Formation of advanced glycation end products in glucose-amino acid models of Maillard reaction under dry- and wet-heating conditions.

IF 3.3 2区农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY Journal of the Science of Food and Agriculture Pub Date : 2024-11-05 DOI:10.1002/jsfa.14004

Chen-Yang Zhang, Yu-Rong Guo, Tian-Yu Hou, Qian-Ru Ning, Wan-Yu Han, Xing-Yun Zhao, Feng Cui, He Li

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Abstract

Background: Advanced glycation end products (AGEs) are compounds formed by non-enzymatic processes in the Maillard reaction and can cause various chronic diseases. This study explores the AGE formation process in a glucose-amino acid system under both wet- and dry-heating conditions, and analyzes the effect of cysteine in AGE formation.

Results: Under wet-heating conditions, N^ε-carboxymethyllysine (CML) and N^ε-carboxyethyllysine (CEL) concentrations rose for the initial 90 min and subsequently declined after 120 min; after 90 min of heating, the maximum yields in the absence of cysteine were 1151.04 ± 14.01 and 3386.90 ± 26.55 ng mL^-1, respectively. The concentration of pyrraline (Pyr) increased after 30 min and then decreased after 60 min with a maximum yield of 777.68 ± 23.36 ng mL^-1. However, in dry-heating models, the AGE concentrations consistently increased with increasing heating time; the maximum yields for CML, CEL and Pyr were 468.66 ± 10.96, 1993.57 ± 14.81 and 1085.74 ± 58.06 ng mL^-1, respectively. The addition of cysteine showed an inhibitory effect on AGE formation, especially for Pyr in the dry-heating model, with inhibition rates ranging from 17.14% to 95.60%.

Conclusion: Although wet-heating models produced more CML and CEL, they produced less Pyr than dry-heating models. The AGE formation in wet-heating models positively correlated with the reaction rate; however, the dry-heating reaction demonstrated a more complex relationship between reaction rate and reaction protocol. Moreover, cysteine exhibited a significant inhibitory effect on AGE production, and the degree of inhibition was proportional to the cysteine concentration. This study provides important insights into the mechanisms for AGE formation under various heating conditions, such as those representing baking (dry-heating) and steaming conditions (wet-heating). © 2024 Society of Chemical Industry.

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干热和湿热条件下葡萄糖-氨基酸模型 Maillard 反应中高级糖化终产物的形成。

背景：高级糖化终产物（AGEs）是在马氏反应（Maillard reaction）中由非酶促过程形成的化合物，可导致多种慢性疾病。本研究探讨了湿热和干热条件下葡萄糖-氨基酸体系中 AGE 的形成过程，并分析了半胱氨酸对 AGE 形成的影响：湿热条件下，Nε-羧甲基赖氨酸（CML）和Nε-羧乙基赖氨酸（CEL）的浓度在最初的90分钟内上升，120分钟后下降；加热90分钟后，在无半胱氨酸条件下的最大产率分别为1151.04 ± 14.01和3386.90 ± 26.55 ng mL-1。吡咯啉（Pyr）的浓度在 30 分钟后上升，60 分钟后下降，最大产率为 777.68 ± 23.36 纳克毫升-1。然而，在干热模型中，随着加热时间的延长，AGE 的浓度持续上升；CML、CEL 和 Pyr 的最大产量分别为 468.66 ± 10.96、1993.57 ± 14.81 和 1085.74 ± 58.06 纳克毫升-1。添加半胱氨酸对 AGE 的形成有抑制作用，尤其是在干热模型中对 Pyr 的抑制率为 17.14% 至 95.60%：结论：虽然湿热模型产生的 CML 和 CEL 更多，但与干热模型相比，它们产生的 Pyr 更少。湿热模型中 AGE 的形成与反应速率呈正相关；然而，干热反应在反应速率和反应方案之间表现出更为复杂的关系。此外，半胱氨酸对 AGE 的生成有明显的抑制作用，抑制程度与半胱氨酸的浓度成正比。这项研究为了解各种加热条件下 AGE 的形成机理提供了重要依据，如烘烤条件（干加热）和蒸煮条件（湿加热）。© 2024 化学工业协会。

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来源期刊

Journal of the Science of Food and Agriculture 工程技术-农业综合

CiteScore

8.10

自引率

4.90%

发文量

634

审稿时长

3.1 months

期刊介绍： The Journal of the Science of Food and Agriculture publishes peer-reviewed original research, reviews, mini-reviews, perspectives and spotlights in these areas, with particular emphasis on interdisciplinary studies at the agriculture/ food interface. Published for SCI by John Wiley & Sons Ltd. SCI (Society of Chemical Industry) is a unique international forum where science meets business on independent, impartial ground. Anyone can join and current Members include consumers, business people, environmentalists, industrialists, farmers, and researchers. The Society offers a chance to share information between sectors as diverse as food and agriculture, pharmaceuticals, biotechnology, materials, chemicals, environmental science and safety. As well as organising educational events, SCI awards a number of prestigious honours and scholarships each year, publishes peer-reviewed journals, and provides Members with news from their sectors in the respected magazine, Chemistry & Industry . Originally established in London in 1881 and in New York in 1894, SCI is a registered charity with Members in over 70 countries.