合成13C-亚甲基标记的异亮氨酸前体，作为研究蛋白质侧链相互作用和动力学的有用工具。

IF 1.3 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Biomolecular NMR Pub Date : 2024-03-01 Epub Date: 2023-10-11 DOI:10.1007/s10858-023-00427-2

Theresa Höfurthner, Giorgia Toscano, Georg Kontaxis, Andreas Beier, Moriz Mayer, Leonhard Geist, Darryl B McConnell, Harald Weinstabl, Roman Lichtenecker, Robert Konrat

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引用次数: 0

摘要

在本研究中，我们提出了一种用于选择性亚甲基标记的代谢异亮氨酸前体化合物的合成和掺入。这种新型α-酮酸异拓扑结构的实用性通过掺入蛋白质Brd4-BD1来显示，该蛋白质通过与乙酰化组蛋白结合来调节基因表达。获得了高质量的单量子13C-1 H-HSQC以及三量子HTQC光谱，其在显著增加13C-T2倍方面是优越的。此外，观察到配体结合的大的化学位移扰动。因此，我们的研究证明了这种前体作为侧链动力学研究和蛋白质-配体复合物中CH-π相互作用研究的报告物的高度敏感性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Synthesis of a 13C-methylene-labeled isoleucine precursor as a useful tool for studying protein side-chain interactions and dynamics.

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Synthesis of a ¹³C-methylene-labeled isoleucine precursor as a useful tool for studying protein side-chain interactions and dynamics.

In this study, we present the synthesis and incorporation of a metabolic isoleucine precursor compound for selective methylene labeling. The utility of this novel α-ketoacid isotopologue is shown by incorporation into the protein Brd4-BD1, which regulates gene expression by binding to acetylated histones. High quality single quantum ¹³C-¹ H-HSQC were obtained, as well as triple quantum HTQC spectra, which are superior in terms of significantly increased ¹³C-T₂ times. Additionally, large chemical shift perturbations upon ligand binding were observed. Our study thus proves the great sensitivity of this precursor as a reporter for side-chain dynamic studies and for investigations of CH-π interactions in protein-ligand complexes.

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来源期刊

Journal of Biomolecular NMR 生物-光谱学

CiteScore

6.00

自引率

3.70%

发文量

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.