不同构象态 NADH 分子内光诱导能量转移的动力学。

Kinetics of Light-Induced Intramolecular Energy Transfer in Different Conformational States of NADH.

机构信息

Institute of Biophysics, Biological Research Centre, Hungarian Academy of Sciences , H-6701 Szeged, Hungary.

University of Strasbourg , CNRS, Institut de Physique et Chimie des Matériaux de Strasbourg, UMR7504, F-67000 Strasbourg, France.

出版信息

J Phys Chem B. 2017 Aug 31;121(34):8037-8045. doi: 10.1021/acs.jpcb.7b04753. Epub 2017 Aug 18.

DOI:10.1021/acs.jpcb.7b04753

PMID:28731346

Abstract

When bound to a protein, the coenzyme NAD+/NADH typically exists in an extended conformation, while in aqueous solutions it can be characterized by an equilibrium of folded and unfolded structures. It was recognized long ago that in the folded conformation light absorption at the adenine ring initiates an effective energy transfer (ET) toward the nicotinamide group, but the mechanism of this process is still unexplored. Here we apply ultrafast transient absorption measurements on NADH combined with compartmental model analysis for following the kinetics of the ET. We find that the actual ET is extremely rapid (∼70 fs). The high rate can be well described by a Förster-type mechanism, promoted by both the special photophysical properties of adenine and the subnanometer inter-ring distance. The rapid ET creates a vibrationally hot excited state on nicotinamide, the vibrational and electronic relaxation of which is characterized by 1.7 and 650 ps, respectively.

摘要

当与蛋白质结合时，辅酶 NAD+/NADH 通常以伸展构象存在，而在水溶液中，它可以通过折叠和未折叠结构的平衡来表征。很久以前就已经认识到，在折叠构象中，腺嘌呤环的光吸收会引发向烟酰胺基团的有效能量转移（ET），但这个过程的机制仍未被探索。在这里，我们应用超快瞬态吸收测量 NADH 并结合分区模型分析来跟踪 ET 的动力学。我们发现实际的 ET 非常迅速（∼70 fs）。这种高速度可以很好地用Förster 型机制来描述，这是由腺嘌呤的特殊光物理性质和亚纳米环间距离共同促进的。快速的 ET 在烟酰胺上产生了一个振动激发态，其振动和电子弛豫分别由 1.7 和 650 ps 来表征。

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不同构象态 NADH 分子内光诱导能量转移的动力学。

Kinetics of Light-Induced Intramolecular Energy Transfer in Different Conformational States of NADH.

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