Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Dtur_0014 |
Symbol | |
ID | 7082281 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Dictyoglomus turgidum DSM 6724 |
Kingdom | Bacteria |
Replicon accession | NC_011661 |
Strand | - |
Start bp | 14094 |
End bp | 17462 |
Gene Length | 3369 bp |
Protein Length | 1122 aa |
Translation table | 11 |
GC content | 34% |
IMG OID | 643457142 |
Product | reverse gyrase |
Protein accession | YP_002351969 |
Protein GI | 217966463 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG1110] Reverse gyrase |
TIGRFAM ID | [TIGR01054] reverse gyrase |
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Plasmid Coverage information |
Num covering plasmid clones | 9 |
Plasmid unclonability p-value | 0.492155 |
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 | TTGATAGAAG CGATTTTTAA GAATCTTTGT CCTAACTGTG GTGGAGATAT AGCTTCAGAG AGACTTCTTG CGGGGCTTCT CTGTGAAAAA TGTCTTCCTA AAGAAGTTCC GCAAGAAGTC TTATGTAATC ATATTAAAGA AGAGGATTAT GATCTTTGCT CTTTAAAGAA AAAATATGGT GAATGGGAAA GAGTATTTAA GAGCTTTGTT GGTTTTGAAC CTTGGGAACT TCAAAAATTT TGGGCTAAAA AACTTCTTCT TGGAAGATCT TTTGCTCTCC TTGCTCCTAC AGGAATAGGT AAAACTTCAT GGGGTCTTGC TACTTCATTA TATTTTGCTA AGAAAAATAA AAAATCTTAC ATAATACTTC CCACAAAACT TCTTATCCTT CAAAGCTATG AAAAGTTAAA AGACAAAATA AGGGAAGAAG ATCTTCTTGT ATTTGGTCTT GATGATACTA AAAAAGAAAA GGAAGAAAAA AGAGAAAGAT TAGAAAAGGG TGATTTTAAA GTTTTAATTA CCTCCTCTAT GTTTCTCTAT AAAAACGTGG ATATTATTCC TAAAGATTTT GGCTTTGTAT TTGTGGATGA TGTGGACTCT TTCTTAAAAA CTGCAAAGAA TATTGATAAA GCTTTATATC TTCTTGGCTT TAGCGAAGAA GATATAAACC TTACCATGAG TTATATACGT ATGAGGAAAA ATGGAGAAGA AGAAGTTAAA AGAATGCAAG AAGAGGTAAG AAAAATAGCT AAGAAGGCAA AAGGAGTTAT GGTGGTTTCC TCCGCCACTA GTAATCCAAA ATCGGAGAGG ATAAGGTTAT TTAAAGAACT TCTTGCCTTT GATGTGGGAA GGCCAGTATT TTATTTAAGA AATGTGGAAG ATATATATGA GGAAGTAGAA GATCTTAATA AAACCCTTGT GGAAAGGGTA AAAAGATTAG GAAAAGGTGG ACTTGTGTTC CTTTCTTCAG ATTTCGGAAA GGAATATGTA GACGAAGTTA AAAATTTACT AATAAATGAA GGAATAAGTG CAGAAAGTTA TGACAATTTA ACTCCTGAGG TTCTTGAAAA ATATCAAAAA GGTGAGATTT TTGTTCTCAT AGGTATATCC TCTTATAGAA ATCCTCTTGC TAGGGGCTTA GATCTTCCAG AGGTTATAAG ATATGCTATT TTTTATGGAG TTCCCAAAAT TGTAGTAAAT CTTGATCTTG AAGGAAATGT AAGGCATCTA CTTATAGCCC TTGCCTCTAT AAGACCTCTG GTTGCTAGGG ATAAGAATTT AGAAAAACAT GTAGCTAATT TGGACCGATG GATGAAGACT TTAAAAAGAT ATTCATCTAT GCTAAATCCT CCGAGGGATA AAGTTGAGGA ATTAAGAAAT ATTATAAAAG CTTTTATCCT TTCTCCTGAG GTTTATGAAA AGATAAAAAG TGCCGATGAT ATTGCCATAA GAGAGGAAAA TGGGAAGTGG GTCCTTGTGG TTTCTGATAT TACTGGATAT CTTCAGGCGT CGGGTAGGAC CTCAAGGCTC TACGTGGGAG GAATATCTAA GGGTTTAAGT TATATTCTTG TAGAGGATAA AAAGGTCTTT AATAACTTAG TAAGAAAGAG TAGATGGTGG TTTAGCACAG ATATTATTTT TAAAGAGTCA AATACTGTTA ATCTTGACGA AATTTTAAAA CAGATTGATG AAGACAGAGA AAAAATTAGA AAAAAAGAAG GAAGAAGAGA TGACTTTCTG AAGCCTGTAT TGGTTATTGT GGAGTCTCCT CATAAAGCAT GGACTATTGC AAATTTCTTT GGAAGACCCA TTTCAAGAAA TGTAAATGGA CAAGAACTCT TTGAGGTAAT CACTGAGGAT AAATATTTAG TTATTACTGC TTCTTTTGGG CATATTTTGG ATTTAAATAA AGAAATTGGT TATTATGGGG