Analysis of chlorophyll fluorescence induction kinetics exhibited by DCMU-inhibited thylakoids and the origin of α and β centres

Abstract

Analyses of room-temperature chlorophyll fluorescence curves from DCMU-inhibited thylakoids were used to investigate the proposed PS II structural heterogeneity of α and β centres. The kinetics of the area growth curves, representative of Q A photoreduction, could be modified in the presence of DCMU by exogenous electron acceptors and by added reductants of the PQ pool. The effect of altered DCMU levels (range 0.2–100 μM) on the induction curve kinetics was to modify preferentially the slow-β component, while having only a very small effect on the total variable fluorescence yield. Over the DCMU concentration range used, the unnormalized area of the induction curve ( A max) decreased with increasing herbicide concentration by approx. 45%, indicating that less quanta were required to reduce Q A. It was found that the dark reoxidation of Q A in the presence of DCMU and Ant 2p after a light pretreatment regenerated the slow kinetic component. When chlorophyll fluorescence emission at 685 and 731 nm was measured, no difference was observed in the kinetics of the induction curve. The analysis of PS II-enriched, oxygen-evolving membranes indicated the presence of both the fast and slow kinetic components, although this type of preparation showed a modified fast phase. The above observations led to the conclusion that several of the previously proposed characteristics of PS II α and PS II β centres do not hold and that a type of PS II heterogeneity involving different degrees of DCMU inhibition is sufficient to explain many of the observations made.