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NADPH fluorescence in the cyanobacterium Synechocystis sp. PCC 6803: A versatile probe for in vivo measurements of rates,yields and pools
Authors:Jocelyn Kauny,Pierre Sé  tif
Affiliation:iBiTec-S, CNRS UMR 8221, CEA Saclay, 91191 Gif-sur-Yvette, France
Abstract:We measured the kinetics of light-induced NADPH formation and subsequent dark consumption by monitoring in vivo its fluorescence in the cyanobacterium Synechocystis PCC 6803. Spectral data allowed the signal changes to be attributed to NAD(P)H and signal linearity vs the chlorophyll concentration was shown to be recoverable after appropriate correction. Parameters associated to reduction of NADP+ to NADPH by ferredoxin–NADP+-oxidoreductase were determined: After single excitation of photosystem I, half of the signal rise is observed in 8 ms; Evidence for a kinetic limitation which is attributed to an enzyme bottleneck is provided; After two closely separated saturating flashes eliciting two photosystem I turnovers in less than 2 ms, more than 50% of the cytoplasmic photoreductants (reduced ferredoxin and photosystem I acceptors) are diverted from NADPH formation by competing processes. Signal quantitation in absolute NADPH concentrations was performed by adding exogenous NADPH to the cell suspensions and by estimating the enhancement factor of in vivo fluorescence (between 2 and 4). The size of the visible (light-dependent) NADP (NADP+ + NADPH) pool was measured to be between 1.4 and 4 times the photosystem I concentration. A quantitative discrepancy is found between net oxygen evolution and NADPH consumption by the light-activated Calvin–Benson cycle. The present study shows that NADPH fluorescence is an efficient probe for studying in vivo the energetic metabolism of cyanobacteria which can be used for assessing multiple phenomena occurring over different time scales.
Keywords:Fdred, reduced ferredoxin   Fdox, oxidized ferredoxin   FNR, ferredoxin&ndash  NADP+-oxidoreductase   PM, photomultiplier   MF, measuring frequency   chl, chlorophyll   (Fd-PSI acc.)red, reduced ferredoxin or PSI terminal acceptors   ρNADPH, yield of NADPH formation from (Fd-PSI acc.)red   FEF, fluorescence enhancement factor   PBS, phycobilisomes   PSI, photosystem I   PSII, photosystem II
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