Functional production and biochemical investigation of an integral membrane enzyme for olefin biosynthesis

Abstract

AbstractIntegral membrane enzymes play essential roles in a plethora of biochemical processes. The fatty acid desaturases (FADS)‐like superfamily is an important group of integral membrane enzymes that catalyze a wide array of reactions, including hydroxylation, desaturation, and cyclization; however, due to the membrane‐bound nature, the majority of these enzymes have remained poorly understood. UndB is a member of the FADS‐like superfamily, which catalyzes fatty acid decarboxylation, a chemically challenging reaction at the membrane interface. UndB reaction produces terminal olefins that are prominent biofuel candidates and building blocks of polymers with widespread industrial applications. Despite the great importance of UndB for several biotechnological applications, the enzyme has eluded comprehensive investigation. Here, we report details of the expression, solubilization, and purification of several constructs of UndB to achieve the optimally functional enzyme. We gained important insights into the biochemical, biophysical, and catalytic properties of UndB, including the thermal stability and factors influencing the enzyme activity. Additionally, we established the ability and kinetics of UndB to produce dienes by performing di‐decarboxylation of diacids. We found that the reaction proceeds by forming a mono‐carboxylic acid intermediate. Our findings shed light on the unexplored biochemical properties of the UndB and extend opportunities for its rigorous mechanistic and structural characterization.