The accessibility of the chloroplast cytochromes ƒ and b-559 to ferricyanide

Abstract

(1) (a) A concentration range of ferricyanide (∼ 0.125–0.5 mM) can be found which in the dark causes oxidation of cytochrome ƒ with two distinct kinetic components of comparable amplitude. The slow oxidation has a half time of 1–2 min. (b) The oxidation of cytochrome ƒ by ferricyanide is rapid and monophasic after the chloroplasts are frozen and thawed. (c) The oxidation of cytochrome b-559 by ferricyanide in the dark is mostly monophasic with a time course similar to that of the fast component in the cytochrome ƒ oxidation. (d) Ascorbate reduction of cytochromes ƒ and b-559 appears monophasic. Reduction of cytochrome b-559 by ascorbate is somewhat faster, and that by hydroquinone somewhat slower, than the corresponding reduction of cytochrome ƒ. (2) (a) The kinetics of dark ferricyanide oxidation of cytochrome ƒ after actinic preillumination in the presence of an electron acceptor are approximately monophasic with a half time of about 30 s and do not show the presence of the slowly oxidized component observed after prolonged dark incubation. (b) The effect of actinic preillumination in altering the time course of ferricyanide oxidation appears to persist for several minutes in the dark. (c) Preillumination causes an increase in the extent of cytochrome b-559 oxidation by low concentrations of ferricyanide. The increase is inhibited if 3-(3′,4′-dichlorophenyl)-1,1-dimethylurea is present during the preillumination. (d) The presence of 3-(3′,4′-dichlorophenyl)-1,1-dimethylurea during preillumination does not inhibit the amplitude or rate of ferricyanide oxidation of cytochrome ƒ, although the presence of the inhibitor KCN does cause such inhibition. (3) It is proposed that a significant fraction of the cytochrome ƒ population resides at a position in the membrane relatively inaccessible to the aqueous interface compared to high potential cytochrome b-559. Actinic illumination would cause a structural or conformational change in the cytochrome ƒ and/or the membrane resulting in an increase in accessibility to this fraction of the cytochrome ƒ population.