Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Apre_0522 |
Symbol | |
ID | 8397299 |
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 | 601268 |
End bp | 604633 |
Gene Length | 3366 bp |
Protein Length | 1121 aa |
Translation table | 11 |
GC content | 35% |
IMG OID | 644994881 |
Product | ATP-dependent nuclease subunit B-like protein |
Protein accession | YP_003152290 |
Protein GI | 257066034 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG3857] ATP-dependent nuclease, subunit B |
TIGRFAM ID | [TIGR02773] ATP-dependent nuclease subunit B |
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Plasmid Coverage information |
Num covering plasmid clones | 29 |
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 | ATGATAGAGA CAATTATTTC AAGATATCCT AAGGAGATGT CTACTTATAT TTACAAGAAA ATCGAAGAAG ATTTAAAAAA TGGCAAGAAG GCGCTTTTGA TAGTGCCAGA GCAATATACC CTCCAAACCG ATATTAATTT TCTTAAAAAT ATTTCCTTTG AGGCGGTAAT GGATGCCAAG GTATTGAGTT TCTCCTCTCT TAAAAGCTAT ATCGGGGAAA AAATCGGTCA GGCAAATGAG AAATTTCTTA CAAAAAATGG GAAAATCATC CTAATTTCCA ATATCCTCCA AGATATGAAT GATAAGCTTA GTTTATTTCA AAACAAATAT TTCAATATAG AGTTTGTGAA CAATATTTCT TCTTTAATCT CATCTATCAA GGACAATAAC TTTGATGAAG ATTTCTTTAA GAAAATCGAA GAGAGTGATG ATCCTATTAC GAGGATTAAA TTTAAAGAAG TGAAGATGAT CTACGATGCC TACGAGAAGG AAATTTCAGG AAAATTCATA GACTCTGAGG ATAGCCTATC TTATATTATA GAAAGACTTC CTCACTGTGA CTTTCTAGCT GATACAGTAT TTTACTTTGA TAAGTTCGAT AGCCTATCAG AACTTAAGCT TTCCTTTGTA GAAGGGCTTA TAAATAGGGG AAATGAAGTT TTCTTTAGCC TAAATCTCGA TACAGAATAT ATTAATAGTA ATATTTTTTC AGACTTGGAG TTTTTCGACT CTACTGATAA GCTCTATAGA AAGTTGAATG AAATAACTAG GACTCACGAT ACAGTCCTTG ATAATACGAG CCTTGCGAAA GAAGATATAG GCCATCTTGC TAGAAACTTC GAGAGATTTA ATCCTTTGAA ATTTGGAGGA AGTCCTAATA ATATACGTTT CCTTGAAAAT CCATCTACTA AGACAGAGGT TGAAAATACT GCAAGAATTA TAAATTATCT AGTAAAAGAA AAGGGCTACC GATACAAGGA CCTTGCTATT TATATTTCTA GTGAAGACGA ATATAAAAAT GAAATAATAA AAGTCTTCAA TAGATATGAC TTGCCGATTT TTATGGATTC TGATAGGAAG CTTATAGACA ATCACATAGT AAAGACGTTT TTGGCTATTT TAAGACTTGT GATTTATAAT TTTAACAGTC AAGACTTAAG CTATTTTCTA AGGTCTGGTC TTTTTAGTTT CTCAGTAAAC TTTGAGGAAA AGACCATAAT TCTTGAAAAT TATATCAAAA ACAGGAAGAT TAAGGGCAAG ATGTTTCTTG AGGACAAATA TTTTGTCTAT GATGAAGACT TCTACAAAAA TCTGTGCGAG AATGATCCCA AAAGAGAAGA GAAACTAGGG GCAAAGACTT ACGAATACCA AGTTATAAAT GAGCTAAGAG ATAGGATTTT GGATCTTCTT AATCCTCTTT TAGAGCTAAA AGAAGAAAAG ACCAGGGATC TTTGTATAGG AATCTTTAAT ATTATAGATG ATAAAGACAT AAGAAGGGGA ATCGCTAGCT TCCAGAAAAT CTTAAAGGAA AGTGGAAGGC TTGATGAATA CAAGGAAAAC GACCAGGTCT GGGATAAGTT TGTAGAAATA CTTGAAGAGA TCGTTGATCT TATGGGAGAA AGGAGTTCGA GCCTTAGGAA GGTTTATTCC TTGATTGAAG CTACATGTAA GGACATCAAT GTAGGAATTA TCCCACCTAG TAAGGACCAT ATAGAGATAA CAAGTTTTGC CAGAGCGAGG ATTGCCGATA GGGGAGTAAA CTTTATCCTA GGACTCAATG ATGTTTTCTT TCCTTCAACT AATAGGGAAG ACCTCATTGT AGGCAAGGGA GAAAAGGATA AGCTAAGGGC CCTTGACCTT GACCTAAAGG TTTTCGACGA GGACTTCGAA GAGCGTGAGA AGCTTGTCTT CTATAAGCTA ATTACCATAT CAGATAAGCT CTTCTTATCG TATTCCCTTG CCAATAGGAA