A plastic colorimetric resonant optical biosensor for multiparallel detection of label-free biochemical interactions

Brian T Cunningham; Bo Lin; Jean Qiu; Peter Li; Jane Pepper; Brenda Hugh

doi:10.1016/S0925-4005(02)00111-9

A plastic colorimetric resonant optical biosensor for multiparallel detection of label-free biochemical interactions

Brian T Cunningham, Bo Lin, Jean Qiu, Peter Li, Jane Pepper, Brenda Hugh

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

Abstract

A high sensitivity plastic biosensor based on detection of changes in optical density on the surface of a narrow bandwidth guided mode resonant filter is demonstrated. Using sub-micron microreplication of a master sensor surface structure on continuous sheets of plastic film, the sensor can be produced inexpensively over large surface areas. In this work, the sensor structure is incorporated into standard 96-well microtiter plates and used to perform a protein-protein affinity assay. A surface receptor immobilization protocol demonstrating low nonspecific binding is used to detect an antibody with 8.3 nM sensitivity. By measuring the kinetic interaction of a protein-protein binding pair simultaneously at several concentrations, the affinity binding constant can be quickly determined.

Original language	English (US)
Pages (from-to)	219-226
Number of pages	8
Journal	Sensors and Actuators, B: Chemical
Volume	85
Issue number	3
DOIs	https://doi.org/10.1016/S0925-4005(02)00111-9
State	Published - Jul 25 2002
Externally published	Yes

Keywords

Diagnostics
Genomics
Microreplication
Optical biosensor
Proteomics
Resonant filter

ASJC Scopus subject areas

Analytical Chemistry
Electrochemistry
Electrical and Electronic Engineering

Online availability

10.1016/S0925-4005(02)00111-9

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abstract = "A high sensitivity plastic biosensor based on detection of changes in optical density on the surface of a narrow bandwidth guided mode resonant filter is demonstrated. Using sub-micron microreplication of a master sensor surface structure on continuous sheets of plastic film, the sensor can be produced inexpensively over large surface areas. In this work, the sensor structure is incorporated into standard 96-well microtiter plates and used to perform a protein-protein affinity assay. A surface receptor immobilization protocol demonstrating low nonspecific binding is used to detect an antibody with 8.3 nM sensitivity. By measuring the kinetic interaction of a protein-protein binding pair simultaneously at several concentrations, the affinity binding constant can be quickly determined.",

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AU - Cunningham, Brian T

AU - Lin, Bo

AU - Qiu, Jean

AU - Li, Peter

AU - Pepper, Jane

AU - Hugh, Brenda

PY - 2002/7/25

Y1 - 2002/7/25

N2 - A high sensitivity plastic biosensor based on detection of changes in optical density on the surface of a narrow bandwidth guided mode resonant filter is demonstrated. Using sub-micron microreplication of a master sensor surface structure on continuous sheets of plastic film, the sensor can be produced inexpensively over large surface areas. In this work, the sensor structure is incorporated into standard 96-well microtiter plates and used to perform a protein-protein affinity assay. A surface receptor immobilization protocol demonstrating low nonspecific binding is used to detect an antibody with 8.3 nM sensitivity. By measuring the kinetic interaction of a protein-protein binding pair simultaneously at several concentrations, the affinity binding constant can be quickly determined.

AB - A high sensitivity plastic biosensor based on detection of changes in optical density on the surface of a narrow bandwidth guided mode resonant filter is demonstrated. Using sub-micron microreplication of a master sensor surface structure on continuous sheets of plastic film, the sensor can be produced inexpensively over large surface areas. In this work, the sensor structure is incorporated into standard 96-well microtiter plates and used to perform a protein-protein affinity assay. A surface receptor immobilization protocol demonstrating low nonspecific binding is used to detect an antibody with 8.3 nM sensitivity. By measuring the kinetic interaction of a protein-protein binding pair simultaneously at several concentrations, the affinity binding constant can be quickly determined.

KW - Diagnostics

KW - Genomics

KW - Microreplication

KW - Optical biosensor

KW - Proteomics

KW - Resonant filter

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A plastic colorimetric resonant optical biosensor for multiparallel detection of label-free biochemical interactions

Abstract

Keywords

ASJC Scopus subject areas

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