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Articles

Characterization of 4,4'-Diisothiocyano-2,2'-disulfonic Acid Stilbene Inhibition of 3-Phosphoglycerate-Dependent O₂ Evolution in Isolated Chloroplasts ¹

Evidence for a Common Binding Site on the C₄ Phosphate Translocator for 3-Phosphoglycerate, Phosphoenolpyruvate, and Inorganic Phosphate

Department of Botany, Washington State University, Pullman, Washington 99164-4230, Institute of Biological Chemistry, Washington State University, Pullman, Washington 99164-4230

3-Phosphoglycerate (PGA)-dependent O₂ evolution by mesophyll chloroplasts of the C₄ plant, Digitaria sanguinalis L. Scop. (crabgrass), was inhibited by micromolar levels of 4,4'-diisothiocyano-2,2'-disulfonic acid stilbene (DIDS). As little as 1.8 micromolar DIDS added to the assay medium (containing 0.7 millimolar PGA) resulted in 80 to 100% inhibition of O₂ evolution. The extent of inhibition of O₂ evolution observed was dependent on various factors including: pH, concentration of DIDS to relative chlorophyll, concentration of PGA, and the time of addition of DIDS to the chloroplasts relative to addition of PGA.

Preincubation of crabgrass chloroplasts with micromolar levels of DIDS, followed by washing to remove any nonirreversibly bound DIDS, inhibited PGA-dependent O₂ evolution. Protection against this inhibition was afforded by preincubating the chloroplasts with various substrates before adding DIDS. For example, if the chloroplasts were first incubated with 8.3 millimolar PGA, phosphoenolpyruvate (PEP) or inorganic phosphate before adding 42 micromolar DIDS, the percentage of inhibition was decreased from 100% (without any substrate) to 0, 54, and 67%, respectively. 2-Phosphoglycerate caused a slight decrease in the inhibition (about 10%) and glucose-6-phosphate had no protective effect. If the chloroplasts were pretreated with DIDS initially, the inhibition could not be overcome by PGA, suggesting that DIDS acts as an irreversible inhibitor. Micromolar levels of DIDS also inhibited PGA dependent O₂ evolution by isolated chloroplasts of the C₃ plant barley. As with crabgrass, preincubation with PGA or inorganic phosphate resulted in a decrease in the DIDS inhibition, but PEP was very ineffective compared to the C₄ chloroplasts.

Oxalacetate-dependent O₂ evolution and its stimulation by the uncoupler, NH₄Cl, were unaffected by the addition of DIDS to crabgrass mesophyll chloroplasts. Furthermore, preincubation of the chloroplasts with DIDS (up to 65 micromolar) had no inhibitory effect on the extractable activity of NADP glyceraldehyde-3-P dehydrogenase and phosphoglycerate kinase. Inhibition by DIDS was interpreted to be at the substrate binding site of the phosphate translocator. The data further suggest that in C₄ crabgrass chloroplasts, PEP is transported on a carrier which also transports PGA.

¹ Supported by National Science Foundation grant PCM 82-04625 and by a Herman Frasch Foundation grant for research in agricultural chemistry.

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