预测 Maillard 反应产物中乳清蛋白-单糖模型的 CML 含量。

Prediction of CML contents in the Maillard reaction products for casein-monosaccharides model.

机构信息

Division of Functional Food Research, Korea Food Research Institute, Gyeonggi 13539, Republic of Korea.

Department of Food Bioscience & Technology, Korea University, Seoul 136-713, Republic of Korea.

出版信息

Food Chem. 2018 Nov 30;267:271-276. doi: 10.1016/j.foodchem.2017.07.141. Epub 2017 Jul 27.

DOI:10.1016/j.foodchem.2017.07.141

PMID:29934167

Abstract

Response surface methodology (RSM) was applied to predict the processing parameters of the casein-glucose/galactose Maillard reaction (MR) for determining the level of N-(1-carboxymethyl)-l-lysine (CML), one of the typically harmful dietary advanced glycation end products (AGEs). The effect of industrial heating time and temperature of the MR on casein-glucose reactant (CGR) and casein-galactose reactant (CGaR) was evaluated. An increase in temperature and time was associated with an increased level of CML. A heating time of 114.8/117.9min and a temperature of 145.1/148.8°C maximised the formation of CML on CGR/CGaR and resulted in a CML production of 12.0/14.0μg/mL. Evaluation of foam stability, SDS-PAGE, and energy filtering-TEM indicated that the CGR and CGaR had different characteristics. Moreover, level of intracellular reactive oxygen species was accumulated with increasing CML contents. In summary, RSM provided a basis for understanding CGR/CGaR-reactivity and for predicting the formation of CML in heat-treated milk products.

摘要

响应面法（RSM）被应用于预测酪蛋白-葡萄糖/半乳糖美拉德反应（MR）的加工参数，以确定 N-(1-羧甲基)-l-赖氨酸（CML）的水平，CML 是一种典型的有害膳食晚期糖基化终产物（AGEs）之一。评估了 MR 中工业加热时间和温度对酪蛋白-葡萄糖反应物（CGR）和酪蛋白-半乳糖反应物（CGaR）的影响。温度和时间的升高与 CML 水平的升高有关。在 114.8/117.9min 的加热时间和 145.1/148.8°C 的温度下，CML 在 CGR/CGaR 上的形成达到最大值，导致 CML 的产生量为 12.0/14.0μg/mL。泡沫稳定性、SDS-PAGE 和能量过滤-TEM 的评估表明，CGR 和 CGaR 具有不同的特性。此外，随着 CML 含量的增加，细胞内活性氧的水平也会积累。总之，RSM 为理解 CGR/CGaR 的反应性和预测热处理乳制品中 CML 的形成提供了基础。

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预测 Maillard 反应产物中乳清蛋白-单糖模型的 CML 含量。

Prediction of CML contents in the Maillard reaction products for casein-monosaccharides model.

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