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Multichannel Carotenoid Deactivation in Photosynthetic Light Harvesting as Identified by an Evolutionary Target Analysis

Wendel Wohlleben ^*, Tiago Buckup ^*, Jennifer L. Herek , Richard J. Cogdell  and Marcus Motzkus ^*

^* Max-Planck-Institut für Quantenoptik, Garching, Germany; Stichting voor Fundamental Onderzoek der Materie-Institute for Atomic and Molecular Physics, Amsterdam, The Netherlands; and Institute of Biomedical & Life Sciences, University of Glasgow, Glasgow, United Kingdom

Correspondence: Address reprint requests to Marcus Motzkus, Max-Planck-Institut für Quantenoptik, Hans-Kopfermann-Str. 1, 85748 Garching, Germany. Tel.: 49-893-290-5216; Fax: 49-893-290-5200; E-mail: mcm{at}mpq.mpg.de.

A new channel of excitation energy deactivation in bacterial light harvesting was recently discovered, which leads to carotenoid triplet population on an ultrafast timescale. Here we show that this mechanism is also active in LH2 of Rhodopseudomonas acidophila through analysis of transient absorption data with an evolutionary target analysis. The algorithm offers flexible testing of kinetic network models with low a priori knowledge requirements. It applies universally to the simultaneous fitting of target state spectra and rate constants to time-wavelength-resolved data. Our best-fit model reproduces correctly the well-known cooling and decay behavior in the S₁ band, but necessitates an additional, clearly distinct singlet state that does not exchange with S₁, promotes ultrafast triplet population and participates in photosynthetic energy transfer.

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