Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | CBUD_0512 |
Symbol | |
ID | 5457300 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Coxiella burnetii Dugway 5J108-111 |
Kingdom | Bacteria |
Replicon accession | NC_009727 |
Strand | - |
Start bp | 488743 |
End bp | 492204 |
Gene Length | 3462 bp |
Protein Length | 1153 aa |
Translation table | 11 |
GC content | 42% |
IMG OID | |
Product | hypothetical protein |
Protein accession | YP_001423926 |
Protein GI | 154707484 |
COG category | |
COG ID | |
TIGRFAM ID | |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 3 |
Plasmid unclonability p-value | 0.350168 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
| |
Sequence |
Gene sequence | ATGATTAAAA TTCTCCTACG AAGCTGTTTG AAGTGGGGAA TGATGACAGC GGCGAGTGTT ATCATTCTCT TTGCCGTTCT CATCAGCGGT GTTCGTATGA CCGTCCCGCT GCTCAACCAC CAGCGCGATT TTTTTGAGCA CTGGGCGAGT CATGCCTTAC ATCAACCGGT TCATATTGGC CAAATCGCCA CGAGTTGGTA TGGCTTCAAT CCCGCATTAA CCTTCCAGAA AGTTATCGTG ACGGACCCCA CCCAGCACAA ATCATTGCTG CGCGTTAGCC AACTCTCCAT TAGCGTTAAT CTCTTTCAAA GCCTAATTCA TTGGCGTTTA TTCCCTGGGC ATGTTTGGTT GTCAGGAGCA CGTTTCAACG TGTTTGAGGG AAAAGACGGT AAGTTGAACG TCGAGGGCAT GATCGCGCAG AAAAAACAGG TCTTTACTGA TTTAGGCGAG ATGAAAAAAG TTTTTCTGGG CCTGCTGAAT CAATCCAACA TCACGTTGAA AAACATTGAT ATTTATTATC ACACGGCTGA AGGCCAGCTA ATTCCTCTTA CCCATTTACG CCTTAAAGTA ACCAATGGGC TATTGCATCA GCAAATAGCG GGTGTGGGAA GTTTATCTCA AACTGTCCCC ACTCGATTTC GATTTTTATT GCAAGGATCT TCCAAAAACG CCGAATTATA TCTGGATATT AAAAATCTTG TTTTCTCCCA ATGGGAAAGT AGCTATTTCC TCCAAAAATA TTTTAAAAGG GTATCGTTGA CAGATGGTCG GGGGAATGTG CAACTATGGG CTAAATTTAA AAATGATGAG CTTGAATCTG TTCAAAGCGT TGTGAAAAGT GATCAGATTC GCCTAAGCGT GGCCAAATCA CATTCTCCGC TTTTTATCGA TCAACTCAAC GCTAATTTAT ATTGGCAACG TTATGCGAAC GGTTGGGGGT TAACGGCTGA TCATGTGAAT TTGCAAATGA ATGGAAGGCA ATGGCCCGAA CATACTTTTG GCGTCCGCGT CACGCACTCC CAATCAGGAA TGCGTCTTTT ATTGAAAAGC GATTATTTTA ATTTGTCTGA TATGCAAACT CTCACCGCTG AAATAGGCTA TCAGCCGAAA CGAATTCAAA CCCTTTTTCA GCAATTAAAA CCTTCAGGGA TATTGCGACA TTTTACTTTA CTTTATTCTC AACGCGCACA AACGCCTTAT TATCACATCA TAACTGACTT TGAAGATTTA AATTTTCAAC CTCAAGAGGG CTGGCCTGGA GGAGCGCATT TAATGGGTGC AATTGATGCC ACAGCGCAGC ACCCAGCATC GGGTTGGCGT TTTCAAGTAT CACAATCGGA TATTCAAAAT AACAATTTAC ATTGGCACGG CGAAGGGTTT TTATCGCTGC CAGCGAAAGG CTCTCCTTTT GTTAATTTGC AGGGGAAAAT CGGTCTAAAA AACATAAACG CCATTAAAAA TTATTTGCCC TCTCGCGGTC TAAGTCCTCA TTTACGAGCG TGGTTAAATC AAGCATTTTC AACGGGAGAA ATCACCAGTG GAACGGTGAA TTTTAAAGGG CCGTTGGATC GGTTCCCTTT TCTTCATCAA GAAGGTTCTT TTGATGCGAT TGCTAATGTT GATCGTGTTA CCTTGAATTA CCATTCTGGC TGGCCCGCTT TGCAAAATAT CAAAGCCAAG GTGATGTTTC ATAACAATCA ATTACGTATC GTAGCGTCTC ATGCAAACAT ATCCGGCAAT CCCTTGGACC ATTTGAAAGC GGTTATTCCT GATCTGAAAG ATCCTGTTTT ATCGGTGAGT GGACATTCGA CATCAAATCT TGCCAACGGA TTTAAATTTT TAAAAGCTGC CCCACTTTCT GTTGCCAAAC GAATGCAAGG CACTACCGCT CAAGGTCCCA TGAATTTAAA TTTAAAACTG AGGATACCGC TGGATCATTC CAATCAAGAG GTGAGAGCCG AAGGCCAGTT AGCCGTTAAG GACGGCCAAT TTTCTTTAAA