Gold nanoparticle-biotinylated liposome hybrids as analytical reagents for biotin determination using a competitive assay and resonance light scattering detection

Gold nanoparticle-biotinylated liposome hybrids as analytical reagents for biotin determination using a competitive assay and resonance light scattering detection

The preparation of hybrid nanostructures formed by gold nanoparticles (AuNPs) into biotinylated liposomes and their analytical application are presented. The surface of negatively charged AuNPs was modified with 1-dodecanethiol and the NPs were encapsulated into biotinylated liposomes using the rapi...

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Bibliographic Details
Published in:Talanta (Oxford) Vol. 99; pp. 538 - 543
Main Authors: Román-Pizarro, Vanessa, Fernández-Romero, Juan Manuel, Gómez-Hens, Agustina
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 15-09-2012
Elsevier
Subjects:
Analytical chemistry
Avidin - metabolism
Binding, Competitive
Biosensing Techniques - methods
Biotin - analysis
Biotin - chemistry
Biotin - metabolism
Biotinylation
Chemistry
Competitive avidin–biotin affinity assay
Exact sciences and technology
Flow injection system
Food analysis
Gold - chemistry
Gold nanoparticle-biotinylated liposome hybrids
Light
Liposomes - chemistry
Metal Nanoparticles - chemistry
Resonance light-scattering detection
Scattering, Radiation
Spectrometric and optical methods
Competitive avidin–biotin affinity assay
Gold nanoparticle-biotinylated liposome hybrids
Food analysis
Flow injection system
Resonance light-scattering detection
Chemical analysis
Scattering spectrometry
Sucrose
Nanoparticle
Competitive avidin-biotin affinity assay
Check
Phospholipid
Probe
Density
Avidin
Resonance scattering
Signal
Dynamics
Standard curve
Solvent
Ultrasound
Gold
Gradient
Light scattering
Liposome
Competitive reaction
Biotin
Nanostructure
Foodstuff
Method
Vaporization
Gene amplification
Treatment
Analytical reagent
Preparation
Affinity
Detection
Application
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Description
Summary:The preparation of hybrid nanostructures formed by gold nanoparticles (AuNPs) into biotinylated liposomes and their analytical application are presented. The surface of negatively charged AuNPs was modified with 1-dodecanethiol and the NPs were encapsulated into biotinylated liposomes using the rapid solvent evaporation method. Liposomes were resized by both mechanical shaking and ultrasound treatments and filled liposomes were separated from empty liposomes using sucrose density gradient centrifugation. The analytical usefulness of AuNP-liposome hybrids as amplification probes for biotin determination was checked using the competitive affinity reaction based on the avidin–biotin interaction and biotilynated phospholipids for the synthesis of the liposome hybrids. The method was automatized using a flow system and measuring the resonance light scattering signal. The dynamic range of the calibration graph was 0.001–20μgmL−1, (r2=0.9998, n=14), with a detection limit of 0.3ngmL−1. The precision, expressed as relative standard deviation (RSD%), was lower than 5% and the sampling frequency was 9h−1. The approach has been applied to the determination of biotin in food samples, with recovery values ranging between 88.2 and 105.2%. ► Gold nanoparticle-biotinylated liposome hybrids are described as analytical reagents. ► Their usefulness is shown in a competitive assay for biotin determination. ► Resonance light scattering is used as detection system. ► The measurement step is automated by a flow system. ► The method has been satisfactorily applied to the analysis of food samples.
ISSN:0039-9140
1873-3573
DOI:10.1016/j.talanta.2012.06.029