从头设计的α-螺旋桶作为小分子受体

De Novo-Designed α-Helical Barrels as Receptors for Small Molecules.

作者信息

Thomas Franziska, Dawson William M, Lang Eric J M, Burton Antony J, Bartlett Gail J, Rhys Guto G, Mulholland Adrian J, Woolfson Derek N

机构信息

School of Chemistry , University of Bristol , Cantock's Close , Bristol BS8 1TS , U.K.

Institute of Organic and Biomolecular Chemistry , Georg-August-Universität Göttingen , Tammannstrasse 2 , 37077 Göttingen , Germany.

出版信息

ACS Synth Biol. 2018 Jul 20;7(7):1808-1816. doi: 10.1021/acssynbio.8b00225. Epub 2018 Jul 10.

DOI:10.1021/acssynbio.8b00225

PMID:29944338

Abstract

We describe de novo-designed α-helical barrels (αHBs) that bind and discriminate between lipophilic biologically active molecules. αHBs have five or more α-helices arranged around central hydrophobic channels the diameters of which scale with oligomer state. We show that pentameric, hexameric, and heptameric αHBs bind the environmentally sensitive dye 1,6-diphenylhexatriene (DPH) in the micromolar range and fluoresce. Displacement of the dye is used to report the binding of nonfluorescent molecules: palmitic acid and retinol bind to all three αHBs with submicromolar inhibitor constants; farnesol binds the hexamer and heptamer; but β-carotene binds only the heptamer. A co-crystal structure of the hexamer with farnesol reveals oriented binding in the center of the hydrophobic channel. Charged side chains engineered into the lumen of the heptamer facilitate binding of polar ligands: a glutamate variant binds a cationic variant of DPH, and introducing lysine allows binding of the biosynthetically important farnesol diphosphate.

摘要

我们描述了一种全新设计的α-螺旋桶（αHBs），它能够结合亲脂性生物活性分子并对其进行区分。αHBs有五个或更多围绕中心疏水通道排列的α-螺旋，其直径随寡聚体状态而变化。我们发现五聚体、六聚体和七聚体αHBs在微摩尔范围内结合环境敏感染料1,6-二苯基己三烯（DPH）并发出荧光。染料的置换用于报告非荧光分子的结合情况：棕榈酸和视黄醇以亚微摩尔抑制剂常数与所有三种αHBs结合；法尼醇与六聚体和七聚体结合；但β-胡萝卜素仅与七聚体结合。六聚体与法尼醇的共晶体结构揭示了在疏水通道中心的定向结合。工程改造到七聚体腔中的带电侧链有助于极性配体的结合：谷氨酸变体结合DPH的阳离子变体，引入赖氨酸则允许结合生物合成中重要的法尼醇二磷酸。

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从头设计的α-螺旋桶作为小分子受体

De Novo-Designed α-Helical Barrels as Receptors for Small Molecules.

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