Litcius/Paper detail

A UCMPs@MIL-100 based thermo-sensitive molecularly imprinted fluorescence sensor for effective detection of β-lactoglobulin allergen in milk products

Liping Hong, Mingfei Pan, Xiao Yang, Xiaoqian Xie, Kaixin Liu, Jingying Yang, Shan Wang, Shuo Wang, Shuo Wang, Shuo Wang

2022Journal of Nanobiotechnology35 citationsDOIOpen Access PDF

Abstract

Abstract In this study, a thermo-sensitive molecularly imprinted fluorescence sensor was developed for the specific detection of β-Lactoglobulin (β-LG) allergen in milk products. The metal–organic frameworks (MIL-100) with a high specific surface area was coated on the surface of upconversion micro-particles (UCMPs). As the core, an imprinted polymer layer allowing for swelling and shrinking with response to temperature was prepared, which exhibited high adsorption and mass transfer capabilities for β-LG allergen. The fluorescence intensity of UCMPs@MIL-100@MIP decreased linearly with the concentration of β-LG in the range of 0.1–0.8 mg mL −1 , and the limit of detection was 0.043 mg mL −1 . The imprinting factor reached 3.415, which indicated that excellent specificity of the UCMPs@MIL-100@MIP for β-LG allergen. In the analysis of β-LG allergen in actual milk samples, the proposed UCMPs@MIL-100@MIP fluorescence sensor produced reliable and accurate results (recovery: 86.0–98.4%, RSD: 2.8–6.8%), closely related to the results of standard HPLC method (correlation coefficient: 0.9949), indicating that its feasibility in the detection of β-LG allergen. Graphical Abstract

Topics & Concepts

AllergenMolecularly imprinted polymerChemistryDetection limitChromatographyFluorescenceAdsorptionMolecular imprintingAnalytical Chemistry (journal)SelectivityBiochemistryAllergyOrganic chemistryImmunologyQuantum mechanicsPhysicsCatalysisBiologyBiosensors and Analytical DetectionFood Allergy and Anaphylaxis ResearchAnalytical chemistry methods development