The regulatory role of polyamines in structure and functioning of the photosynthetic apparatus during photoadaptation

In this contribution we describe the changes in structure and functioning of the photosynthetic apparatus of the unicellular green alga Scenedesmus obliquus induced by inhibition or induction of polyamine biosynthesis. The synthesis or inhibition is controlled by white light of low and high intensities, as well as by blue and red irradiation. We observe that a decrease of the intracellular putrescine level and, vice versa, an increase of spermine, indicated by a raised ratio of spermine to putrescine, simulate a low-light photoadapted photosynthetic apparatus. Action spectra of the spermine/putrescine ratio compared with action spectra on characteristics of photoadaptation, e.g., chlorophyll biosynthesis, or the rate of primary photochemistry and electron transport, show that the photoreceptors for both the adaptation of the photosynthetic apparatus to low-light conditions and for the regulation of the spermine/putrescine ratio are, at least, very similar. We show that the photoreceptor is primarily a blue-light receptor with a superimposed red-light receptor that absorbs around 680 nm.