This article is cited in 6 papers

Papers devoted to the memory of academician A M Prokhorov

Immunosensor systems with the Langmuir-film-based fluorescence detection

G. K. Chudinova^a, I. A. Nagovitsyn^a, R. E. Karpov^b, V. V. Savranskii<sup>a

a</sup> Natural Sciences Center at General Physics Institute of RAS, Moscow
^b Photochemistry Centre, Russian Academy of Sciences, Moscow

Abstract: A method is developed for detecting protein antigens for fluorescent immunoassay using a model system based on the technique for preparation of Langmuir films. Fluorescein isothiocyanate and donor-acceptor energy-transfer pairs of markers (the Yb complex of tetraphenyl porphyrin – benzoyl trifluoroacetoneisothiocyanate and derivatives of tetra(carboxyphenyl) porphyrin – cyanine dye containing a five-membered polyene chain), which were nor studied earlier, were used as markers for detecting the binding of an antigen on the surface of Langmuir films of antibodies. Fluorescence was detected in the near-IR region (for the first pair) and in the visible spectral range (for the second pair). To reduce the nonspecific sorption of a protein (antigen), a method was proposed for the preparation of a nonpolar surface by applying an even number of layers of stearic acid as a substrate for the Langmuir – Blodgett film. A high sensitivity of model systems to a protein antigen in solution was achieved (~10^-11 M), the assay time being 6 – 8 min. The model system with the first donor — acceptor pair was tested in analysis of the blood plasma. The fluorescence of the Dy³⁺, Tm³⁺, and Yb³⁺ complexes of tetraphenyl porphyrin sensitised by diketonate complexes of lanthanides was studied for the first time and the enhancement of the IR fluorescence of these complexes in a Langmuir film was demonstrated.

PACS: 68.18.-g, 42.62.Be

Received: 23.01.2003

 English version: Quantum Electronics, 2003, 33:9, 765–770

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