| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | BTH_I2781 |
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| Symbol | carB |
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| ID | 3847221 |
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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 thailandensis E264 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007651 |
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| Strand | - |
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| Start bp | 3193189 |
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| End bp | 3196443 |
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| Gene Length | 3255 bp |
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| Protein Length | 1084 aa |
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| Translation table | 11 |
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| GC content | 66% |
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| IMG OID | 637842449 |
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| Product | carbamoyl phosphate synthase large subunit |
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| Protein accession | YP_443293 |
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| Protein GI | 83718685 |
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| COG category | [E] Amino acid transport and metabolism
[F] Nucleotide transport and metabolism |
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| COG ID | [COG0458] Carbamoylphosphate synthase large subunit (split gene in MJ) |
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| TIGRFAM ID | [TIGR01369] carbamoyl-phosphate synthase, large subunit |
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Plasmid Coverage information |
| Num covering plasmid clones | 9 |
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| Plasmid unclonability p-value | 0.0855395 |
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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 | ATGCCAAAAC GCACAGACAT CAACAGCATC CTCATCATCG GCGCCGGCCC GATCATCATC
GGCCAGGCGT GCGAGTTCGA CTATTCGGGC GCGCAGGCAT GCAAGGCGTT GCGTGAGGAG
GGCTACAAGG TCATCCTCGT CAACAGCAAT CCGGCTACGA TCATGACCGA TCCGAGCACG
GCGGACGTCA CGTACATCGA GCCGATCACG TGGGAAGTCG TCGAGCGCAT CATCGCGAAG
GAGCGCCCCG ACGCGATCCT GCCGACGATG GGCGGCCAGA CCGCGCTCAA CTGCGCGCTC
GACCTGTTCC ACCACGGCGT GCTCGAGAAG TACGGCGTCG AGCTGATCGG CGCGTCGCCT
GAAGCGATCG ACAAGGCGGA AGACCGCCAG AAGTTCAAGG ACGCGATGAC GAAGATCGGT
CTCGGTTCCG CGAAGTCGGG CATCGCGCAT TCGTTGGAAG AGGCGCACAA GGTGCACGGC
GAGATCATGG CGGCCACGGG CGGCAGCGGC TACCCGGTCG TGATCCGTCC GTCGTTCACG
CTCGGCGGCT CGGGCGGCGG CATCGCGTAC AACCGCGAGG AATTCGAGGA GATCTGCAAG
CGCGGCCTCG ACCTGTCGCC GACGCGCGAG CTGCTGATCG AGGAATCGCT GCTCGGCTGG
AAGGAGTACG AGATGGAAGT CGTGCGCGAC CGCGCCGACA ACTGCATCAT CGTCTGCTCG
ATCGAGAACC TCGACCCGAT GGGCGTGCAC ACGGGCGACT CGATCACGGT CGCCCCGGCG
CAGACGCTCA CCGACAAGGA ATACCAGATC CTGCGTAACG CGTCGCTCGC GGTGCTGCGC
GAGATCGGCG TCGACACGGG CGGCTCGAAC GTGCAGTTCT CGATCAACCC GAAGGACGGC
CGCATGGTCG TGATCGAGAT GAACCCGCGC GTGTCGCGTT CGTCGGCGCT CGCGTCGAAG
GCGACGGGCT TTCCGATCGC GAAGGTCGCG GCGAAGCTCG CGGTCGGCTA CACGCTCGAC
GAGCTGAAGA ACGAGATCAC GGGCGGTGCG ACGCCCGCGT CGTTCGAGCC GACGATCGAT
TACGTCGTCA CGAAGATCCC GCGCTTCGCG TTCGAGAAGT TCCGCGAGGC CGATTCGCGG
CTGACGACGC AGATGAAGTC GGTCGGCGAA GTGATGGCGA TCGGCCGGAC GTTCCAGGAG
TCGTTCCAGA AGGCGCTGCG GGGCCTCGAA GTCGGCGTCG ACGGTCTCGA CGAGAAGACG
ACGAGCCGCG ACGAGATCGT CCGCGAGATC GGCGAGCCGG GCCCGGACCG GATCTGGTAC
