Development of highly sensitive cuvette-type localized surface plasmon resonance (LSPR) sensing chips for the rapid detection of tyramine in spiked samples of beef, mackerel, and cheese

IF 7.4 Q1 FOOD SCIENCE & TECHNOLOGY Food frontiers Pub Date : 2024-09-15 DOI:10.1002/fft2.464
Soobin Han, Ji Hong Kim, Vivek Kumar Gupta, Ju Eun Bae, Chae Hwan Cho, Hanseung Kim, Yonghyeon Park, Mi-Hwa Oh, Jong Pil Park, Yun Suk Huh
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Abstract

The globalization of food distribution has made it necessary to ensure the delivery of fresh food to the consumers. Protein-rich foods produce a significant amount of tyramine when spoiled. Therefore, it was envisaged to develop localized surface plasmon resonance (LSPR)—sensor for monitoring tyramine content in beef, mackerel, and cheese. For this purpose, the sensors were developed by coating the LSPR chip with gold nanoparticles (AuNPs) followed by conjugation of tyramine-specific peptide (TYR1). The TYR1 was synthesized and screened by phage display and binding efficiency was evaluated by DockThor. The optimized LSPR sensor showed highest binding efficiency at TYR1 concentration of 20 µg/mL with reaction time of 40 min. The sensor also showed an excellent detection range for beef, mackerel, and cheese were 0.01–10 ppb, 0.01–10 ppm, and 0.01–10 ppb, respectively, in comparison to standard. These findings indicated that this sensor can be used as a promising tool for on-site monitoring of food quality.

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开发高灵敏度比色皿型局部表面等离子体共振(LSPR)传感芯片,用于快速检测牛肉、鲭鱼和奶酪加标样品中的酪胺含量
食品分销的全球化使得有必要确保向消费者提供新鲜食品。富含蛋白质的食品变质后会产生大量酪胺。因此,我们设想开发局部表面等离子体共振(LSPR)传感器,用于监测牛肉、鲭鱼和奶酪中的酪胺含量。为此,我们在 LSPR 芯片上涂覆了金纳米粒子(AuNPs),然后缀合了酪胺特异性肽(TYR1),从而开发出了传感器。TYR1 是通过噬菌体展示法合成和筛选的,其结合效率由 DockThor 进行评估。优化后的 LSPR 传感器在 TYR1 浓度为 20 µg/mL 时显示出最高的结合效率,反应时间为 40 分钟。与标准品相比,该传感器对牛肉、鲭鱼和奶酪的检测范围分别为 0.01-10 ppb、0.01-10 ppm 和 0.01-10 ppb。这些研究结果表明,该传感器可作为现场监测食品质量的有效工具。
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