Structure and organization of System II photosynthetic units during the greening of a dark-grown Chlorella mutant

Abstract

The formation and the organization of Photosystem II photosynthetic units during the greening of a dark-grown Chlorella vulgaris, mutant 5/520, have been investigated by analysing the kinetics of the “activation” of oxygen evolution and of the fluorescence induction. 1. 1. The existence during the early stages of the greening of a stationary photosynthesis demonstrates the presence of active Photosystem II at these initial stages, which are integrated in a functional whole, leading to overall photosynthesis. 2. 2. The rise-time of oxygen evolution has been measured using far-red and green light in order to estimate the relative number of chlorophylls per unit. The amount of chlorophyll a remains relatively constant during the greening, while the progressive addition of chlorophyll b causes the size of the units to increase approx. 2-fold. 3. 3. The induction kinetics of the fluorescence are exponential during the early phases of greening and later become distinctly sigmoidal; this suggests that the first units synthesized on the surface of the membrane are isolated from each other by obstacles preventing electronic excitation transfers and that such obstacles which might correspond to some distance between such units, can disappear at later stages, allowing energy transfers to occur. These observations suggest that the Photosystem II units represent organized functional entities. They apparently consist of a relatively constant number of chlorophyll a molecules, which during the greening is complemented progressively by the addition of chlorophyll b.