A Label-Free Porous Alumina Interferometric Immunosensor

Anodization of Al is used to produce optically smooth porous alumina (Al2O3) films with pores ∼60 nm in diameter and ∼6 μm deep. The capture protein, protein A, is adsorbed to the pore walls by noncovalent, electrostatic interactions, and thin film interference spectroscopy is used to detect binding...

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Bibliographic Details
Published in:ACS nano 2009-10, Vol.3 (10), p.3301-3307
Main Authors: Alvarez, Sara D, Li, Chang-Peng, Chiang, Casey E, Schuller, Ivan K, Sailor, Michael J
Format: Article
Language:English
Subjects:
Aluminum Oxide - chemistry
Animals
Biosensing Techniques - methods
Immunoassay - methods
Immunoglobulin G - analysis
Immunoglobulin G - metabolism
Interferometry
Kinetics
Porosity
Protein Binding
Rabbits
Staining and Labeling
Surface Properties
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Summary:Anodization of Al is used to produce optically smooth porous alumina (Al2O3) films with pores ∼60 nm in diameter and ∼6 μm deep. The capture protein, protein A, is adsorbed to the pore walls by noncovalent, electrostatic interactions, and thin film interference spectroscopy is used to detect binding of immunoglobulin (IgG). The porous alumina films are stable against corrosion and dissolution in aqueous media at pH 7, allowing quantitative monitoring of steady-state and time-resolved biomolecular binding. The bare porous Al2O3 surface displays a significantly greater affinity for protein A than for IgG. The known species specificity of protein A binding to IgG is confirmed; the protein-A-modified sensor responds to IgG derived from rabbit, but not chicken (IgG/IgY). A “cascaded”, or multiprobe sensing approach, is demonstrated, in which a specific target, sheep IgG, is administered to a sample modified with a protein A/rabbit anti-sheep IgG assembly. Binding measurements are confirmed by fluorescence microscopy using fluorescein-labeled IgG.
ISSN:1936-0851
1936-086X
DOI:10.1021/nn900825q