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An Investigation into the Role of Photosynthesis in Regulating ATP Levels and Rates of H⁺ Efflux in Isolated Meosphyll Cells ¹

Department of Biological Sciences, Brock University, St. Catharines, Ontario, Canada L2S 3A1

Aerated and stirred 10-ml suspensions of mechanically isolated Asparagus sprengeri Regel mesophyll cells were used for simultaneous measurements of net H⁺ efflux and steady-state ATP levels.

Initial rates of medium acidification indicated values for H⁺ efflux in the light and dark of 0.66 and 0.77 nanomoles H⁺/10⁶ cells per minute, respectively. When the medium pH was maintained at 6.5, with a pH-stat apparatus, rates of H⁺ efflux remained constant. Darkness or DCMU, however, stimulated H⁺ efflux by 100% or more. Darkness increased ATP levels by 33% and a switch from dark to light reduced ATP levels by 31%. In the absence of aeration, illumination prevented the accumulation of respiratory CO₂ and the buffering capacity of the medium was about 50% less than that found in the nonilluminated nonaerated medium. As a result, rates of pH decline were similar even though the dark rate of H⁺ efflux was approximately 50% greater.

Proposals that photosynthesis stimulates H⁺ efflux are based on changes in the rate of pH decline. The present data indicate that photosynthesis inhibits H⁺ efflux and that changes in rates of pH decline should not be equated with changes in the rate of H⁺ efflux.