Correlation between cation-induced formation of heavy subchloroplast fractions and cation-induced increase in chlorophyll a fluorescence yield in Tricine-washed chloroplasts

A good correlation exists between the extent of thylakoid aggregation (grana reconstitution) and the increase in the chlorophyll a fluorescence yield (F_DCMU; DCMU = 3-(3′,4′-dichlorophenyl)-1, 1-dimethyl urea) caused by the addition of monovalent or divalent cations to low-salt disorganized (agranal) chloroplasts. The extent of grana stacking was monitored by the yield of heavy subchloroplast fractions after digitonin disruption of chloroplasts. A good correlation of the cation effect on both parameters was also found in light subchloroplast fractions (10,000g supernatants) obtained from sonicated “low-salt” Tricine-suspended pea chloroplasts. Addition of cations to the agranal protochloroplasts of etiolated pea or bean leaves exposed to periodic light-dark cycles, suspended in low-salt Tricine buffer, does not affect formation of heavy subchloroplast fractions, nor does it affect their chlorophyll a fluorescence yield level (F_DCMU). The cation effect on the increase of the chlorophyll a fluorescence yield level seems to be due to the cation-induced thylakoid structural changes leading to grana stacking.