基于苯并噻唑的比率型荧光探针用于高灵敏检测色胺和食品新鲜度OA
A Colorimetric Fluorescent Probe Based on Benzothiazole for Highly Sensitive Detection of Tryptamine and Food Freshness
色胺是一种重要的吲哚类胺化合物,广泛存在于食品及生物体内,其过量积累会导致食物中毒,引发健康风险,因此,发展高效、特异的色胺检测方法对食品安全监管具有重要意义.本研究基于分子内电荷转移(ICT)机制,设计并合成了一种新型比率型荧光探针NR-1.此探针以苯甲酸酯为特异性识别基团,与色胺反应后,呈现比率型荧光响应,在378 nm处的荧光减弱,472 nm处的荧光显著增强.此探针对色胺具有良好的选择性和检测灵敏度,检出限(3σ)为0.26 μmol/L.进一步将NR-1负载于棉棒载体,结合智能手机荧光成像,实现了对虾、鸡翅和芒果等食品在储存过程中释放的色胺的实时、可视化监测,并据此建立了荧光信号与储存时间的定量关系.本方法为食品新鲜度的原位、便携式检测提供了可靠的新策略.
Tryptamine,as an important indole-based biogenic amine,is widely present in food and biological organisms.Its excessive accumulation is one of the key factors leading to food poisoning and health risks.Therefore,developing efficient and specific tryptamine detection methods is of great significance for food safety monitoring.In this study,based on the intramolecular charge transfer(ICT)mechanism,a novel ratio-type fluorescent probe NR-1 was designed and synthesized with a benzoyl ester as a specific recognition group.When reacting with tryptamine,the probe showed a ratio-type fluorescence response,with fluorescence weakening at 378 nm and significantly enhancing at 472 nm.The probe showed good selectivity and detection sensitivity for tryptamine,with a detection limit(3σ)of 0.26 μmol/L.Further,the probe NR-1 was loaded onto a cotton swab carrier and combined with smartphone fluorescence imaging to achieve real-time and visual monitoring of tryptamine release in shrimp,chicken wings,mangoes and other foods during storage,and a quantitative relationship between fluorescence signals and storage time was thus established.This method provided a reliable new strategy for in-situ and portable detection of food freshness.
李莎;雷皓珺;李雅琪;闫苗;任海仙;温维
忻州师范学院化学系,忻州 034000忻州师范学院化学系,忻州 034000忻州师范学院化学系,忻州 034000忻州师范学院化学系,忻州 034000忻州师范学院化学系,忻州 034000忻州师范学院化学系,忻州 034000
苯并噻唑类荧光探针比率荧光检测可视化色胺食品新鲜度
Benzothiazole-based fluorescent probesRatiometric fluorescence detectionVisualizationTryptamineFood freshness
《分析化学》 2026 (3)
372-380,中插11-中插13,12
山西省自然科学基金项目(No.202303021222234)、忻州市科技计划重点研发项目(No.20250306)和忻州师范学院校级项目(No.XJ2025117)资助. Supported by the Natural Science Foundation of Shanxi Province(No.202303021222234),the Xinzhou City Science and Technology Project Fund(No.20250306)and the Xinzhou Normal University Fund(No.XJ2025117).
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