Temperature dependence of energy-transducing functions and inhibitor sensitivity in chloroplasts |
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Authors: | Schuurmans J J Veerman E C Francke J A Torres-Pereira J M Kraayenhof R |
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Affiliation: | Department of Agronomy, University of Wisconsin, Madison, Wisconsin 53706. |
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Abstract: | A comparative analysis of the temperature dependence of energy-transducing reactions in spinach (Spinacia oleracea) chloroplasts and their sensitivity for uncouplers and energy-transfer inhibitors at different temperatures is presented. Arrhenius plots reveal two groups of transitions, around 19°C and around 12°C. Activities that show transitions around 19°C include linear electron flow from water to ferricyanide, its coupled photophosphorylation, the dark-release of the fluorescent probe atebrin, and the slow component of the 515 nm (carotenoid) absorbance decay after a flash. The transitions around 12°C are observed with pyocyanine-mediated cyclic photophosphorylation, light- and dithioerythritol-activated ATP hydrolysis, the dark-release of protons, and the fast 515 nm decay component. It is suggested that both groups of temperature transitions are determined by proton displacements in different domains of the exposed thylakoid membranes. The effects of various uncouplers and an energy-transfer inhibitor are temperature dependent. Some uncouplers also show a different relative inhibition of proton uptake and ATP synthesis at lower temperatures. The efficiency of energy transduction (ATP/e2) varied with temperature and was optimal around 10°C. |
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