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Digital counting of single semiconducting polymer nanoparticles for the detection of alkaline phosphatase

Shumin Wang, Mengna Huang, Jianhao Hua, Lin Wei, Shen Lin, Lehui Xiao

2021Nanoscale18 citationsDOI

Abstract

Alkaline phosphatase (ALP) as a necessary hydrolase in phosphate metabolism is closely related to various diseases. Ultrasensitive detection of ALP with a convenient and sensitive method is of fundamental importance. In this work, a fluorescence resonance energy transfer (FRET)-based single-particle enumeration (SPE) method is proposed for the quantitative analysis of ALP. This strategy is based on the effective fluorescence suppression by a polydopamine (PDA) shell on the surface of semiconducting polymer nanoparticles (SPNs). PDA with broadband absorption in the UV-vis region can serve as an excellent quencher for SPNs. However, ascorbic acid (AA), the product of the hydrolysis of 2-phosphate-l-ascorbic acid trisodium salt (AAP) in the presence of ALP, can effectively inhibit the self-polymerization of dopamine (DA) to form a PDA layer. Therefore, ALP can be accurately quantified by counting the concentration-related fluorescent particles in the fluorescence image. A linear range from 0.031 to 12.4 μU mL-1 and a limit-of-detection (LOD) of 0.01 μU mL-1 for ALP determination are achieved. The spiked recoveries for ALP determination in a human serum sample are between 90% and 108% with RSD less than 3.1%. In summary, this convenient and sensitive approach proposed here provides promising prospects for ALP detection in a complex biological matrix.

Topics & Concepts

Alkaline phosphatasePolymerNanoparticleFluorescenceEnumerationMaterials scienceParticle (ecology)NanotechnologyChemical engineeringChemistryOpticsEnzymeOrganic chemistryComposite materialPhysicsMathematicsGeologyEngineeringCombinatoricsOceanographyAdvanced biosensing and bioanalysis techniquesLuminescence and Fluorescent MaterialsCarbon and Quantum Dots Applications
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