Photosynthetic energy conversion and the resulting photoautotrophic growth of green algae can only occur in daylight, but DNA replication, nuclear and cellular divisions occur often during the night. With such a light/dark regime, an algal culture becomes synchronized. In this study, using synchronized cultures of the green alga Desmodesmus quadricauda, the dynamics of starch, lipid, polyphosphate, and guanine pools were investigated during the cell cycle by two independent methodologies; conventional biochemical analyzes of cell suspensions and confocal Raman microscopy of single algal cells. Raman microscopy reports not only on mean concentrations, but also on the distribution of pools within cells. This is more sensitive in detecting lipids than biochemical analysis, but both methods-as well as conventional fluorescence microscopy-were comparable in detecting polyphosphates. Discrepancies in the detection of starch by Raman microscopy are discussed. The power of Raman microscopy was proven to be particularly valuable in the detection of guanine, which was traceable by its unique vibrational signature. Guanine microcrystals occurred specifically at around the time of DNA replication and prior to nuclear division. Interestingly, guanine crystals co-localized with polyphosphates in the vicinity of nuclei around the time of nuclear division.

Faculty of Science University of South Bohemia Branišovská 1760 CZ 37005 České Budějovice Czech Republic

Institute of Bio and Geosciences Plant Sciences Forschungszentrum Jülich Wilhelm Johnen Straße D 52428 Jülich Germany

Institute of Physics Faculty of Mathematics and Physics Charles University Ke Karlovu 5 CZ 12116 Prague 2 Czech Republic

Laboratory of Cell Cycles of Algae Centre Algatech Institute of Microbiology of the Czech Academy of Sciences Novohradská 237 CZ 37981 Třeboň Czech Republic

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