Xu Qianying, Daly Matthew, Nitride Chiara, Tranquet Olivier, Rogers Adrian, Bartra-Tomas Joan, Simpson Angela, Shewry Peter R, Gethings Lee A, Mills E N Clare
Division of Immunology, Immunity to Infection and Respiratory Medicine, School of Biological Sciences, Manchester Institute of Biotechnology, University of Manchester, Manchester M1 7DN, United Kingdom.
Waters Corporation, Wilmslow SK9 4AX, United Kingdom.
J Agric Food Chem. 2025 Jun 4;73(22):14099-14111. doi: 10.1021/acs.jafc.4c12344. Epub 2025 May 22.
Immuno- and mass spectrometry (MS) test methods have been used to ensure "gluten-free" food products contain less than 20 ppm of gluten. However, comparison of test method performance is difficult due to differences in reporting units. A set of wheat flour fractions was prepared and characterized regarding immunoglobulin E (IgE)-reactivity and protein profile, which were then used to screen a panel of gluten peptides to identify reporters suitable for use in an MS test method for gluten determination. Four peptide markers were selected and synthesized as heavy isotopically labeled versions for further evaluation. Two were derived from α-gliadin (RPQQPYPQPQPQY and QPFPQPQLPY [spanning a celiac toxic motif]), one each from γ-gliadin (GIIQPQQPAQL [spanning a celiac toxic motif and IgE epitope]), and a low-molecular-weight subunit of glutenin (VQQQIPVVQPSIL). Analysis of the wheat flour fractions was achieved with peptides RPQQPYPQPQPQY, GIIQPQQPAQL, and VQQQIPVVQPSIL. Two methods were used to derive a set of factors for converting from peptide marker to gluten protein: one based on calculation and a second on experimental analysis using either the gliadin or glutenin protein fractions. Experimentally derived conversion factors performed better when used in an MS test method to quantify gluten in a set of wheat flour samples. Peptide VQQIPVVQPSIL showed the greatest sensitivity and, when employing a glutenin fraction-based conversion factor, gave comparable results to protein levels determined using Dumas total nitrogen analysis. This peptide marker demonstrated the potential to determine gluten at a level around the 10 mg gluten/kg food product level, showing that the prototype method and approaches described have the potential to deliver a complementary method for determination of gluten in food.
免疫分析法和质谱(MS)测试方法已被用于确保“无麸质”食品中的麸质含量低于20 ppm。然而,由于报告单位的差异,很难比较测试方法的性能。制备了一组小麦粉组分,并对其免疫球蛋白E(IgE)反应性和蛋白质谱进行了表征,然后用它们筛选一组麸质肽,以鉴定适用于MS麸质测定测试方法的报告物。选择了四种肽标记物并合成为重同位素标记形式以供进一步评估。其中两种衍生自α-麦醇溶蛋白(RPQQPYPQPQPQY和QPFPQPQLPY[跨越一个乳糜泻毒性基序]),一种来自γ-麦醇溶蛋白(GIIQPQQPAQL[跨越一个乳糜泻毒性基序和IgE表位]),还有一种来自谷蛋白的低分子量亚基(VQQQIPVVQPSIL)。使用肽RPQQPYPQPQPQY、GIIQPQQPAQL和VQQQIPVVQPSIL对小麦粉组分进行了分析。使用了两种方法来推导从肽标记物转换为麸质蛋白的一组因子:一种基于计算,另一种基于使用麦醇溶蛋白或谷蛋白组分的实验分析。当在MS测试方法中用于定量一组小麦粉样品中的麸质时,实验得出的转换因子表现更好。肽VQQIPVVQPSIL表现出最大的灵敏度,当采用基于谷蛋白组分的转换因子时,其结果与使用杜马斯总氮分析法测定的蛋白质水平相当。这种肽标记物显示出在食品中麸质含量约为10 mg/kg水平时测定麸质的潜力,表明所描述的原型方法和途径有可能提供一种补充方法来测定食品中的麸质。
