| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | BamMC406_5518 |
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| Symbol | |
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| ID | 6181974 |
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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 ambifaria MC40-6 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010557 |
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| Strand | + |
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| Start bp | 1744 |
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| End bp | 4566 |
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| Gene Length | 2823 bp |
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| Protein Length | 940 aa |
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| Translation table | 11 |
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| GC content | 70% |
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| IMG OID | 641688651 |
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| Product | aldehyde oxidase and xanthine dehydrogenase molybdopterin binding |
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| Protein accession | YP_001815515 |
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| Protein GI | 172064803 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG1529] Aerobic-type carbon monoxide dehydrogenase, large subunit CoxL/CutL homologs
[COG2080] Aerobic-type carbon monoxide dehydrogenase, small subunit CoxS/CutS homologs |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 16 |
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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 | 37 |
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| Fosmid unclonability p-value | 1 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | GTGGCGCATC CACTGCCTGA TCAGCTGGCC GATGTTCGCG AAACCATCGC GGGCGGCAGC
ACGCCGGTTT CGCCGGAACC GGACTGGTTC GAGCTCAACG GCACGCGGCG GAGCCTGCCG
GCCGACCACT CGCAGCGGCT CATCGACCAT CTGCGCGCGG ACTTGCGCCA GTTCGGCACC
AAGGAAGGTT GCCGCCAGGG CGATTGCGGC AGCTGCACGG TGATCGTCGA CGGCGACGCG
CGCTATGCGT GCCTGATTCC GGTCGGCCAG ATCGCGGGGC GCCGTGTCGT CACCGTCGAA
GGCCTCGCCG ACGGCACCCG CTGCGGCGGC CGCCTGCAGC ACGCGTTTCT CGCGCATCAG
GCGGTGCAAT GCGGCTTCTG CACGCCCGGC ATGCTGACGG CCGCGGCGGC GGCGATCGAC
GCCGGCGAGG TGAGCGATCG CGCCAGTGCG CGGGCCGCCA TCGACGGCGT GCTGTGCCGC
TGCACCGGCT ACCAGAAGAT CGTCGACGCG GTGACCGAGG CGGGCTGCGG CGGCGCCGCG
CGATGCGTGA CGCCTGCGCC GTCCGAAGGG CCATCCGTCG GCGTACCGCT GACGCGTCTC
GATGGCCCGG AAAAGGTCGA CGGAAGCCAG CGTTTCGGCG CCGACGGCTA TCCGGCCGAC
AGCCTGTTCC TGCGCGCGGT TCGCAGTCCG CATCATCGCG CGCGTTTCGC GTTCGGCGAC
CTCGACGCAT TCGTGCGCGC CCATCCGGGC GTGCACCGCG TCCTCACCCA CGCCGATGTG
CCTGGCATGA ACCTGCACGG TGTCGCGACG CCGTACATGG ATCAGCCCGT CCTTCCCGAG
ACGGAAGCGC GCCACCATCT CGAGGCGGTG GCGTTGGTTG TCGGCGAGCG CGCCGCGATC
GCGGCGCTCG ACCTCGACTG CTTTCCGGTG AACTGGGAAT CGCTGACGCC GGTGCTTGCG
ATCGCCGATG CGGTGCTGGA CGACAGTCCG CTGCTGCACG CCGATCGTCC CGGCAACGTG
CTGATCGAGG GGCACGTGCG CCGCGGCGAG CCGGAACGCG CGATGCAAGA CGCCCGTCAC
