Optical fibre-based detection of DNA hybridization

Anna V. Hine; Xianfeng F. Chen; Marcus D. Hughes; Kaiming Zhou; Edward Davies; Kate Sugden; Ian Bennion; Lin Zhang

doi:10.1042/BST0370445

Optical fibre-based detection of DNA hybridization

Anna V. Hine, Xianfeng F. Chen, Marcus D. Hughes, Kaiming Zhou, Edward Davies, Kate Sugden, Ian Bennion, Lin Zhang

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

Abstract

A dual-peak LPFG (long-period fibre grating), inscribed in an optical fibre, has been employed to sense DNA hybridization in real time, over a 1 h period. One strand of the DNA was immobilized on the fibre, while the other was free in solution. After hybridization, the fibre was stripped and repeated detection of hybridization was achieved, so demonstrating reusability of the device. Neither strand of DNA was fluorescently or otherwise labelled. The present paper will provide an overview of our early-stage experimental data and methodology, examine the potential of fibre gratings for use as biosensors to monitor both nucleic acid and other biomolecular interactions and then give a summary of the theory and fabrication of fibre gratings from a biological standpoint. Finally, the potential of improving signal strength and possible future directions of fibre grating biosensors will be addressed.

Original language	English
Pages (from-to)	445-449
Number of pages	5
Journal	Biochemical Society Transactions
Volume	37
Issue number	Part 2
DOIs	https://doi.org/10.1042/BST0370445
Publication status	Published - Apr 2009

Keywords

biosensor
DNA hybridization
evanescent wave
long-period fibre grating
LPFG
optical fibre
unlabelled biomolecule

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10.1042/BST0370445

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title = "Optical fibre-based detection of DNA hybridization",

abstract = "A dual-peak LPFG (long-period fibre grating), inscribed in an optical fibre, has been employed to sense DNA hybridization in real time, over a 1 h period. One strand of the DNA was immobilized on the fibre, while the other was free in solution. After hybridization, the fibre was stripped and repeated detection of hybridization was achieved, so demonstrating reusability of the device. Neither strand of DNA was fluorescently or otherwise labelled. The present paper will provide an overview of our early-stage experimental data and methodology, examine the potential of fibre gratings for use as biosensors to monitor both nucleic acid and other biomolecular interactions and then give a summary of the theory and fabrication of fibre gratings from a biological standpoint. Finally, the potential of improving signal strength and possible future directions of fibre grating biosensors will be addressed.",

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AU - Hine, Anna V.

AU - Chen, Xianfeng F.

AU - Hughes, Marcus D.

AU - Zhou, Kaiming

AU - Davies, Edward

AU - Sugden, Kate

AU - Bennion, Ian

AU - Zhang, Lin

PY - 2009/4

Y1 - 2009/4

N2 - A dual-peak LPFG (long-period fibre grating), inscribed in an optical fibre, has been employed to sense DNA hybridization in real time, over a 1 h period. One strand of the DNA was immobilized on the fibre, while the other was free in solution. After hybridization, the fibre was stripped and repeated detection of hybridization was achieved, so demonstrating reusability of the device. Neither strand of DNA was fluorescently or otherwise labelled. The present paper will provide an overview of our early-stage experimental data and methodology, examine the potential of fibre gratings for use as biosensors to monitor both nucleic acid and other biomolecular interactions and then give a summary of the theory and fabrication of fibre gratings from a biological standpoint. Finally, the potential of improving signal strength and possible future directions of fibre grating biosensors will be addressed.

AB - A dual-peak LPFG (long-period fibre grating), inscribed in an optical fibre, has been employed to sense DNA hybridization in real time, over a 1 h period. One strand of the DNA was immobilized on the fibre, while the other was free in solution. After hybridization, the fibre was stripped and repeated detection of hybridization was achieved, so demonstrating reusability of the device. Neither strand of DNA was fluorescently or otherwise labelled. The present paper will provide an overview of our early-stage experimental data and methodology, examine the potential of fibre gratings for use as biosensors to monitor both nucleic acid and other biomolecular interactions and then give a summary of the theory and fabrication of fibre gratings from a biological standpoint. Finally, the potential of improving signal strength and possible future directions of fibre grating biosensors will be addressed.

KW - biosensor

KW - DNA hybridization

KW - evanescent wave

KW - long-period fibre grating

KW - LPFG

KW - optical fibre

KW - unlabelled biomolecule

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JO - Biochemical Society Transactions

JF - Biochemical Society Transactions

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Optical fibre-based detection of DNA hybridization

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Keywords

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