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A biosensor that uses ion-channel switches

Author

Listed:
  • B. A. Cornell

    (Co-operative Research Centre for Molecular Engineering & Technology)

  • V. L. B. Braach-Maksvytis

    (Co-operative Research Centre for Molecular Engineering & Technology)

  • L. G. King

    (Co-operative Research Centre for Molecular Engineering & Technology)

  • P. D. J. Osman

    (Co-operative Research Centre for Molecular Engineering & Technology)

  • B. Raguse

    (Co-operative Research Centre for Molecular Engineering & Technology)

  • L. Wieczorek

    (Co-operative Research Centre for Molecular Engineering & Technology)

  • R. J. Pace

    (Faculty of Science, Australian National University)

Abstract

Biosensors are molecular sensors that combine a biological recognition mechanism with a physical transduction technique. They provide a new class of inexpensive, portable instrument that permit sophisticated analytical measurements to be undertaken rapidly at decentralized locations1. However, the adoption of biosensors for practical applications other than the measurement of blood glucose is currently limited by the expense, insensitivity and inflexibility of the available transduction methods. Here we describe the development of a biosensing technique in which the conductance of a population of molecular ion channels is switched by the recognition event. The approach mimics biological sensory functions2,3 and can be used with most types of receptor, including antibodies and nucleotides. The technique is very flexible and even in its simplest form it is sensitive to picomolar concentrations of proteins. The sensor is essentially an impedance element whose dimensions can readily be reduced to become an integral component of a microelectronic circuit. It may be used in a wide range of applications and in complex media, including blood. These uses might include cell typing, the detection of large proteins, viruses, antibodies, DNA, electrolytes, drugs, pesticides and other low-molecular-weight compounds.

Suggested Citation

  • B. A. Cornell & V. L. B. Braach-Maksvytis & L. G. King & P. D. J. Osman & B. Raguse & L. Wieczorek & R. J. Pace, 1997. "A biosensor that uses ion-channel switches," Nature, Nature, vol. 387(6633), pages 580-583, June.
  • Handle: RePEc:nat:nature:v:387:y:1997:i:6633:d:10.1038_42432
    DOI: 10.1038/42432
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    Cited by:

    1. Smrithi Krishnan R & Kalyanashis Jana & Amina H. Shaji & Karthika S. Nair & Anjali Devi Das & Devika Vikraman & Harsha Bajaj & Ulrich Kleinekathöfer & Kozhinjampara R. Mahendran, 2022. "Assembly of transmembrane pores from mirror-image peptides," Nature Communications, Nature, vol. 13(1), pages 1-13, December.

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