AAGTGAAGCG ATCAATAAAT CAATCATCCT AAATTCTATT ATGAATATCT TCTCTGATAG GGAAGGGAAG ACTTACGGGA TGGTTTATGG CAATGACTTG GGTCTTTCCA TAGAGAAATT TTCCTACAAG ACTATGGAAG TAAGAGCTCT AAGAAGTATC AGACAGATGA TGAGAAATGA GAATGTAGAT GAAAATGATA GGGAAATTGC TAGGGCCTTT ATCAAATATC TTAAGGAAAA TGACTCATAT GAGTTAATAG AAAAGGGCCT AAACTTTACT AATGATAAGA AAAATCTTAG AGAAGACTTG GCAGGTTCTT TATATAAGAA AAACCACTTT AATGTAAGCG AGATCGAAAG CTATTCTAGG TGCCCTTACA AGTATTTCGT AAACTACGGC CTAAGGCCAA ATATCGACGA AAGCTATGAA GTAGACCATA TGGAAGTGGG AAATATTGTC CACAAGCTCT TTGAGGATAT TTCAAGAAAC TTATCAGAAA AAAACATAGA AGAGCTTAAG GCAAGTGATC TAGAGGATAT ACTGATAGAA AACTTCAAGG AAGCGACCCT TAGAAATCTC GACAAGACCA GAAGAGAAAA TCCTAGGAAT AAATTTATCC TAAACAATGT CCTAAATTCT GCCAAGAGAA ATTCAGAAAA GTTAATCGAC CAGGTAAAAA GTGGGGATTT CAAAATCTAT GCTGTAGAAA AAGATTTTGG CTACGAAAAT GAAGACAATC TGCCAAAAGT TTATGTTGAC GATAAAAATT ATCTGAGGGG AAGGATCGAT AGGATTGATA AGGCTGGCAA TTTCGTAAGA ATTATCGACT ACAAGACAGG AAATAAGACC TTCAAGATTA TAAATCTCCT AAACGGCCTA GACCTCCAGC TCTTAGTTTA TATGATGTCG GCTACAGAAA ACGAGAAGGA CCTTATGATC CCTGTAGGAT CCTTCTACAT GCCCCTATAC GATGAGATGG AGTCAGTAAA TAGCGAGGGA TATTCTCCCG AGACCGTAGA AAATGCAATG AATGATAAGT TTAGGATAAA TGGCCTTATA GTTAAGATTA ACGAAGAAAT CTTTAAGATA ATAGATAAAA ATGCTGAAAG TCCGAAGGAA TCTACCATCC TTGATTATAA GAATTCGGAC GTGCTTAGCC CTGAGGAAGT GGTTAAGCTT GAGCAATTTG CCAAAAGTTT AGTGGGAGAA TTTATCAAAA ATATCAAAGA AGGAGATATC AGCCTTAAGC CCTTGGCCTA CGATTCAAAT AGGAATGAGT GCCAGTATTG CGACTTTAAG GGAATATGTA AGTTCGATGA AACTATCGAC CAGCTTCGTT ACAGGAATTT TGATAAGGAT AAGACAATAG AGGATTTGGG AGGTGAAGAT GACTAA
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Protein sequence | MIETIISRYP KEMSTYIYKK IEEDLKNGKK ALLIVPEQYT LQTDINFLKN ISFEAVMDAK VLSFSSLKSY IGEKIGQANE KFLTKNGKII LISNILQDMN DKLSLFQNKY FNIEFVNNIS SLISSIKDNN FDEDFFKKIE ESDDPITRIK FKEVKMIYDA YEKEISGKFI DSEDSLSYII ERLPHCDFLA DTVFYFDKFD SLSELKLSFV EGLINRGNEV FFSLNLDTEY INSNIFSDLE FFDSTDKLYR KLNEITRTHD TVLDNTSLAK EDIGHLARNF ERFNPLKFGG SPNNIRFLEN PSTKTEVENT ARIINYLVKE KGYRYKDLAI YISSEDEYKN EIIKVFNRYD LPIFMDSDRK LIDNHIVKTF LAILRLVIYN FNSQDLSYFL RSGLFSFSVN FEEKTIILEN YIKNRKIKGK MFLEDKYFVY DEDFYKNLCE NDPKREEKLG AKTYEYQVIN ELRDRILDLL NPLLELKEEK TRDLCIGIFN IIDDKDIRRG IASFQKILKE SGRLDEYKEN DQVWDKFVEI LEEIVDLMGE RSSSLRKVYS LIEATCKDIN VGIIPPSKDH IEITSFARAR IADRGVNFIL GLNDVFFPST NREDLIVGKG EKDKLRALDL DLKVFDEDFE EREKLVFYKL ITISDKLFLS YSLANRKSEA INKSIILNSI MNIFSDREGK TYGMVYGNDL GLSIEKFSYK TMEVRALRSI RQMMRNENVD ENDREIARAF IKYLKENDSY ELIEKGLNFT NDKKNLREDL AGSLYKKNHF NVSEIESYSR CPYKYFVNYG LRPNIDESYE VDHMEVGNIV HKLFEDISRN LSEKNIEELK ASDLEDILIE NFKEATLRNL DKTRRENPRN KFILNNVLNS AKRNSEKLID QVKSGDFKIY AVEKDFGYEN EDNLPKVYVD DKNYLRGRID RIDKAGNFVR IIDYKTGNKT FKIINLLNGL DLQLLVYMMS ATENEKDLMI PVGSFYMPLY DEMESVNSEG YSPETVENAM NDKFRINGLI VKINEEIFKI IDKNAESPKE STILDYKNSD VLSPEEVVKL EQFAKSLVGE FIKNIKEGDI SLKPLAYDSN RNECQYCDFK GICKFDETID QLRYRNFDKD KTIEDLGGED D
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