Retaining Glycosyltransferase Mechanism Studied by QM/MM Methods: Lipopolysaccharyl-α-1,4-galactosyltransferase C Transfers α-Galactose via an Oxocarbenium Ion-like Transition State

化学 氧代碳 QM/毫米 半乳糖基转移酶 立体化学 另一个 糖基转移酶 糖苷键 正在离开组 过渡状态 计算化学 亲核细胞 催化作用 分子动力学 生物化学
作者
Hansel Gómez,Iakov Polyak,Walter Thiel,José M. Lluch,Laura Masgrau
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:134 (10): 4743-4752 被引量:97
标识
DOI:10.1021/ja210490f
摘要

Glycosyltransferases (GTs) catalyze the highly specific biosynthesis of glycosidic bonds and, as such, are important both as drug targets and for biotechnological purposes. Despite their broad interest, fundamental questions about their reaction mechanism remain to be answered, especially for those GTs that transfer the sugar with net retention of the configuration at the anomeric carbon (retaining glycosyltransferases, ret-GTs). In the present work, we focus on the reaction catalyzed by lipopolysaccharyl-α-1,4-galactosyltransferase C (LgtC) from Neisseria meningitides. We study and compare the different proposed mechanisms (S(N)i, S(N)i-like, and double displacement mechanism via a covalent glycosyl-enzyme intermediate, CGE) by using density functional theory (DFT) and quantum mechanics/molecular mechanics (QM/MM) calculations on the full enzyme. We characterize a dissociative single-displacement (S(N)i) mechanism consistent with the experimental data, in which the acceptor substrate attacks on the side of the UDP leaving group that acts as a catalytic base. We identify several key interactions that help this front-side attack by stabilizing the transition state. Among them, Gln189, the putative nucleophile in a double displacement mechanism, is shown to favor the charge development at the anomeric center by about 2 kcal/mol, compatible with experimental mutagenesis data. We predict that using 3-deoxylactose as acceptor would result in a reduction of k(cat) to 0.6-3% of that for the unmodified substrates. The reactions of the Q189A and Q189E mutants have also been investigated. For Q189E, there is a change in mechanism since a CGE can be formed which, however, is not able to evolve to products. The current findings are discussed in the light of the available experimental data and compared with those for other ret-GTs.
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