Virus-coated layer-by-layer colloids as a multiplex suspension array for the detection and quantification of virus-specific antibodies
Virus-coated layer-by-layer colloids as a multiplex suspension array for the detection and quantification of virus-specific antibodies
Background: suspension array technology has surpassed ELISA for automated, simultaneous detection and quantification of soluble biomarkers such as virus-specific antibodies. We describe assays in which antigens are attached to a lipid bilayer surrounding color-coded particles.
Methods: we used layer-by-layer technology to establish a multiplex suspension array with distinguishable microbeads coated with authentic viral surfaces to catch and quantify virus-specific antibodies in a flow cytometric analysis. Antigenic surfaces were generated by chimeric and wild-type baculoviruses plus 2 different influenza A virus subtypes fused to a lipid bilayer surrounding distinctly colored particles. Specificity of binding of chosen antibodies and sera was detected by immunofluorescence. Results of multiplex analysis were compared with results of ELISA.
Results: titrations of virus-specific antibodies in the multiplex suspension array demonstrated specific binding to the viral surface proteins. The multiplex suspension array gave positive results for up to log 5–diluted primary antibodies with an ?5- to 10-fold reduced dynamic range compared with the respective ELISA.
Conclusions: the bead-based multiplex suspension array is customizable and easy to establish. By displaying native influenza A virus surfaces and recombinant HIV-1 epitopes, the new assay provides a tool for the detection of major viral infections in humans
1575-1583
Toellner, Lars
4426958b-43fc-4bfd-9ff5-543cc416f491
Fischlechner, Martin
b3930129-0775-4c05-81c7-475934df97ee
Ferko, Boris
ab59ec89-dbb9-4e56-b5af-8645e3473f91
Grabherr, Reingard Maria
622be1ac-4491-4718-874f-7644ca58e7c4
Donath, Edwin
a1baee66-cc02-4a15-8c0d-732e844b8a8f
25 May 2006
Toellner, Lars
4426958b-43fc-4bfd-9ff5-543cc416f491
Fischlechner, Martin
b3930129-0775-4c05-81c7-475934df97ee
Ferko, Boris
ab59ec89-dbb9-4e56-b5af-8645e3473f91
Grabherr, Reingard Maria
622be1ac-4491-4718-874f-7644ca58e7c4
Donath, Edwin
a1baee66-cc02-4a15-8c0d-732e844b8a8f
Toellner, Lars, Fischlechner, Martin, Ferko, Boris, Grabherr, Reingard Maria and Donath, Edwin
(2006)
Virus-coated layer-by-layer colloids as a multiplex suspension array for the detection and quantification of virus-specific antibodies.
Clinical Chemistry, 52 (8), .
(doi:10.1373/clinchem.2005.065789).
(PMID:16728470)
Abstract
Background: suspension array technology has surpassed ELISA for automated, simultaneous detection and quantification of soluble biomarkers such as virus-specific antibodies. We describe assays in which antigens are attached to a lipid bilayer surrounding color-coded particles.
Methods: we used layer-by-layer technology to establish a multiplex suspension array with distinguishable microbeads coated with authentic viral surfaces to catch and quantify virus-specific antibodies in a flow cytometric analysis. Antigenic surfaces were generated by chimeric and wild-type baculoviruses plus 2 different influenza A virus subtypes fused to a lipid bilayer surrounding distinctly colored particles. Specificity of binding of chosen antibodies and sera was detected by immunofluorescence. Results of multiplex analysis were compared with results of ELISA.
Results: titrations of virus-specific antibodies in the multiplex suspension array demonstrated specific binding to the viral surface proteins. The multiplex suspension array gave positive results for up to log 5–diluted primary antibodies with an ?5- to 10-fold reduced dynamic range compared with the respective ELISA.
Conclusions: the bead-based multiplex suspension array is customizable and easy to establish. By displaying native influenza A virus surfaces and recombinant HIV-1 epitopes, the new assay provides a tool for the detection of major viral infections in humans
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Published date: 25 May 2006
Organisations:
Organic Chemistry: SCF
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Local EPrints ID: 342559
URI: http://eprints.soton.ac.uk/id/eprint/342559
PURE UUID: 7eea4327-065a-45a5-8b82-5833d9fef721
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Date deposited: 12 Sep 2012 14:33
Last modified: 14 Mar 2024 11:52
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Author:
Lars Toellner
Author:
Martin Fischlechner
Author:
Boris Ferko
Author:
Reingard Maria Grabherr
Author:
Edwin Donath
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