초록
<P>Short-chain fatty acids (SCFAs), such as butyric acid, have a broad range of applications in chemical and fuel industries. Worldwide demand of sustainable fuels and chemicals has encouraged researchers for microbial synthesis of SCFAs. In this study we compared three thioesterases, i.e., TesAT from <I>Anaerococcus tetradius</I>, TesBF from <I>Bryantella formatexigens</I> and TesBT from <I>Bacteroides thetaiotaomicron</I>, for production of SCFAs in <I>Escherichia coli</I> utilizing native fatty acid synthesis (FASII) pathway and modulated the genetic and bioprocess parameters to improve its yield and productivity. <I>E</I>. <I>coli</I> strain expressing <I>tesBT</I> gene yielded maximum butyric acid titer at 1.46 g L<SUP>-1</SUP>, followed by <I>tesBF</I> at 0.85 g L<SUP>-1</SUP> and <I>tesAT</I> at 0.12 g L<SUP>-1</SUP>. The titer of butyric acid varied significantly depending upon the plasmid copy number and strain genotype. The modulation of genetic factors that are known to influence long chain fatty acid production, such as deletion of the <I>fadD</I> and <I>fadE</I> that initiates the fatty acid degradation cycle and overexpression of <I>fadR</I> that is a global transcriptional activator of fatty acid biosynthesis and repressor of degradation cycle, did not improve the butyric acid titer significantly. Use of chemical inhibitor cerulenin, which restricts the fatty acid elongation cycle, increased the butyric acid titer by 1.7-fold in case of TesBF, while it had adverse impact in case of TesBT. <I>In vitro</I> enzyme assay indicated that cerulenin also inhibited short chain specific thioesterase, though inhibitory concentration varied according to the type of thioesterase used. Further process optimization followed by fed-batch cultivation under phosphorous limited condition led to production of 14.3 g L<SUP>-1</SUP> butyric acid and 17.5 g L<SUP>-1</SUP> total free fatty acid at 28% of theoretical yield. This study expands our understanding of SCFAs production in <I>E</I>. <I>coli</I> through FASII pathway and highlights role of genetic and process optimization to enhance the desired product.</P>