Significance of the Lipid Phase in the Dynamics and Functions of the Xanthophyll Cycle as Revealed by PsbS Overexpression in Tobacco and In-vitro De-epoxidation in Monogalactosyldiacylglycerol Micelles

doi:10.1093/pcp/pch010

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Plant and Cell Physiology, 2004, Vol. 45, No. 1 92-102
© 2004 Oxford University Press

Significance of the Lipid Phase in the Dynamics and Functions of the Xanthophyll Cycle as Revealed by PsbS Overexpression in Tobacco and In-vitro De-epoxidation in Monogalactosyldiacylglycerol Micelles

A. David Hieber, Osamu Kawabata and Harry Y. Yamamoto¹

Department of Molecular Biosciences and Bioengineering, University of Hawaii at Manoa, Honolulu, HI 96822, U.S.A.

The dynamics of the xanthophyll cycle relative to non-photochemicalquenching (NPQ) were examined in tobacco plants overexpressingviolaxanthin de-epoxidase (VDE), PsbS and PsbS+VDE for effectson NPQ and violaxanthin (V) de-epoxidation over a range of lightintensities. Induction of de-epoxidation and NPQ increased inoverexpressed VDE and PsbS plants, respectively. Surprisingly,under low light, overexpressing PsbS enhanced de-epoxidationin addition to NPQ. The effect was hypothesized as due to PsbSbinding zeaxanthin (Z) or inducing the binding of Z within thequenching complex, thus shifting the equilibrium toward higherde-epoxidation states. Studies in model systems show that Zcan stereospecifically inhibit VDE activity against violaxanthin.This effect, observed under conditions of limiting lipid concentration,was interpreted as product feedback inhibition. These resultssupport the hypothesis that the capacity of the thylakoid lipidphase for xanthophylls is limited and modulates xanthophyll-cycleactivity, in conjunction with the release of V and binding ofZ by pigment-binding proteins. These modulating factors areincorporated into a lipid-matrix model that has elements ofa signal transduction system wherein the light-generated protonsare the signal, VDE the signal receptor, Z the secondary messenger,the lipid phase the transduction network, and Z-binding proteinsthe targets.

¹ Corresponding author: E-mail, yamamoto{at}hawaii.edu; Fax, +808-956-3542.

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