Key Laboratory of Geriatric Nutrition and Health (Ministry of Education), School of Light Industry Science and Engineering, Beijing Technology and Business University (BTBU), Beijing 100048, China.
Key Laboratory of Geriatric Nutrition and Health (Ministry of Education), School of Light Industry Science and Engineering, Beijing Technology and Business University (BTBU), Beijing 100048, China.
Food Chem. 2024 Jul 15;446:138853. doi: 10.1016/j.foodchem.2024.138853. Epub 2024 Feb 25.
Meat flavoring was prepared using mainly enzymatic hydrolysate of plant protein mix, VB, cysteine, and glucose by three heating processes, including A (80 °C-140 min), B (two-stage, 80 °C-30 min/120 °C-30 min), and C (120 °C-40 min). The A-, B-, and C-heated samples exhibited the strongest fatty and weakest meaty, the strongest meaty and kokumi, and the strongest roasted and bitterness characteristics, respectively. PLS-DA for free amino acids with TAVs and that for SPME/GC-MS results with GC-O and OAVs, suggested three amino acids and eight flavor compounds contributed significantly in differentiating taste or aroma attributes of the three heated samples. Molecular weight distribution and degree of amino substitution suggested 1-5 kDa peptides contributed to kokumi taste. Overall, C- and A-heating exhibited the highest rates in Maillard reaction and lipid oxidation, respectively, while those of B heating were between these two heating processes and responsible for better flavor of meat flavoring.
肉味香精主要采用植物蛋白混合酶解物、VB、半胱氨酸和葡萄糖,通过三种加热工艺制备,包括 A(80°C-140min)、B(两段式,80°C-30min/120°C-30min)和 C(120°C-40min)。A、B 和 C 加热的样品分别表现出最强的脂肪味和最弱的肉味、最强的肉味和浓郁味、最强的烤焦味和苦味特征。基于 TAV 的游离氨基酸的 PLS-DA 和基于 GC-O 和 OAV 的 SPME/GC-MS 结果表明,有三种氨基酸和八种风味化合物对三种加热样品的味觉或香气特征有显著影响。分子量分布和氨基酸取代度表明 1-5kDa 肽有助于浓郁味。总的来说,C 和 A 加热分别表现出最高的美拉德反应和脂质氧化速率,而 B 加热则介于这两种加热过程之间,对肉味香精的风味有更好的贡献。
