金属离子的作用以及 D-木糖异构酶催化反应过程中氢的迁移:X 射线和中子衍射联合研究。
Metal ion roles and the movement of hydrogen during reaction catalyzed by D-xylose isomerase: a joint x-ray and neutron diffraction study.
机构信息
Bioscience Division, Los Alamos National Laboratory, MS M888, Los Alamos, NM 87545, USA.
出版信息
Structure. 2010 Jun 9;18(6):688-99. doi: 10.1016/j.str.2010.03.011.
Abstract
Conversion of aldo to keto sugars by the metalloenzyme D-xylose isomerase (XI) is a multistep reaction that involves hydrogen transfer. We have determined the structure of this enzyme by neutron diffraction in order to locate H atoms (or their isotope D). Two studies are presented, one of XI containing cadmium and cyclic D-glucose (before sugar ring opening has occurred), and the other containing nickel and linear D-glucose (after ring opening has occurred but before isomerization). Previously we reported the neutron structures of ligand-free enzyme and enzyme with bound product. The data show that His54 is doubly protonated on the ring N in all four structures. Lys289 is neutral before ring opening and gains a proton after this; the catalytic metal-bound water is deprotonated to hydroxyl during isomerization and O5 is deprotonated. These results lead to new suggestions as to how changes might take place over the course of the reaction.
摘要
醛糖到酮糖的转化由金属酶 D-木糖异构酶(XI)催化,是一个多步骤反应,涉及氢转移。为了定位 H 原子(或其同位素 D),我们通过中子衍射确定了该酶的结构。本文介绍了两项研究,一项是含有镉和环状 D-葡萄糖(在糖环打开之前)的 XI,另一项是含有镍和线性 D-葡萄糖(在环打开之后但在异构化之前)的 XI。之前我们报道了无配体酶和结合产物酶的中子结构。数据表明,在所有四个结构中,His54 上的环 N 位上的两个氢原子被双重质子化。Lys289 在环打开之前呈中性,打开后获得一个质子;催化金属结合的水分子在异构化过程中去质子化为羟基,O5 去质子化。这些结果为反应过程中可能发生的变化提供了新的思路。
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