从氢向乳酸酯的可逆超极化优化和理解传递

Toward Optimizing and Understanding Reversible Hyperpolarization of Lactate Esters Relayed from -Hydrogen.

机构信息

Centre for Hyperpolarisation in Magnetic Resonance, Department of Chemistry, University of York, Heslington, United Kingdom, YO10 5NY.

NMR Research Unit, University of Oulu, P.O. Box 3000, FI-90014, Oulu, Finland.

出版信息

J Phys Chem Lett. 2022 Jul 28;13(29):6859-6866. doi: 10.1021/acs.jpclett.2c01442. Epub 2022 Jul 21.

DOI:10.1021/acs.jpclett.2c01442

PMID:35861312

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9340809/

Abstract

The SABRE-Relay hyperpolarization method is used to enhance the H and C NMR signals of lactate esters, which find use in a wide range of medical, pharmaceutical, and food science applications. This is achieved by the indirect relay of magnetization from -hydrogen, a spin isomer of dihydrogen, to OH-containing lactate esters via a SABRE-hyperpolarized NH intermediary. This delivers H and C NMR signal enhancements as high as 245- and 985-fold, respectively, which makes the lactate esters far more detectable using NMR. DFT-calculated -couplings and spin dynamics simulations indicate that, while polarization can be transferred from the lactate OH to other H nuclei via the -coupling network, incoherent mechanisms are needed to polarize the C nuclei at the 6.5 mT transfer field used. The resulting sensitivity boost is predicted to be of great benefit for the NMR detection and quantification of low concentrations (<mM) of lactate esters and could provide a useful precursor for the production of hyperpolarized lactate, a key metabolite.

摘要

SABRE-Relay 极化方法用于增强乳酸酯的 H 和 C NMR 信号，这些信号在医学、制药和食品科学等广泛领域中得到应用。这是通过间接将来自氘氢的磁化从 -氢（氘氢的自旋异构体）经由 SABRE 极化 NH 中间体传递到含 OH 的乳酸酯来实现的。这分别提供高达 245 倍和 985 倍的 H 和 C NMR 信号增强，使得使用 NMR 可以更有效地检测到乳酸酯。DFT 计算的 -耦合和自旋动力学模拟表明，尽管极化可以通过 -耦合网络从乳酸酯 OH 传递到其他 H 核，但在使用的 6.5 mT 转移场中，需要非相干机制来极化 C 核。预计这种灵敏度提升将极大地有益于 NMR 检测和定量低浓度（<mM）的乳酸酯，并为生产关键代谢物极化乳酸酯提供有用的前体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/13aa/9340809/b8dc79814aa2/jz2c01442_0001.jpg

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从氢向乳酸酯的可逆超极化优化和理解传递

Toward Optimizing and Understanding Reversible Hyperpolarization of Lactate Esters Relayed from -Hydrogen.

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