Different kinetics of membrane potential formation in dark-adapted and preilluminated chloroplasts |
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Authors: | Alexander A. Bulychev |
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Affiliation: | Biophysics Department, Biological Faculty, Moscow State University, Moscow 119899 U.S.S.R. |
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Abstract: | The effects of varying dark interval on the kinetics of light-induced formation of the membrane potential were studied on individual chloroplasts of Anthoceros with the use of capillary microelectrodes. Illumination of the chloroplast with 1 s light pulse after 3 min dark period induced the photoelectrical response with two peaks of the potential that were located at 20 and 500 ms after the onset of illumination. The position of the second peak was shifted along the time-scale depending on the preceding dark interval. The repeated illumination of the chloroplast with 1 s light pulse after 30 s dark interval induced the electrical response with only one maximum and a monotonous decay of the potential in the light. Distinctions in the electrical responses induced by the first and the second light pulses were eliminated by the addition of 50 μM dicyclohexylcarbodiimide (DCCD). The results show that the photoinduction kinetics of the membrane potential in chloroplasts is affected by functioning of H+-ATPase. The delayed peak of the membrane potential in the photoinduction kinetics is interpreted as a consequence of the photoactivated electron transport supported by Photosystem I. |
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Keywords: | Electron transport ATPase Microelectrode Membrane potential Photosystem I (Anthoceros, P. metallica) DCCD dicyclohexylcarbodiimide PMS PS I Photosystem I |
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