利用异核单量子相干核磁共振实验对食品中的异麦芽酮糖进行定量分析。

Quantification of Isomaltulose in Food Products by Using Heteronuclear Single Quantum Coherence NMR-Experiments.

作者信息

Fels Lea, Ruf Franziska, Bunzel Mirko

机构信息

Department of Food Chemistry and Phytochemistry, Institute of Applied Biosciences, Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany.

出版信息

Front Nutr. 2022 Jun 27;9:928102. doi: 10.3389/fnut.2022.928102. eCollection 2022.

DOI:10.3389/fnut.2022.928102

PMID:35832046

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9271938/

Abstract

Isomaltulose is a commonly used sweetener in sports nutrition and in products intended for consumption by diabetics. Because previously established chromatographic methods for quantification of isomaltulose suffer from long analysis times (60-210 min), faster quantitative approaches are required. Here, an HSQC (heteronuclear single quantum coherence) experiment with reduced interscan delay was established in order to quantify isomaltulose next to potential additional sugars such as d-glucose, d-fructose, d-galactose, sucrose, lactose, and maltose in 53 min. By using HSQC coupled to non-uniform sampling (NUS) as well as ASAP-HSQC (acceleration by sharing adjacent polarization), analysis times were reduced to a few minutes. Application of NUS-HSQC with reduced interscan delay takes 27 min, resulting in accurate and precise data. In principle, application of ASAP-HSQC approaches (with analysis times as low as 6 min) can be used; however, precision data may not suffice all applications.

摘要

异麦芽酮糖醇是运动营养领域以及供糖尿病患者食用的产品中常用的甜味剂。由于先前用于定量异麦芽酮糖醇的色谱方法分析时间较长（60 - 210分钟），因此需要更快的定量方法。在此，建立了一种具有缩短扫描间隔延迟的HSQC（异核单量子相干）实验，以便在53分钟内对异麦芽酮糖醇以及潜在的其他糖类（如d - 葡萄糖、d - 果糖、d - 半乳糖、蔗糖、乳糖和麦芽糖）进行定量。通过使用与非均匀采样（NUS）耦合的HSQC以及ASAP - HSQC（通过共享相邻极化加速），分析时间缩短至几分钟。应用具有缩短扫描间隔延迟的NUS - HSQC需要27分钟，可得到准确且精确的数据。原则上，可以使用ASAP - HSQC方法（分析时间低至6分钟）；然而，精确数据可能并不适用于所有应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/846b/9271938/a193685d7cdc/fnut-09-928102-g0001.jpg

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利用异核单量子相干核磁共振实验对食品中的异麦芽酮糖进行定量分析。

Quantification of Isomaltulose in Food Products by Using Heteronuclear Single Quantum Coherence NMR-Experiments.

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