Altering product outcome in Abies grandis (−)-limonene synthase and (−)-limonene/(−)-α-pinene synthase by domain swapping and directed mutagenesis

Abstract

(−)-(4 S)-limonene synthase (LS) and (−)-(4 S)-limonene/(−)-(1 S, 5 S)-α-pinene synthase (LPS) from grand fir ( Abies grandis) exhibit nearly 91% sequence identity (93% similarity) at the amino acid level, yet produce very different mixtures of monoterpene olefins. To elucidate critical amino acids involved in determining monoterpene product distribution, a combination of domain swapping and reciprocal site-directed mutagenesis was carried out between these two enzymes. Exchange of the predicted helix D through F region in LS gave rise to an LPS-like product outcome, whereas reciprocal substitutions of four amino acids in LPS (two in the predicted helix D and two in the predicted helix F) altered the product distribution to that intermediate between LS and LPS, and resulted in a 5-fold increase in relative velocity. These results, in conjunction with modeling of the two enzymes, suggest that amino acids in the predicted D through F helix regions are critical for product determination.