用于研究氧化型和还原型细胞色素P450cam主链动力学的氢-氘交换质谱法。

Hydrogen-deuterium exchange mass spectrometry for investigation of backbone dynamics of oxidized and reduced cytochrome P450cam.

作者信息

Hamuro Yoshitomo, Molnar Kathleen S, Coales Stephen J, OuYang Bo, Simorellis Alana K, Pochapsky Thomas C

机构信息

ExSAR Corporation, 11 Deer Park Drive, Suite 103 Monmouth Junction, NJ 08852, United States.

出版信息

J Inorg Biochem. 2008 Feb;102(2):364-70. doi: 10.1016/j.jinorgbio.2007.10.001. Epub 2007 Oct 17.

DOI:10.1016/j.jinorgbio.2007.10.001

PMID:18023482

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2279175/

Abstract

Backbone dynamics of the camphor monoxygenase cytochrome P450(cam) (CYP101) as a function of oxidation/ligation state of the heme iron were investigated via hydrogen/deuterium exchange (H/D exchange) as monitored by mass spectrometry. Main chain amide NH hydrogens can exchange readily with solvent and the rate of this exchange depends upon, among other things, dynamic fluctuations in local structural elements. A fluxional region of the polypeptide will exchange more quickly with solvent than one that is more constrained. In most regions of the enzyme, exchange rates were similar between oxidized high-spin camphor-bound and reduced camphor- and CO-bound CYP101 (CYP-S and CYP-S-CO, respectively). However, in regions of the protein that have previously been implicated in substrate access by structural and molecular dynamics investigations, the reduced enzyme shows significantly slower exchange rates than the oxidized CYP-S. This observation corresponds to increased flexibility of the oxidized enzyme relative to the reduced form. Structural features previously found to be perturbed in CYP-S-CO upon binding of the biologically relevant effector and reductant putidaredoxin (Pdx) as determined by nuclear magnetic resonance are also more protected from exchange in the reduced state. To our knowledge, this study represents the first experimental investigation of backbone dynamics within the P450 family using this methodology.

摘要

通过质谱监测的氢/氘交换（H/D交换），研究了樟脑单加氧酶细胞色素P450（cam）（CYP101）的主链动力学与血红素铁氧化/连接状态的关系。主链酰胺NH氢可以很容易地与溶剂交换，这种交换的速率除其他因素外，还取决于局部结构元件的动态波动。多肽的一个流动区域与溶剂的交换速度比一个更受限制的区域更快。在酶的大多数区域，氧化的高自旋樟脑结合型和还原的樟脑和CO结合型CYP101（分别为CYP-S和CYP-S-CO）之间的交换速率相似。然而，在先前通过结构和分子动力学研究表明与底物进入有关的蛋白质区域中，还原酶的交换速率明显低于氧化的CYP-S。这一观察结果对应于氧化酶相对于还原形式具有更高的灵活性。通过核磁共振确定，先前发现与生物相关效应物和还原型铁氧还蛋白（Pdx）结合后CYP-S-CO中受到干扰的结构特征在还原状态下也更能抵抗交换。据我们所知，这项研究代表了使用这种方法对P450家族内主链动力学的首次实验研究。

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