Generation of Maillard reaction-derived flavour compounds in coffee analogues by an extrusion-based solid model system

IF 9.8 1区农林科学 Q1 CHEMISTRY, APPLIED

Food Chemistry Pub Date : 2025-07-14 DOI:10.1016/j.foodchem.2025.145552

Bei Wang, Marjanne J. Verhoeven, Vincenzo Fogliano, Teresa Oliviero

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Abstract

A solid food matrix (SFM) model system was established to replicate dry food processing environments and investigate how precursors and reaction parameters influence coffee flavour generation through Maillard reaction (MR). The model consisted of chickpea flour, oil, chlorogenic acid, amino acids, and sugars, and was processed through high-moisture extrusion, drying, and fluidized bed roasting. The inclusion of oil affected SFM physical characteristics, including bulk density, expansion ratio, and colour. GC/MS analysis demonstrated the role of reactant types and initial concentrations: increased amino acid levels to 5 % boosted pyrazine formation, while increase sucrose level to 6 % elevated furan production. Chlorogenic acid played a notable role in the formation of both furans and pyrazines. Acidic conditions in the model suppressed pyrazine generation but favoured furans and their derivatives, such as furfural and 2-furanmethanol. Data showed this SFM model could serve as an effective tool for studying MR-mediated flavour development in coffee analogues.

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以挤压为基础的固体模型系统在咖啡类似物中产生美拉德反应衍生的风味化合物

建立了固体食物基质（SFM）模型系统，以模拟干燥食品加工环境，并研究前体和反应参数如何通过美拉德反应（MR）影响咖啡风味的产生。该模型由鹰嘴豆粉、油、绿原酸、氨基酸和糖组成，经过高水分挤压、干燥和流化床焙烧处理。油的加入影响了SFM的物理特性，包括体积密度、膨胀比和颜色。GC/MS分析证明了反应物类型和初始浓度的作用：将氨基酸水平提高到5 %促进吡嗪的形成，而将蔗糖水平提高到6 %提高呋喃的产生。绿原酸在呋喃和吡嗪的生成中起着显著的作用。模型中的酸性条件抑制吡嗪的生成，但有利于呋喃及其衍生物的生成，如糠醛和2-呋喃甲醇。数据表明，该SFM模型可以作为研究mr介导的咖啡类似物风味发展的有效工具。

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来源期刊

Food Chemistry 工程技术-食品科技

CiteScore

16.30

自引率

10.20%

发文量

3130

审稿时长

122 days

期刊介绍： Food Chemistry publishes original research papers dealing with the advancement of the chemistry and biochemistry of foods or the analytical methods/ approach used. All papers should focus on the novelty of the research carried out.