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结核分枝杆菌DosS基于血红素的氧化还原传感的结构洞察

Structural insight into the heme-based redox sensing by DosS from Mycobacterium tuberculosis.

作者信息

Cho Ha Yeon, Cho Hyo Je, Kim Young Min, Oh Jeong Il, Kang Beom Sik

机构信息

School of Life Science and Biotechnology, Kyungpook National University, Daegu, Korea.

出版信息

J Biol Chem. 2009 May 8;284(19):13057-67. doi: 10.1074/jbc.M808905200. Epub 2009 Mar 10.

DOI:10.1074/jbc.M808905200
PMID:19276084
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2676038/
Abstract

Mycobacterium tuberculosis is thought to undergo transformation into its non-replicating persistence state under the influence of hypoxia or nitric oxide (NO). This transformation is thought to be mediated via two sensor histidine kinases, DosS and DosT, each of which contains two GAF domains that are responsible for detecting oxygen tension. In this study we determined the crystal structures of the first GAF domain (GAF-A) of DosS, which shows an interaction with a heme. A b-type heme was embedded in a hydrophobic cavity of the GAF-A domain and was roughly perpendicular to the beta-sheet of the GAF domain. The heme iron was liganded by His-149 at the proximal heme axial position. The iron, in the oxidized form, was six-coordinated with a water molecule at the distal position. Upon reduction, the iron, in ferrous form, was five-coordinated, and when the GAF domain was exposed to atmospheric O(2), the ferrous form was oxidized to generate the Met form rather than a ferrous O(2)-bound form. Because the heme is isolated inside the GAF domain, its accessibility is restricted. However, a defined hydrogen bond network found at the heme site could accelerate the electron transferability and would explain why DosS was unable to bind O(2). Flavin nucleotides were shown to reduce the heme iron of DosS while NADH was unable to do so. These results suggest that DosS is a redox sensor and detects hypoxic conditions by its reduction.

摘要

结核分枝杆菌被认为在缺氧或一氧化氮(NO)的影响下会转变为非复制性持续状态。这种转变被认为是通过两种传感组氨酸激酶DosS和DosT介导的,它们各自包含两个负责检测氧张力的GAF结构域。在本研究中,我们确定了DosS的第一个GAF结构域(GAF-A)的晶体结构,该结构显示与血红素存在相互作用。一个b型血红素嵌入GAF-A结构域的疏水腔中,且大致垂直于GAF结构域的β折叠。血红素铁在近端血红素轴向位置由His-149配位。处于氧化形式的铁在远端位置与一个水分子形成六配位。还原后,亚铁形式的铁为五配位,当GAF结构域暴露于大气中的O₂时,亚铁形式被氧化生成高铁形式而非亚铁-O₂结合形式。由于血红素被隔离在GAF结构域内部,其可及性受到限制。然而,在血红素位点发现的特定氢键网络可以加速电子传递能力,并能解释为什么DosS无法结合O₂。黄素核苷酸被证明可还原DosS的血红素铁,而NADH则无法做到。这些结果表明DosS是一种氧化还原传感器,并通过其还原作用来检测缺氧状态。

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