Issue 23, 2007

Quantum chemical insights in energy dissipation and carotenoid radical cation formation in light harvesting complexes

Abstract

Light harvesting complexes (LHCs) have been identified in all photosynthetic organisms. To understand their function in light harvesting and energy dissipation, detailed knowledge about possible excitation energy transfer (EET) and electron transfer (ET) processes in these pigment proteins is of prime importance. This again requires the study of electronically excited states of the involved pigment molecules, in LHCs of chlorophylls and carotenoids. This paper represents a critical review of recent quantum chemical calculations on EET and ET processes between pigment pairs relevant for the major LHCs of green plants (LHC-II) and of purple bacteria (LH2). The theoretical methodology for a meaningful investigation of such processes is described in detail, and benefits and limitations of standard methods are discussed. The current status of excited state calculations on chlorophylls and carotenoids is outlined. It is focused on the possibility of EET and ET in the context of chlorophyll fluorescence quenching in LHC-II and carotenoid radical cation formation in LH2. In the context of non-photochemical quenching of green plants, it is shown that replacement of the carotenoid violaxanthin by zeaxanthin in its binding pocket of LHC-II can not result in efficient quenching. In LH2, our computational results give strong evidence that the S1 states of the carotenoids are involved in carotenoid cation formation. By comparison of theoretical findings with recent experimental data, a general mechanism for carotenoid radical cation formation is suggested.

Graphical abstract: Quantum chemical insights in energy dissipation and carotenoid radical cation formation in light harvesting complexes

Article information

Article type
Invited Article
Submitted
28 Feb 2007
Accepted
04 Apr 2007
First published
25 Apr 2007

Phys. Chem. Chem. Phys., 2007,9, 2917-2931

Quantum chemical insights in energy dissipation and carotenoid radical cation formation in light harvesting complexes

M. Wormit and A. Dreuw, Phys. Chem. Chem. Phys., 2007, 9, 2917 DOI: 10.1039/B703028B

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