氧化-超灵敏分子成像技术：一种高亲水性三苯甲基自旋标记物的合成及其位点特异性标记

Ox-SLIM: Synthesis of and Site-Specific Labelling with a Highly Hydrophilic Trityl Spin Label.

作者信息

Fleck Nico, Heubach Caspar, Hett Tobias, Spicher Sebastian, Grimme Stefan, Schiemann Olav

机构信息

University of Bonn, Institute of Physical and Theoretical Chemistry, Wegelerstr. 12, 53115, Bonn, Germany.

University of Bonn, Institute of Physical and Theoretical Chemistry, Beringstr. 4, 53115, Bonn, Germany.

出版信息

Chemistry. 2021 Mar 17;27(16):5292-5297. doi: 10.1002/chem.202100013. Epub 2021 Feb 17.

DOI:10.1002/chem.202100013

PMID:33404074

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8048664/

Abstract

The combination of pulsed dipolar electron paramagnetic resonance spectroscopy (PDS) with site-directed spin labelling is a powerful tool in structural biology. Rational design of trityl-based spin labels has enabled studying biomolecular structures at room temperature and within cells. However, most current trityl spin labels suffer either from aggregation with proteins due to their hydrophobicity, or from bioconjugation groups not suitable for in-cell measurements. Therefore, we introduce here the highly hydrophilic trityl spin label Ox-SLIM. Engineered as a short-linked maleimide, it combines the most recent developments in one single molecule, as it does not aggregate with proteins, exhibits high resistance under in-cell conditions, provides a short linker, and allows for selective and efficient spin labelling via cysteines. Beyond establishing synthetic access to Ox-SLIM, its suitability as a spin label is illustrated and ultimately, highly sensitive PDS measurements are presented down to protein concentrations as low as 45 nm resolving interspin distances of up to 5.5 nm.

摘要

脉冲偶极电子顺磁共振波谱（PDS）与定点自旋标记相结合是结构生物学中的一种强大工具。基于三苯甲基的自旋标记的合理设计使得在室温及细胞内研究生物分子结构成为可能。然而，目前大多数三苯甲基自旋标记要么因其疏水性与蛋白质聚集，要么因其生物共轭基团不适用于细胞内测量。因此，我们在此引入高度亲水的三苯甲基自旋标记Ox-SLIM。它被设计成一种短链马来酰亚胺，将最新进展整合于单个分子中，因为它不会与蛋白质聚集，在细胞内条件下表现出高抗性，提供短连接子，并允许通过半胱氨酸进行选择性和高效的自旋标记。除了建立合成Ox-SLIM的方法外，还展示了其作为自旋标记的适用性，最终呈现了在低至45 nm的蛋白质浓度下进行的高灵敏度PDS测量，可分辨高达5.5 nm的自旋间距离。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b81e/8048664/7658ea995e16/CHEM-27-5292-g001.jpg

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氧化-超灵敏分子成像技术：一种高亲水性三苯甲基自旋标记物的合成及其位点特异性标记

Ox-SLIM: Synthesis of and Site-Specific Labelling with a Highly Hydrophilic Trityl Spin Label.

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