Fluorescence as a probe for physiological integrity of freshwater cyanobacteria

Abstract

The effects of energetic decoupling of phycobiliproteins (PBP) from photosystems in Nostoc sp. on the emission characteristics and fluorescence profiles of cyanobacterial photosynthetic apparatus and its components were studied using steady-state and time-resolved fluorescence emission. The steady-state measurements show a rise in fluorescence from PBP released at low ionic strength. The emission decay profile of Nostoc photosynthetic apparatus has two components with lifetimes 1.8 ns and about 0.1 ns but their relative contributions to the total emission decay vary, depending on the energetic coupling of phycobilisomes to photosystems. At low ionic strength, the contribution of the long-lived emission characteristic for free phycocyanin increased, confirming the detachment of PBP from the photosystems. We show that these effects can be used as a basis for improvement of cyanobacteria detection method. It is demonstrated that the fitting algorithm applied in the measurements with a FluoroProbe fluorometer (bbe Moldaenke, Schwentinental, Germany) can differentiate between coupled and uncoupled PBP. This approach may prove useful in monitoring the state of photosynthetic apparatus in cyanobacterial populations and their spatial distribution in water reservoirs.