溶液中和与核心天线复合物结合的螺旋藻黄素的超快激发态动力学：S∗和 T1 态的鉴定。

Ultrafast excited state dynamics of spirilloxanthin in solution and bound to core antenna complexes: identification of the S∗ and T1 states.

机构信息

The Osaka City University Advanced Research Institute for Natural Science and Technology (OCARINA), 3-3-138 Sugimoto, Sumiyoshi-ku, Osaka, 558-8585 Japan.

出版信息

J Chem Phys. 2012 Aug 14;137(6):064505. doi: 10.1063/1.4737129.

DOI:10.1063/1.4737129

PMID:22897291

Abstract

Ultrafast excited state dynamics of spirilloxanthin in solution and bound to the light-harvesting core antenna complexes from Rhodospirillum rubrum S1 were investigated by means of femtosecond pump-probe spectroscopic measurements. The previously proposed S∗ state of spirilloxanthin was clearly observed both in solution and bound to the light-harvesting core antenna complexes, while the lowest triplet excited state appeared only with spirilloxanthin bound to the protein complexes. Ultrafast formation of triplet spirilloxanthin bound to the protein complexes was observed upon excitation of either spirilloxanthin or bacteriochlorophyll-a. The anomalous reaction of the ultrafast triplet formation is discussed in terms of ultrafast energy transfer between spirilloxanthin and bacteriochlorophyll-a.

摘要

通过飞秒泵浦探针光谱测量，研究了溶液中螺旋藻黄素和结合到来自红假单胞菌 S1 的光捕获核心天线复合物的超快激发态动力学。在溶液中和与光捕获核心天线复合物结合时，均清楚地观察到了先前提出的螺旋藻黄素 S*态，而最低三重态激发态仅在螺旋藻黄素与蛋白质复合物结合时出现。在激发螺旋藻黄素或细菌叶绿素-a 时，均观察到结合到蛋白质复合物上的三重态螺旋藻黄素的超快形成。根据螺旋藻黄素和细菌叶绿素-a 之间的超快能量转移，讨论了这种超快三重态形成的异常反应。

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Ultrafast excited state dynamics of spirilloxanthin in solution and bound to core antenna complexes: identification of the S∗ and T1 states.溶液中和与核心天线复合物结合的螺旋藻黄素的超快激发态动力学：S∗和 T1 态的鉴定。

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溶液中和与核心天线复合物结合的螺旋藻黄素的超快激发态动力学：S∗和 T1 态的鉴定。

Ultrafast excited state dynamics of spirilloxanthin in solution and bound to core antenna complexes: identification of the S∗ and T1 states.

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