Fluorescence Assays for Photosynthetic Capacity of Bacteria

Abstract

The fast kinetics of induction and relaxation of bacteriochlorophyll prompt and delayed fluorescence together with absorption changes of the reaction center (RC) dimer (P) were measured by combination of flashes from laser diodes in intact cells of wild type, carotenoidless (R-26) and cytochrome c2 deficient (CYCA) mutants of photosynthetic bacteria Rhodobacter sphaeroides. The fluorescence induction under high intensity of continuous light splits into fast and slow rises both overlapped by the (carotenoid and/or bacteriochlorophyll) triplet quenching. The fast phase is purely photochemical as it depends strongly on the number of photons absorbed. The slow phase is the combination of thermal and photochemical reactions and reflects the multiple turnover of the system. Upon short flash, the fluorescence yield cannot reach the maximum due to partial reopening of the RCs by rapid donor and acceptor side reactions. Longer flashes are needed to close the RC completely. Contrary to higher plants, the kinetics of induction and relaxation of the fluorescence yield in bacteria are controlled principally by P+. The reactions on the quinone side play minor role. The quantitative determination of the cyclic electron transfer rate can be based on calibration to the quantity of P+.View Large Image | View Hi-Res Image | Download PowerPoint Slide