GTTGGCGACG CGTTTCGCAT CGGCATGTCG CGCGAGCAGA TCTTTGAGGA AACCGCGATC
GATCCGTGGT TCCTCGCGCA GATCGAGCAG ATCGTGCTGA AGGAGAAGGC GCTCGCCGGC
CGCACGCTCG CGAGCTTGAC GAAGGACGAG CTGCATTATC TGAAGCAGAG CGGCTTCTCC
GACCGGCGCC TCGCGAAGCT GCTCGGCGCG ACGCCCGCCG ACGTGCGCGC GCGCCGCCTC
GCGCTGAACG TGCGCCCGGT CTACAAGCGC GTCGATACCT GCGCGGCCGA GTTTGCGACG
AAGACGGCCT ACATGTACTC GACTTACGAG GACGAGTGTG AGGCGCAGCC GACGACGAAC
AAGAAGATCA TGGTGCTCGG CGGGGGGCCG AACCGGATCG GCCAGGGCAT CGAGTTCGAT
TACTGCTGCG TGCACGCCGC GCTCGCGATG CGCGAGGACG GCTACGAGAC GATCATGGTC
AACTGCAACC CGGAAACGGT GTCGACCGAC TATGACACGT CCGATCGCCT GTACTTCGAG
CCGCTCACGC TCGAGGACGT GCTTGAGATC GTCGACAAGG AGAAGCCCGT CGGCGTGATC
GTCCAGTACG GCGGCCAGAC GCCGCTGAAG CTCGCGCTCG ATCTCGAGGC GCACGGCGTG
CCGATCATCG GCACGTCGCC GGACATGATC GACGCGGCCG AAGATCGCGA GCGCTTCCAG
AAGCTCTTGC AGGATCTCGG CCTGCGCCAG CCGCCGAACC GCACCGCGCG CGCCGAGGAC
GAAGCGCTCG CGCTCGCCGA CGAGATCGGC TATCCGCTCG TCGTGCGTCC GTCGTACGTG
CTGGGCGGCC GCGCGATGGA GATCGTCCAC GAGCCGCGCG ACCTTGAGCG CTACATGCGC
GAGGCGGTGA AGGTGTCGAA CGATTCGCCG GTGCTGCTCG ACCGCTTCCT GAACGACGCG
ATCGAATGCG ATGTCGACTG CATCTGCGAC GGCGACGCCG TGTTTATCGG CGGCGTGATG
GAGCACATCG AGCAGGCGGG CGTTCACTCG GGCGACTCGG CATGCTCGCT GCCGCCGTAC
TCGCTGTCGA AGGAGACGGT TGCCGAGTTG AAGCGCCAGA CGGGCGCGAT GGCGAAGGCG
CTGAACGTGG TCGGCCTGAT GAACGTGCAG TTCGCGATCC AGCAGGTGCC GCAGCAGGAC
GGCTCGAAGG AAGACGTCAT CTACGTGCTC GAAGTGAACC CGCGTGCGTC GCGCACGGTG
CCGTACGTGT CGAAGGCGAC GAGCCTGCCG CTCGCGAAGA TCGCCGCACG CGCGATGGTC
GGCCAGACGC TCGCGCAGCA GGGCGTGACG AAGGAAGTCG AGCCGCCGTA CTTCAGCGTG
AAGGAAGCGG TGTTCCCGTT CATCAAGTTC CCGACCGTCG ACCCGGTGCT CGGGCCCGAG
ATGCGTTCGA CGGGCGAGGT GATGGGCGTC GGCCGGACCT TCGGCGAGGC GCTCTTCAAG
TCGCAGCTCG CGGCCGGCTC TCGCCTGCCG GAGTCGGGCA CGGTGCTGCT CACGGTGATG
GACGCGGACA AGCCGAAGGC CGTCGAGGTC GCGAAGATGT TGCACGATCT CGGCTATCCG
CTCGTCGCGA CGCGCGGCAC GGCCGCCGCG ATCGAGGCGG CGGGCGTGCC GGTGAAGGTC
GTGAACAAGG TGAAGGACGG CCGTCCGCAC ATCGTCGACA TGATCAAGAA CGGCGAGATC
GCGCTCGTGT TCACGACGGT CGACGAGACG CGCGCGGCGA TCGCCGATTC GCGTTCGATC
CGGATGAGCG CGCAGGCGCA CAAGGTCACG TATTACACGA CGATGTCCGG CGCACGCGCG
GCGGTGGAGG GGCTTCGGTA CCTGAAGGAC TTGGAAGTCT ATGATTTACA AGGTCTGCAC
GCTCGCCTAA ACTAA
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| Protein sequence | MPKRTDINSI LIIGAGPIII GQACEFDYSG AQACKALREE GYKVILVNSN PATIMTDPST
ADVTYIEPIT WEVVERIIAK ERPDAILPTM GGQTALNCAL DLFHHGVLEK YGVELIGASP
EAIDKAEDRQ KFKDAMTKIG LGSAKSGIAH SLEEAHKVHG EIMAATGGSG YPVVIRPSFT
LGGSGGGIAY NREEFEEICK RGLDLSPTRE LLIEESLLGW KEYEMEVVRD RADNCIIVCS
IENLDPMGVH TGDSITVAPA QTLTDKEYQI LRNASLAVLR EIGVDTGGSN VQFSINPKDG
RMVVIEMNPR VSRSSALASK ATGFPIAKVA AKLAVGYTLD ELKNEITGGA TPASFEPTID
YVVTKIPRFA FEKFREADSR LTTQMKSVGE VMAIGRTFQE SFQKALRGLE VGVDGLDEKT
TSRDEIVREI GEPGPDRIWY VGDAFRIGMS REQIFEETAI DPWFLAQIEQ IVLKEKALAG
RTLASLTKDE LHYLKQSGFS DRRLAKLLGA TPADVRARRL ALNVRPVYKR VDTCAAEFAT
KTAYMYSTYE DECEAQPTTN KKIMVLGGGP NRIGQGIEFD YCCVHAALAM REDGYETIMV
NCNPETVSTD YDTSDRLYFE PLTLEDVLEI VDKEKPVGVI VQYGGQTPLK LALDLEAHGV
PIIGTSPDMI DAAEDRERFQ KLLQDLGLRQ PPNRTARAED EALALADEIG YPLVVRPSYV
LGGRAMEIVH EPRDLERYMR EAVKVSNDSP VLLDRFLNDA IECDVDCICD GDAVFIGGVM
EHIEQAGVHS GDSACSLPPY SLSKETVAEL KRQTGAMAKA LNVVGLMNVQ FAIQQVPQQD
GSKEDVIYVL EVNPRASRTV PYVSKATSLP LAKIAARAMV GQTLAQQGVT KEVEPPYFSV
KEAVFPFIKF PTVDPVLGPE MRSTGEVMGV GRTFGEALFK SQLAAGSRLP ESGTVLLTVM
DADKPKAVEV AKMLHDLGYP LVATRGTAAA IEAAGVPVKV VNKVKDGRPH IVDMIKNGEI
ALVFTTVDET RAAIADSRSI RMSAQAHKVT YYTTMSGARA AVEGLRYLKD LEVYDLQGLH
ARLN
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