Changes in Carotenoid Composition and Function of the Photosynthetic Apparatus during Light-dependent Chloroplast Differentiation in Mutant C-6D of Scenedesmus obliquus*

Changes in pigment composition during light-dependent chloroplast differentiation in mutant C-6D of Scenedesmus obliquus were followed by HPLC. The system used enables the separation and quantitative determination of five xanthophylls (neoxanthin, violaxanthin, antheraxanthin, lutein and zeaxanthin), α- and β-carotene and chlorophyll a and b (and their epimeric forms). Dark-grown cells of the mutant contain only chlorophyll a, traces of chlorophyll b and acyclic precursors of carotenoids. During subsequent illumination, precursors decrease and high amounts of xanthophylls, carotenes and chlorophyll a and b are formed. Dark-grown cultures of mutant C-6D show high photosystem I-activity and contain the photosystem I-complex CP I, but lack photosystem II-activity, the photosystem II-complex CPa and the LHCP. Immediately after transfer to light, photosystem II-activity increases rapidly, as also do the amounts of CPa and lutein. Under anaerobiosis no lutein and PS II-activity can be detected. This indicates a role of lutein in the assembly of an active photosystem II-complex. All other xanthophylls and the LHCP exhibit high rates of synthesis only after a delay of about 1 hour. Thus, our results reveal an asynchronous fashion of formation of CPa and LHCP.