硒糖作为凝集素配体：Se 编辑 CPMG-HSQMBC NMR 光谱监测生物医学相关相互作用。

Selenoglycosides as Lectin Ligands: Se-Edited CPMG-HSQMBC NMR Spectroscopy To Monitor Biomedically Relevant Interactions.

机构信息

Department of Inorganic and Analytical Chemistry, University of Debrecen, Egyetem tér 1, 4032, Debrecen, Hungary.

NMR Facility, CIC bioGUNE, Bizkaia Technology Park, Bld 800, 48170, Derio, Spain.

出版信息

Chembiochem. 2019 Jul 1;20(13):1688-1692. doi: 10.1002/cbic.201900088. Epub 2019 Jun 5.

DOI:10.1002/cbic.201900088

PMID:30828921

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6618100/

Abstract

The fundamental importance of protein-glycan recognition calls for specific and sensitive high-resolution techniques for their detailed analysis. After the introduction of F NMR spectroscopy to study the recognition of fluorinated glycans, a new Se NMR spectroscopy method is presented for complementary studies of selenoglycans with optimised resolution and sensitivity, in which direct NMR spectroscopy detection on Se is replaced by its indirect observation in a 2D H, Se HSQMBC spectrum. In contrast to OH/F substitution, O/Se exchange allows the glycosidic bond to be targeted. As an example, selenodigalactoside recognition by three human galectins and a plant toxin is readily indicated by signal attenuation and line broadening in the 2D H, Se HSQMBC spectrum, in which CPMG-INEPT long-range transfer ensures maximal detection sensitivity, clean signal phases, and reliable ligand ranking. By monitoring competitive displacement of a selenated spy ligand, the selective Se NMR spectroscopy approach may also be used to screen non-selenated compounds. Finally, H, Se CPMG-INEPT transfer allows further NMR sensors of molecular interaction to be combined with the specificity and resolution of Se NMR spectroscopy.

摘要

糖蛋白识别的基础性意义，要求采用特定且灵敏的高分辨率技术对其进行详细分析。在将氟代聚糖的 F NMR 光谱学研究引入之后，本文提出了一种新的 Se NMR 光谱学方法，用于对硒糖进行互补研究，该方法具有优化的分辨率和灵敏度，其中直接的 Se NMR 光谱检测被代之以在二维 H、Se HSQMBC 谱中对 Se 的间接观察。与 OH/F 取代不同，O/Se 交换允许靶向糖苷键。作为一个例子，三个人类半乳糖凝集素和一种植物毒素对硒二半乳糖的识别，可通过二维 H、Se HSQMBC 谱中信号衰减和谱线展宽来轻易指示，其中 CPMG-INEPT 远程转移可确保最大检测灵敏度、纯净的信号相位和可靠的配体排序。通过监测硒化间谍配体的竞争置换，该选择性 Se NMR 光谱学方法也可用于筛选非硒化化合物。最后，H、Se CPMG-INEPT 转移可允许将分子相互作用的其他 NMR 传感器与 Se NMR 光谱学的特异性和分辨率结合起来。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/157c/6618100/32d2795ee382/CBIC-20-1688-g005.jpg

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硒糖作为凝集素配体：Se 编辑 CPMG-HSQMBC NMR 光谱监测生物医学相关相互作用。

Selenoglycosides as Lectin Ligands: Se-Edited CPMG-HSQMBC NMR Spectroscopy To Monitor Biomedically Relevant Interactions.

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