Nx. Cawley et al., SECRETION OF YEAST ASPARTIC PROTEASE-3 IS REGULATED BY ITS CARBOXY-TERMINAL TAIL - CHARACTERIZATION OF SECRETED YAP3P, Biochemistry, 34(22), 1995, pp. 7430-7437
Yeast aspartic protease 3 (YAP3p), a basic-residue specific proprotein
processing enzyme, was shown to be a membrane-associated protease. Th
e membrane association of YAP3p was demonstrated to be through a glyco
phosphatidylinositol anchor situated in the carboxy terminus of the en
zyme. Carboxyterminal truncation of YAP3p by 37 amino acids resulted i
n secretion of YAP3p into the growth medium. Western blot analysis aft
er sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed tw
o secreted forms of YAP3p with apparent molecular masses of similar to
180 and similar to 90 kDa. YAP3p has an isoelectric point of similar
to 4.5 as determined by isoelectric focusing gel electrophoresis. Trea
tment of YAP3p with endoglycosidase H reduced the size of both forms o
f the protein to similar to 65 kDa, consistent with the presence of 10
potential N-linked glycosylation sites in the deduced amino acid sequ
ence of this protein. Removal of the N-linked sugars did not affect th
e enzymatic activity of YAP3p. Analysis of the effect of temperature o
n the stability and the rate of enzymatic activity of YAP3p showed tha
t the enzyme retained 100% of its activity when incubated for 1 h at 3
7 degrees C, while incubation at 50 OC for 1 h resulted in similar to
80% loss of activity. The dependence of activity on temperature demons
trated a calculated Q(10) of 1.95.