Characterization of the Rate-Limiting Steps in the Dark-To-Light Transitions of Closed Photosystem II: Temperature Dependence and Invariance of Waiting Times during Multiple Light Reactions.

Rate-limiting steps in the dark-to-light transition of Photosystem II (PSII) were discovered by measuring the variable chlorophyll- a fluorescence transients elicited by single-turnover saturating flashes (STSFs). It was shown that in diuron-treated samples: (i) the first STSF, despite fully reducing the Q A quinone acceptor molecule, generated only an F 1 (< F m ) fluorescence level; (ii) to produce the maximum ( F m ) level, additional excitations were required, which, however, (iii) were effective only with sufficiently long Δ τ waiting times between consecutive STSFs. Detailed studies revealed the gradual formation of the light-adapted charge-separated state, PSII L . The data presented here substantiate this assignment: (i) the Δ τ 1/2 half-increment rise (or half-waiting) times of the diuron-treated isolated PSII core complexes (CCs) of Thermostichus vulcanus and spinach thylakoid membranes displayed similar temperature dependences between 5 and -80 °C, with substantially increased values at low temperatures; (ii) the Δ τ 1/2 values in PSII CC were essentially invariant on the F k- to- F k+1 ( k = 1-4) increments both at 5 and at -80 °C, indicating the involvement of the same physical mechanism during the light-adaptation process of PSII L . These data are in harmony with the earlier proposed role of dielectric relaxation processes in the formation of the light-adapted charge-separated state and in the variable chlorophyll- a fluorescence of PSII.