein GI | 257066035 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG1074] ATP-dependent exoDNAse (exonuclease V) beta subunit (contains helicase and exonuclease domains) |
TIGRFAM ID | [TIGR02785] recombination helicase AddA, Firmicutes type |
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Plasmid Coverage information |
Num covering plasmid clones | 21 |
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 | ATGACTAAGA TGGAATTTAG TAAAGACCAA AAGGCTGCTA TAGAAACTAG AGGAAAAAAT ATAATAGTTT CAGCTGCGGC AGGATCTGGT AAGACCAGCG TTCTCGTAAC GAGGATTATC CGCCTTCTTA TAGAAGATAG GAAGGATATA GGAAGTTTTA TTATAGTTAC CTTTACCAAC AAGGCCTCTG TCGAGATGAA AGATAGGATA AGGACTGCCC TTGAAGAAGA GTTAAAGAAA AAGGGAAGTG ATCTTAAGTT TATCAAAGAC CAACTCAAAA ACCTAAAGCA TGCCCAAATC AAAACCCTCC ACTCCTTCTG TGCGGATATG CTAAGAGAAA ACTTCTATTA CTTCGATGAC TTATCTCCAA ACTTTAAGGT AATAAGTGAA AATACGGCGA CAATCCTAAA GTCAAATGCC ATTGATGAGG TCTTTGACAA AAGATATGAG CAGATGGACC CTGCCTTTGA AAACTTCCTC CACAACTTTG CTACTAATAA GTCAGATAGT GGGGCAAAAG ATATTATCCT AAAGACTTAC GAGAAAATTA TGGCTGAAGT AAGGCCAATT GCTTGGCTAG ATCAGGCGAC TTCGGAAGGC TTTAAGCTTG ATAAGTTTAA GGAAACTGTA AGAAGCGAAA TGGATCAAAT CCTAGACTTA GCTAGGACCA ACTACGACTT TACCATGGGC CAAGGCATGC GTGATAAGCA CCAAGAGCTA ATCTTCGATG ACTTCTCTCA AATTAATGAT CTTACTATCT TACTTGATAA GGATTGGGAT AAGTTTATAA GAAAGATTGG TAAAATTAAA TTTGGAAGGA TATCTAAATC CAAGAAGGAT GTTGAGGAAG ATTATAGCTT TATTAAGGAT ACGAGAGATC TCTACAAGGA AGATATCAAA AATGTGGCCA AGTTTGTAAC CAATACAGAT AGCCTAACCA TGGAGCTTTT TGCCAAGAAG GAAGAGGACC TTCTTTCTGA AATTAATGTC TTGGTCAAGG ACTTCATGAA AGTCTATCGA AGGCTTAAAG AAGAGAAGGC CTATCTCGAC TTTTCTGATA TGGAGCATAA GTTTATCGAC CTGATCGACA TAGAAGAAGC TAGAAATAAG CTTAGGGAGA CTTACAAATA TATATTCTTT GACGAATATC AAGACTCAAA CGAAATCCAA AACTACATTA TAGAAAAGCT TAAGGGAGAA GATAATCTGT TTTTTGTAGG AGATGTCAAG CAGTCCATCT ATGGCTTTAG GAGGGCTGAG CCAAAACTTT TCCTAGAAAA ATTAGAAGCT TACGACAAAG ATGATAAGTC AGTTAGGATT GACCTTAACA AGAACTTTAG ATCTCAAAAG GACGTCCTAG ACTTCGATAA CTTTATCTTC GATAGGCTAA TGACCAAGGA AGAAAGCGAC ATCGACTATA GGGATGGAGG CCACAGACTT AACTTTAATA AGAATGAACA AAGTGCCTAC GAAAGGGCCA ATATAAAGGT CATAGATAGT AAAATCCGTG AGGAAGATTA TCTGGCAAAA CTTATTGAAG AGATAAGGGC TATGGGCTAC GATTATCGTG ACATAGCAAT TCTCTTAAGA AGTGGAGGAA AGTCCTATGT CTACGAAGAA GCCTTCAAGA AGGCGGAGAT TCCATTCTTT AACGATATAA GCAAGGTATC CTTTAGGGCT GTTGAGGTTA CATTTTTCAT CAATCTCTTA AAATATCTTG CCAATCCAAA AGATGACCTA ACTCTTTTAT CTCTTTTAAG ATCTGAAATT TTTGATTTTG ATGAAGATGA TTTGGTTGAA ATTAGATTAA GCTCTGATTC TTATTCCTTT ACTAAGGCCT TTGATGAATA TGACAAGGAT GAAGAAATAG TTGAGAAAAT CAATGACTTT AAGACGATCT TTGCTGACTT AACTTATGTC AAAAACCTCC TTTCACTTTA CGAATTTGCC AACTATGTCT TTGAGAAGAC AGGATTTTAT GAATACTTGC TAGCGAGAGA TAGGGCAAGT GATAGGATAA ACAATGTCGA AAGCTTTATA GATATCATGG ATGAGTATGA TAGGACCAAT GACAATGGGC TATTTGGCTT CTTGGAATTT GTAGATTCAC