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Nature Biotechnology  21, 1192 - 1199 (2003)
doi:10.1038/nbt873

Electrochemical DNA sensors

T Gregory Drummond1, Michael G Hill2 & Jacqueline K Barton1

1  Division of Chemistry and Chemical Engineering, California Institute of Technology, Pasadena, California 91125, USA.

2  Chemistry Department, Occidental College, Los Angeles, California 90041, USA.

Correspondence should be addressed to Jacqueline K Barton jkbarton@caltech.edu
Electrochemistry-based sensors offer sensitivity, selectivity and low cost for the detection of selected DNA sequences or mutated genes associated with human disease. DNA-based electrochemical sensors exploit a range of different chemistries, but all take advantage of nanoscale interactions between the target in solution, the recognition layer and a solid electrode surface. Numerous approaches to electrochemical detection have been developed, including direct electrochemistry of DNA, electrochemistry at polymer-modified electrodes, electrochemistry of DNA-specific redox reporters, electrochemical amplifications with nanoparticles, and electrochemical devices based on DNA-mediated charge transport chemistry.

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REFERENCE
Immunoassay
Nature Encyclopaedia of Life Sciences

REVIEWS
Electrochemical DNA analysis comes of age
Nature Biotechnology Analysis (01 Oct 2000)

RESEARCH
Mutation detection by electrocatalysis at DNA-modified electrodes
Nature Biotechnology Research (01 Oct 2000)
An electrical probe of protein-DNA interactions on DNA-modified surfaces
Nature Biotechnology Research (01 Mar 2002)
Detection of single-base DNA mutations by enzyme-amplified electronic transduction
Nature Biotechnology Research (01 Mar 2001)
 See all 4 matches for Research

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