Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | BamMC406_4016 |
Symbol | |
ID | 6181168 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Burkholderia ambifaria MC40-6 |
Kingdom | Bacteria |
Replicon accession | NC_010552 |
Strand | - |
Start bp | 1032565 |
End bp | 1034253 |
Gene Length | 1689 bp |
Protein Length | 562 aa |
Translation table | 11 |
GC content | 67% |
IMG OID | 641683786 |
Product | phosphoenolpyruvate phosphomutase |
Protein accession | YP_001810697 |
Protein GI | 172063046 |
COG category | [G] Carbohydrate transport and metabolism [M] Cell wall/membrane/envelope biogenesis |
COG ID | [COG1213] Predicted sugar nucleotidyltransferases [COG2513] PEP phosphonomutase and related enzymes |
TIGRFAM ID | [TIGR02320] phosphoenolpyruvate phosphomutase |
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Plasmid Coverage information |
Num covering plasmid clones | 17 |
Plasmid unclonability p-value | 0.213479 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 27 |
Fosmid unclonability p-value | 0.855206 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGAACGCTC GCGAACCCAA CTTCTCCGAA TCGCGCAGCG CACGCCTGCG CCGCATGCTC GTCAGCAACG AACTCGAATT CCTGATGGAA GCGCACAACG GCCTGTCCGC ACGGATCGTC CGCGAAGCCG GCTTCAAGGG GATCTGGGCA TCGGGCCTCG CGATCTCCGC GCAGTTCGGC GTGCGCGACA ACAACGAAGC GAGCTGGACG CAGGTCGTCG ACGTGCTCGA GTTCATGGCC GACGCGAGCG ATCTGCCGAT CCTGCTCGAC GGCGACACCG GCTACGGCAA CTTCAACAAC GTGCGCCGCC TCGTGAAGAA GCTCGAGCAG CGCGGCATCG CCGGCGTGTG CATCGAAGAT AAACAATTCC CGAAGACCAA CAGCTTCATC GGCGGCGAGC GCCAGCCGCT CGCGGAAATC GACGAGTTCT GCGGCAAGAT CAAGGCCGGC AAGGATTCGC AGAGCGACAC CGACTTCTCG ATCGTCGCGC GCGTCGAGGC ACTGATCGCG GGCTGGGGGA TGGACGAGGC GCTGCGCCGC GCGAACGCAT ACGCGGAAGC CGGTGCGGAC GCGATCCTGA TCCACAGCAA GCTGTCGCGC CCCGACGAAA TTCTCCAGTT CGCACGCGAA TGGAGCGGCA AGGCGCCGCT CGTGATCGTG CCGACCAAGT ACTACAGCAC GCCGACCGAC GTGTTCCGCC AGGCCGGCAT CAGCACCGTG ATCTGGGCGA ACCACCTGAT CCGCGCATCG GCGTCGGCCA TGCAGGCCGT CGCGCGCGAG ATTCATGAAA ACGAGACGCT GATCAACGTC GAGGACCGCG TCGCGTCCGT CAACGAGATC TTCCGCCTGC AGGACGCCGA CGAATACTCG GCAGCCGAGC GCATCTACCT GTCGTCGTCG TCGCGCGCGT CGAACGCCGC GATCGTGCTC GCCGCGAGCC GCGGCAAGGG GCTCGAGGCC GTCACCGAGG ATAAGCCCAA GGTCATGCTG CCGGTCGCCG GCAAGCCGCT GCTGCGCTGG CTCGTCGACG GCTTCAAGAC GCACGGCGTG AACGACATCA CCGTGGTCGG CGGCTATCGC GCCGACGCGA TCGACACGTC GGGCATCAAG CTCGTCGTCA ACGAGCGTCA CGCGCAGACG GGCGAACTCG CGTCGCTCGC GTGCGCGGCC GAACGCCTGA CCGGCGACAC CGTGATCTCG TACGGCGACC TGCTGTTCCG CAGCTACATC GTGCGCGACC TCGCGGAGAG CGAGGCCGAG TTCAGCGTCG TCGTCGACTC GTCGCTGACC GAGCCGACCA ACCAGAGCGT GCGCGATTTC GCGCTCTGCT CGGCCGCCGA CGACCGCGGC CTGTTCGGTC AGAAAACCTA CCTGCAACGC GTATCGAGCG ACGTCGCCGC AGGCACGCCG CACGGCCGCT GGATCGGCCT GCTGAACGTG CGCGGCGCAG GCGTGGACCG CCTGAAGGCG ATGCTCGCGA CGCTGCAGGC GCGTCCTGAT TTCGACACGC TCGATATCCC GTCGCTGCTC AACGAGCTGA TCGCCGCCGG CGAGAAGATC GAAGTGCAGT ACGTGCACGG CCACTGGCGC GGCGTCAACG ATCTCGAAGA CTTCCGCCGC GCGGGCGACT TCGCGCACGG CCAGACGCCG CTGTCCGAGC CGGGCGCCGG CAACGGGGGC GCGCAATGA
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Protein sequence | MNAREPNFSE SRSARLRRML VSNELEFLME AHNGLSARIV REAGFKGIWA SGLAISAQFG VRDNNEASWT QVVDVLEFMA DASDLPILLD GDTGYGNFNN VRRLVKKLEQ RGIAGVCIED KQFPKTNSFI GGERQPLAEI DEFCGKIKAG KDSQSDTDFS IVARVEALIA GWGMDEALRR ANAYAEAGAD AILIHSKLSR PDEILQFARE WSGKAPLVIV PTKYYSTPTD VFRQAGISTV IWANHLIRAS ASAMQAVARE IHENETLINV EDRVASVNEI FRLQDADEYS AAERIYLSSS SRASNAAIVL AASRGKGLEA VTEDKPKVML PVAGKPLLRW LVDGFKTHGV NDITVVGGYR ADAIDTSGIK LVVNERHAQT GELASLACAA ERLTGDTVIS YGDLLFRSYI VRDLAESEAE FSVVVDSSLT EPTNQSVRDF ALCSAADDRG LFGQKTYLQR VSSDVAAGTP HGRWIGLLNV RGAGVDRLKA MLATLQARPD FDTLDIPSLL NELIAAGEKI EVQYVHGHWR GVNDLEDFRR AGDFAHGQTP LSEPGAGNGG AQ
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