Polyvalent DNA Nanoparticle Conjugates Stabilize Nucleic Acids

Polyvalent DNA Nanoparticle Conjugates Stabilize Nucleic Acids

Polyvalent oligonucleotide gold nanoparticle conjugates have unique fundamental properties including distance-dependent plasmon coupling, enhanced binding affinity, and the ability to enter cells and resist enzymatic degradation. Stability in the presence of enzymes is a key consideration for therap...

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Veröffentlicht in:Nano letters 2009-01, Vol.9 (1), p.308-311
Hauptverfasser: Seferos, Dwight S, Prigodich, Andrew E, Giljohann, David A, Patel, Pinal C, Mirkin, Chad A
Format: Artikel
Sprache:eng
Schlagworte:
Catalysis
Catalytic methods
Chemical synthesis methods
Collective excitations (including excitons, polarons, plasmons and other charge-density excitations)
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Cross-disciplinary physics: materials science
rheology
DNA - chemistry
DNA - ultrastructure
Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures
Exact sciences and technology
Materials science
Methods of nanofabrication
Models, Chemical
Nanocrystalline materials
Nanoparticles - chemistry
Nanoparticles - ultrastructure
Nanoscale materials and structures: fabrication and characterization
Nanotechnology - methods
Physics
Surface and interface electron states
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Zusammenfassung:Polyvalent oligonucleotide gold nanoparticle conjugates have unique fundamental properties including distance-dependent plasmon coupling, enhanced binding affinity, and the ability to enter cells and resist enzymatic degradation. Stability in the presence of enzymes is a key consideration for therapeutic uses; however the manner and mechanism by which such nanoparticles are able to resist enzymatic degradation is unknown. Here, we quantify the enhanced stability of polyvalent gold oligonucleotide nanoparticle conjugates with respect to enzyme-catalyzed hydrolysis of DNA and present evidence that the negatively charged surfaces of the nanoparticles and resultant high local salt concentrations are responsible for enhanced stability.
ISSN:1530-6984
1530-6992
DOI:10.1021/nl802958f