| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | CBUD_1912 |
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| Symbol | |
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| ID | 5457863 |
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| Type | rRNA |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Coxiella burnetii Dugway 5J108-111 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009727 |
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| Strand | - |
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| Start bp | 1888350 |
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| End bp | 1892695 |
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| Gene Length | 4346 bp |
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| Protein Length | |
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| Translation table | |
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| GC content | 46% |
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| IMG OID | |
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| Product | Large Subunit Ribosomal RNA; lsuRNA; 23S ribosomal RNA |
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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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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 0 |
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| Plasmid unclonability p-value | 0.130137 |
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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 | GGTCAAGTGA ATAAGCGCAT ATGGTGGATG CCTTGGCAGT AAGAGGCGAT GAAGGACGTA
GTAGCCTGCG ATAAGCTTCG GGGAGCTGGC AAACAAGCGA TGATCCGGAG ATTTCCGAAT
GGGGAAACCC AACCTTTCGA GGTTATCGTA TACTGAATTC ATAGGTATAC GAGGCGAACC
TGGGGAACTG AAACATCTAA GTACCCAGAG GAAAAGAAAT CAACCGAGAT TCCGTCAGTA
GCGGCGAGCG AAAGCGGAAC AGCCCAGTTA CTAAATCATT ATTTGTTCTA GCAGAATGTT
CTGGAAAGTT CAGCCATAGC GGGTGATAGC CCCGTACGCG AAAGAGTAAA TAATGTGGGT
AACGATGAGT AGGTCGGGAC ACGTGGTATC TTGACTGAAC ATGGGGGGAC CATCCTCCAA
GGCTAAATAC TCCTTACTGA CCGATAGCGA ACCAGTACCG TGAGGGAAAG GTGAAAAGAA
CCCCGGCGAG GGGAGTGAAA TAGAACCTGA AACCGTATGC GTACAAGCAG TAGGAGCATT
TCTTCGGAAG TGTGACTGCG TACCTTTTGT ATAATGGGTC AGCGACTTAC TTGTTGTAGC
GAGCTTAACC GTCTAGGGGA GGCGTAGGGA AACCGAGTCC GAAATGGGCG TTTAGTTGCA
ACGAGTAGAC CCGAAACCGA ACGATCTATC TATGGCCAGG GTGAAGGTCA GGTAACACTG
ACTGGAGGCC CGAACCCACT AATGTTGAAA AATTAGGGGA TGAGCTGTGG ATAGGAGTGA
AAGGCTAATC AAGCTCGGAG ATAGCTGGTT CTCCTCGAAA GCTATTTAGG TAGCGCCTCG
TGTATGACTC TTGGGGGTAG AGCACTGTTT CGGCTAGGGG GCCATCCCGG CCTACCAAAC
CGAGGCAAAC TCCGAATACC AAGAAGTTTT AGCACGGGAG ACACACTGCG GGTGATAAGG
TCCGTGGTGG AAAGGGAAAC AGCCCAGATC GCCAGCTAAG GTCCCAAAAT CACAGTTAAG
TGGAAAACGA TGTGGGAAGG CTCAGACAGC CAGGAGGTTG GCTTAGAAGC AGCCATCCTT
TAAAGAAAGC GTAATAGCTC ACTGGTCGAG TCGTCCTGCG CGGAAGATTT AACGGGGCTC
AAACTGTGTA CCGAAGCTGC GGCATCAGAA GACAGATGAC AGATGACAGA TGACAGAAAT
ATGAAAAAAG AAATATCTAG CTTTGAAGAT TTAGTGGTTT TTCAGAAAGC GTATAAGCTT
TCTTTAAAGC TTCATAAACT AACTTTAAGT ATGCCTAAAG AAGAGCAATA TGGATTGGCA
AGCCAAATCC GTCAAGCAAG TAAATCAATT TGCGCGAATA TTGCTGAAGG GTTTGGAAAG
CAGAGTGTTT CTACGGCTGA ATCTAAGCGA TTTATTTTAA TTGCAATGGG TTCGGCAGAT
GAGATGCGTG TGTGGTTACG ATATTGTTTT GATTTAGGTT ATTTGAATGA AAAAACCTGG
