通过生物识别技术对纤毛蛋白进行邻近映射

Proximity Mapping of Ciliary Proteins by BioID.

作者信息

Iazzi Melissa, St-Germain Jonathan, Acharya Saujanya, Raught Brian, Gupta Gagan D

机构信息

Department of Chemistry and Biology, Toronto Metropolitan University, Toronto, Canada.

Princess Margaret Cancer Centre, University Health Network, Toronto, Canada.

出版信息

Methods Mol Biol. 2024;2725:181-198. doi: 10.1007/978-1-0716-3507-0_11.

DOI:10.1007/978-1-0716-3507-0_11

PMID:37856025

Abstract

The primary cilium is a highly conserved microtubule-based organelle present in most vertebrate cell types. Mutations in ciliary protein genes can lead to dysfunctional or absent cilia and are the cause of a large group of heterogeneous diseases known as ciliopathies. ARL13B is a member of the ARF family of regulatory GTPases and is highly enriched on the ciliary membrane. The absence of ARL13B disrupts cilia architecture and mutations have been linked to several diseases; yet there remain major gaps in our understanding of the role that ARL13B plays in primary cilia function. Here, we demonstrate how in cellulo proximity-dependent biotinylation (BioID) can be used to generate a comprehensive protein proximity map of ciliary proteins by performing BioID on N- and C-terminally BirA*-tagged ARL13B. This method can theoretically provide insight into any cilia protein, identifying key interactors that play a critical role in ciliary biology.

摘要

初级纤毛是一种高度保守的基于微管的细胞器，存在于大多数脊椎动物细胞类型中。纤毛蛋白基因突变可导致纤毛功能失调或缺失，是一大类称为纤毛病的异质性疾病的病因。ARL13B是调节性GTP酶ARF家族的成员，在纤毛膜上高度富集。ARL13B的缺失会破坏纤毛结构，其突变与多种疾病有关；然而，我们对ARL13B在初级纤毛功能中所起作用的理解仍存在重大差距。在这里，我们展示了如何通过对N端和C端带有BirA*标签的ARL13B进行细胞内邻近依赖性生物素化（BioID），来生成纤毛蛋白的全面蛋白质邻近图谱。该方法理论上可以深入了解任何纤毛蛋白，识别在纤毛生物学中起关键作用的关键相互作用蛋白。

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通过生物识别技术对纤毛蛋白进行邻近映射

Proximity Mapping of Ciliary Proteins by BioID.

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