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  • Comparative stability and catalytic and chemical properties of the sulfate-activating enzymes from Penicillium chrysogenum (mesophile) and Penicillium duponti (thermophile).

Comparative stability and catalytic and chemical properties of the sulfate-activating enzymes from Penicillium chrysogenum (mesophile) and Penicillium duponti (thermophile).

Journal of bacteriology (1985-11-01)
F Renosto, T Schultz, E Re, J Mazer, C J Chandler, A Barron, I H Segel
ABSTRACT

ATP sulfurylases from Penicillium chrysogenum (a mesophile) and from Penicillium duponti (a thermophile) had a native molecular weight of about 440,000 and a subunit molecular weight of about 69,000. (The P. duponti subunit appeared to be a little smaller than the P. chrysogenum subunit.) The P. duponti enzyme was about 100 times more heat stable than the P. chrysogenum enzyme; k inact (the first-order rate constant for inactivation) at 65 degrees C = 3.3 X 10(-4) s-1 for P. duponti and 3.0 X 10(-2) s-1 for P. chrysogenum. The P. duponti enzyme was also more stable to low pH and urea at 30 degrees C. Rabbit serum antibodies to each enzyme showed heterologous cross-reaction. Amino acid analyses disclosed no major compositional differences between the two enzymes. The analogous Km and Ki values of the forward and reverse reactions were also essentially identical at 30 degrees C. At 30 degrees C, the physiologically important adenosine 5'-phosphosulfate (APS) synthesis activity of the P. duponti enzyme was 4 U mg of protein-1, which is about half that of the P. chrysogenum enzyme. The molybdolysis and ATP synthesis activities of the P. duponti enzyme at 30 degrees C were similar to those of the P. chrysogenum enzyme. At 50 degrees C, the APS synthesis activity of the P. duponti enzyme was 12 to 19 U mg of protein-1, which was higher than that of the P. chrysogenum enzyme at 30 degrees C (8 +/- 1 U mg of protein-1). Treatment of the P. chrysogenum enzyme with 5,5'-dithiobis(2-nitrobenzoate) (DTNB) at 30 degrees C under nondenaturing conditions modified one free sulfhydryl group per subunit. Vmax was not significantly altered, but the catalytic activity at low magnesium-ATP or SO4(2-) (or MoO4(2-)) was markedly reduced. Chemical modification with tetranitromethane had the same results on the kinetics. The native P. duponti enzyme was relatively unreactive toward DTNB or tetranitromethane at 30 degrees C and pH 8.0 or pH 9.0, but at 50 degrees C and pH 8.0, DTNB rapidly modified one SH group per subunit. APS kinase (the second sulfate-activating enzyme) of P. chrysogenum dissociated into inactive subunits at 42 degrees C. The P. duponti enzyme remained intact and active at 42 degrees C.

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Sigma-Aldrich
Ammonium citrate dibasic, ACS reagent, 98%