Abstract:Phenylalanine can be transformed to phenyllactic acid by resting recombinant Escherichia coli.However，substrate and product transport limitations restrict the yield of phenyllactic acid to far below industriallyrelevant levels.Ultrasonic permeation was used to treat resting E.coli to improve the permeability and reduce the effect of the cell barrier on catalysis.Resting cells were permeated by an ultrasonic crusher.The optimized ultrasonic treatment conditions were 1 min treatment time 1 min，80% duty cycle，and 30% power.The optimized catalytic conditions of permeable cells were pH7，35 ℃，and phosphate buffered saline（PBS）as the buffer.The yield of phenyllactic acid increased from 43.93 g/L to 52.59 g/L，and the substrate conversion increased from 78.70% to 94.59% .Concentration changes of intracellular phenylalanine，phenylpyruvic acid，and phenyllactic acid during the catalytic process were studied.Ultrasonic treatment improved the transport rate of substrate and products，and thus improved the catalytic efficiency of the whole reaction.The findings provide theoretical guidance for the process of cell permeabilization during resting cell catalysis.