TTTCTATAAA TCAATCGGAC AATATCCAAA CAACAAGAGA GCTTTCTGAG GCGGAAGATT TAGTTAGGAT AATGACTATC CACAAGTCCA AAGGTTTGGA ATTTCCAGTA GTAATCCTTG CAGACTGTGG CAAGAGATTT AACAACAAGC ACTTGCGTGA GCCGATTGTA TTTGATGATG ATTTGGGAAT TGGGATCAAT CTTTCTGATT ATGAAAACAA GTTGAGATTC TCATCCCTTA GGAAAAATCT TATCAATGAT AAAATAACTA AGGAAAATAA GAAAGAGGAG ATGCGAATCC TTTATGTAGC CATGACTAGG GCAGAAGAGA TGCTTTTTAT CACTGGCGAG AGAAATCTTA AGACAGTAGG AAGATTAAAG GGACGAATTG ACTTTCTCAA TATGTCTACC TATATGGATT GGATTCTTTC AATTCTGTCA AGAGATAAGG TCTCAGAAGA ATTATTTGAA GAATATGAGA CCAATGCCCT AGATGGTCTA GCTTCCCTTG AAGTAATAGA AGAAAGTGAC CCTATTGATA AGTTTGAGTC TAAGGATATT ACAGACTTTC TTAAAAGTGA AGATGTAAAT CAAGAAATTT ATAATAAACT CAAGCAAATT TTCGATAGTC CATATCCTTA TGAGGACCAA ACTAGGGAAT CTATCAAAAG ATCTGTTACA GAAATAAGTA AGGACTTTGA TCCTTCCCTT GACGGCTATA GGCTTCCTAA CTATGAGGAA AACGAGCTAG CAGGAGATTT TAGGAAGGCA AATTTCATAA GAGAAGAAAA ATCCTACAAG GCTACCGATA AGGGAACTAT GATCCATAGA ATCTTCCAAG CCCTAGACTT CAAGGACTAT GATAAAGTAA GCCTTAAGGA AGAAATCGAT AGACTTATTA GGGAAAAAAG GATTGAGGAA GATAGCTTGG ACCTAGTAGA CTTAGATAAA ATCCTAGGCT TTTTCGAAGA TCCTTTTATC AAAGATATAT CCCAAAAGGC GACAAATATC AGAAAAGAGG AGTCCTTCCT TATGACCTAC GAGGACTATT ATGTCAATGG GCAGATAGAT TTGATATTTG AGATAGATGA CAAGGTAATC TTAATCGATT TTAAGACGGA TAGAACTAAG CGAGAAAACT TATATAAGAA ACAAATCCAA ATTTATAGAC AGGCTATAGA AAAATCTCTA GGAAAAAAGG TTGAGACGTC TCTAATCTAC TGGTATAACT TTAAGGAATT TACAAAAATC GAATAA
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Protein sequence | MTKMEFSKDQ KAAIETRGKN IIVSAAAGSG KTSVLVTRII RLLIEDRKDI GSFIIVTFTN KASVEMKDRI RTALEEELKK KGSDLKFIKD QLKNLKHAQI KTLHSFCADM LRENFYYFDD LSPNFKVISE NTATILKSNA IDEVFDKRYE QMDPAFENFL HNFATNKSDS GAKDIILKTY EKIMAEVRPI AWLDQATSEG FKLDKFKETV RSEMDQILDL ARTNYDFTMG QGMRDKHQEL IFDDFSQIND LTILLDKDWD KFIRKIGKIK FGRISKSKKD VEEDYSFIKD TRDLYKEDIK NVAKFVTNTD SLTMELFAKK EEDLLSEINV LVKDFMKVYR RLKEEKAYLD FSDMEHKFID LIDIEEARNK LRETYKYIFF DEYQDSNEIQ NYIIEKLKGE DNLFFVGDVK QSIYGFRRAE PKLFLEKLEA YDKDDKSVRI DLNKNFRSQK DVLDFDNFIF DRLMTKEESD IDYRDGGHRL NFNKNEQSAY ERANIKVIDS KIREEDYLAK LIEEIRAMGY DYRDIAILLR SGGKSYVYEE AFKKAEIPFF NDISKVSFRA VEVTFFINLL KYLANPKDDL TLLSLLRSEI FDFDEDDLVE IRLSSDSYSF TKAFDEYDKD EEIVEKINDF KTIFADLTYV KNLLSLYEFA NYVFEKTGFY EYLLARDRAS DRINNVESFI DIMDEYDRTN DNGLFGFLEF VDSLSINQSD NIQTTRELSE AEDLVRIMTI HKSKGLEFPV VILADCGKRF NNKHLREPIV FDDDLGIGIN LSDYENKLRF SSLRKNLIND KITKENKKEE MRILYVAMTR AEEMLFITGE RNLKTVGRLK GRIDFLNMST YMDWILSILS RDKVSEELFE EYETNALDGL ASLEVIEESD PIDKFESKDI TDFLKSEDVN QEIYNKLKQI FDSPYPYEDQ TRESIKRSVT EISKDFDPSL DGYRLPNYEE NELAGDFRKA NFIREEKSYK ATDKGTMIHR IFQALDFKDY DKVSLKEEID RLIREKRIEE DSLDLVDLDK ILGFFEDPFI KDISQKATNI RKEESFLMTY EDYYVNGQID LIFEIDDKVI LIDFKTDRTK RENLYKKQIQ IYRQAIEKSL GKKVETSLIY WYNFKEFTKI E
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