Development of the Two Heterogeneous Photosystem II Units in Etiolated Bean Leaves

Anastasios Melis and George Akoyunoglou

Department of Biology, Nuclear Research Center "Demokritos," Athens, Greece

The development of the photosystem II units in relation to theheterogeneity of their photochemical centers was studied inetiolated bean leaves (Phaseolus vulgaris var. red kidney) greenedunder continuous or intermittent light. The study was done inorder to see whether grana are the loci of the units with theefficient photosystem II activity ( ${alpha}$ units), while the stromathylakoids are the loci of the units with the less efficientphotosystem II activity ( ${beta}$ units), as it has been proposed. Inaddition, the interrelations between ${alpha}$ and ${beta}$ centers have beeninvestigated. It was found that the ${alpha}$ and the ${beta}$ centers of photosystemII were present in the first photosynthetic membranes irrespectiveof the mode of greening of the leaves. The magnitude of theirrespective photochemical rate constants, K' and K, increasedwith time in continuous light and it reached the steady-statevalues of the mature chloroplasts within 16 hours, while inintermittent light it remained smaller. The differentiationof the system II units in ${alpha}$ and ${beta}$ centers containing units ismore evident under conditions of intermittent illumination,i.e. when the rate of chlorophyll biosynthesis is the limitingstep for chloroplast development.

It is concluded that the heterogeneity of the photochemicalcenters in system II is an endogenous property of the chloroplastlamellae. The ${alpha}$ centers and the ${beta}$ centers develop independentlyof each other from the beginning of the light-induced greening.They do not share the same pigment beds. The presence of grana,chlorophyll b, and the chlorophyll-protein complex II is nota prerequisite for the formation or development of the ${alpha}$ centers.The formation of these centers precedes grana formation in greeningplastids.