TAACTGGGGA ATAATGCTCG ACCATATCAA TGGTAATTTT CACTTTATTA ATGAGGATTT TTCTGCTGAC CCGGTTTTTG CAAAGTGGTT AGGGCTACCG ATCGCATTCC ATATTGCAAC GCTTAATCCC TCGAGCCAAT CGCCCGTCTT GCAATTTGAA ATGAGCGGCG AGCTTGCTAT GCAAGCATTA CAGAAAAAAT TTAAATGGTC TATTTTAAAT TATTTAAATG GAGCGACTAC TTATCGCGCA CTTTTAAATT TACATGGGAA AGACTCGCAA CAAGACAGTT TAAGTATCGC AACCGATTTA AGCGGTATCC AATCCACATT ACCTGCGCCT TATAACAAAC TCTCTAAAGA AGTTAGTCTT TTAACTTCCC ATCTTTCTTT TTATGGGAAT AAACTTTCAA AAATTAAAGT GCATTATCAG GGTTCTTCTA GCAATGCAGC AACCTCACTG CTTGTTTCAC CCGTCAATGA AGGCTGGTCC GTCGATATTC AAAATCCATT AATAGCCGGA AATCTTCTAA TTCCCAATCG GCTTGATGAT TATTGGCGAG GGTATTTTTC ACGTCTTTAT TTGCCGGAAT TTAAAGCTGA GAAAAAACAA TGGAATTCAC AGGCATTGCC GCCGGTGGAC TTAGCGGTGG ATGATTTCCA TTATGGTAAA AAAATATTGG GAAAATTAGC CCTGCAAACT TCACGAACCA TGGAGGGTTT ACGAATTGAT AAGCTTGCCA TAACAGCGCC TTTATTTAAT GTCGATGCGA CAGGAATGTG GCGAACGAAA ATAGGGCGCT CGCAAACGAC CCTTTCGGGA AGTTTTACGA GTCCTAATTT AGGAGACCTG CTAAAACAAT GGAAAATTAC CCACGCCCTA GAGGGTGGGA AAGGCCGTGC GGATTTTTCC GTCAAATGGC CGGGATCGCC TGACCAATTC AAAGTCGCTC AATTGAATGG CGATATTAAA CTTAATTTCT ATAGCGGACG AGTTACCGAA TTAACAAAAA CCACTGAATC AGAATTGGGC TTCGGCCGAC TTCTCAATTT GTTTAGTCTG CAATCGCTTC CGAAATTGCC GCTAAATCTC GCCAATTTTT CTAAAAAAGG TTTTGCTTTT AATTTTTTCA GAGGTAATTT TTTATTATCA AAAGGAGTGG CAAAAACACA GAATGCTTCG TTAGTCGGGG ATGTGGCGTG GGTGCAAATC AAAGGGCTCA TTGGATTTGC AAATAAAAAT TATGATTTGC ATTTACAAGT AGTACCAAAT ATTACTTCGA CATTACCCTT AATTGTGGGC CTCGCTGGTG GACCGCTGGC CGGCGTAATC GCCTGGGTGG CCGATAAAAT ACTGGCCCCC CATGTTGGCA AAGCGGCACA GGTGAATTAC CATATTGCAG GCTCTTGGAA TAAGCCTGAT ATCATACTGC CTGCACCCGC AGAAACTGAC CTATCCCCAT GA
|
Protein sequence | MIKILLRSCL KWGMMTAASV IILFAVLISG VRMTVPLLNH QRDFFEHWAS HALHQPVHIG QIATSWYGFN PALTFQKVIV TDPTQHKSLL RVSQLSISVN LFQSLIHWRL FPGHVWLSGA RFNVFEGKDG KLNVEGMIAQ KKQVFTDLGE MKKVFLGLLN QSNITLKNID IYYHTAEGQL IPLTHLRLKV TNGLLHQQIA GVGSLSQTVP TRFRFLLQGS SKNAELYLDI KNLVFSQWES SYFLQKYFKR VSLTDGRGNV QLWAKFKNDE LESVQSVVKS DQIRLSVAKS HSPLFIDQLN ANLYWQRYAN GWGLTADHVN LQMNGRQWPE HTFGVRVTHS QSGMRLLLKS DYFNLSDMQT LTAEIGYQPK RIQTLFQQLK PSGILRHFTL LYSQRAQTPY YHIITDFEDL NFQPQEGWPG GAHLMGAIDA TAQHPASGWR FQVSQSDIQN NNLHWHGEGF LSLPAKGSPF VNLQGKIGLK NINAIKNYLP SRGLSPHLRA WLNQAFSTGE ITSGTVNFKG PLDRFPFLHQ EGSFDAIANV DRVTLNYHSG WPALQNIKAK VMFHNNQLRI VASHANISGN PLDHLKAVIP DLKDPVLSVS GHSTSNLANG FKFLKAAPLS VAKRMQGTTA QGPMNLNLKL RIPLDHSNQE VRAEGQLAVK DGQFSLNNWG IMLDHINGNF HFINEDFSAD PVFAKWLGLP IAFHIATLNP SSQSPVLQFE MSGELAMQAL QKKFKWSILN YLNGATTYRA LLNLHGKDSQ QDSLSIATDL SGIQSTLPAP YNKLSKEVSL LTSHLSFYGN KLSKIKVHYQ GSSSNAATSL LVSPVNEGWS VDIQNPLIAG NLLIPNRLDD YWRGYFSRLY LPEFKAEKKQ WNSQALPPVD LAVDDFHYGK KILGKLALQT SRTMEGLRID KLAITAPLFN VDATGMWRTK IGRSQTTLSG SFTSPNLGDL LKQWKITHAL EGGKGRADFS VKWPGSPDQF KVAQLNGDIK LNFYSGRVTE LTKTTESELG FGRLLNLFSL QSLPKLPLNL ANFSKKGFAF NFFRGNFLLS KGVAKTQNAS LVGDVAWVQI KGLIGFANKN YDLHLQVVPN ITSTLPLIVG LAGGPLAGVI AWVADKILAP HVGKAAQVNY HIAGSWNKPD IILPAPAETD LSP
|
| |