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细菌血红素PAS传感器晶体结构揭示的氧化还原控制分子开关

A redox-controlled molecular switch revealed by the crystal structure of a bacterial heme PAS sensor.

作者信息

Kurokawa Hirofumi, Lee Dong-Sun, Watanabe Miki, Sagami Ikuko, Mikami Bunzo, Raman C S, Shimizu Toru

机构信息

Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai, Miyagi 980-8577, Japan.

出版信息

J Biol Chem. 2004 May 7;279(19):20186-93. doi: 10.1074/jbc.M314199200. Epub 2004 Feb 23.

Abstract

PAS domains, which have been identified in over 1100 proteins from all three kingdoms of life, convert various input stimuli into signals that propagate to downstream components by modifying protein-protein interactions. One such protein is the Escherichia coli redox sensor, Ec DOS, a phosphodiesterase that degrades cyclic adenosine monophosphate in a redox-dependent manner. Here we report the crystal structures of the heme PAS domain of Ec DOS in both inactive Fe(3+) and active Fe(2+) forms at 1.32 and 1.9 A resolution, respectively. The protein folds into a characteristic PAS domain structure and forms a homodimer. In the Fe(3+) form, the heme iron is ligated to a His-77 side chain and a water molecule. Heme iron reduction is accompanied by heme-ligand switching from the water molecule to a side chain of Met-95 from the FG loop. Concomitantly, the flexible FG loop is significantly rigidified, along with a change in the hydrogen bonding pattern and rotation of subunits relative to each other. The present data led us to propose a novel redox-regulated molecular switch in which local heme-ligand switching may trigger a global "scissor-type" subunit movement that facilitates catalytic control.

摘要

PAS结构域已在来自生命三界的1100多种蛋白质中被鉴定出来,它通过改变蛋白质-蛋白质相互作用将各种输入刺激转化为信号,传递给下游组分。一种这样的蛋白质是大肠杆菌氧化还原传感器Ec DOS,它是一种磷酸二酯酶,以氧化还原依赖的方式降解环磷酸腺苷。在此,我们分别报告了处于无活性Fe(3+)形式和活性Fe(2+)形式的Ec DOS的血红素PAS结构域的晶体结构,分辨率分别为1.32 Å和1.9 Å。该蛋白质折叠成特征性的PAS结构域结构并形成同二聚体。在Fe(3+)形式中,血红素铁与His-77侧链和一个水分子配位。血红素铁的还原伴随着血红素配体从水分子切换到来自FG环的Met-95的侧链。同时,柔性FG环显著刚性化,同时氢键模式发生变化,亚基相对于彼此发生旋转。目前的数据使我们提出了一种新的氧化还原调节分子开关,其中局部血红素-配体切换可能触发全局性的“剪刀式”亚基运动,从而促进催化控制。

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