| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Ssol_2464 |
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| Symbol | |
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| ID | 0 |
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| Type | |
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| Is gene spliced | No |
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| Is pseudo gene | Yes |
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| Organism name | Sulfolobus solfataricus 98/2 |
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| Kingdom | Archaea |
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| Replicon accession | CP001800 |
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| Strand | + |
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| Start bp | 2268546 |
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| End bp | 2272614 |
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| Gene Length | 4069 bp |
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| Protein Length | |
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| Translation table | |
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| GC content | 41% |
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| IMG OID | |
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| Product | |
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| Protein accession | |
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| Protein GI | |
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| COG category | |
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| COG ID | |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 4 |
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| Plasmid unclonability p-value | 1 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGCCTAACG TAGGATTCCC CTTCCATGCT TACACAGACG AACAGACGTT GAGGGCGTTA
AAAGCCCAGT TGAGGCTAGC ATGTGAGGTA TATAGCACCC TACGTTGGGC AGATGCGTAT
TTCTACCAAA GGGATGGGAA AGGACTTACA CAGACGGAGT TAAGACAGAT GGCCCTTAAC
TTAAGAAAGC AGGACGAGGA GTACAAACAA CTTCACTCAC AAGTTGTTCA GCAGATAGCA
GATCGTTTCT ACGAGGCTAA GAAGAGGTTT ATGGACGGGC TAGCACGCTT TCCAAGAGAA
AAGAAACCGC ACAAGTACTA CTCGCTAGTT TACTCAATCG GGATGGAAAG TGTTGAGCTT
AAGGGAAATA AGAAGAAAGA GTAATCACAA GAAGAAGTTA ATGAAGCTCT ACCTATCTCA
TCTAGGAGTC TTCAACGTTA GTGCTTTCAG AAAGTCTATA GCTTTAGACA AAGGATATAC
CACTAGATCA TAGTCTAAGA ACTTTTCCAA AATACTAGTG ATAGTACACA GGGACTTCCC
TCTAGATAAG GTGAAGAGAA TCATAGTGAA GTTAGAGCCG TCTGGGAGAA TATACATCAT
TTTCGTGATT GATTACGAGT TCAAGGCCCT CCCATTTACT GGAAAAGTTG TCGCGATCGA
CGTGGGAATT GAGAAACTCG TAACTACCTC CGATGGTCAG TATTTCCCTA ACCTGAAGCC
TTTTGAGAGG GCCTTAACCA AGGTAAGGGA ACTTCATAGG TCTCTTTCGA GGAAGAGATT
TCTCTCTCAT AACTGGTTCA AAGCTAAGGT TAAGTTGGCT AGGGCTTATG AGCACTACTA
CTTCCAGTAA GTCCATAGTC TAGTATTATT TTATAAAATA TTATTGAAAA TAATTCCATT
GTATTGGCCT TAATGAATAC ATAAAACTTA TCAACTTGAC AGTGGTGTTT CACCAATTTT
ACTCAAAATG ATACAATTTC TATGGAAGAG AAAAATATCA GAGCGGAGTT AGAAAAATCG
GCTTATTTCA ACACAAGAAG CAAAAAATTT TCATATTTGT TGAAGAAACT AACAGAAAAC
GAGTTTATAT ATAAAGAGTA ATACCATTTG TCTAGTATTA TCAATAGAGG AAAGTAGGTG
GAAGGACGAG ATGAACAAGA AAAGGTTAAA GCGAGGGACT CCATAACTCC GTTATGCAAA
CCATACAAGT ATCCAAAACG GAGCTGAAGT CCCTCGCTAT AAATTTAGCA ACAATCAATA
