A bacterial platform for producing aromatic esters from glycerol

Journal article, 2024

Aromatic esters possess flavor and fragrance qualities that are widely used in the food, pharmaceutical and cosmetic industries. However, microbial production of these compounds is hampered by a limited understanding of the natural biosynthetic pathway and the relatively low titer and yield. This study establishes a microbial platform for the efficient production of various aromatic esters. A systematic engineering strategy was developed, involving reshaping the substrate access tunnel to enhance enzyme substrate specificity, shifting acetyl coenzyme A metabolic pathways to improve cofactor supply and engineering a dynamic regulation system to redistribute the carbon flux from cell growth toward product synthesis. The implementation of these approaches led to the production of 10.4 g l-1 benzyl benzoate, representing a 4,700-fold increase in titer compared with the initial strain. This work showcases a bacterial platform for the efficient production of aromatic esters and offers insights into overcoming challenges in microbial cell factory construction.