GTTGTGAGCG CAACGTTCGA ATCCAGTTTC GTCGAGCACG CGTACCTCGA GCCCGAGGCC
GGCTGGGCGC GACGCGTGGG CGACATCATC GAAATCCATT CGTCCACGCA GGCGCCGCAT
CCGCACCGCG CCGATCTCGC CCGCATTCTC GCGGTCGCGC CGGAGCAGGT GCGCGTCGTG
GCGACCGCGG TCGGCGGCGG TTTCGGCGGC AAGCTCGACA TGACGGTCCA GCCGCTGCTC
GCGATCGCGG CCTGGCATCT CGACAGGCCC GTCGCGATGG TGTTGTCGCG CGAGGAATCG
ATGGCCACGT CGACCAAGCG CCATCCCGGC CGCATGACGT CCAGCATGGC CGCCGATGCC
GACGGCCGGC TCCATGCGGT GACGTTCGAC GCCGACTTCA ATACCGGCGC GTTCGCGTCG
TGGGGCACGG CCGTCGCCAA CCGCGTACCG GTGCATGCCG GCGGCCCGTA CGTCATCCCC
CACTATGCGG CGCGGGCCCG TGCGATTCAT ACGCACGTGA CGGCCGCGGG CGCATTCCGC
GGCTTCGGCG TACCGCAAAC GACGATGTCC CAGGAACAGC TCATCGACGA GCTGGCGTTC
ACGGCCGGCA TCGATCCGCT CGAATTCCGC GCGATGAACG CGCTGCGGCC GGGCGACACC
CTGCCGACCG GGCAGGTGCT GGACGACAGC GTGGGGCTCG TCGCCTGCCT CGATGCGCTG
CGACCGGCAT GGCGTGACGC ACACGCGCGC GTCGCCACGC TGAATGCGGC GGCGCCGGGC
CATCTGCGTC ATGGCGTCGG CGTGGCGGCG TTCTTCTACG GGTGCGGCAA CACCGCGTTG
CCGAACCCGT CGACCGTGCG CTTCGGCATC CGGCCCGACG GCACGATCGT CCTGCACCAG
GGGGCAGTGG ACGCCGGTCA GGGCGCGAAC ACCGTCATTC CGCAAATCGC CGCCGATGCG
CTGGGCGTAC CGGTCGATCG GCTGCACTTC GTCGGCCCGG ACACGTCGGT CACGCCCGAT
TGCGGTCGCA CGTCCGCTTC GCGCCAGACG TTCATTACCG GTCGAGCGGC GTTCCTCGCC
GGCACGACGC TGCGCCACCG GCTGCTCGCC TTCGCCGGCG CGTCATCCGA CGCGCGGATT
TCGGCCGATG CGCGCGGTGT TGCCGTCGAT GGCGAAGTGC TCGATCTCCG GGCGCTGCCG
GTCGATGCAC ACGGCTACGT CATCGCGGCC GAAGAGAGCT TCGATCCGCC GACCACGTCG
CTCGATGCGT CGGGGCAAGG CTCGCCTTAC GCCACCTACG CGTTCGGCGC GCAGATGGCC
GAAGTCGCGG TGGACTGCGA CAGCGGCCGC GTCCGCGTGC TCAAGGTCGT GGCCGCGCAC
GACGTCGGCA AAATGGTCAA TCCGACGCTG CTCGAAGGAC AGATCGAAGG CGCGGTGGCG
CAAGGTATCG GCATGGCGCT GATGGAAAAG TACCACCCCG GCCGATACAA CAATCTGCAC
GACTATCTGA TTCCGACGGT GCATGACATG CCCGACGTGC AATCGATTTT CATCGAAGCG
CCGACGGCCG TCGGCCCGTA CGGGGCAAAA GGCATCGGTG AGCCGGCGCT GGTGCCCACC
GCTGCGGCCA TCCTGAATGC GATCCATCAC GCAACCGGCG TACGCATCCG GCAGGCCCCG
GCCACGCCGG ATGTCGTGCG TGTCGCGCTC GCGGCCCACA ATTCGCCATC CGCGCGCCGA
TAG
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| Protein sequence | MAHPLPDQLA DVRETIAGGS TPVSPEPDWF ELNGTRRSLP ADHSQRLIDH LRADLRQFGT
KEGCRQGDCG SCTVIVDGDA RYACLIPVGQ IAGRRVVTVE GLADGTRCGG RLQHAFLAHQ
AVQCGFCTPG MLTAAAAAID AGEVSDRASA RAAIDGVLCR CTGYQKIVDA VTEAGCGGAA
RCVTPAPSEG PSVGVPLTRL DGPEKVDGSQ RFGADGYPAD SLFLRAVRSP HHRARFAFGD
LDAFVRAHPG VHRVLTHADV PGMNLHGVAT PYMDQPVLPE TEARHHLEAV ALVVGERAAI
AALDLDCFPV NWESLTPVLA IADAVLDDSP LLHADRPGNV LIEGHVRRGE PERAMQDARH
VVSATFESSF VEHAYLEPEA GWARRVGDII EIHSSTQAPH PHRADLARIL AVAPEQVRVV
ATAVGGGFGG KLDMTVQPLL AIAAWHLDRP VAMVLSREES MATSTKRHPG RMTSSMAADA
DGRLHAVTFD ADFNTGAFAS WGTAVANRVP VHAGGPYVIP HYAARARAIH THVTAAGAFR
GFGVPQTTMS QEQLIDELAF TAGIDPLEFR AMNALRPGDT LPTGQVLDDS VGLVACLDAL
RPAWRDAHAR VATLNAAAPG HLRHGVGVAA FFYGCGNTAL PNPSTVRFGI RPDGTIVLHQ
GAVDAGQGAN TVIPQIAADA LGVPVDRLHF VGPDTSVTPD CGRTSASRQT FITGRAAFLA
GTTLRHRLLA FAGASSDARI SADARGVAVD GEVLDLRALP VDAHGYVIAA EESFDPPTTS
LDASGQGSPY ATYAFGAQMA EVAVDCDSGR VRVLKVVAAH DVGKMVNPTL LEGQIEGAVA
QGIGMALMEK YHPGRYNNLH DYLIPTVHDM PDVQSIFIEA PTAVGPYGAK GIGEPALVPT
AAAILNAIHH ATGVRIRQAP ATPDVVRVAL AAHNSPSARR
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