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Ultrafast Carotenoid-to-Chlorophyll Singlet Energy Transfer in the Cytochrome b₆f Complex from Bryopsis corticulans

Ping Zuo ^*, Bin-Xing Li , Xiao-Hui Zhao ^*, Yi-Shi Wu ^*, Xi-Cheng Ai ^*, Jian-Ping Zhang ^*, Liang-Bi Li  and Ting-Yun Kuang 

^* State Key Laboratory for Structural Chemistry of Unstable and Stable Species, Institute of Chemistry, Chinese Academy of Sciences, Beijing 100080, People's Republic of China; and Key Laboratory of Photosynthesis and Environmental Molecular Physiology, Institute of Botany, Chinese Academy of Sciences, Beijing 100093, People's Republic of China

Correspondence: Address reprint requests to Prof. Jian-Ping Zhang, No. 2, 1st North St., Zhongguancun, Beijing, People's Republic of China. Tel.: 86-10-82616163; Fax: 86-10-82616163; E-mail: jpzhang{at}mail.iccas.ac.cn; or Prof. Liang-Bi Li, No. 20, Nanxincun, Xiangshan, Beijing, People's Republic of. China. Tel.: 86-10-62836248; Fax: 86-10-82594106; E-mail: lbli{at}ibcas.ac.cn.

Ultrafast carotenoid-to-chlorophyll (Car-to-Chl) singlet excitation energy transfer in the cytochrome b₆f (Cyt b₆f) complex from Bryopsis corticulans is investigated by the use of femtosecond time-resolved absorption spectroscopy. For all-trans--carotene free in n-hexane, the lifetimes of the two low-lying singlet excited states, S₁(2A_g^–) and S₂(1B_u⁺), are determined to be 14.3 ± 0.4 ps and 230 ± 10 fs, respectively. For the Cyt b₆f complex, to which 9-cis--carotene is bound, the lifetime of the S₁(2A_g^–) state remains unchanged, whereas that of the S₂(1B_u⁺) state is significantly reduced. In addition, a decay-to-rise correlation between the excited-state dynamics of -carotene and Chl a is clearly observed. This spectroscopic evidence proves that the S₂(1B_u⁺) state is able to transfer electronic excitations to the Q_x state of Chl a, whereas the S₁(2A_g^–) state remains inactive. The time constant and the partial efficiency of the energy transfer are determined to be 240 ± 40 fs and (49 ± 4)%, respectively, which supports the overall efficiency of 24% determined with steady-state fluorescence spectroscopy. A scheme of the -carotene-to-Chl a singlet energy transfer is proposed based on the excited-state dynamics of the pigments.

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