TTAACGTTAT CTCTCAAGAT CTAGACCCGG AAATAGTGAA AGCAGCGCCA TCCTTGCTAA
CCGGAAACAG AGGAAAATAC TACTTGAAGG TAGTAAGACG AGGCGAGAAA GTAATTAGTA
AAGGTCAGAG AACCTTCAAG TTCTACCCAA TCTACAGAGA AGTAAAGGGA GAGATCAACG
TAGTCGCTGT AGATGAGACC GGATTAACCG TGGGAGAAAA GGAACAAGAA AAAGCAGAGG
GCTTTCTACT CTACAACTGG AAGAGAAAAG GAGTAAAGAT GAGATCCTTG GACCTCGTAT
ATCCCTTAAG GTTACCCCTC CTAGTGGAGG TAGCAGATTT GAGAAGCGAC AGTCCATCAC
AGTTCCTACT CAGGAGCGTG AGGGAAGTAA GCCAATACAT GGAAATAGAT TACGTTGTAG
CTGACGCCGG ATTCTTGAAC CTAGGGGTCA TCAAGGAAAT GCCCGTGAAG ACCATTGTGA
GAGGGAAGTC GAACTTGAAG GGATTCAAGG AACTATCTAA CGTTCCATTA GTTGAGAAGA
GATACGAGGT TAAGGACAAG GTTTACGTTG CGTATAGGGT CTTGAAATTT GAAGGGCTTT
ATTATTACGA TGTGGTTTAC GTTAAGGGAA AGCCGAGGCA CTTTATGTTC GTGACGAACT
TCGAGGGAGA TCCCTATGAA CTGGCTGAAC TCTATAGGTT GAGGTGGCAG GTTGAGGAGG
GTTTCAAGGT TAGGAAGGCA AGGATAAGGT ATGTTAGGAA GTTGAGTAAT AAGATCTTCT
TGTTCCTCTA TTACACGGTT CTGGATTCTG CGTGGAATCT AGTGAATCAT CTTCTCTTTA
ACTTCAAGTC CACGTGTAAG AAGGTTTTGT CCTTCGATTC ATTCGTCAAG CTTCTCTAAC
TTTCTCGGTG TTCAGAGGAG ACTATGCACG TCGTTTTCAC CACGTGAGAA AAATTCAGAA
TTCTCCTCTT ATTATTAGAA TTGTACGCTA TATTTTTTGC AAATTACCTT AACATGTTAT
GTTTCATAAT AATTTTATTG TTTTTCTCTA TATCAATCTC TTTTTGAAAG GACTAATATT
ATATCTTTCA AATGAAATAA TTTGGTGAAA CACCACTGTC AACTTGATTA ATTGATTCCT
TGTTATCACT ATTTATAAGA AACTTATTAA TGAGTTATAA AGTATAACAA ATTTCTGGAA
ACAGTAGTGA AGAACTTGAG GAGAGATATT TACATGAAGC TCGGTAAGTA TTTTGCAGAA
CACTACGATA CCGTGGTAAT GGAGGATATT AACGTTAAGA AGCTGGTTGG TAAGTCTCTC
AAGGTAATGA GGAGGAGGCT TCACGATATT GGTTTTTACG AGTTTAGGAC GATACTGGAG
TATCAACTAA TAAAATACGG TAAGAAGTTC ACCCTCGTCG ATCCAGCATA CACGTCGATG
ACTTGTGCTA GATGCGGATA CGTTAGGGAA GATTTAACGG GAGTGTTCTC ATGCAGTCAT
CTTATTCGAT ATCATATAGT AAAATTATAT CAAGTTCTCT CTAATATACT GTACTCCCTT
CAAGTAAGTC TCATTTAAGG GAGTTCCCTC CCTTGAAAAT ACGTGAGGGT ACATTACATT
CAACAAGGCC AAACTGTACT CCGTCATCCT CATACTCCTA GTAACAGCTT TAGTATCCCT
AGCCAGCCTC GCTAACCTAC ACCAAGAATT ATGACTCTCC ACAAGATAAG TATACTTCTT
ACCCGCTACA CGATTATCGA GAACTTGATA AACACAATAG TAGTCAGTAT AGTTTACCTC
ACTCCTAGGT AACCAACCCA AACGAAAAGT CCCATAACTC CTATCCCCAA ACTCATAGAA
AGGCACCCCA TCAGCAGTCC AAATCCACAA ATCCTCCCTC ATCACTCCAT GCCTAACACG
GAAATAAGTC CAGAACTCGT CAAACACCGT AGACTTAGCT GTGAAATTCT TGAGCTCACC
CTTCAAGATC GTTAGATACG TGAAGGCCCT TATCTCAATC CTCCTCACTA GGCTGTATTC
AATGGTTTAC CTTCAACTCT TGATATTGCC CTCATGCTCA TCCTGTTCAA GTACTCCTTT
AAGATTCTCT TCCTCTGTTC CCTATCCATT CTGTGCTTTA ACGCGTCGTA AAACGTCCTT
CCACACGCTT TACACTTGTA TTTTGCTTTC CCTCTAGATG AACCGTTCTT TACTACTCTG
TTAGAGTTAC ATGATGGGCA TGTTGGTCTG CTCTCTCTTC TCCTTATCCC TACTTTCCTC
AAGATAAGGT TGATGGTGGG ATTCCCGTTT TCGTGATTTG AACTCCCAAG GAGTAGGCTG
CTAATGCTAA TGCAATATCC TTTAGCTCGT ACTTTCTCGG CTTAAGATTT AAATTTCTTA
GAATCATAAG TATTAATTGT GCGAGGGTTA CGAGGTTCAT CCTGGTAACC CTCACAAAAA
ATCTCGTAAC CCTCGCACAT AAGCTTTTTC AGAGGCTGTT TTCATGTTCT AATTCATTGG
CTGCATCTCG ATCGAAACGA CTAATTGTGG AAATTTCTAG CCTGATTTAA TTTTACTATA
TGATATCGAA TAAGATGACT GCATGAGAAC ACTCCTGATT TAACTCTCTC CGACCGCGTG
TTTGTTTGTC CTAAATGCGG TTGGATAGTA GACCGTGACT ATAATGCTTC CTTCAACATC
CTACACAGAT CGGGGTCGGA ACGACCCTTA GTGCCTGTGG AGCTCTGCCT TCTACCGCTG
GCAAGGTGGG GGTATGAAGC AGGAAGCCCT GTCCGTTAGG GCAGGGTAG
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| Protein sequence | |
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