Abstract

Cytochrome b-559, which is normally reduced in the dark, was oxidized by preillumination in the presence of N-methyl-phenazonium methosulfate with low intensity far-red light. The average half-time for the photoreduction of oxidized cytochrome b-559 by a long actinic flash ranged from 90 to 110 ms. In the presence of 0.25 μM 3-(3,4-dichlorophenyl)-1,1-dimethylurea the half-time for the photoreduction increased to 230 ms although the extent of the absorbance increase was unchanged. Under similar conditions inhibition of electron transport by 3-(3,4-dichlorophenyl)-1,1-dimethylurea and the increase in the chlorophyll fluorescence show that a large fraction of the Photosystem II reaction centers are blocked. These results are consistent with the concept that electrons are shared between different photosynthetic units by a common pool of plastoquinone and imply that the principle pathway for the reduction of cytochrome b-559 by Photosystem II occurs through plastoquinone. In the presence of the uncoupler gramicidin which stimulates non-cyclic electron transport, the rate of photoreduction of cytochrome b-559 is slower ( t 1 2 = 180 ms ), from which it is inferred that cytochrome b-559 competes with cytochrome f for electrons out of this pool. Comparison of cytochrome b-559 photoreduction and electron transport rates using untreated and KCN-treated chloroplasts indicate that, under conditions of basal electron transport from water to ferricyanide, approximately one-fifth of the electrons from Photosystem II go through cytochrome b-559 to ferricyanide. Further support for this pathway is provided by a comparison of the effect of 2,5-dibromo-3-methyl-6-isopropyl- p-benzoquinone (dibromothymoquinone) on the rates of reduction of cytochrome b-559 and ferricyanide.

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