INFLUENCE OF POLYAMINE INHIBITORS ON LIGHT-INDEPENDENT AND LIGHT-DEPENDENT CHLOROPHYLL BIOSYNTHESIS AND ON THE PHOTOSYNTHETIC RATE

The mutant C-2A' of the unicellular green alga Scenedesmus obliquus behaves at 32 degrees C like higher plants in that it accumulates protochlorophyllide in darkness and converts it to chlorophyll when exposed to light. By lowering the growth temperature from 32 to 22 degrees C, protochlorophyllide can be reduced in darkness. Thus this organism allowed us to study the effects of the inhibition of several enzymes of polyamine biosynthesis on light-dependent and light-independent chlorophyll biosynthesis. Reduction of the intracellular level of putrescine by the use of 1,4-diamino-2-butanone inhibitor blocked the light-independent chlorophyll biosynthesis (dramatically increasing the protochlorophyllide levels with parallel reduction of chlorophyll). The influence of the inhibitor in question is even more dramatic in light-dependent chlorophyll biosynthesis, where small concentrations of 1,4-diamino-2-butanone resulted in considerable reduction of chlorophyll during illumination. The above reduction of chlorophyll was accompanied by an increase in photosynthetic activity and respiration rate, which suggests the formation of a photosynthetic apparatus that behaves similarly to one adapted to high light intensities. Decreases in the intracellular levels of spermidine and spermine by the inhibitors cyclohexylamine and 1,3-diaminopropane respectively, although not showing changes in light-independent chlorophyll biosynthesis, do exhibit a regular reduction of light-dependent chlorophyll biosynthesis and a decrease in the photosynthetic activity as well as in the respiration rate. These characteristics are typical for a photosynthetic apparatus adapted to low light intensities with a higher antenna composition per reaction centre. The possible effects of the reduction of putrescine, spermidine and spermine levels on the stabilization-destabilization of photosynthetic subcomplexes are discussed.