Literature summary for 3.7.1.21 extracted from

Ruan, M.; Liang, B.; Mbadinga, S.; Zhou, L.; Wang, L.; Liu, J.; Gu, J.; Mu, B.
Molecular diversity of bacterial bamA gene involved in anaerobic degradation of aromatic hydrocarbons in mesophilic petroleum reservoirs (2016), Int. Biodeter. Biodegrad., 114, 122-128 .

No PubMed abstract available

Organism

Organism	UniProt	Comment	Textmining
uncultured bacterium	A0A0M3THU9	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M3THV1	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M3THV3	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M3THW0	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M3THW2	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MHK4	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MHL2	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MHM0	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MIA6	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MIB4	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MIC1	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MTM8	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MTN6	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MWS8	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MWT8	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MWU6	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4MWU9	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4N707	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4N725	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4NIG8	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4NIH9	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4NII7	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4NKL9	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4NKM9	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4NKN9	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M4NKP9	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M5L4Q1	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M5L4Q6	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M5LAE6	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M5LBR2	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-
uncultured bacterium	A0A0M5LC50	bamA fragments PCR amplified from the microbial biomass of two mesophilic oil producing reservoirs. The diversity of the bamA functional gene is examined which is involved in the aromatic ring cleavage, in oil production water samples	-

Synonyms

Synonyms	Comment	Organism
bamA	-	uncultured bacterium

General Information

General Information	Comment	Organism
metabolism	key enzyme involved in the reductive benzene ring cleavage. The enzyme is involved in degradation of selected aromatic compounds via the benzoyl-CoA degradation pathway	uncultured bacterium