Application of sequential integration for metabolic engineering of 1,2-propanediol production in yeast

The yeast species Saccharomyces cerevisiae was engineered to produce 1,2-propanediol (1,2-PD) using the δ/UB sequential gene integration method. To study the effects of increased copy number, 2 genes (mgs and gldA from Escherichia coli) were sequentially integrated into the chromosomes of S. cerevisiae strains of opposite mating type. The resulting strains (containing 0–3 copies of either mgs or gldA) were mated to create all possible combinations of the 2 genes introduced for 1,2-PD production. Enzyme activities were generally correlated with copy number, although there was greater variation in GldA activity in the diploid cells. The integrated genes were confirmed by Southern blot and 1,2-PD production was analyzed by HPLC. The strain containing 3 copies of mgs and gldA showed the highest level of 1,2-PD; however, 1,2-PD concentration was not clearly related to gene copy number. 1,2-PD production did correlate with Mgs specific activity, and high GldA specific activity was found to be inhibitory.