| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Bcep18194_C6803 |
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| Symbol | |
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| ID | 3733832 |
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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 | Burkholderia sp. 383 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007509 |
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| Strand | - |
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| Start bp | 333746 |
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| End bp | 336937 |
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| Gene Length | 3192 bp |
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| Protein Length | 1063 aa |
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| Translation table | 11 |
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| GC content | 58% |
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| IMG OID | 637760507 |
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| Product | cytochrome P450 |
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| Protein accession | YP_366494 |
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| Protein GI | 78059919 |
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| COG category | [P] Inorganic ion transport and metabolism
[Q] Secondary metabolites biosynthesis, transport and catabolism |
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| COG ID | [COG0369] Sulfite reductase, alpha subunit (flavoprotein)
[COG2124] Cytochrome P450 |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 24 |
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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 | 12 |
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| Fosmid unclonability p-value | 0.670423 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGAAATCCT CATCCCTCGT CCCCCAGCCG CCCCTGAAAC CCGTCATCGG TCATCTGATG
GAGGTCCTCG GGCCTTCTCC ACTCGCAAAG ATGATGGATC TCGCGCGCAC TTACGGGCCG
GTCTACTGGT TCGAGGTGTT CGGGCAAGGT TACTACGTTG TCAGCGGACA AACACTTGTG
GATGAAGTGT GTGACGAAAC CCGATTTCAG AAGTGCGTAC ACCAGTCGCT GCTCGAACTC
AGACCCGCGA TCGGGGACGG GTTATTTACC GCATTCGGTG ACGAACCGAA CTGGGCCAAA
GCGCATCGCG TGCTGATGCA GGCGTTCGGC CCGCTCAGCA TCTGGTCGAT GTTCGACAAG
ATGGTCGACA TCGCCGACCA GATGTTTCTT CATTGGGAGC GGTTCGGCCC GGAGACGCCG
GTCGATGTGT CCGATCACAT GACTCGACTG ACGCTCGATA CGATTGCCCT TTGTGCGTTT
GATTGTCGTT TCAACAGCTT CTACCGTGAA GACCAGCATC CGTTTGTCGA TGCCATGGTC
AACACCCTCA GCGAGGCCGG AAAGCGCGAG TTGCGCCCCA AACTTGTTTC GAAGCTGATG
GTCAAGCGCA GTCGACAGTT CGACGCGGAC ATCGAAGTCA TGCGATCGCT CGCGACCAAA
ATGATCGAAG ACCGGCGGAA GAACCCGCAC GTCAACGAAG AGTCGATGGA CCTGCTGGAC
CGAATGCTGA ACGGCATCGA TCCGGTGACG GGAGAAAAAC TGGATGACGA GAACATCGTC
TTCCAGATGA TTACATTTCT CATCGCCGGA CATGAAACGA CCAGCGGGCT CCTGTCCTTT
GCCACCTATT TCCTCCTCAA AAACCCGGAC ATCCTGCAAA AAGCACGGGA CATGGTCGAC
GAGGTCGTGG GCAGCGAGAC ACCACGGATC GAGCATCTCG CACGACTTCG CTACGTCGAA
CAAATCCTCA TGGAGACGTT GCGAATCTGG CCGACAGCGC CGGGATTCGC CGTGAAGCCG
CTTGCCGACA CCACGTTCGG CGGGAAATAT GCCGTTTCTC CCGACGACAT CATCATGATC
CTGACGCCCA TGCTGCATCG GGATGTGAGC GTCTGGGGCG AGGATGTCGA GGCGTTTCGT
CCGGAGCGAT TTGCTCCGGA GAATGCGGAG CAACTCCCGC CCAATTCATG GAAACCCTTC
GGCAATGGCG CACGTGCCTG TATCGGCCGC CCTTTTGCCA TGCAGGAAGC CCATCTCGTT
CTGATCATGC TGCTTCAGCG ATTCGATTTC TCTTTCGCCG ATCCGGACTA CGAGCTGGAC
