Detection and size analysis of proteins with switchable DNA layers

Ulrich Rant; Erika Pringsheim; Wolfgang Kaiser; Kenji Arinaga; Jelena Knezevic; Marc Tornow; Shozo Fujita; Naoki Yokoyama; Gerhard Abstreiter

doi:10.1021/nl8026789

Detection and size analysis of proteins with switchable DNA layers

Ulrich Rant, Erika Pringsheim, Wolfgang Kaiser, Kenji Arinaga, Jelena Knezevic, Marc Tornow, Shozo Fujita, Naoki Yokoyama, Gerhard Abstreiter

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

45 Scopus citations

Abstract

We introduce a chip-compatible scheme for the label-free detection of proteins in real-time that is based on the electrically driven conformation switching of DNA oligonucleotides on metal surfaces. The switching behavior is a sensitive indicator for the specific recognition of IgG antibodies and antibody fragments, which can be detected in quantities of less than 10 ^-18 mol on the sensor surface. Moreover, we show how the dynamics of the induced molecular motion can be monitored by measuring the high-frequency switching response. When proteins bind to the layer, the increase in hydrodynamic drag slows the switching dynamics, which allows us to determine the size of the captured proteins. We demonstrate the identification of different antibody fragments by means of their kinetic fingerprint. The switchDNA method represents a generic approach to simultaneously detect and size target molecules using a single analytical platform.

Original language	English
Pages (from-to)	1290-1295
Number of pages	6
Journal	Nano Letters
Volume	9
Issue number	4
DOIs	https://doi.org/10.1021/nl8026789
State	Published - 8 Apr 2009

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abstract = "We introduce a chip-compatible scheme for the label-free detection of proteins in real-time that is based on the electrically driven conformation switching of DNA oligonucleotides on metal surfaces. The switching behavior is a sensitive indicator for the specific recognition of IgG antibodies and antibody fragments, which can be detected in quantities of less than 10 -18 mol on the sensor surface. Moreover, we show how the dynamics of the induced molecular motion can be monitored by measuring the high-frequency switching response. When proteins bind to the layer, the increase in hydrodynamic drag slows the switching dynamics, which allows us to determine the size of the captured proteins. We demonstrate the identification of different antibody fragments by means of their kinetic fingerprint. The switchDNA method represents a generic approach to simultaneously detect and size target molecules using a single analytical platform.",

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AU - Rant, Ulrich

AU - Pringsheim, Erika

AU - Kaiser, Wolfgang

AU - Arinaga, Kenji

AU - Knezevic, Jelena

AU - Tornow, Marc

AU - Fujita, Shozo

AU - Yokoyama, Naoki

AU - Abstreiter, Gerhard

PY - 2009/4/8

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AB - We introduce a chip-compatible scheme for the label-free detection of proteins in real-time that is based on the electrically driven conformation switching of DNA oligonucleotides on metal surfaces. The switching behavior is a sensitive indicator for the specific recognition of IgG antibodies and antibody fragments, which can be detected in quantities of less than 10 -18 mol on the sensor surface. Moreover, we show how the dynamics of the induced molecular motion can be monitored by measuring the high-frequency switching response. When proteins bind to the layer, the increase in hydrodynamic drag slows the switching dynamics, which allows us to determine the size of the captured proteins. We demonstrate the identification of different antibody fragments by means of their kinetic fingerprint. The switchDNA method represents a generic approach to simultaneously detect and size target molecules using a single analytical platform.

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Detection and size analysis of proteins with switchable DNA layers

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