核磁共振光谱法和液相色谱-核磁共振/质谱联用技术在啤酒中碳水化合物鉴定中的应用。

Application of NMR spectroscopy and LC-NMR/MS to the identification of carbohydrates in beer.

作者信息

Duarte Iola F, Godejohann Markus, Braumann Ulrich, Spraul Manfred, Gil Ana M

机构信息

Department of Chemistry, Campus de Santiago, University of Aveiro, 3810-193 Aveiro, Portugal.

出版信息

J Agric Food Chem. 2003 Aug 13;51(17):4847-52. doi: 10.1021/jf030097j.

DOI:10.1021/jf030097j

PMID:12903934

Abstract

The application of LC-NMR/MS for the direct identification of carbohydrates in beer has been studied. Carbohydrates are major beer components, and their structural characterization by NMR alone is seriously hindered by strong spectroscopic overlap. Direct analysis of beer by LC-NMR/MS enables the rapid (1-2 h) identification of dextrins with degree of polymerization (DP) of up to nine monomers, with degassing being the only sample treatment required. Although the presence of alpha(1-->6) branching points is easily indicated by NMR for each subfraction separated by LC, difficulties arise for the unambiguous assignment of linear or branched forms of high DP dextrins. The two beer samples investigated in this work were found to have significantly different oligosaccharide compositions, reflecting the different production conditions employed. The use of hyphenated NMR for the rapid characterization of the carbohydrate composition of beers may be the basis of a useful tool for the quality control of beer.

摘要

液相色谱-核磁共振联用/质谱（LC-NMR/MS）在啤酒中碳水化合物直接鉴定方面的应用已得到研究。碳水化合物是啤酒的主要成分，仅通过核磁共振对其进行结构表征会因强烈的光谱重叠而受到严重阻碍。通过LC-NMR/MS直接分析啤酒能够快速（1 - 2小时）鉴定聚合度（DP）高达九个单体的糊精，除脱气外无需进行其他样品处理。尽管通过核磁共振可以轻松表明液相色谱分离出的每个亚组分中α(1→6)分支点的存在，但对于高DP糊精的线性或分支形式进行明确归属时仍存在困难。研究发现，本工作中所研究的两种啤酒样品具有显著不同的低聚糖组成，这反映了所采用的不同生产条件。联用核磁共振技术用于快速表征啤酒的碳水化合物组成，可能成为啤酒质量控制的一种有用工具的基础。

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核磁共振光谱法和液相色谱-核磁共振/质谱联用技术在啤酒中碳水化合物鉴定中的应用。

Application of NMR spectroscopy and LC-NMR/MS to the identification of carbohydrates in beer.

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