Maximum glucoamylase production by a temperature-sensitive mutant of Saccharomyces cerevisiae in batch culture

In order to maximize the glucoamylase production by recombinant Saccharomyces cerevisiae in batch culture, first a temperature-controlled expression system for a foreign gene in S. cerevisiae was constructed. A temperature-sensitive pho80 mutant of S. cerevisiae for the PHO regulatory system, YKU131, was used for this purpose. A DNA fragment bearing the promoter of the PHO84 gene, which encodes an inorganic phosphate (P_i) transporter of S. cerevisiae and is derepressed by P_i starvation, was used as promoter. The glucoamylase gene connected with the PHO84 promoter was ligated into a YEp13 vector, designated pKU122. When the temperature-sensitive pho80 ^ts mutant harboring the plasmid pKU122 is cultivated at a lower temperature, the expression of glucoamylase gene is repressed, but at a higher temperature it is expressed. Next the effect of temperature on the specific growth rate, μ, and specific production rate, ρ, was investigated. Maximum values of ρ and ρ at various temperatures were at 30°C and 34°C, respectively. The optimal cultivation temperature strategy for maximum production of glucoamylase by this recombinant strain in batch culture was then determined by the Maximum principle using the relationships of μ and ρ to the cultivation temperature. Finally, the optimal strategy was experimentally realized by changing the cultivation temperature from Tμ (30°C) to Tρ (34°C) at the switching time, t_s. Received 18 September 1997/ Accepted in revised form 07 January 1998