Site‐Specific Disulfide‐Mediated Crosslinking of DNA Nanocubes for Enhanced Biological Applications

zu Verbundenen Objekten

The development of DNA nanotechnology has enabled the creation of diverse nanomaterials with significant potential in biological applications, such as sensing or drug delivery. From DNA origami to wireframe nanostructures, several strategies have been developed to deliver nucleic acid therapeutics into cells. However, these self‐assembled structures suffer from poor stability in biological media due to low concentrations of divalent cations, degradation by nucleases, and thermal denaturation. Herein, a site‐specific crosslinking method based on thiol‐disulfide exchange to stabilize a wireframe DNA nanocube is developed. With nearly quantitative crosslinking yields, the structure retains its structural integrity in conditions that mimic physiological environments. This results in improved cellular uptake, likely due to more favorable interaction with cell‐surface scavenger receptors, followed by endocytosis. This study paves the way for in vivo applications of DNA wireframe nanostructures by removing one of the major bottlenecks for their translation from in vitro to preclinical work.

Standort
Deutsche Nationalbibliothek Frankfurt am Main
Umfang
Online-Ressource
Sprache
Englisch

Erschienen in
Site‐Specific Disulfide‐Mediated Crosslinking of DNA Nanocubes for Enhanced Biological Applications ; day:12 ; month:12 ; year:2024 ; extent:8
Small science ; (12.12.2024) (gesamt 8)

Urheber
Faiad, Sinan
Laurent, Quentin
Asohan, Jathavan
Brown, Tyler
Prinzen, Alexander
Sleiman, Hanadi Farouk

DOI
10.1002/smsc.202400471
URN
urn:nbn:de:101:1-2412121324319.702124519800
Rechteinformation
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Letzte Aktualisierung
15.08.2025, 07:39 MESZ

Datenpartner

Dieses Objekt wird bereitgestellt von:
Deutsche Nationalbibliothek. Bei Fragen zum Objekt wenden Sie sich bitte an den Datenpartner.
Original beim Datenpartner anzeigen

Beteiligte

  • Faiad, Sinan
  • Laurent, Quentin
  • Asohan, Jathavan
  • Brown, Tyler
  • Prinzen, Alexander
  • Sleiman, Hanadi Farouk

Ähnliche Objekte (12)

Precision crosslinking and active-site modifications via site-specific protein engineering

Precision crosslinking and active-site modifications via site-specific protein engineering

Enhanced Terahertz Transmission in Molybdenum Disulfide/Silicon Heterojunction

Enhanced Terahertz Transmission in Molybdenum Disulfide/Silicon Heterojunction

Tension-Enhanced Hydrogen Evolution Reaction on Vanadium Disulfide Monolayer

Tension-Enhanced Hydrogen Evolution Reaction on Vanadium Disulfide Monolayer

Synthesis and biological evaluation of complex peptides containing disulfide bonds

Hochschulschrift

Synthesis and biological evaluation of complex peptides containing disulfide bonds

Molybdenum Disulfide Nanoribbons with Enhanced Edge Nonlinear Response and Photoresponsivity

Molybdenum Disulfide Nanoribbons with Enhanced Edge Nonlinear Response and Photoresponsivity

Site‐Specific Multi‐Functionalization of the Carrier Protein CRM 197 by Disulfide Rebridging for Conjugate Vaccine Development

Site‐Specific Multi‐Functionalization of the Carrier Protein CRM 197 by Disulfide Rebridging for Conjugate Vaccine Development

Carbon disulfide

Carbon disulfide

Carbon Disulfide (CS2)

Carbon Disulfide (CS2)

Enhanced cell-permeant Cre protein for site-specific recombination in cultured cells

Enhanced cell-permeant Cre protein for site-specific recombination in cultured cells

Enhanced therapeutic potential of antibody fragment via IEDDA-mediated site-specific albumin conjugation

Enhanced therapeutic potential of antibody fragment via IEDDA-mediated site-specific albumin conjugation

Enhanced production of a single domain antibody with an engineered stabilizing extra disulfide bond

Enhanced production of a single domain antibody with an engineered stabilizing extra disulfide bond

Fine‐tuning Dynamic Cross–linking for Enhanced 3D Bioprinting of Hyaluronic Acid Hydrogels

Fine‐tuning Dynamic Cross–linking for Enhanced 3D Bioprinting of Hyaluronic Acid Hydrogels

Verbundene Objekte