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果香物质与烘烤香吡嗪类化合物香气相互作用研究OA

Aroma Interactions between Fruity Substances and Roasted Pyrazines

中文摘要英文摘要

为了探究果香物质对烘烤香的香气风味影响,首先用阈值法测定了 17 种常见的食用型果香香气物质的阈值.根据阈值分别将这些物质以不同质量浓度与 2,3,5-三甲基吡嗪进行混合,运用 S 曲线法对果香香气物质与烘烤香吡嗪类化合物的二元混合物之间香气的相互作用展开研究.研究发现,13种果香香气物质与吡嗪类化合物产生协同作用,2种物质(杨梅醛、己酸戊酯)表现为加成作用,2 种物质(圆柚酮、柠檬烯)对吡嗪类化合物有掩盖作用.根据感官结果选取表现为协同作用的乙酸乙酯和表现为掩盖作用的圆柚酮进行 200 ns 的分子动力学模拟,以此来进一步验证配体与受体的相互作用.通过均方根偏差(RMSD)以及氢键和疏水键的数量可以客观地表现出果香物质和吡嗪类化合物的加入对整个蛋白体系稳定性的影响,用来研究两种化合物之间的相互作用,所得出的结果与 S 曲线法获得的结果一致.因此分子动力学模拟可以对感官结果进行进一步的验证,对化合物之间的相互作用研究提供了理论基础,为今后的食品生产和加香提供理论指导.

To investigate how fruity substances influence a roasted aroma,the threshold values of 17 common edible fruity substances were determined using the threshold method.Based on the threshold values,these fruity substances were mixed with 2,3,5-trimethylpyrazine at different mass concentrations,and their interaction with roasted pyrazines in the mixtures then examined using the S-curve method.This study found that 13 of the fruity substances tested had synergistic effects with pyrazines,two substances(ethyl methylphenylglycidate and amyl caproate)exhibited enhancing effects,and another two substances(nootkatone and limonene)displayed masking effects on pyrazines.Based on the sensory results,a 200-ns molecular dynamics simulation was carried out for ethyl acetate and nootkatone,which demonstrated synergistic and masking effects,respectively,to further verify ligand-receptor interactions.The influence that the addition of fruity substances and pyrazines has on protein system stability can be objectively expressed by the root-mean-square deviation(RMSD)and number of hydrogen and hydrophobic bonds,which were used to study interactions between the two compounds.The results obtained through the RMSD and number of hydrogen and hydrophobic bonds were consistent with those obtained through the S-curve method.These findings demonstrate that molecular dynamics simulations can further verify sensory results,thereby providing a theoretical basis for the study of compound interactions and theoretical guidance for future food production and flavoring.

田数;赵怡凡;董露;叶亚军;赵星全;袁彬珑;鲁纪辰;牛云蔚

内蒙古昆明卷烟有限责任公司,内蒙古 呼和浩特 010010内蒙古昆明卷烟有限责任公司,内蒙古 呼和浩特 010010内蒙古昆明卷烟有限责任公司,内蒙古 呼和浩特 010010内蒙古昆明卷烟有限责任公司,内蒙古 呼和浩特 010010内蒙古昆明卷烟有限责任公司,内蒙古 呼和浩特 010010上海应用技术大学香料香精化妆品学部,上海 201418上海应用技术大学香料香精化妆品学部,上海 201418上海应用技术大学香料香精化妆品学部,上海 201418

阈值法S曲线法香气协同分子动力学模拟协同机制

threshold methodS-curve methodaroma synergymolecular dynamics simulationsynergistic mechanism

《现代食品科技》 2026 (3)

323-332,10

10.13982/j.mfst.1673-9078.2026.3.1452

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