Abstract

1. Spinach chloroplasts subjected to sonication show light-induced absorption changes at 700 mμ characteristic of the photooxidation of the chlorophyll component P700. The appearance of P700 absorption changes probably resulted from the release of plastocyanin thus interrupting the electron flow between pigment systems 1 and 2. The general features of the absorption-change transients are similar to those observed previously with digitonin-treated chloroplasts. The addition of 2 mM ascorbate or 10 μM 3-(3,4-dichlorophenyl)-1, 1-dimethylurea had practically no effect on either the magnitude or the dark decay of the transient absorption change. 2. Phenazine methosulfate (PMS) (in the presence or in the absence of ascorbate) reduction appeared to be coupled to P700 photooxidation, as shown by the corresponding transients at 430 and 388 mμ. The absorbance changes at these two wavelengths indicate that the amount of PMS photoreduced was equivalent to that of P700 photooxidized. Higher PMS concentrations accelerate the dark decay of the P700 signal. When PMS alone is present, anaerobiosis caused the dark decay to become more rapid than in the presence of ascorbate. 3. Unlike PMS, other redox agents such as 2,6-dichlorophenolindophenol, N, N, N′, N′-tetramethyl- p-phenylenediamine or diaminodurol in the presence of excess ascorbate, did not noticeably affect the kinetics of the dark decay at 430 or 703 mμ, suggesting that these reduced species are not efficiently coupled to photooxidized P700. 4. The onset and decay rates of the P700 transient in the presence of PMS and excess ascorbate was insensitive to temperature between 25° and o°. However, when the chloroplast sample was frozen at temperatures ranging from −5° to −196°, all reactions ceased. When the frozen (−196°) sample was brought back to the room temperature, the reaction was restored completely. Fresh broken chloroplasts behave similarly. Digitonin-treated chloroplasts persisted down to about −25° but with diminishing magnitude and slower decay.

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