A Cellular Screening Assay Using Analysis of Metal-Modified Fluorescence Lifetime

Nicholas I. Cade; Gilbert Fruhwirth; Stephen J. Archibald; Tony Ng; David Richards

doi:10.1016/j.bpj.2010.03.016

A Cellular Screening Assay Using Analysis of Metal-Modified Fluorescence Lifetime

Nicholas I. Cade, Gilbert Fruhwirth, Stephen J. Archibald, Tony Ng, David Richards

University of Hull

Research output: Contribution to journal › Article › peer-review

22 Citations (Scopus)

Abstract

Current methods for screening cell receptor internalization often require complex image analysis with limited sensitivity. Here we describe a novel bioassay based on detection of changes in global fluorescence lifetime above a gold substrate, with superresolution axial sensitivity and no need for image analysis. We show that the lifetime of enhanced green fluorescent protein expressed in a cellular membrane is greatly reduced in close proximity to the gold, resulting in a distance-dependent lifetime distribution throughout the cell. We demonstrate the application of this phenomenon in a screening assay by comparing the efficacies of two small molecule inhibitors interfering with the internalization process of a G protein-coupled receptor.

Original language	English
Pages (from-to)	2752 - 2757
Number of pages	6
Journal	Biophysical Journal
Volume	98
Issue number	11
DOIs	https://doi.org/10.1016/j.bpj.2010.03.016
Publication status	Published - 2 Jun 2010

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abstract = "Current methods for screening cell receptor internalization often require complex image analysis with limited sensitivity. Here we describe a novel bioassay based on detection of changes in global fluorescence lifetime above a gold substrate, with superresolution axial sensitivity and no need for image analysis. We show that the lifetime of enhanced green fluorescent protein expressed in a cellular membrane is greatly reduced in close proximity to the gold, resulting in a distance-dependent lifetime distribution throughout the cell. We demonstrate the application of this phenomenon in a screening assay by comparing the efficacies of two small molecule inhibitors interfering with the internalization process of a G protein-coupled receptor.",

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AU - Cade, Nicholas I.

AU - Fruhwirth, Gilbert

AU - Archibald, Stephen J.

AU - Ng, Tony

AU - Richards, David

PY - 2010/6/2

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N2 - Current methods for screening cell receptor internalization often require complex image analysis with limited sensitivity. Here we describe a novel bioassay based on detection of changes in global fluorescence lifetime above a gold substrate, with superresolution axial sensitivity and no need for image analysis. We show that the lifetime of enhanced green fluorescent protein expressed in a cellular membrane is greatly reduced in close proximity to the gold, resulting in a distance-dependent lifetime distribution throughout the cell. We demonstrate the application of this phenomenon in a screening assay by comparing the efficacies of two small molecule inhibitors interfering with the internalization process of a G protein-coupled receptor.

AB - Current methods for screening cell receptor internalization often require complex image analysis with limited sensitivity. Here we describe a novel bioassay based on detection of changes in global fluorescence lifetime above a gold substrate, with superresolution axial sensitivity and no need for image analysis. We show that the lifetime of enhanced green fluorescent protein expressed in a cellular membrane is greatly reduced in close proximity to the gold, resulting in a distance-dependent lifetime distribution throughout the cell. We demonstrate the application of this phenomenon in a screening assay by comparing the efficacies of two small molecule inhibitors interfering with the internalization process of a G protein-coupled receptor.

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DO - 10.1016/j.bpj.2010.03.016

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JO - Biophysical Journal

JF - Biophysical Journal

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ER -

A Cellular Screening Assay Using Analysis of Metal-Modified Fluorescence Lifetime

Abstract

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