Strategies for Stabilizing DNA Nanostructures to Biological Conditions

Nicholas Stephanopoulos

doi:https://doi.org/10.1002/cbic.201900075

doi.org/10.1002/cbic.201900075

Strategies for Stabilizing DNA Nanostructures to Biological Conditions

Nicholas Stephanopoulos

24

ChemBioChem3.20

Volume: 20, Issue: 17, Pages: 2191 - 2197

Published: Jun 14, 2019

Abstract

DNA is one of the most promising building blocks for creating functional nanostructures for applications in biology and medicine. However, these highly programmable nanomaterials (e.g., DNA origami) often require supraphysiological salt concentrations for stability, are degraded by nuclease enzymes, and can elicit an inflammatory response. Herein, three key strategies for stabilizing DNA nanostructures to conditions required for biological...

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Paper Details

Title

Strategies for Stabilizing DNA Nanostructures to Biological Conditions

DOI

doi.org/10.1002/cbic.201900075

Published Date

Jun 14, 2019

Journal

ChemBioChem

Volume

20

Issue

17

Pages

2191 - 2197

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