Separation of light-induced linear, cyclic and stroma-sourced electron fluxes to P700(+) in cucumber [Cucumis sativus] leaf discs after pre-illumination at a chilling temperature

Fan, D.Y.. Inst. of Botany; Hope, A.B.; Jia, H.; Chow, W.S.

Separation of light-induced linear, cyclic and stroma-sourced electron fluxes to P700(+) in cucumber [Cucumis sativus] leaf discs after pre-illumination at a chilling temperature

2008

Fan, D.Y.(Chinese Academy of Sciences, Beijing (China). Inst. of Botany) | Hope, A.B. | Jia, H. | Chow, W.S.

Pre-illumination of cucumber leaf discs at 4degC with low-irradiance white light (i) led to a marked decrease in the extent of photo-oxidation of P700 (the special chlorophyll pair in the PSI reaction center) in actinic light at room temperature and (ii) hastened the post-illumination re-reduction of P700sup(+) Quantifying the linear, cyclic and stroma-sourced electron fluxes to P700sup(+) in two actinic light regimes, we found that there was no increase in cyclic or linear electron fluxes to account for these changes. Rather, we observed a decrease in the maximum extent of P700 photo-oxidation assayed by a strong flash superimposed on continuous, background light of wavelength 723 nm, which we interpret to represent a loss of stable charge separation in PSI due to enhanced charge recombination as a result of the pre-illumination treatment. The funneling of electrons towards fewer non-damaged PSI complexes could explain the hastened post-illumination re-reduction of P700sup(+), aided by a slight increase in a stroma-sourced electron flux after prolonged pre-illumination at 4degC. Quantifying the separate fluxes to P700sup(+) helps to elucidate the effects of chilling of cucumber leaf discs in the light and the reasons for the hastened post-illumination re-reduction of P700sup(+).

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