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Cold stress effects on PSI photochemistry in Zea mays: Differential increase of FQR-dependent cyclic electron flow and functional implications

Savitch, L.V., Ivanov, A.G., Gudynaite-Savitch, L., Huner, N.P.A., Simmonds, J. (2011). Cold stress effects on PSI photochemistry in Zea mays: Differential increase of FQR-dependent cyclic electron flow and functional implications, 52(6), 1042-1054. http://dx.doi.org/10.1093/pcp/pcr056

Abstract

Cold-induced inhibition of CO2 assimilation in maize (Zea mays L.) is associated with a persistent depression of the photochemical efficiency of PSII. However, very limited information is available on PSI photochemistry and PSI-dependent electron flow in cold-stressed maize. The extent of the absorbance change (ΔA820) used for in vivo quantitative estimation of photooxidizable P700+ indicated a 32 lower steady-state oxidation level of the PSI reaction center P700 (P700+) in cold-stressed compared with control maize leaves. This was accompanied by a 2-fold faster re-reduction rate of P700+ in the dark, indicating a higher capacity for cyclic electron flow (CEF) around PSI in cold-stressed maize leaves. Furthermore, the increased PSI-dependent CEF(s) was associated with a much higher stromal electron pool size and 56 lower capacity for state transitions compared with control plants. To examine NADP(H) dehydrogenase (NDH)- and ferredoxin:plastoquinone oxidoreductase (FQR)-dependent CEF in vivo, the post-illumination transient increase of Fo′ was measured in the presence of electron transport inhibitors. The results indicate that under optimal growth conditions the relatively low CEF in the maize mesophyll cells is mostly due to the NDH-dependent pathway. However, the increased CEF in cold-stressed plants appears to originate from the up-regulated FQR pathway. The physiological role of PSI down-regulation, the increased capacity for CEF and the shift of preferred CEF mode in modulating the photosynthetic electron fluxes and distribution of excitation light energy in maize plants under cold stress conditions are discussed. © 2011 The Author.

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