Production of l-phenylalanine from glucose by metabolic engineering of wild type Escherichia coli W3110

Abstract

The market of l-phenylalanine has been stimulated by the great demand for the low-calorie sweetener aspartame. In this paper, the effects of pivotal genes on l-phenylalanine production were evaluated by metabolic engineering of wild type Escherichia coli. The bifunctional PheA protein contains two catalytic domains (chorismate mutase and prephenate dehydratase activities) as well as one R-domain (for feedback inhibition by l-phenylalanine). The catalytic domain of PheA was overexpressed to increase l-phenylalanine production. It was firstly indicated that this domain could enhance the metabolic influx to overproduce l-phenylalanine and improve the survival ability under m-Fluoro-dl-phenylalanine stress. Furthermore, the fermentation performance of aroG feedback inhibition resistant mutants was firstly compared, aroG29 and aroG15 increased the l-phenylalanine concentration by 5-fold. After that the expression of aroK and ydiB was also elevated, and the l-phenylalanine yield on cell (0.79g/g) and maximum l-phenylalanine productivity (0.073g/L/h) were subsequently doubled. Meanwhile, the l-phenylalanine yield on glucose increased from 0.124g/g to 0.153g/g. It was found that genes ydiB and aroK could elevate the l-phenylalanine yield and productivity and shorten the lag phase.