利用单一蛋白质支架实现异常广谱的小分子传感。

Unusually Broad-spectrum small-molecule sensing using a single protein scaffold.

作者信息

Tian H, Beltrán J, George W, Lenert-Mondou C, Seder N, Davis Z I, Swift S D, Girke T, Whitehead T A, Wheeldon I, Cutler S R

机构信息

Botany and Plant Sciences, University of California, Riverside, Riverside, CA 92521.

Biochemistry and Molecular Biology, University of California, Riverside, Riverside, CA 92521.

出版信息

bioRxiv. 2025 May 15:2025.05.15.654352. doi: 10.1101/2025.05.15.654352.

DOI:10.1101/2025.05.15.654352

PMID:40462935

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12132232/

Abstract

Small-molecule sensing in plants is dominated by chemical-induced dimerization modules. In the abscisic acid (ABA) system, allosteric receptors recruit phosphatase effectors and achieve nM responses from μM receptor-ligand interactions. This sensitivity amplification could enable ABA receptors to serve as generic scaffolds for designing small-molecule sensors. To test this, we screened collections of mutant ABA-receptors against 2,726 drugs and other ligands and identified 569 sensors for 6.7% of these ligands. The mutational patterns indicate strong selection for ligand-specific binding pockets. We used these data to develop a sensor design pipeline and isolated sensors for multiple plant natural products, 2,4,6-trinitrotoluene (TNT), and "forever" per- and polyfluoroalkyl substances (PFAS). Thus, the ABA sensor system enables design and isolation of small-molecule sensors with broad chemical scope and antibody-like simplicity.

摘要

植物中的小分子传感主要由化学诱导二聚化模块主导。在脱落酸（ABA）系统中，变构受体招募磷酸酶效应器，并通过微摩尔级的受体-配体相互作用实现纳摩尔级的响应。这种灵敏度放大能够使ABA受体作为设计小分子传感器的通用支架。为了验证这一点，我们针对2726种药物和其他配体筛选了突变型ABA受体库，并为其中6.7%的配体鉴定出569种传感器。突变模式表明对配体特异性结合口袋有强烈的选择。我们利用这些数据开发了一种传感器设计流程，并分离出了针对多种植物天然产物、2,4,6-三硝基甲苯（TNT）和“永久性”全氟和多氟烷基物质（PFAS）的传感器。因此，ABA传感器系统能够设计和分离出具有广泛化学范围且类似抗体般简单的小分子传感器。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/540a/12132232/2b05983c885a/nihpp-2025.05.15.654352v1-f0001.jpg

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利用单一蛋白质支架实现异常广谱的小分子传感。

Unusually Broad-spectrum small-molecule sensing using a single protein scaffold.

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