Microwave-Assisted Extraction of Phenolic Compounds from Broccoli (Brassica oleracea) Stems, Leaves, and Florets: Optimization, Characterization, and Comparison with Maceration Extraction

Recent progress in nutrition Pub Date : 2022-02-17 DOI:10.21926/rpn.2202011

Sheila Lucía Rodríguez García, V. Raghavan

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引用次数: 9

Abstract

Microwave-assisted extraction (MAE) to obtain phenolics from vegetable wastes has been of recent interest. Broccoli is one of the most globally produced vegetables, and around 43% of the harvest is considered waste. Thus, given the significant quantity of broccoli waste generated, the objective of this work was to optimize the MAE, to maximize the total phenolic content (TPC) from broccoli by-products (leaves and stems) and broccoli florets. The Response Surface Analysis was used in the optimization model to evaluate the impacts of methanol concentration, time, and temperature, and their interactions on the TPC of the broccoli extracts. The optimal MAE conditions were found to be 74.54% (methanol), 15.9 min, and 74.45 °C for broccoli stems; 80% (methanol), 10 min, and 73.27 °C for broccoli leaves; and 80% (methanol), 18.9 min, and 75 °C for broccoli florets. Under these conditions, the broccoli leaves exhibited the highest TPC (1940.35 ± 0.794 µg GAE/g DW), followed by the florets (657.062 ± 0.771 µg GAE/g DW) and stems (225.273 ± 0.897 µg GAE/g DW). The antioxidant activity of the broccoli extracts was evaluated under the optimal conditions by DPPH and ABTS assays, and the same behavior was observed in both studies, the broccoli leaves exhibited the highest antioxidant activity, among florets and stems. In addition, vanillic, sinapic, caffeic, chlorogenic, ferulic, gallic, neochlorogenic, and p-coumaric acids in the broccoli extracts were identified and quantified using HPLC. Furthermore, MAE was found to increase the phenolic yield up to 45.70% for broccoli leaves, 133.57% for broccoli florets, and 65.30% for broccoli stems, in less time compared with maceration extraction. MAE proved to be an efficient and sustainable technique to obtain phenolics from broccoli by-products, which can constitute a viable solution for valorizing broccoli wastes.

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微波辅助提取花椰菜茎、叶和小花中酚类化合物的工艺优化、表征及与微波萃取的比较

微波辅助萃取法(MAE)从蔬菜废弃物中提取酚类物质已成为近年来研究的热点。西兰花是全球产量最高的蔬菜之一，大约43%的收获被认为是浪费。因此，考虑到西兰花产生的大量废物，本工作的目的是优化MAE，以最大限度地提高西兰花副产品(叶和茎)和西兰花小花的总酚含量(TPC)。优化模型采用响应面分析法考察甲醇浓度、时间、温度及其相互作用对西兰花提取物TPC的影响。结果表明，西兰花茎段的最佳MAE条件为74.54%(甲醇)，15.9 min, 74.45℃;花椰菜叶80%(甲醇)，10分钟，73.27℃;80%(甲醇)，18.9 min, 75°C。在此条件下，西兰花叶片的TPC最高(1940.35±0.794µg GAE/g DW)，其次是小花(657.062±0.771µg GAE/g DW)和茎(225.273±0.897µg GAE/g DW)。采用DPPH和ABTS法对最佳条件下花椰菜提取物的抗氧化活性进行了评价，结果表明，花椰菜叶片的抗氧化活性最高，在小花和茎中表现出最高的抗氧化活性。此外，用高效液相色谱法对西兰花提取物中的香草酸、辛酸、咖啡酸、绿原酸、阿魏酸、没食子酸、新绿原酸和对香豆酸进行了鉴定和定量。此外，与浸渍法相比，MAE在更短的时间内可使西兰花叶片的酚类产量提高45.70%，西兰花小花的酚类产量提高133.57%，西兰花茎的酚类产量提高65.30%。从花椰菜副产品中提取酚类物质是一种高效、可持续的技术，为花椰菜废弃物的资源化提供了可行的解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Recent progress in nutrition

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