Effects of seven different mutations in the pho1 gene on enzymatic activity, glycosylation and secretion of acid phosphatase in Schizosaccharomyces pombe.

Structural gene mutants of the cell-surface glycoprotein acid phosphatase of Schizosaccharomyces pombe were analysed to define structural determinants that are responsible for enzymatic activity, N-glycosylation and secretion. All seven defined mutations cause a single amino acid substitution in the mature acid phosphatase protein and destroy the enzymatic activity. The mutational lesions are distributed throughout the pho1 gene. A ser to phe substitution at position 349 abolishes enzymatic activity only and does not affect glycosylation and secretion. Two mutations create a new N-glycosylation site by substitution of pro at position 56 by phe and ser, respectively. This new site is apparently used in the mutants. Their core-glycosylated acid phosphatase is slightly larger than that of the wild type. Overglycosylation seems not to affect secretion. Four different mutations (a gly to asp substitution at position 281 and ser to phe substitutions at positions 150, 271 and 277) cause intracellular accumulation of enzymatically inactive core-glycosylated acid phosphatase precursor. These mutational lesions apparently block transport of acid phosphatase from the endoplasmic reticulum to the Golgi apparatus.