Single-molecule DNA origami aptasensors for real-time biomarker detection

Keitel Cervantes-Salguero; Mark Freeley; Jorge L. Chávez; Matteo Palma

doi:10.1039/d0tb01291b

Single-molecule DNA origami aptasensors for real-time biomarker detection

Keitel Cervantes-Salguero, Mark Freeley, Jorge L. Chávez, Matteo Palma

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

14 Scopus citations

Abstract

Here we report the use of DNA nanostructures as platforms to monitor the inherent conformational changes of aptamers upon analyte binding, with single-molecule resolution and real-time capability. An aptasensor designed to sense cortisol was found to suffer from instability in solution, but this was reconciled via a rational design of a single-molecule sensing platform. In this regard, DNA origami was employed to immobilise individual aptasensors on a glass surface and to ensure adequate interaction with their environment, for single-molecule analysis. The strategy presented here can be applied to any aptamer obtained by the destabilisation of a duplex in a SELEX process, and hence employed in the rational design of single-molecule biosensors.

Original language	English
Pages (from-to)	6352-6356
Number of pages	5
Journal	Journal of Materials Chemistry B
Volume	8
Issue number	30
DOIs	https://doi.org/10.1039/d0tb01291b
State	Published - 14 Aug 2020
Externally published	Yes

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title = "Single-molecule DNA origami aptasensors for real-time biomarker detection",

abstract = "Here we report the use of DNA nanostructures as platforms to monitor the inherent conformational changes of aptamers upon analyte binding, with single-molecule resolution and real-time capability. An aptasensor designed to sense cortisol was found to suffer from instability in solution, but this was reconciled via a rational design of a single-molecule sensing platform. In this regard, DNA origami was employed to immobilise individual aptasensors on a glass surface and to ensure adequate interaction with their environment, for single-molecule analysis. The strategy presented here can be applied to any aptamer obtained by the destabilisation of a duplex in a SELEX process, and hence employed in the rational design of single-molecule biosensors.",

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AU - Freeley, Mark

AU - Chávez, Jorge L.

AU - Palma, Matteo

PY - 2020/8/14

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N2 - Here we report the use of DNA nanostructures as platforms to monitor the inherent conformational changes of aptamers upon analyte binding, with single-molecule resolution and real-time capability. An aptasensor designed to sense cortisol was found to suffer from instability in solution, but this was reconciled via a rational design of a single-molecule sensing platform. In this regard, DNA origami was employed to immobilise individual aptasensors on a glass surface and to ensure adequate interaction with their environment, for single-molecule analysis. The strategy presented here can be applied to any aptamer obtained by the destabilisation of a duplex in a SELEX process, and hence employed in the rational design of single-molecule biosensors.

AB - Here we report the use of DNA nanostructures as platforms to monitor the inherent conformational changes of aptamers upon analyte binding, with single-molecule resolution and real-time capability. An aptasensor designed to sense cortisol was found to suffer from instability in solution, but this was reconciled via a rational design of a single-molecule sensing platform. In this regard, DNA origami was employed to immobilise individual aptasensors on a glass surface and to ensure adequate interaction with their environment, for single-molecule analysis. The strategy presented here can be applied to any aptamer obtained by the destabilisation of a duplex in a SELEX process, and hence employed in the rational design of single-molecule biosensors.

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Single-molecule DNA origami aptasensors for real-time biomarker detection

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