| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | CBUD_0371 |
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| Symbol | icmE |
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| ID | 5458281 |
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| Type | CDS |
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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 | 352661 |
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| End bp | 355780 |
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| Gene Length | 3120 bp |
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| Protein Length | 1039 aa |
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| Translation table | 11 |
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| GC content | 51% |
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| IMG OID | |
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| Product | IcmE |
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| Protein accession | YP_001423793 |
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| Protein GI | 209363774 |
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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 | 11 |
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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 | TTGAAGGGTT GTAAAATGGC AGAGTTTTCA AAAAAGTTTC TACAAAGTGC AAAATTCCGA
GTAATTGCCG CCGCGGTTGC CGCTGTGGCT TTAATCGCGG TGGTGGGCGT TATTTGGCAT
CATAAGGCTA CCGAAGACGC CTTTAAAAGT ACGGCCGAAG TTTCTTCTCC GCCGACGATT
GAATCTCTAC CAGGGGCTGG CAATCCCTCA GACGCTTACG TGAAAACCCA GAATATCCAG
AATGCCCAAC AAGCGAGTGA AGCGCGCAAA GGCGGCACCA GCTTTGTGCC TACCATTACG
CGTCCAAGCT TTCTCGGATC GGAAGACCAA TTTGAACAAG ATCAACCGTC AGCCCCGACA
ACGGACTTAA AAAAACGAAA TTGTCCCATT AAGAAAGTCG TTTATATGTA TAAACCAAAT
CCAGCGAGCT GTACGGTGGA TAATTTAAAA TTAGCGCGAA GCGCCGGCGT TACGGCTGAA
GAATTAGTGT GTCAATCTTG TTCTTGTCCA TCTTTACGTC TGGCTGGCTA CACGGCCGGT
GAGTTAAAAG AAGTGGGTTA TTCCGCCGTG GAACTGCGCA AGTGTGGATT TAGCATCGCC
CAATTGCAGG CGGCGGGATT TAGCGCGAAA GATTTAAAAG CGGCTGGTTT TACCGCTGCC
CAATTAAAAG CAGCAGGCTT CAGCGCAGGA GAATTGGCGG ACGCCGGTTT CACGCCGGAT
CAAATAAAAG CGGCCGGTTA TTCATCAGCA GAAATGCAAG CCGCGGGAAT CCAAACAAAC
AATCCCGATT GCGATCTCGC CGCCTTAAAA AAAGCCCGCG CCAGTGGTGT CACAGCGGCG
GAATTACGCC AAAAAGGCTG CGGTTTAGCC GCATTAAAAG CCGCCGGTTT CACTGCAGCT
GAGCTTAAAG ATGCCGGTTT TACGGCCGCG CAGCTAAAAG CGGCGGGCTT TAGTGCGAAA
GATTTGAAAG CGGCCGGTTT TACCGCTGCG CAATTAAAAG CCGCGGGTTT TAGTGCAAAA
GATTTAAAAA GCGCTGGCTT TAGTGCAGTG GCATTAAAAC AAGCGGGATT TAGCAATGCG
GATTTGAAGG ATGCCGGATT TTCGCCGGAA CAAATTCAGG CAGCGGATAA AGTGGCAAAA
GTTTGTGACG TGGAGGCATT AAAAGCTGCC CGCGCCCAAG GTATTTCCGC TAAAGAACTA
AAAGAGAAGG GTTGCGGCTT GGCGGCTTTA AAAGCGGCCG GCTTTACCGC CGCCGAACTT
AAAGACGCGG GCTTTACGGC CGCGCAGCTT AAAGGGGCCG GATTCAGCGC CGCCGATTTA
AAAGCGGCCG GTTTTTCTGC GGCGCAATTA AAAGCGGCTG GGTTTAGTGC CAAAGCTTTA
AAAGCGGCTG GGTTTTCAGC CCACGATTTA GCGACGGCTG GATTTAACGC TTCACAATTG
AAAGACGCCG GTTTCACCGC CGATGATTTA AAAGCGGCTG GTTTCAGTGA TCAGGCTTTG
AGCGCAGCGG GATTCCCGCC GTCTTCTGGC GATTGCAGCG TCAAAGCGCT TAAAAAAGCG