GTCGCCGAAA CGCTGACGCT GAAGCCGGCG GGCTTCCGGG TGAACGTGAA ACCGCGGGCC
CGAGGTGCGC TTAAAGTGCC CGATACGGCC CTTCACGCCC GCTCGAACGC TCAAAGCCCC
AGCGTCGCTC CGGTTCAGTC GATCGCACCC GGCGAAGATT TGTCGAATCT GCTCGTCCTC
TTCGGGGGAA ATACCGGCTC CGCCGAATCC TTTGCAAGAC GCATTGCAGG GGACGCGAGT
CGTCACGGCT TTCACGCCAC GTGCGCGCCG CTCGACGACT TCGCAGGAAA ACTCGGCGGA
TATCCTGCAA TCGTGATCGT CACCGCTTCC TACGAAGGAC AGCCGCCAGA CAACGCAAAA
TCATTCGTCC CGTATGTCGA AGCACTGGAC GAGGGTGCGC TCGACGGCGT CCATTTTTCA
GTTCTTGGGT GCGGCAACAA ACAATGGGCA CGGACATACC AGGCGATTCC CAAGCGCGTC
GATGAAGCCC TCGAGAAGGC CGGTGCTACG CGAGTGCACT TCAGAGGCGA ACTCGATTCC
GGTGGCGACT TCTTTGGTGA ATTCGACCGT TGGTACACCG AAATGTGGAA TCGCTTTGCA
ATCAGCGCCG GGAAGGAAAT CCCGGTTATT CAACATGACG ATGTCGCATT GAAAGTAAGC
TTCGCCGGGA GTTCCCGTGA AAAGGTGCTT AACTTGGGCG ACATGGCGCA TGCGTCCATC
GTCGACAATA GAGAGCTGGT CGACATTAGC GTGGCTGGCA GCCGCTCTAA GAAGCACATT
GAATTGAAAC TTCCGGAAGC GATGACTTAT CGATCGGGAG ATTATCTGGC CGTTCTGCCC
CGCAACGCGA AAAACAACGT CGATCGCGTC TTGCGCCGGT TTCGCGTGAG CTGGGACACT
CAGGTGGTGA TCGAAGGAAC GTCAAGCAAT CCGCGCCTTC CGCTCGGCCA GGCAATAGGT
TGCGGTGAAC TGTTTTCGAG CTATGTCGAA CTCGCCGTTC CCGCAACTCG ATCACAAGTA
TCCAGCCTGG CCGCTGCCAC GCGTTGCCCA CCCGAGAAGG TCGAGCTTGA GCGCCTGAGC
GCCGACGGTT TCGAATGCGA GATTCTGGGA AAGCGGACAA CCGTCATGGA TCTGCTCGAA
CGCTTCGGAT CCGTCGACCT GTCGCTCGAA AAGTTCCTTG ATATGCTGCC CGCGCTGAAA
GCACGCCAGT ACTCGATCTC GTCGTCCCCG CTTTGGAAAG CGGACCATGT CACGCTGACG
GTGGCCGTGG TCGATGCACC GGCGCTCTCC GGCAATGGTC GTCATGAAGG GGTGGCATCG
TCGTATCTCG CGCGACTCAA CACGGGTGAC AGCTTGTCCG TTGCAGTCAG GCCATCGAAT
GCACGCTTTC GGCCACCAGC CGAACCCGAT CTTCCGATGA TTCTGATCTG CGCCGGTTCC
GGTATCGCCC CATTCCGCGG CTTTCTGCAA GAGCGCGCAT TACAGAAACA GCGGGGGGAG
AACGTCGGCA CGTCGTTGCT GTTCTTCGGG ATCGATGACC CCGACGTCGA CTTTCTCTAT
CGCGACGAAC TCGACGAATG GGCACGATGC GGTGTGGTCG AAGTGATGCC GGCTTATTCA
AACCGCCCGG AGGAAGGTGC CCGATTCGTT CAAGACAAAG TCTGGCTGGA ACGCGAGAGA
ATCTCCGCAC TGTTTTCGCA AGGTGCCACC GTCTTTGTCT GCGGGGATGG AAAGAATATG
GCGCCCGCCG TCCGTGCCAC GCTTGGTCGC ATTTATCAGG AGACTACTGG CGAGAACGAT
GAGAGCGCCA GTGCGTGGAT CGACACGATG GAGCGGGAGC ATGGCAGATA TGTCGCCGAC
GTGTTTGCAT GA
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| Protein sequence | MKSSSLVPQP PLKPVIGHLM EVLGPSPLAK MMDLARTYGP VYWFEVFGQG YYVVSGQTLV
DEVCDETRFQ KCVHQSLLEL RPAIGDGLFT AFGDEPNWAK AHRVLMQAFG PLSIWSMFDK
MVDIADQMFL HWERFGPETP VDVSDHMTRL TLDTIALCAF DCRFNSFYRE DQHPFVDAMV
NTLSEAGKRE LRPKLVSKLM VKRSRQFDAD IEVMRSLATK MIEDRRKNPH VNEESMDLLD
RMLNGIDPVT GEKLDDENIV FQMITFLIAG HETTSGLLSF ATYFLLKNPD ILQKARDMVD
EVVGSETPRI EHLARLRYVE QILMETLRIW PTAPGFAVKP LADTTFGGKY AVSPDDIIMI
LTPMLHRDVS VWGEDVEAFR PERFAPENAE QLPPNSWKPF GNGARACIGR PFAMQEAHLV
LIMLLQRFDF SFADPDYELD VAETLTLKPA GFRVNVKPRA RGALKVPDTA LHARSNAQSP
SVAPVQSIAP GEDLSNLLVL FGGNTGSAES FARRIAGDAS RHGFHATCAP LDDFAGKLGG
YPAIVIVTAS YEGQPPDNAK SFVPYVEALD EGALDGVHFS VLGCGNKQWA RTYQAIPKRV
DEALEKAGAT RVHFRGELDS GGDFFGEFDR WYTEMWNRFA ISAGKEIPVI QHDDVALKVS
FAGSSREKVL NLGDMAHASI VDNRELVDIS VAGSRSKKHI ELKLPEAMTY RSGDYLAVLP
RNAKNNVDRV LRRFRVSWDT QVVIEGTSSN PRLPLGQAIG CGELFSSYVE LAVPATRSQV
SSLAAATRCP PEKVELERLS ADGFECEILG KRTTVMDLLE RFGSVDLSLE KFLDMLPALK
ARQYSISSSP LWKADHVTLT VAVVDAPALS GNGRHEGVAS SYLARLNTGD SLSVAVRPSN
ARFRPPAEPD LPMILICAGS GIAPFRGFLQ ERALQKQRGE NVGTSLLFFG IDDPDVDFLY
RDELDEWARC GVVEVMPAYS NRPEEGARFV QDKVWLERER ISALFSQGAT VFVCGDGKNM
APAVRATLGR IYQETTGEND ESASAWIDTM EREHGRYVAD VFA
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