葡萄酒和葡萄渣烈酒代谢组学。

Wine and grape marc spirits metabolomics.

机构信息

Laboratory of Analytical Chemistry, Department of Chemistry, Aristotle University of Thessaloniki, 54124, Thessaloniki, Greece.

出版信息

Metabolomics. 2018 Dec 11;14(12):159. doi: 10.1007/s11306-018-1458-1.

DOI:10.1007/s11306-018-1458-1

PMID:30830493

Abstract

INTRODUCTION

Mass spectrometry (MS)-based and nuclear magnetic resonance (NMR) spectroscopic analyses play a key role in the field of metabolomics due to their important advantages. The use of metabolomics in wine and grape marc spirits allows a more holistic perspective in monitoring and gaining information on the making processes and thus it can assist on the improvement of their quality.

OBJECTIVES

This review surveys the latest metabolomics approaches for wine and grape marc spirits with a focus on the description of MS-based and NMR spectroscopic analytical techniques.

METHODS

We reviewed the literature to identify metabolomic studies of wine and grape marc spirits that were published until the end of 2017, with the key term combinations of 'metabolomics', 'wine' and 'grape marc spirits'. Through the reference lists from these studies, additional articles were identified.

RESULTS

The results of this review showed that the application of different metabolomics approaches has significantly increased the knowledge of wine metabolome and grape marc spirits; however there is not yet a single analytical platform that can completely separate, detect and identify all metabolites in one analysis.

CONCLUSIONS

The authentication and quality control of wines and grape marc spirits has to be taken with caution, since the product's chemical composition could be affected by many factors. Despite intrinsic limitations, NMR spectroscopy and MS based strategies remain the key analytical methods in metabolomics studies. Authenticity, traceability and health issues related to their consumption are the major research initiatives in wine and grape marc spirits metabolomics analysis.

摘要

简介

基于质谱（MS）和核磁共振（NMR）光谱分析在代谢组学领域中发挥着关键作用，因为它们具有重要的优势。代谢组学在葡萄酒和葡萄渣烈酒中的应用可以更全面地监测和获取生产过程的信息，从而有助于提高其质量。

目的

本综述调查了最新的葡萄酒和葡萄渣烈酒代谢组学方法，重点描述了基于 MS 和 NMR 光谱分析技术。

方法

我们通过文献综述，确定了截至 2017 年底发表的关于葡萄酒和葡萄渣烈酒代谢组学的研究，关键词组合为“代谢组学”、“葡萄酒”和“葡萄渣烈酒”。通过这些研究的参考文献，还确定了其他文章。

结果

本综述的结果表明，不同代谢组学方法的应用显著增加了对葡萄酒代谢组和葡萄渣烈酒的认识；然而，目前还没有一个单一的分析平台可以在一次分析中完全分离、检测和鉴定所有代谢物。

结论

葡萄酒和葡萄渣烈酒的鉴定和质量控制必须谨慎进行，因为产品的化学成分可能会受到许多因素的影响。尽管存在内在的局限性，但 NMR 光谱和基于 MS 的策略仍然是代谢组学研究中的关键分析方法。真实性、可追溯性和与消费相关的健康问题是葡萄酒和葡萄渣烈酒代谢组学分析的主要研究重点。

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葡萄酒和葡萄渣烈酒代谢组学。

Wine and grape marc spirits metabolomics.

机构信息

出版信息

INTRODUCTION

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

简介

目的

方法

结果

结论

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