Induction of Catalase Activity in a Methanol-utilizing Yeast,Kloeckerasp. No. 2201

Abstract

The methanol-grown cells of Kloeckera sp. No. 2201 exhibit a markedly high catalase activity as compared with the glucose-grown and ethanol-grown cells. In this connection, specific organelles (“microbodies”) appear only in the methanol-grown cells. When the yeast cells harvested from a methanol medium (cells whose catalase activity had been enhanced to an appreciable extent: “partially induced cells”) were transferred into media containing glucose, ethanol or methanol as the sole carbon and energy source, further increase of catalase activity was mediated only by methanol. This induction of catalase activity was partially inhibited by cycloheximide at its high concentration, but chloramphenicol did not show any effect. Glucose inhibited strongly the induction by methanol, while galactose gave no effect. Electron microscopical observation revealed that the development of microbodies in the cells growing on methanol was hardly affected by cycloheximide. Disappearance of microbodies was observed electron microscopically after the methanol-grown cells (partially induced cells) were transferred to a methanol-glucose medium and cultivated for 8 hr. 3′,5′-Cyclic AMP or dibutyryl-3′,5′-cyclic AMP could not eliminate the inhibitory effect of glucose on the catalase induction. Addition of caffeine or theophylline did not promote the action of the cyclic nucleotides. 3-Amino-1,2,4-triazole inhibited only 40% of the hydrogen peroxide-decomposing activity in the cell homogenate of methanol-grown cells even at its concentration of as high as 10 mm, while sodium azide inhibited the enzyme activity completely at the concentration of 1 mm.