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假单胞菌芳基硫酸酯酶的过渡态相互作用:硫酸盐和磷酸盐单酯的水解。

Transition-State Interactions in a Promiscuous Enzyme: Sulfate and Phosphate Monoester Hydrolysis by Pseudomonas aeruginosa Arylsulfatase.

机构信息

Department of Biochemistry , University of Cambridge , Cambridge , United Kingdom.

Department of Chemistry and Biochemistry , Utah State University , Logan , Utah 84322 , United States.

出版信息

Biochemistry. 2019 Mar 12;58(10):1363-1378. doi: 10.1021/acs.biochem.8b00996. Epub 2019 Feb 27.

DOI:10.1021/acs.biochem.8b00996
PMID:30810299
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11098524/
Abstract

Pseudomonas aeruginosa arylsulfatase (PAS) hydrolyzes sulfate and, promiscuously, phosphate monoesters. Enzyme-catalyzed sulfate transfer is crucial to a wide variety of biological processes, but detailed studies of the mechanistic contributions to its catalysis are lacking. We present linear free energy relationships (LFERs) and kinetic isotope effects (KIEs) of PAS and analyses of active site mutants that suggest a key role for leaving group (LG) stabilization. In LFERs PAS has a much less negative Brønsted coefficient (β = -0.33) than the uncatalyzed reaction (β = -1.81). This situation is diminished when cationic active site groups are exchanged for alanine. The considerable degree of bond breaking during the transition state (TS) is evidenced by an O KIE of 1.0088. LFER and KIE data for several active site mutants point to leaving group stabilization by active site K375, in cooperation with H211. N KIEs and the increased sensitivity to leaving group ability of the sulfatase activity in neat DO (Δβ = +0.06) suggest that the mechanism for S-O bond fission shifts, with decreasing leaving group ability, from charge compensation via Lewis acid interactions toward direct proton donation. O KIEs indicate that the TS for PAS-catalyzed sulfate monoester hydrolysis has a significantly more associative character compared to the uncatalyzed reaction, while PAS-catalyzed phosphate monoester hydrolysis does not show this shift. This difference in enzyme-catalyzed TSs appears to be the major factor favoring specificity toward sulfate over phosphate esters by this promiscuous hydrolase, since other features are either too similar (uncatalyzed TS) or inherently favor phosphate (charge).

摘要

铜绿假单胞菌芳基硫酸酯酶(PAS)可水解硫酸酯和磷酸单酯。酶促硫酸酯转移对多种生物过程至关重要,但对其催化的机制贡献的详细研究仍缺乏。我们提出了 PAS 的线性自由能关系(LFER)和动力学同位素效应(KIE)以及活性位点突变体的分析,这些结果表明离去基团(LG)稳定化起着关键作用。在 LFER 中,PAS 的 Brønsted 系数(β = -0.33)比未催化反应(β = -1.81)小得多。当阳离子活性位点基团被替换为丙氨酸时,这种情况会减轻。过渡态(TS)中键断裂的程度相当大,这由 O KIE 值为 1.0088 证明。几个活性位点突变体的 LFER 和 KIE 数据表明,活性位点 K375 与 H211 合作,通过稳定离去基团来稳定离去基团。N KIE 和 neat DO 中增加的离去基团能力对硫酸酯酶活性的敏感性(Δβ = +0.06)表明,随着离去基团能力的降低,S-O 键断裂的机制从通过路易斯酸相互作用进行电荷补偿转移到直接质子供体。O KIE 表明,与未催化反应相比,PAS 催化的硫酸单酯水解的 TS 具有更明显的缔合特征,而 PAS 催化的磷酸单酯水解则没有这种转变。这种酶促 TS 差异似乎是这种混杂水解酶对硫酸酯具有特异性而非磷酸酯的主要因素,因为其他特征要么过于相似(未催化的 TS),要么本质上有利于磷酸(电荷)。