Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Ssol_1941 |
Symbol | |
ID | 0 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Sulfolobus solfataricus 98/2 |
Kingdom | Archaea |
Replicon accession | CP001800 |
Strand | + |
Start bp | 1723162 |
End bp | 1726662 |
Gene Length | 3501 bp |
Protein Length | 1166 aa |
Translation table | 11 |
GC content | 33% |
IMG OID | |
Product | reverse gyrase |
Protein accession | ACX92152 |
Protein GI | 261602549 |
COG category | |
COG ID | |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 8 |
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 | ATGATTAATG TAATGTATAA AAATTCCTGC CCTAACTGTG GTGGGGACAT TTCTGGTGAC AGATTGCTGA ATGGTCTGCC ATGTGAGGCT TGTTTACCTT ATATTAACGG AATAGATGAT GTAGACCATA TTTCAAAGGT AAAAACGTTA TACAATATTT TACTTAATAA CGATAAAATT AAAAATTATT GGAATTTATA TTATAACATC ACTACATTTG AAACTGTCTT TAAATATTTT AGAGATAAAA CTGGATATGA ACCTTGGTCT CTCCAGAAAC TATGGTTAAG AAGGCTTGCG AGTAATCAGA GTTTCACTAT GTCAGCTCCA ACTGGATTGG GGAAGACAAC CACATTGATG ACCTATTCTG TCTTTATTGG CCAAGATGTA GTATATATCG TTCCCACAAA GTCCTTAATG GAACAAGTAT GTAAAAGATT AGAGAAATTA GGTGCTCAAG TATCTTGTGG TAAAATTGAT CAAAAGAAAG TAAGCGTAAT AACAATAAGT TACCTAAATA AGAACGCGGA CTCGATAGTA AGCCTTAAGC CAAACTTTGT CGTAATAGAT GATGCAGATG CCGTAATAAA GAGCGGTAAA ACAACTGATA GACTTGTTAG CTTATTGGGG ATTCCGAAGG ACGTTTATGA GAGTGCGATT CAACTAATTA GGCTAAGGAA TAAATACTAT TTCTCTAACG AATACACGGA AGAAGTTAAA GAAAAAATTA GAGAATTGGA GCTTAAGATA GCAGAATTTA AGGATAAAAT TTCACAGCTA GTTATAGCTA GTGCTACAAT ACGACCTAAA GGCATTAAGC AAAAAGCTTT AAGGTTATTA ACAGGTTTTG AACCTTCTTC TATTCAGTTA TATGCTAGGA ATATAATTGA TGCTTATACT GAAAATCTAG ATCTTTCAAT AGTCAAGGAA TTAGGAAGTG GTGGGTTAAT TCTAGTTTCG AAAGAATATG GTAGGTCCAA ATTAAATGAA ATAAAGAAAT ACGTTGAGGA CTTAGGTTTT AACGCTAAAT TAGCAATAAG TGGAAGGAAA TTCCTCGACG ATTTCTCTCA AGGTAAAGTA GATATTCTAG TAGGTTCTGC GTCTTATTAT GGTGTTGCCG TTAGAGGAAT TGATGAACCT AAAAGATTAA AATACGTCAT ATATTATGGA GTACCTAAAA TAAGAGCTAA GCTTTTTGAC GCTTTATCTA ATCCATTTAC ATTACTCAGA GTAGGTAAAT TAATTGGAAT CGATTTTTCA AAGTTACAGA ATAAGATTTT AATTCTGAAT CCTTCTGAAG TTCAATTATT GAAGTTTTCC ATAATAAAAG GAGAAAGTAT AAACTACCAT AAGTTAGAAC AATTGAGGCA AGAATTGCTA TATTATATGT CATTAGTTAA AGATAAGTTG AAGGAGAAAG TCGAGGATAC TTTAATTTCA GATAGTTTTG TAATTACCAA GCAAAATGGA AATTATTATA TCGTCTATCC CGATATGATA ACATATTTGC AAGGCTCTGG GAGGGCAAGC AGACTTTACA ATGGTGGATT GACTCTTGGA TTTTCAATAA TTCTAGTAGA TGATAGACAC ATCTTTGAAA TATTGGAGAA GAAAATGCAA AAATTGTTTC CTAACACTAC CTTTACTTCA TTATCTAATA CAAATTTATC TGAAATAAAA ATTAAACTGG AAGACTCTAG AAAAGAAGAA GGGAATAGGG TCCATTTTAA CATATCAACT GGTTTACTTA TAGTAGAGTC TCCAACAAAA GCAAAGACTA TAGCTAAAAT GTTTAGCAGA CCCTCGGTTA GGATAAGAAA TAAAGTACCA GTATACGAAA CCATTATAGT AGATGGTAAT CAAATATACG TGTTAGATAT AGTAGCTTCA AAAGGCCATA TCGTGGATCT AACCTTAGAA GATATAGGAT ATTATGGGAT AAAAGTAGAA GATGATGGAA CTATAAAGCC ATATTACGAC TTAATAAAGA AATGCCTCGA CTGTAATAAG ATATTTTCTA GTGCTTCAGA TAAATGTCCA TACTGTGGTT CTGCAAATCT TCAATCAGCT CAAACTACCA TTAACTTACT CAGGGAGTTA GCGTTATCAG TAGATAAAGT