一个协同 RNA 调控复合物的晶体结构揭示了精确目标特异性的机制。

A crystal structure of a collaborative RNA regulatory complex reveals mechanisms to refine target specificity.

机构信息

Epigenetics and Stem Cell Biology Laboratory, National Institute of Environmental Health Sciences, National Institutes of Health, Research Triangle Park, United States.

Department of Biological Sciences, University of Texas at Dallas, Richardson, United States.

出版信息

Elife. 2019 Aug 9;8:e48968. doi: 10.7554/eLife.48968.

DOI:10.7554/eLife.48968

PMID:31397673

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6697444/

Abstract

In the germline, Binding Factor (FBF) partners with LST-1 to maintain stem cells. A crystal structure of an FBF-2/LST-1/RNA complex revealed that FBF-2 recognizes a short RNA motif different from the characteristic 9-nt FBF binding element, and compact motif recognition coincided with curvature changes in the FBF-2 scaffold. Previously, we engineered FBF-2 to favor recognition of shorter RNA motifs without curvature change (Bhat et al., 2019). In vitro selection of RNAs bound by FBF-2 suggested sequence specificity in the central region of the compact element. This bias, reflected in the crystal structure, was validated in RNA-binding assays. FBF-2 has the intrinsic ability to bind to this shorter motif. LST-1 weakens FBF-2 binding affinity for short and long motifs, which may increase target selectivity. Our findings highlight the role of FBF scaffold flexibility in RNA recognition and suggest a new mechanism by which protein partners refine target site selection.

摘要

在生殖细胞中，结合因子（FBF）与 LST-1 合作以维持干细胞。FBF-2/LST-1/RNA 复合物的晶体结构表明，FBF-2 识别与特征性 9-nt FBF 结合元件不同的短 RNA 基序，紧凑的基序识别与 FBF-2 支架的曲率变化一致。以前，我们通过工程改造 FBF-2 使其有利于识别没有曲率变化的较短 RNA 基序（Bhat 等人，2019 年）。通过体外选择由 FBF-2 结合的 RNA 表明，紧凑元件的中心区域具有序列特异性。这种偏向反映在晶体结构中，并在 RNA 结合测定中得到验证。FBF-2 具有结合此较短基序的内在能力。LST-1 削弱了 FBF-2 对短和长基序的结合亲和力，这可能会增加靶标选择性。我们的发现强调了 FBF 支架灵活性在 RNA 识别中的作用，并提出了一种新的机制，即蛋白质伴侣可改善靶位点选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f179/6697444/be080b094be5/elife-48968-fig1.jpg

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一个协同 RNA 调控复合物的晶体结构揭示了精确目标特异性的机制。

A crystal structure of a collaborative RNA regulatory complex reveals mechanisms to refine target specificity.

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