Electrostatic Interaction between Plastocyanin and P700 in the Electron Transfer Reaction of Photosystem I-Enriched Particles

The nature of the electron transfer reaction between reducedplastocyanin and P700 oxidized by flash illumination was studiedin P700-enriched Triton subchloroplast fraction 1 particles.An addition of monovalent salts to the suspension at neutralpH increased the reaction rate at low concentrations (>20mM). Salts of divalent cations showed a similar effect at muchlower concentrations (>2 mM), This effect was not dependenton the concentration and the valence of anions. The increaseof rate at low salt concentrations was observed at pH's above5, but below pH 5 the rate was decreased by adding salts. Atabout pH 5, the rate was not affected by salts. Apart from thesesalt effects, the optimum pH for the reaction rate was observedbetween 5.5 and 6.5. The reduction rate depended sigmoidally on the added plastocyaninconcentration at pH 6.8 and 4. A Michaelis-Menten type relationshipwas observed at about pH 5. The half-saturation concentrationof plastocyanin became lower as the salt concentration increasedat pH 6.8, while it became higher by adding salt at pH 4. The effects of salts on the rate of electron donation from othermetalloproteins and artificial electron donors to P700 werealso studied. It is concluded, from the analysis with the Gouy-Chapmantheory, that the net charges on the electron donors and themembrane surfaces mainly determine the response of the P700reduction rate to salt addition. The salt addition changes mainlythe local concentration or accessibility of electron donorsto P700. (Received January 12, 1981; Accepted March 6, 1981)