Journal article
Quantification of Strand Accessibility in Biostable DNA Origami with Single-Staple Resolution
AS Eklund, A Comberlato, IA Parish, R Jungmann, MMC Bastings
ACS Nano | AMER CHEMICAL SOC | Published : 2021
Abstract
DNA-based nanostructures are actively gaining interest as tools for biomedical and therapeutic applications following the recent development of protective coating strategies prolonging structural integrity in physiological conditions. For tailored biological action, these nanostructures are often functionalized with targeting or imaging labels using DNA base pairing. Only if these labels are accessible on the structure's surface will they be able to interact with their intended biological target. However, the accessibility of functional sites for different geometries and environments, specifically after the application of a protective coating, is currently not known. Here, we assay this acce..
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Grants
Awarded by Max-Planck-Gesellschaft
Funding Acknowledgements
This work has been supported by the Human Frontier Science Program (HFSP) through the Young Investigator Grant RGY0065/2018 and in part by the German Research Foundation through the SFB1032 (Project-ID 201269156, A11, R.J.), the European Research Council through an ERC Starting Grant (MolMap; grant agreement number 680241, R.J.), the Max Planck Society (R.J.), the Danish National Research Foundation (Centre for Cellular Signal Patterns, DNRF135, R.J. and A.S.E.), and the "Fondation Pierre Mercier pour la Science" (M.M.C.B. and A.C.).