Towards cost-effective side-chain isotope labelling of proteins expressed in human cells

IF 1.3 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Martina Rosati, Letizia Barbieri, Matus Hlavac, Sarah Kratzwald, Roman J. Lichtenecker, Robert Konrat, Enrico Luchinat, Lucia Banci
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Abstract

Side chain isotope labelling is a powerful tool to study protein structure and interactions by NMR spectroscopy. 1H,13C labelling of side-chain methyl groups in a deuterated background allows studying large molecules, while side-chain aromatic groups are highly sensitive to the interaction with ligands, drugs, and other proteins. In E. coli, side chain labelling is performed by substituting amino acids with isotope-labelled precursors. However, proteins that can only be produced in mammalian cells require expensive isotope-labelled amino acids. Here we provide a simple and cost-effective method to label side chains in mammalian cells, which exploits the reversible reaction catalyzed by endogenous transaminases to convert isotope-labelled α-ketoacid precursors. We show by in-cell and in-lysate NMR spectroscopy that replacing an amino acid in the medium with its cognate precursor is sufficient to achieve selective labelling without scrambling, and how this approach allows monitoring conformational changes such as those arising from ligand binding.

Abstract Image

对人体细胞中表达的蛋白质进行具有成本效益的侧链同位素标记。
侧链同位素标记是利用核磁共振光谱研究蛋白质结构和相互作用的有力工具。在氚化背景下对侧链甲基进行 1H、13C 标记可以研究大分子,而侧链芳香基团对与配体、药物和其他蛋白质的相互作用高度敏感。在大肠杆菌中,侧链标记是通过用同位素标记的前体取代氨基酸来实现的。然而,只能在哺乳动物细胞中生产的蛋白质需要昂贵的同位素标记氨基酸。在这里,我们提供了一种在哺乳动物细胞中标记侧链的简单而经济的方法,它利用内源性转氨酶催化的可逆反应来转化同位素标记的α-酮酸前体。我们通过细胞内和溶液中的核磁共振光谱显示,用氨基酸的同源前体取代培养基中的氨基酸足以实现选择性标记,而不会产生扰乱,而且这种方法还能监测构象变化,如配体结合产生的变化。
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来源期刊
Journal of Biomolecular NMR
Journal of Biomolecular NMR 生物-光谱学
CiteScore
6.00
自引率
3.70%
发文量
19
审稿时长
6-12 weeks
期刊介绍: The Journal of Biomolecular NMR provides a forum for publishing research on technical developments and innovative applications of nuclear magnetic resonance spectroscopy for the study of structure and dynamic properties of biopolymers in solution, liquid crystals, solids and mixed environments, e.g., attached to membranes. This may include: Three-dimensional structure determination of biological macromolecules (polypeptides/proteins, DNA, RNA, oligosaccharides) by NMR. New NMR techniques for studies of biological macromolecules. Novel approaches to computer-aided automated analysis of multidimensional NMR spectra. Computational methods for the structural interpretation of NMR data, including structure refinement. Comparisons of structures determined by NMR with those obtained by other methods, e.g. by diffraction techniques with protein single crystals. New techniques of sample preparation for NMR experiments (biosynthetic and chemical methods for isotope labeling, preparation of nutrients for biosynthetic isotope labeling, etc.). An NMR characterization of the products must be included.
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