CGAATGGCGG GTATTTCAGC CACTGAATTA AAAGAAAAAG GTTGTGGGCT GGCTGCTTTA
AAAGCAGCCG GCTTCACCGC AGCCGAGCTT AAAAACGCTG GATTTACAGC CGCGCAGCTC
AAAGCGGCTG GCTTTAGCGC TAAGGATTTG AAGGACGCGG GGTTTTCGGC AGCGGAATTA
AAAGCAGCCG GATTCGGGGC TAAGGATTTA AAAGATGCTG GCTATTCGGC ACAAGACTTA
AAAGCGGCTG GCTTTAGTGC CGCTCAATTG AAGGATGCCG GTTTTGACGC TCAAGCCTTG
AAAGACGCAG GCTTCTCAGC GGCGGACTTA AAAAATGCTG GTTTTAGCGC TGAAGCACTG
AAAAACGCCG GTTTCAGCGC CGCGCAACTC AAAGCGGCTG GCTTTAGTGC AGGGGCTTTA
AAAGCGGCTG GCTTTAGCGC TTCTCAATTA AAAGCCGCCG GCTTTGACGC AAAAGCGCTA
CGTGATGCGG GTTTTTCCGC AGGCGAATTA AAAGCAGCGG GATTTTCGCC TGAAGAATTA
CGCCATGCGG GTTATTCAAA AGGTGATTTA TTGCGGGCGG GTTATACGGC TGAGCAAGCC
GGTTATCCTC CATCCTCCCC GCCGGGGACA GAGGTCTCGC AGTCCGCCCA GCGCCCGCCC
TTATCTGCCG ATAATTCAGC AGCCAGTGTG TCGGGATTAA ATAATTCACA GAGCAGTGTG
ATGCCTTCTA TTAATAGTGA TTCGCCTGAG GCGCGCTTGC GGGCATTGCA AAAATTGCAG
CAAGAACAAC TCAACGAGCA GCAGCGCCGA GATGTGGAAC AGCAAATGCA AGGGCAAATG
AGCTTGCAAG CGCAAAAGCT CATGGCTGGC TGGAGTAATG ATTCGGGGCA AGCCTATCAA
GTGGCCTTGC AACAACCGGC GACTACACCG GTAGGGGGCA ACGTTAGCGG CCAGCAAGGG
GCGGGAGCCG CGGCTAAACC CACTGGACCC GTCATTAAGG CAGGGACCAT TATGTTTGCT
GTTTTGGATA CCGGTATTAA CAGCGATGAA AAAAGTCCAA TTTTAGCCAC CATTGTGACA
GGCAAACTGA AAGGATCGAA ACTCATCGGT GATTTTAGCC GAGTGGATAA GAAGGTCTTA
TTAAAATTCA ATTTACTGAA TGTGCCTTCT TTCGACCATA CTTTTGGCAT TAATGCGGTG
GCGATTGACC CTGATACCGC CCGAACCGCG ATCGCGAAAT CCGTTAATAG CCATTATTTA
TTGCGTTACG GATCGTTATT TGCCTCGGCA TTTTTGTCGG GCCTGTCGCA AGGAATTATC
CAATCGGGTT CGACGGAGGA TTGTTTCTTC GGTATCTGTC ACAGACAGTA TTCGAAACTT
AACACAGCTC AATATATTGC TTTAGGCATG GGCAACGTCG GTGAACAATA TGCCACCGTG
ATGGGGAACA ATTTCAATCG CGCGCCGACC ATTCGAGTGC CTGGCGGTAC GGGGATTGGA
TTGTTGTTCA TGAGTGATAT CACATTGCCG CAACCCTTAC CGGCGCATCA AAACACGTAA
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| Protein sequence | MKGCKMAEFS KKFLQSAKFR VIAAAVAAVA LIAVVGVIWH HKATEDAFKS TAEVSSPPTI
ESLPGAGNPS DAYVKTQNIQ NAQQASEARK GGTSFVPTIT RPSFLGSEDQ FEQDQPSAPT
TDLKKRNCPI KKVVYMYKPN PASCTVDNLK LARSAGVTAE ELVCQSCSCP SLRLAGYTAG
ELKEVGYSAV ELRKCGFSIA QLQAAGFSAK DLKAAGFTAA QLKAAGFSAG ELADAGFTPD
QIKAAGYSSA EMQAAGIQTN NPDCDLAALK KARASGVTAA ELRQKGCGLA ALKAAGFTAA
ELKDAGFTAA QLKAAGFSAK DLKAAGFTAA QLKAAGFSAK DLKSAGFSAV ALKQAGFSNA
DLKDAGFSPE QIQAADKVAK VCDVEALKAA RAQGISAKEL KEKGCGLAAL KAAGFTAAEL
KDAGFTAAQL KGAGFSAADL KAAGFSAAQL KAAGFSAKAL KAAGFSAHDL ATAGFNASQL
KDAGFTADDL KAAGFSDQAL SAAGFPPSSG DCSVKALKKA RMAGISATEL KEKGCGLAAL
KAAGFTAAEL KNAGFTAAQL KAAGFSAKDL KDAGFSAAEL KAAGFGAKDL KDAGYSAQDL
KAAGFSAAQL KDAGFDAQAL KDAGFSAADL KNAGFSAEAL KNAGFSAAQL KAAGFSAGAL
KAAGFSASQL KAAGFDAKAL RDAGFSAGEL KAAGFSPEEL RHAGYSKGDL LRAGYTAEQA
GYPPSSPPGT EVSQSAQRPP LSADNSAASV SGLNNSQSSV MPSINSDSPE ARLRALQKLQ
QEQLNEQQRR DVEQQMQGQM SLQAQKLMAG WSNDSGQAYQ VALQQPATTP VGGNVSGQQG
AGAAAKPTGP VIKAGTIMFA VLDTGINSDE KSPILATIVT GKLKGSKLIG DFSRVDKKVL
LKFNLLNVPS FDHTFGINAV AIDPDTARTA IAKSVNSHYL LRYGSLFASA FLSGLSQGII
QSGSTEDCFF GICHRQYSKL NTAQYIALGM GNVGEQYATV MGNNFNRAPT IRVPGGTGIG
LLFMSDITLP QPLPAHQNT
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