New Insights into the Biosynthesis of Succinic Acid by Actinobacillus succinogenes with the Help of Its Engineered Strains

Abstract

Succinic acid (SA), a C4 tricarboxylic acid cycle intermediate, is used as raw material for bulk chemicals and specialty chemicals, such as tetrahydrofuran and 1,4-butanediol, as well as also being used to synthesize the biodegradable biopolymers PBS (polymer poly (butylene succinate)). Actinobacillus succinogenes, which is facultative anaerobic and gram-negative, is one of the most promising natural SA-producing organisms, but genetic engineering of A. succinogenes is rare so far. In this study, a series of engineered strains was constructed using the pLGZ922 expression vector and a cytosine base editor (CBE) based on CRIPSR/Cas9; we found that phosphoenolpyruvate carboxylase (PEPC) was more important for the CO2 fixation pathway than pyruvate carboxylase (PYC) in A. succinogenes, and the annotated oxaloacetic acid decarboxylase (Asuc_0301 and Asuc_0302) had little correlation with the SA synthesis pathway. The by-product pathway was closely related to cell growth, and overexpression of FDH was beneficial to growth, while the knockout of the ackA gene reduced the growth. For the first time, the hypothetic sugars and SA transporters were mined and identified in A. succinogenes, of which Asuc_0914 was responsible for glucose uptake, and Asuc_0715 and Asuc_0716 constituted SA exporters. This deepens the understanding of SA biosynthesis in A. succinogenes and is also valuable for SA production by fermentation.