TTATTGAAAA TGGTAAATTT ATACCTGTTT ACGAACCTAT AGAGGGAAAA GAAAAAATTA TCTCTGGCAT TAGGGATGCC AGCAAGGAAT TTGAAATGAT TCTTGTGGCA ACTGATCCCG ATACAGAGGG AGAAAAGATC TCATGGGATC TTAAAAATTT ATGTTCTCCC TTTACAAAAG AGATAAGAAG AATGGAATTT CATGAGGTAA CTAAGAAGGC AATACTTAAC TCTTTAAAAG AATATAGAGA TGTGGATGAA AATCTTGTTA AGGCACAAGT GGTAAGAAGG ATATCTGATA GATGGGTGGG TTTTGAATTA TCTCAACTTA TTCAGAGGAT ATTCTACAAA AACTATCTTT CTGCTGGAAG GGTGCAAACT CCTGTTTTAG GATGGGTAAT TGAGAGGGCA AAGGAAAATA AGAAGAGAGT ATATTTAGTA TTAATAAAGA AAGATGGACT TGATTTGAGA TTTGAATTTG AAAATAAGGA TGAAGCTCAA AAATTTTACA ATGAGCTTAA GTATATAGAG GTGACAAAAG AGACTGAGAA AGTTGAAGAA AAGAGTCCTC TTCCCCCCTA CACTACTGAT GCCGTATTAA AAGATGCTTC TGATAGGTTT AAGCTTTCGG TCTCAAGAAC TATGGAGGTG CTTCAAGAAC TTTTTGAAAG AGGGTTTATT ACTTATCATC GTACTGATTC TACAAGGGTA TCGGATACAG GAATAAATGT GGCAAGAGAA TATATAAATG AGCAATTTGG AGAGGAATAT TTTAGGGGAA GAACTTGGGG AGAAGGTGGA GCCCATGAGT GTATTAGACC TACCAGGGTT CTTGATGTGG AAGATATTAA AGCCATGATA TATTCGGGAG AGCTTGAAGG ATTTACTCCT GATCACTTAA AGATTTATGA TCTTGTCTTT AAGCGGTTTA TTGCCTCTCA GATGAGAAAT GTGATATTAA GGGGATATGA GGTTTTAGTG AAAGCCATTG ATAAAGAGCA AAAGTTGGAT GTTTATGAAG AAGTTGTTCA AAATGGTTTT GATAAAATCT TCCCTATTAA ACTTGCTAAA ATACCTGAGG GAGAGATAGA TGTAGTTAAT AACAAGTTCT TCTATAGTAT TCCTAAGGTG CCATTGTTTA CCCAAGGCTC TCTTGTAGAA GAGATGAAAA AGCGTGGTCT TGGAAGACCG TCTACTTATG CTACTATTGT AAGTAGGCTC CTTGAGAGAG GATATGTAAT AGAGAAAAAT GGATATCTCA TACCTACACC CTTAGGGGAG AAGGTCTATC AATATCTTAA TTCGGACCAA GAGAAGTTTC GTTTTGTGAG GGAGGATTTT ACTCGAGAAT TAGAAGAGCT GATGGATAAG GTTGAAAATG GAGAGAGGGA TTATCAAGAA ATTCTTAAAA GTTTAAGAAA TGAGCTTGAA AAAGTTTAG
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Protein sequence | MIEAIFKNLC PNCGGDIASE RLLAGLLCEK CLPKEVPQEV LCNHIKEEDY DLCSLKKKYG EWERVFKSFV GFEPWELQKF WAKKLLLGRS FALLAPTGIG KTSWGLATSL YFAKKNKKSY IILPTKLLIL QSYEKLKDKI REEDLLVFGL DDTKKEKEEK RERLEKGDFK VLITSSMFLY KNVDIIPKDF GFVFVDDVDS FLKTAKNIDK ALYLLGFSEE DINLTMSYIR MRKNGEEEVK RMQEEVRKIA KKAKGVMVVS SATSNPKSER IRLFKELLAF DVGRPVFYLR NVEDIYEEVE DLNKTLVERV KRLGKGGLVF LSSDFGKEYV DEVKNLLINE GISAESYDNL TPEVLEKYQK GEIFVLIGIS SYRNPLARGL DLPEVIRYAI FYGVPKIVVN LDLEGNVRHL LIALASIRPL VARDKNLEKH VANLDRWMKT LKRYSSMLNP PRDKVEELRN IIKAFILSPE VYEKIKSADD IAIREENGKW VLVVSDITGY LQASGRTSRL YVGGISKGLS YILVEDKKVF NNLVRKSRWW FSTDIIFKES NTVNLDEILK QIDEDREKIR KKEGRRDDFL KPVLVIVESP HKAWTIANFF GRPISRNVNG QELFEVITED KYLVITASFG HILDLNKEIG YYGVIENGKF IPVYEPIEGK EKIISGIRDA SKEFEMILVA TDPDTEGEKI SWDLKNLCSP FTKEIRRMEF HEVTKKAILN SLKEYRDVDE NLVKAQVVRR ISDRWVGFEL SQLIQRIFYK NYLSAGRVQT PVLGWVIERA KENKKRVYLV LIKKDGLDLR FEFENKDEAQ KFYNELKYIE VTKETEKVEE KSPLPPYTTD AVLKDASDRF KLSVSRTMEV LQELFERGFI TYHRTDSTRV SDTGINVARE YINEQFGEEY FRGRTWGEGG AHECIRPTRV LDVEDIKAMI YSGELEGFTP DHLKIYDLVF KRFIASQMRN VILRGYEVLV KAIDKEQKLD VYEEVVQNGF DKIFPIKLAK IPEGEIDVVN NKFFYSIPKV PLFTQGSLVE EMKKRGLGRP STYATIVSRL LERGYVIEKN GYLIPTPLGE KVYQYLNSDQ EKFRFVREDF TRELEELMDK VENGERDYQE ILKSLRNELE KV
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