FLUORESCENCE PROPERTIES OF CHLOROPLASTS FROM MANGANESE DEFICIENT AND MUTANT TOBACCO

1. The kinetics of the fluorescence induction are described for chloroplasts from normal green tobacco, from the aurea tobacco mutant Su/su, from the photosynthetically inactive yellow patches of a variegated tobacco, and from tobacco plants grown in absence of manganese. The first two types display the well-known biphasic induction, but the Su/su chloroplasts have a distinctly slower rise time. Manganese deficient chloroplasts show a significantly higher fluorescence yield than any other type of chloroplasts studied. The kinetics of their fluorescence, on the other hand, are similar to those observed with the inactive chloroplasts from the variegated tobacco: the fluorescence rise is small, and the fluorescence yield is not changed very much by the addition of a reducing agent like hydrosulfite, or by addition of an oxidant like ferricyanide, or by an inhibition of the electron flow in Photosystem II with 3(3,4-dichlorophenyl)-1,1-dimethylurea. 2. Determinations of the amount of the primary electron acceptors associated with Photosystem II point to a 2- to 3-fold larger electron acceptor pool in chloroplasts of young Su/su plants than in chloroplasts of old Su/su plants and of various green leaves, including those from green tobacco. This finding agrees with recently published data on the size of the photosynthetic unit in tobacco mutants and normal green plants. 3. The different fluorescence characteristics of all four types of chloroplasts under study are discussed on the basis of their structure and their activity in photosynthetic O2 evolution. © 1968.