在两种不同的肉类模型系统中，亚硝酸钠对蛋白质氧化和蛋白质硝化的影响。

Protein oxidation and protein nitration influenced by sodium nitrite in two different meat model systems.

作者信息

Vossen Els, De Smet Stefaan

机构信息

Laboratory for Animal Nutrition and Animal Product Quality, Department of Animal Production, Faculty of Bioscience Engineering, Ghent University , Proefhoevestraat 10, 9090 Melle, Belgium.

出版信息

J Agric Food Chem. 2015 Mar 11;63(9):2550-6. doi: 10.1021/jf505775u. Epub 2015 Feb 26.

DOI:10.1021/jf505775u

PMID:25700017

Abstract

The effect of NaNO2 on protein oxidation was studied in isolated myofibrillar protein isolates (100 and 1000 mg NaNO2/kg) and in porcine patties (18 and 180 mg NaNO2/kg). In addition, the potential use of 3-nitrotyrosine as a specific marker for reactive nitrogen species mediated nitration was investigated. Overall, no distinct pro- or antioxidant effect of NaNO2 against carbonyl formation was observed in the isolates or in the patties. However, in the isolates, higher protein carbonyl concentrations were found in the NaNO2-treated samples compared to the treatment without added nitrite immediately after the addition of oxidants and NaNO2. Addition of 180 mg NaNO2/kg to patties resulted in significantly lower thiol concentrations at 4 and 7 days of illuminated chilled display compared to the treatments with 0 and 18 mg/kg NaNO2, whereas no effect was observed in the isolates. No effect of NaNO2 was found on the protein solubility of either meat model. 3-Nitrotyrosine was present in all samples, but no clear effect of NaNO2 addition or oxidation time was observed.

摘要

研究了亚硝酸钠（NaNO2）对分离的肌原纤维蛋白分离物（100和1000毫克NaNO2/千克）以及猪肉饼（18和180毫克NaNO2/千克）中蛋白质氧化的影响。此外，还研究了3-硝基酪氨酸作为活性氮物种介导的硝化作用的特异性标志物的潜在用途。总体而言，在分离物或肉饼中未观察到NaNO2对羰基形成有明显的促氧化或抗氧化作用。然而，在分离物中，添加氧化剂和NaNO2后，与未添加亚硝酸盐的处理相比，经NaNO2处理的样品中蛋白质羰基浓度更高。与添加0和18毫克/千克NaNO2的处理相比，在光照冷藏展示4天和7天时，向肉饼中添加180毫克/千克NaNO2会导致硫醇浓度显著降低，而在分离物中未观察到这种影响。未发现NaNO2对任何一种肉类模型的蛋白质溶解度有影响。所有样品中均存在3-硝基酪氨酸，但未观察到添加NaNO2或氧化时间有明显影响。

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在两种不同的肉类模型系统中，亚硝酸钠对蛋白质氧化和蛋白质硝化的影响。

Protein oxidation and protein nitration influenced by sodium nitrite in two different meat model systems.

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