Metabolomic Profiling Using UPLC‒MS/MS Revealed Differential Changes in Metabolites of Three Tea Plant Varieties and Their Potential Antioxidant Activities

IF 3.5 2区农林科学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Food Biochemistry Pub Date : 2024-10-15 DOI:10.1155/2024/5566593

Lunxian Liu, Xinglin Wang, Qiuying Li, Han Dai, Qihang Zhou, Xingpan Meng, Zhongting Chen, Ximin Zhang, Zhengdong Zhang, Yingliang Liu, Tie Shen, Yin Yi

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Abstract

Tea plants, as essential health beverages, are widely recognized for their rich content of antioxidant metabolites. This study utilized metabolomics analysis techniques to compare the metabolic differences between Camellia tachangensis F. C. Zhang, Camellia gymnogyna Hung T. Chang, and Camellia sinensis (L.) O. Kunzte, aiming to reveal their potential antioxidant activities. By applying UPLC–MS/MS technology, we analyzed metabolites in the samples and identified 1056 metabolites. We utilized statistical methods such as orthogonal partial least squares discriminant analysis (OPLS-DA) and principal component analysis to evaluate and compare the variations in the samples. An intersection analysis of metabolites from the three types of tea plants identified 29 major differential metabolites. Functional annotation and pathway analysis of these differential metabolites were conducted, ultimately discussing 24 antioxidant-related metabolites, primarily belonging to flavonoids, phenolic acids, and other categories. Among the three types of tea, C. tachangensis has the highest content of procyanidin B4, which is the most abundant substance in this tea. In terms of the impact of this substance on tea, it is known to have antioxidant properties and contributes to the overall antioxidant capacity of tea. In both C. gymnogyna and C. sinensis, the top 5 antioxidant metabolites include substances such as apigenin-6,8-di-C-glucoside (vicenin-2), epigallocatechin, and apigenin-5-O-glucoside. These substances belong to the flavonoid class and contribute to the antioxidant properties of these teas. Beyond the flavonoids and phenolic acids, other classes of metabolites in tea plants also exhibited significant antioxidant properties. These different metabolites play a key role in the antioxidant function of tea, contributing to their potential health benefits. The metabolites provide crucial insights for exploring and developing high-antioxidant products that occur naturally.

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利用 UPLC-MS/MS 进行代谢组学分析，揭示三个茶树品种代谢物的差异变化及其潜在的抗氧化活性

茶树作为重要的保健饮品，其丰富的抗氧化代谢物含量得到广泛认可。本研究利用代谢组学分析技术比较了茶树（Camellia tachangensis F. C. Zhang）、山茶（Camellia gymnogyna Hung T. Chang）和山茶（Camellia sinensis (L.) O. Kunzte）之间的代谢差异，旨在揭示它们潜在的抗氧化活性。应用 UPLC-MS/MS 技术分析了样品中的代谢物，共鉴定出 1056 种代谢物。我们利用正交偏最小二乘判别分析（OPLS-DA）和主成分分析等统计方法对样品的差异进行了评估和比较。通过对三种茶树的代谢物进行交叉分析，发现了 29 种主要的差异代谢物。对这些差异代谢物进行了功能注释和通路分析，最终讨论出24种与抗氧化相关的代谢物，主要属于类黄酮、酚酸和其他类别。在三种茶叶中，大昌贡茶的原花青素 B4 含量最高，是该茶叶中含量最多的物质。就这种物质对茶叶的影响而言，众所周知，它具有抗氧化特性，有助于提高茶叶的整体抗氧化能力。在裸子植物和中华茶中，抗氧化代谢物的前五位包括芹菜素-6,8-二-C-葡萄糖苷（vicenin-2）、表儿茶素和芹菜素-5-O-葡萄糖苷等物质。这些物质属于类黄酮，有助于提高茶叶的抗氧化性。除了类黄酮和酚酸，茶树中的其他代谢物也具有显著的抗氧化特性。这些不同的代谢物在茶叶的抗氧化功能中发挥了关键作用，从而为茶叶的潜在健康益处做出了贡献。这些代谢物为探索和开发天然存在的高抗氧化产品提供了重要启示。

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来源期刊

Journal of Food Biochemistry 生物-生化与分子生物学

CiteScore

7.80

自引率

5.00%

发文量

488

审稿时长

3.6 months

期刊介绍： The Journal of Food Biochemistry publishes fully peer-reviewed original research and review papers on the effects of handling, storage, and processing on the biochemical aspects of food tissues, systems, and bioactive compounds in the diet. Researchers in food science, food technology, biochemistry, and nutrition, particularly based in academia and industry, will find much of great use and interest in the journal. Coverage includes: -Biochemistry of postharvest/postmortem and processing problems -Enzyme chemistry and technology -Membrane biology and chemistry -Cell biology -Biophysics -Genetic expression -Pharmacological properties of food ingredients with an emphasis on the content of bioactive ingredients in foods Examples of topics covered in recently-published papers on two topics of current wide interest, nutraceuticals/functional foods and postharvest/postmortem, include the following: -Bioactive compounds found in foods, such as chocolate and herbs, as they affect serum cholesterol, diabetes, hypertension, and heart disease -The mechanism of the ripening process in fruit -The biogenesis of flavor precursors in meat -How biochemical changes in farm-raised fish are affecting processing and edible quality