Development of a cell-permeable Biotin-HaloTag ligand to explore functional differences between protein variants across cellular generations

Anoop Kumar Yadav, Abhijeet S. Jadhav, Pawel Szczepanik, Paolo Fagherazzi, Ivo Kabelka, Robert Vacha, Jakub Svenda, Hana Polasek-Sedlackova
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Abstract

HaloTag technology represents a versatile tool for studying proteins. Fluorescent HaloTag ligands employed in sequential labeling led to the discovery of distinct protein variants for histones, cohesins, and MCM complexes. Nonetheless, an efficient biochemical approach to separate the distinct protein variants to study their biological functions is missing. Principally being a gap in technology, the HaloTag toolbox lacks affinity ligands displaying good cell permeability and efficient affinity capture. Here, we describe the design, synthesis, and validation of a new cell-permeable Biotin-HaloTag ligand, which allows rapid labeling of Halo-tagged proteins in live cells and their efficient separation using streptavidin pull-down. Our work outlines how to use the herein-developed affinity ligand in sequential labeling to biochemically separate distinct protein variants and study their biological properties. The approach holds immense potential for addressing fundamental questions concerning essential cellular processes, including genome duplication and chromatin maintenance.
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开发细胞渗透性生物素-HaloTag 配体,探索不同细胞世代蛋白质变体之间的功能差异
HaloTag 技术是研究蛋白质的多功能工具。采用荧光 HaloTag 配体进行连续标记,发现了组蛋白、粘合蛋白和 MCM 复合物的不同蛋白质变体。然而,目前还缺少一种有效的生化方法来分离不同的蛋白质变体,以研究它们的生物功能。HaloTag 工具箱缺乏具有良好细胞渗透性和高效亲和捕获能力的亲和配体,这主要是技术上的空白。在这里,我们描述了一种新型细胞渗透性生物素-HaloTag 配体的设计、合成和验证,这种配体可以在活细胞中快速标记 Halo 标记蛋白,并利用链霉亲和素牵引技术高效分离这些蛋白。我们的工作概述了如何使用这种开发的亲和配体进行连续标记,以生物化学方法分离不同的蛋白质变体并研究它们的生物学特性。这种方法在解决包括基因组复制和染色质维护在内的重要细胞过程的基本问题方面具有巨大的潜力。
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