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共振拉曼光谱揭示基于血红素的气体传感蛋白中配体结合信号转导机制。

Mechanism for transduction of the ligand-binding signal in heme-based gas sensory proteins revealed by resonance Raman spectroscopy.

作者信息

Uchida Takeshi, Kitagawa Teizo

机构信息

Okazaki Institute for Integrative Bioscience, National Institutes of Natural Sciences, Myodaiji, Okazaki, Aichi 444-8787, Japan.

出版信息

Acc Chem Res. 2005 Aug;38(8):662-70. doi: 10.1021/ar030267d.

Abstract

Gene analysis has revealed a variety of new heme-containing gas sensory proteins in organisms ranging from bacteria to mammals. These proteins are composed of sensor, communication, and functional domains. The sensor domain contains a heme that binds effector molecules such as NO, O2, or CO. Ligand binding by the sensor domain modulates the physiological role of the protein, such as DNA binding in the case of transcriptional factors or the catalytic reaction rate in the case of enzymes. This Account summarizes resonance Raman (RR) studies, including static and time-resolved measurements, which have enabled elucidation of the mechanisms by which binding of specific target molecule by the sensor domain is transduced to alteration of the functional domain. These studies have shown that signals can be conveyed from the heme to the functional domain via three different pathways: (i) a distal pathway, (ii) a proximal pathway, and (iii) a heme peripheral pathway.

摘要

基因分析揭示了从细菌到哺乳动物等多种生物中存在的各种含血红素的气体传感蛋白。这些蛋白质由传感、通讯和功能结构域组成。传感结构域含有一个血红素,可结合诸如一氧化氮、氧气或一氧化碳等效应分子。传感结构域与配体的结合会调节蛋白质的生理作用,例如转录因子情况下的DNA结合或酶情况下的催化反应速率。本综述总结了共振拉曼(RR)研究,包括静态和时间分辨测量,这些研究能够阐明传感结构域与特定靶分子的结合是如何转化为功能结构域变化的机制。这些研究表明,信号可以通过三种不同途径从血红素传递到功能结构域:(i)远端途径,(ii)近端途径,以及(iii)血红素周边途径。

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