TY - JOUR
T1 - Reversible inactivation of photosystem II reaction centers in cation-depleted chloroplast membranes
AU - Bose, Salil
AU - Arntzen, Charles J.
N1 - Funding Information:
1 This work was supported
PY - 1978/1/30
Y1 - 1978/1/30
N2 - Isolated pea chloroplasts were washed once in 10 mm NaCl and were then suspended in "low-salt" medium. Approximately one-half of the photosystem II reaction centers of these salt-depleted membranes were found to be photochemically inactive. These units became active in the presence of low concentrations of divalent cations (5-10 mm Mg2+) or high concentrations of monovalent cations (150-200 mm Na+), as evidenced by a twofold increase in the steady-state flash yield of oxygen evolution under short (~10-μs) saturating repetitive flashes (two per second). The half-maximal increase in flash yield occurred at ~2 mM Mg2+ or ~75 mm Na+. The flash yield of hydroxylamine oxidation in these low-salt chloroplasts increased twofold after Mg2+ addition, indicating that the cation action was close to the reaction-center chlorophyll complex. The relation between flash yield and dark time between flashes was not changed significantly by Mg2+, indicating that the rate-limiting step of the overall electron transport (H20 -→ ferricyanide) was not affected significantly. When the rate-limiting step was bypassed using silicomolybdate as the photosystem II electron acceptor (in the presence of diuron), the reduction rate doubled in the presence of Mg2+, even under continuous, saturating light. In glutaraldehyde-fixed chloroplasts, Mg2+ did not increase the flash yield of O2 evolution; this suggests that protein conformational changes in the chloroplast membranes were involved in Mg2+ activation of photosystem II centers.
AB - Isolated pea chloroplasts were washed once in 10 mm NaCl and were then suspended in "low-salt" medium. Approximately one-half of the photosystem II reaction centers of these salt-depleted membranes were found to be photochemically inactive. These units became active in the presence of low concentrations of divalent cations (5-10 mm Mg2+) or high concentrations of monovalent cations (150-200 mm Na+), as evidenced by a twofold increase in the steady-state flash yield of oxygen evolution under short (~10-μs) saturating repetitive flashes (two per second). The half-maximal increase in flash yield occurred at ~2 mM Mg2+ or ~75 mm Na+. The flash yield of hydroxylamine oxidation in these low-salt chloroplasts increased twofold after Mg2+ addition, indicating that the cation action was close to the reaction-center chlorophyll complex. The relation between flash yield and dark time between flashes was not changed significantly by Mg2+, indicating that the rate-limiting step of the overall electron transport (H20 -→ ferricyanide) was not affected significantly. When the rate-limiting step was bypassed using silicomolybdate as the photosystem II electron acceptor (in the presence of diuron), the reduction rate doubled in the presence of Mg2+, even under continuous, saturating light. In glutaraldehyde-fixed chloroplasts, Mg2+ did not increase the flash yield of O2 evolution; this suggests that protein conformational changes in the chloroplast membranes were involved in Mg2+ activation of photosystem II centers.
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U2 - 10.1016/0003-9861(78)90202-3
DO - 10.1016/0003-9861(78)90202-3
M3 - Article
C2 - 626511
AN - SCOPUS:0017857178
SN - 0003-9861
VL - 185
SP - 567
EP - 575
JO - Archives of Biochemistry and Biophysics
JF - Archives of Biochemistry and Biophysics
IS - 2
ER -