45.
The goal of the present study was to increase the content of intracellular long-chain fatty acids in two bacterial strains,
Pseudomonas aeruginosa PA14 and
Escherichia coli K-12 MG1655, by co-overexpressing essential enzymes that are involved in the fatty acid synthesis metabolic pathway. Recently, microbial fatty acids and their derivatives have been receiving increasing attention as an alternative source of fuel. By introducing two genes (
accA and
fabD) of
P. aeruginosa into the two bacterial strains and by co-expressing with them the fatty acyl?Cacyl carrier protein thioesterase gene of
Streptococcus pyogenes (strain MGAS10270), we have engineered recombinant strains that are efficient producers of long-chain fatty acids (C16 and C18). The recombinant strains exhibit a 1.3?C1.7-fold increase in the production of long-chain fatty acids over the wild-type strains
. To enhance the production of total long-chain fatty acids, we researched the carbon sources for optimized culture conditions and results were used for post-culture incubation period.
E. coli SGJS17 (containing the
accA,
fabD, and thioesterase genes) produced the highest content of intracellular total fatty acids; in particular, the unsaturated fatty acid content was about 20-fold higher than that in the wild-type
E. coli.
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