GTTTATAGCT TCTGACCCAG ATACTGAAGG GGAGAAGATA GCATATGATC TGGCTTCATT CTTGTCTCCA TATAATTCCA ACGTGTATAG AGTAGTATAT CACGAAATTA CTAAGAAGGC AATATTAGAG GCATTGAGGA ATCCCAAAAA GATTAATACA AATCTAGTAA TGAGTCAGAT AGTTAGAAGG ATAGAAGATA GATGGATTGG CTTCACGTTA AGTAACTTAC TAAAAACGAA GTTTAATGGA CATAATCATG GTGCGGGTAG GGTACAAACT CCAGTTTTAG GTTGGATAGT GAATAAAACG ATAAAGTATA AGAGTGCAAT GGGTCACGTG GTTTATATTG ACATCGCGGG ATACTCCATT AAAAAATATT TTAGTGAAAA AAGGAAGGTG GAAGAGTATA TAAATAACTT ACAAGTAGCT AGAATTGAAA AAATCTCTGA AGAGAAAATA CTATTATCTC CATTACCTCC CTTTACTACA GACACCTTAC TTATTGAGGC TAACATGAAA TATAAACTAC CAGCTAATCT TGTAATGAAG ATTGCTCAAG ATCTATTTGA GGCTGGCCTA ATAACATATC ATAGAACTGA TAGTACTCAT ATTTCCTCTG TAGGTATAGA AATAGCAAAG GAGTATCTTC AAAAGCAAGC GCTCATTAAA GAGTTTGTTC CTAGATCATG GGAATCATCG GAGGAAGGTG CTCATGAGGC AATAAGACCA ACTAGAGCTA TAGACGTTAA CGAGTTAATT CAAGAAATAG AGGAGAATCC TTATAAGTAT TCGATAAGGT TTAGTAAATT ACACTTATTA ATTTACGACT TAATATTCAA GCGATTTATA GCTAGTCAGA TGTCCCATGC AGTTGGTACA AAAAGTAGGT ATTTGATAAA GTTAGGCAAG GACGATAATG TCGATGTAGA ATTGTTAAGT AATGCTGAAG GCGGATTTAT TAAGGTATAT CCAGTTAAGG TGTATAATTT ACCTGTAGGT GAGATTCAAC CTAAAGTTAA TATTACTAAG GGGTCAAGTG AACAATTGCT AAGTTACTCT GATGTGATAT CATTAATGAA ATCTAAGGGA ATTGGAAGGC CTAGTACATA TGCAAAAACT ATAGAAAATC TAATGAAGCA TGGATATATA GTTAGCAGTA AAAGAAAGTC ATATCTAATA GCAACAAACA GAGGTATCTC AGTATATCAA TTTCTAAGCT CCAAATTCTA CGATCTAGTT TCCGAAAGTA CCACATCTAG ATTAATGACA AAATTGGACG ACATTGCACT AAGCAAGTTG AATGCTTCTA CAGTGTTATT AGAAATATTC AGCGAGATAT CTACCTTAGT AAACCCTCTT AAGTCTGAGC AAAATGTATG A
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Protein sequence | MINVMYKNSC PNCGGDISGD RLLNGLPCEA CLPYINGIDD VDHISKVKTL YNILLNNDKI KNYWNLYYNI TTFETVFKYF RDKTGYEPWS LQKLWLRRLA SNQSFTMSAP TGLGKTTTLM TYSVFIGQDV VYIVPTKSLM EQVCKRLEKL GAQVSCGKID QKKVSVITIS YLNKNADSIV SLKPNFVVID DADAVIKSGK TTDRLVSLLG IPKDVYESAI QLIRLRNKYY FSNEYTEEVK EKIRELELKI AEFKDKISQL VIASATIRPK GIKQKALRLL TGFEPSSIQL YARNIIDAYT ENLDLSIVKE LGSGGLILVS KEYGRSKLNE IKKYVEDLGF NAKLAISGRK FLDDFSQGKV DILVGSASYY GVAVRGIDEP KRLKYVIYYG VPKIRAKLFD ALSNPFTLLR VGKLIGIDFS KLQNKILILN PSEVQLLKFS IIKGESINYH KLEQLRQELL YYMSLVKDKL KEKVEDTLIS DSFVITKQNG NYYIVYPDMI TYLQGSGRAS RLYNGGLTLG FSIILVDDRH IFEILEKKMQ KLFPNTTFTS LSNTNLSEIK IKLEDSRKEE GNRVHFNIST GLLIVESPTK AKTIAKMFSR PSVRIRNKVP VYETIIVDGN QIYVLDIVAS KGHIVDLTLE DIGYYGIKVE DDGTIKPYYD LIKKCLDCNK IFSSASDKCP YCGSANLQSA QTTINLLREL ALSVDKVFIA SDPDTEGEKI AYDLASFLSP YNSNVYRVVY HEITKKAILE ALRNPKKINT NLVMSQIVRR IEDRWIGFTL SNLLKTKFNG HNHGAGRVQT PVLGWIVNKT IKYKSAMGHV VYIDIAGYSI KKYFSEKRKV EEYINNLQVA RIEKISEEKI LLSPLPPFTT DTLLIEANMK YKLPANLVMK IAQDLFEAGL ITYHRTDSTH ISSVGIEIAK EYLQKQALIK EFVPRSWESS EEGAHEAIRP TRAIDVNELI QEIEENPYKY SIRFSKLHLL IYDLIFKRFI ASQMSHAVGT KSRYLIKLGK DDNVDVELLS NAEGGFIKVY PVKVYNLPVG EIQPKVNITK GSSEQLLSYS DVISLMKSKG IGRPSTYAKT IENLMKHGYI VSSKRKSYLI ATNRGISVYQ FLSSKFYDLV SESTTSRLMT KLDDIALSKL NASTVLLEIF SEISTLVNPL KSEQNV
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