Direct Measurement of Calcium Transport across Chloroplast Inner-Envelope Vesicles¹

Michael H. Roh, Richard Shingles, Michael J. Cleveland, and Richard E. McCarty^*

Department of Biology, Johns Hopkins University, Baltimore, Maryland 21218-2685

The initial rate of Ca²⁺ movement across the inner-envelope membrane of pea (Pisum sativum L.) chloroplasts was directly measured by stopped-flow spectrofluorometry using membrane vesicles loaded with the Ca²⁺-sensitive fluorophore fura-2. Calibration of fura-2 fluorescence was achieved by combining a ratiometric method with Ca²⁺-selective minielectrodes to determine pCa values. The initial rate of Ca²⁺ influx in predominantly right-side-out inner-envelope membrane vesicles was greater than that in largely inside-out vesicles. Ca²⁺ movement was stimulated by an inwardly directed electrochemical proton gradient across the membrane vesicles, an effect that was diminished by the addition of valinomycin in the presence of K⁺. In addition, Ca²⁺ was shown to move across the membrane vesicles in the presence of a K⁺ diffusion potential gradient. The potential-stimulated rate of Ca²⁺ transport was slightly inhibited by diltiazem and greatly inhibited by ruthenium red. Other pharmacological agents such as LaCl₃, verapamil, and nifedipine had little or no effect. These results indicate that Ca²⁺ transport across the chloroplast inner envelope can occur by a potential-stimulated uniport mechanism.

Plant Physiol. (1998) 118: 1447-1454
Copyright Clearance Center:   0032-0889/98/118//08
© 1998 American Society of Plant Physiologists

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