COMPARATIVE-STUDY ON THE PRODUCTION OF GUAR ALPHA-GALACTOSIDASE BY SACCHAROMYCES-CEREVISIAE SU50B AND HANSENULA-POLYMORPHA 8/2 IN CONTINUOUS CULTURES

Saccharomyces cerevisiae SU50B and Hansenula polymorpha 8/2, both carrying a multicopy integrated guar alpha-galactosidase, have been cultivated in continuous cultures, using various mixtures of carbon sources and cultivation conditions. Both S. cerevisiae SU50B and H. polymorpha 8/2 are stable and produce high levels of extracellular alpha-galactosidase in continuous cultures for more than 500 h. For these expression systems the strong inducible promoter systems GAL7 and methanol oxidase, respectively, were used. The induction of alpha-galactosidase synthesis by galactose in SU50B is limited by the low galactose uptake. Apart from that, at high dilution rates, the glucose repression is substantial, and a maximal expression level of 28.6 mg of extracellular alpha-galactosidase . g (dry weight) of biomass-1 could be obtained. In H. polymorpha, the induction of alpha-galactosidase synthesis, in addition to methanol oxidase synthesis using formaldehyde, is very effective up to 42 mg of extracellular alpha-galactosidase g (dry weight) of biomass-1. Productivities in terms of specific production rate enable a good comparison with those of other heterologous expression systems in the literature. The productivities found with S. cerevisiae SU50B and H. polymorpha, 3.25 and 5.5 mg of alpha-galactosidase . g of biomass-1 . liter-1 . h-1, respectively, rank among the highest reported in the literature. Enzyme production and secretion in H. polymorpha are more complex. A two-peaked optimum is found in enzyme production. No clear explanation of this phenomenon can be given.