三连锁概念在哺乳动物脂氧合酶位置特异性中的适用性。

Applicability of the triad concept for the positional specificity of mammalian lipoxygenases.

机构信息

Institute of Biochemistry, University Medicine Berlin-Charité, Monbijoustrasse 2, D-10117 Berlin, Germany.

出版信息

J Biol Chem. 2010 Feb 19;285(8):5369-76. doi: 10.1074/jbc.M109.057802. Epub 2009 Dec 21.

DOI:10.1074/jbc.M109.057802

PMID:20026599

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2820765/

Abstract

The nomenclature of lipoxygenases (LOXs) is partly based on the positional specificity of arachidonic acid oxygenation, but there is no unifying concept explaining the mechanistic basis of this enzyme property. According to the triad model, Phe-353, Ile-418, and Ile-593 of the rabbit 12/15-LOX form the bottom of the substrate-binding pocket, and introduction of less space-filling residues at either of these positions favors arachidonic acid 12-lipoxygenation. The present study was aimed at exploring the validity of the triad concept for two novel primate 12/15-LOX (Macaca mulatta and Pongo pygmaeus) and for five known members of the mammalian LOX family (human 12/15-LOX, mouse 12/15-LOX, human 15-LOX2, human platelet type 12-LOX, and mouse (12R)-LOX). The enzymes were expressed as N-terminal His tag fusion proteins in E. coli, the potential sequence determinants were mutated, and the specificity of arachidonic acid oxygenation was quantified. Taken together, our data indicate that the triad concept explains the positional specificity of all 12/15-LOXs tested (rabbit, human, M. mulatta, P. pygmaeus, and mouse). For the new enzymes of M. mulatta and P. pygmaeus, the concept had predictive value because the positional specificity predicted on the basis of the amino acid sequence was confirmed experimentally. The specificity of the platelet 12-LOX was partly explained by the triad hypothesis, but the concept was not applicable for 15-LOX2 and (12R)-LOX.

摘要

脂氧合酶（LOXs）的命名部分基于花生四烯酸氧合的位置特异性，但没有统一的概念来解释这种酶特性的机制基础。根据三联体模型，兔 12/15-LOX 的 Phe-353、Ile-418 和 Ile-593 构成了底物结合口袋的底部，这些位置中任何一个位置引入较小的空间填充残基都有利于花生四烯酸 12-脂氧合。本研究旨在探索三联体概念对两种新型灵长类动物 12/15-LOX（猕猴和猩猩）以及哺乳动物 LOX 家族的五个已知成员（人 12/15-LOX、鼠 12/15-LOX、人 15-LOX2、人血小板 12-LOX 和鼠（12R）-LOX）的有效性。这些酶作为 N 端 His 标签融合蛋白在大肠杆菌中表达，潜在的序列决定因素发生突变，并对花生四烯酸氧合的特异性进行了量化。总的来说，我们的数据表明，三联体概念解释了所有测试的 12/15-LOX（兔、人、猕猴、猩猩和鼠）的位置特异性。对于猕猴和猩猩的新酶，该概念具有预测价值，因为根据氨基酸序列预测的位置特异性在实验上得到了证实。血小板 12-LOX 的特异性部分可以用三联体假设来解释，但该概念不适用于 15-LOX2 和（12R）-LOX。

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