生物光感受器的超快光谱学

Ultrafast spectroscopy of biological photoreceptors.

作者信息

Kennis John T M, Groot Marie-Louise

机构信息

Department of Biophysics, Faculty of Sciences, Vrije Universiteit, De Boelelaan 1081, 1081HV Amsterdam, The Netherlands.

出版信息

Curr Opin Struct Biol. 2007 Oct;17(5):623-30. doi: 10.1016/j.sbi.2007.09.006. Epub 2007 Oct 23.

DOI:10.1016/j.sbi.2007.09.006

PMID:17959372

Abstract

We review recent new insights on reaction dynamics of photoreceptors proteins gained from ultrafast spectroscopy. In Blue Light sensing Using FAD (BLUF) domains, a hydrogen-bond rearrangement around the flavin chromophore proceeds through a radical-pair mechanism, by which light-induced electron and proton transfer from the protein to flavin result in rotation of a conserved glutamine that switches the hydrogen bond network. Femtosecond infrared spectroscopy has shown that in photoactive yellow protein (PYP), breaking of a hydrogen bond that connects the p-coumaric acid chromophore to the backbone is crucial for trans-cis isomerization and successful entry into the photocycle. Furthermore, isomerization reactions of phycocyanobilin in phytochrome and retinal in the rhodopsins have been revealed in detail through application of femtosecond infrared and femtosecond-stimulated Raman spectroscopy.

摘要

我们回顾了从超快光谱学中获得的关于光感受器蛋白反应动力学的最新见解。在利用黄素腺嘌呤二核苷酸（FAD）的蓝光感应（BLUF）结构域中，黄素发色团周围的氢键重排通过自由基对机制进行，通过这种机制，光诱导的电子和质子从蛋白质转移到黄素会导致一个保守谷氨酰胺的旋转，从而切换氢键网络。飞秒红外光谱表明，在光活性黄色蛋白（PYP）中，连接对香豆酸发色团与主链的氢键断裂对于反式-顺式异构化以及成功进入光循环至关重要。此外，通过应用飞秒红外和飞秒受激拉曼光谱，详细揭示了植物色素中的藻胆青素和视紫红质中的视黄醛的异构化反应。

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生物光感受器的超快光谱学

Ultrafast spectroscopy of biological photoreceptors.

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