Add time:07/24/2019 Source:sciencedirect.com
The trypsin-activated Ca2+ -ATPase of spinach chloroplast membranes was completely inhibited by treatment with naphthylglyoxal, a fluorescent compound that should bind covalently to arginine residues. The inhibition followed apparent first-order kinetics. The apparent order of reaction with respect to inhibitor concentration gave values near unity, suggesting that inactivation is a consequence of modifying one arginine residue per active site. Partial protection against naphthylglyoxal was afforded by ADP and ATP, with either less or no protection by other nucleotide bases. At inhibition levels less than complete, the Km for ATP was not affected but the Vmax of the enzyme was diminished. The light-dependent exchange of tightly bound nucleotides on the membrane-bound enzyme was not inhibited by naphthylglyoxal treatment, indicating significant retention of the conformational response of the enzyme to the membrane high-energy state. Using [3H]naphthylglyoxal, the extent of inhibition was a linear function of the amount of naphthylglyoxal bound up to 60% inhibition. The curves extrapolated to 2 mol naphthylglyoxal bound, associated with complete inhibition of ATPase. The radioactive naphthylglyoxal was distributed equally between α- and β-subunits.
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