Magnetic biosensors for genetic screening of cystic fibrosis

Author

Lagae, L. ; Wirix-Speetjens, R. ; Liu, C.-X. ; Laureyn, W. ; Borghs, G. ; Harvey, S. ; Galvin, P. ; Ferreira, H.A. ; Graham, D.L. ; Freitas, P.P. ; Clarke, L.A. ; Amaral, M.D.

Author_Institution

IMEC/MCP, Leuven, Belgium

Volume

152

Issue

4

fYear

2005

Firstpage

393

Lastpage

400

Abstract

The paper reports on the development of a magnetic biosensing platform for genetic analysis. The sensing technique is based on the on-chip manipulation of magnetically labelled biomolecules by the magnetic field gradient force created by current-carrying conductors; on biomolecular reactions such as the binding of complementary DNA material; and on the detection of the fringe field of the magnetic label by a magnetoresistive spin valve sensor. Different experiments will demonstrate the advantages, difficulties, prospects and potential of the combination of magnetic bead manipulation and detection on a single microchip. Early detection of DNA coding for the cystic fibrosis (CF) gene is used as a model system for proof-of-concept of the magnetic DNA biosensor platform.

Keywords

DNA; biological techniques; biomagnetism; biosensors; genetics; magnetic sensors; patient diagnosis; spin valves; DNA coding; biomolecular reactions; complementary DNA material; current-carrying conductors; cystic fibrosis gene; fringe field detection; genetic analysis; genetic screening; magnetic DNA biosensor; magnetic bead detection; magnetic bead manipulation; magnetic field gradient force; magnetic label; magnetically labelled biomolecules; magnetoresistive spin valve sensor; on-chip manipulation; sensing techniques;

fLanguage

English

Journal_Title

Circuits, Devices and Systems, IEE Proceedings -

Publisher

iet

ISSN

1350-2409

Type

jour

DOI

10.1049/ip-cds:20050022

Filename

1511522