GTAGACTTCC GCAATAACTA TCAGGATATT GCGAAAATGC TAAAGGGTTT GCACAAAAGC
TGGAGTTAAT TTTTATCTTT CTGTCCTCAG TCTTCTGCCA TCTGTCTTCT GATGGGTAGA
GGAGCGTTCT GTAAGCCTGT GAAGGTGAAT CGAGAGGTTT GCTGGAGGTA TCAGAAGTGC
GAATGCTGAC ATAAGTAACG ATAATGTGGG TGAAAAACCC ACACGCCGAA AGTCTAAGGT
TTCCTGCGCA ACGTTAATCG GCGCAGGGTG AGTCGGCCCC TAAGGCGAGG CAGAAATGCG
TAGTCGATGG GAAACGGGTT AATATTCCCG TACTTTACAA TACTGCGATG GGAGGACGGA
GAAGGCTAGG TCAGCCACCC GATGGTTGTG GTGGTTTAAG TGTGTAGGAA GGGTTCTTTG
GCAAATCCGG GAACTCAATT CCGAGACATG ATGACGAAGT ACGAACTTGT TCGTGCAAAG
TGATTGATGC CACGCTTCCA GGAAAAGTCC CTAAGCTTCA GGTATTGTAA AACCGTACTA
TAAACCGACA CAGGTGGACA GGTAGAGAAT ACCAAGGCGC TTGAGAGAAC TTGGGTGAAG
GAACTAGGCA AAATGGCACC GTAACTTCGG GAGAAGGTGC GCCCTTGGTA AGTGAAGGTC
CTTGCGACTG GAGCTGAAAA GGGTTGCAGA TACCAGGTGG CTGCGACTGT TTACTAAAAA
CACAGCACTC TGCAAACTCG TAAGAGGACG TATAGGGTGT GACGCCTGCC CGGTGCCGGA
AGGTTAAGTG ATGGGGTTAG CCCTCGGGCG AAGCTCTTGA TCGAAGCCCC GGTAAACGGC
GGCCGTAACT ATAAATTAAC CGTTGTAGTT ACGTAAATAA ACTTGGCTAT ATGCTGGAAA
CTCCGAGTAT CCTCCAGTAC TCATCTCAAC TAAAATTGAG GTAGTAAAAA TCTGCGAGGT
GCGGACAATC AGCAGGAAAG ACTAATCTTT TTGATTAGAA TCCTCAGAGA CTAATACGCC
GAGCGTACTT AGAAAAAATC CATTCTAAGT GTGATGATAG AGTCCGATCT CTATAGCGAT
ATAGAGGGTT TTCAAAAGAA ACCTGTTAAT CATTATCCCA TGATTAACAT AACGTCAATA
AACGGTCCTA AGGTAGCGAA ATTCCTTGTC GGGTAAAAAA TTGCCCCGCT AAACTGTAAA
GTTTAGTGAT AAAGTCAGCT CATATCGGGG GAACCCTCCT GCTTTTTAGC AAAGGGCAAT
CCCGAGGGAA GTCTTAAATG ACCCCGTAAC GACTGATCCG AAAGGTGAGG CACGCATTTG
TGTGCAATAC GCTGACTTCT TGCCCTTGGG TTTATACTCA AGAAGTAAGT GACTATGGAG
AATTTATTTA TGTATTTACA TTTAGAGCCA TGGTATGTAA GTGGTTTAAC AGAAGGAGAA
GGGTGTTTTT CGATATCATT TAACTTCAGA AAAAAGTTAA AAATTGGTAT TGAAACAAGA
CCATCTTTTT CCATCACGTT AAATCAAAGA GATTTACCTC TCTTAAAAGA GATACATTCG
TTTTTTGAAT GTGGAGCAAT TAGATTTTCA CGAGGGGATC GTACGTATAA ATATGAAGTC
CGTTCCGTAA AAGATCTTGT GAAGCGAATA ATTCCACACT TCGATAACTA TCCTCTTAGA
GGAGGTAAAC AAAAAGATTT TCGATATTTT TCTGAAATCT GTAAAAAAAT ACATACCAAT
TTTCATTTAA ATAAACAACA TTTAATTGAA ATAATAAAAA TGGCTTATCT GATGAATCCA
TCAGGTAAAC GTAGGCATGA AATAAATGAT CTCCTAAGGT TGCTTGGTGA GAAAATGGTA
TAGTCTACTC CCTATGGAAA CATAGGAAAG AGTGAAGTTC CGACCTGCAC GAATGGCGTA
ACGATAGCCA CGCTGTCTCC ACCCAAGACT CAGTGAAATT GAAATCGCTG TGAAGATGCA
GCGTACCCGC GGCTAGACGG AAAGACCCCG TGAACCTTTA CTACAGCTTT ACACTGAACT
TTGAATATGC CTGTGTAGGA TAGGTGGGAG GCTTTGAAGC TGGAGCGCTA GCTCCAGTGG
AGCCAACCTT GAAATACCAC CCTGGCGTGT TTGAGGTTCT AACCCTGTCC CGTAATCCGG
GTCGGGAACA GTGTATGGTG GGTAGTTTGA CTGGGGCGGT CTCCTCCAAA AGAGTAACGG
AGGAGTACAA AGGTACCCTC AGCACGGTCG GAAATCGTGC ATTGTGTGCA AAGGCATAAG
GGTGCTTGAC TGCGAGACTG ACAAGTCGAG CAGGTACGAA AGTAGGTCTT AGTGATCCGG
TGGTCCTTTA TGGAAGGGCC ATCGCTCAAC GGATAAAAGG TACTCCGGGG ATAACAGGCT
GATACCACCC AAGAGTTCAT ATCGACGGTG GTGTTTGGCA CCTCGATGTC GGCTCATCAC
ATCCTGGGGC TGTAGCCGGT CCCAAGGGTA TGGCTGTTCG CCATTTAAAG TGGTACGTGA
GCTGGGTTTA GAACGTCGTG AGACAGTTCG GTCCCTATCT GCCGTGGGCG TTGGAGATTT
GAGAGGAGCT GCTCCTAGTA CGAGAGGACC GGAGTGGACG TACCTCTGGT GTTCCGGTTG
TCACGCCAGT GGCATTGCCG GGTAGCTAAG TACGGACGGG ATAACCGCTG AAAGCATCTA
AGCGGGAAGC CCCCCTCAAG ATGAGATCTC CCGGACCTTT AAGGTCCCTA AAGATTCGTT
GAAGACGACA ACGTTGATAG GCAGGGTGTG GAAGCTCAGT AATGAGTGAA GCTAACCTGT
ACTAATTAAT CGTGCGACTT GACTAT
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| Protein sequence | |
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