通过双功能生物酶链节实现蛋白质翻译后修饰的位点特异性和荧光增强安装

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-30 DOI:10.1021/acsomega.4c0582810.1021/acsomega.4c05828
Anastasiia Antonenko, Adam Pomorski, Avinash Kumar Singh, Katarzyna Kapczyńska and Artur Krężel*, 
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引用次数: 0

摘要

要了解特定的翻译后修饰(PTM)如何影响目标蛋白质的功能,首先必须制备和研究在所需位置进行修饰的目标蛋白质。这推动了位点特异性蛋白质修饰技术的不断发展。在这里,我们介绍了具有双重标记功能的生物酶连接体 SrtCrAsH-EDT2 的化学合成和应用。这种含有分类酶 A 识别基团的连接体可以与任何在 C 端含有 LPXTG 基团的蛋白质(如泛素和 SUMO 标签)共轭,然后连接到含有末端或双端(分子内放置)四半胱氨酸基团的相关蛋白质(POI)上。对 POI 的这种修饰有利于直接快速地加入 PTM,而荧光生物酶探针会进一步突出这些 PTM。因此,这直接关系到蛋白质在各种生理条件或疾病状态下的物理特性和细胞作用。拟议的一锅标记方法可用于探索 PTM 对蛋白质的影响,这些影响会影响蛋白质的结构、功能、定位以及在细胞环境中的相互作用。了解这些影响对于揭示调节细胞功能和功能障碍的复杂机制至关重要。
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Site-Specific and Fluorescently Enhanced Installation of Post-Translational Protein Modifications via Bifunctional Biarsenical Linker

To understand how particular post-translational modifications (PTMs) affect the function of a target protein, it is essential to first prepare and investigate the target with the modification at the desired position. This drives the continuous development of site-specific protein modification technologies. Here, we present the chemical synthesis and application of the biarsenical linker SrtCrAsH-EDT2, which has a dual labeling functionality. This linker, containing a sortase A recognition motif, can be conjugated with any protein containing the LPXTG motif at the C terminus, such as ubiquitin and the SUMO tag, and then attached to a protein of interest (POI) containing a terminal or bipartite (intramolecularly placed) tetracysteine motif. This modification of the POI facilitates the straightforward and rapid incorporation of PTMs, which are further highlighted by the fluorescent biarsenical probe. Consequently, this directly correlates proteins’ physical properties and cellular roles under various physiological conditions or in disease states. The proposed one-pot labeling methodology can be utilized to explore the effects of PTMs on proteins, affecting their structure, function, localization, and interactions within the cellular environment. Understanding these effects is crucial for uncovering the complex mechanisms that regulate cellular function and dysfunction.

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