Golgi localization in yeast is mediated by the membrane anchor region of rat liver sialyltransferase.

To investigate the function of the membrane anchor region of a mammalian glycosyltransferase in yeast we constructed a fusion gene that encodes the 34 amino-terminal residues of rat liver beta-galactoside alpha-2,6-sialyl-transferase (EC 2.4.99.1) (ST) fused to the mature form of yeast invertase. Transformants of Saccharomyces cerevisiae expressing the fusion gene produced an intracellular heterogeneously N-glycosylated fusion protein of intermediate molecular weight between the core and fully extended N-glycosylated form of invertase, suggesting a post-endoplasmic reticulum (ER) localization. In two types of cell fractionation using sucrose density gradients the ST-invertase fusion protein cofractionated with Golgi marker proteins, whereas a minor fraction (about 30%) comigrated with a vacuolar marker; ST-invertase was not detected in other cell fractions including the ER and the plasma membrane. Consistent with Golgi localization, about 70% of the total amount of the ST-invertase fusion was immunoprecipitated with an antibody directed against alpha-1,6-mannose linkages. The results demonstrate that the membrane anchor region of a mammalian type II glycosyltransferase is able to target a protein to the secretory pathway and to a Golgi compartment of the yeast S. cerevisiae, indicating conservation of targeting mechanisms between higher and lower eukaryotes. Since typical yeast Golgi localization signals are missing in the ST-membrane anchor region the results also suggest that yeast as mammalian cells utilize diverse mechanisms to direct proteins to the Golgi.