Journal ArticleDOI
A general approach to DNA-programmable atom equivalents
Chuan Zhang,Robert J. Macfarlane,Kaylie L. Young,Chung Hang Jonathan Choi,Liangliang Hao,Evelyn Auyeung,Guoliang Liu,Xiaozhu Zhou,Chad A. Mirkin +8 more
TLDR
By coating nanoparticles protected with aliphatic ligands with an azide-bearing amphiphilic polymer, followed by the coupling of DNA to the polymer using strain-promoted azide -alkyne cycloaddition, nanoparticles bearing a high-density shell of nucleic acids can be created regardless of nanoparticle composition.Abstract:
Nanoparticles can be combined with nucleic acids to programme the formation of three-dimensional colloidal crystals where the particles' size, shape, composition and position can be independently controlled. However, the diversity of the types of material that can be used is limited by the lack of a general method for preparing the basic DNA-functionalized building blocks needed to bond nanoparticles of different chemical compositions into lattices in a controllable manner. Here we show that by coating nanoparticles protected with aliphatic ligands with an azide-bearing amphiphilic polymer, followed by the coupling of DNA to the polymer using strain-promoted azide-alkyne cycloaddition (also known as copper-free azide-alkyne click chemistry), nanoparticles bearing a high-density shell of nucleic acids can be created regardless of nanoparticle composition. This method provides a route to a virtually endless class of programmable atom equivalents for DNA-based colloidal crystallization.read more
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Journal ArticleDOI
Synthetic Strategies Toward DNA-Coated Colloids that Crystallize
Yufeng Wang,Yu Wang,Xiaolong Zheng,Etienne Ducrot,Myung Goo Lee,Gi-Ra Yi,Marcus Weck,David J. Pine +7 more
TL;DR: This approach allows the DNA-coated colloids not only to aggregate upon cooling but also to anneal and rearrange while still bound together, leading to the formation of colloidal crystal compounds when particles of different sizes or different materials are combined.
Journal ArticleDOI
Colloidal crystal engineering with metal–organic framework nanoparticles and DNA
Shunzhi Wang,Shunzhi Wang,Sarah S. Park,Sarah S. Park,Cassandra T. Buru,Cassandra T. Buru,Haixin Lin,Haixin Lin,Peng-Cheng Chen,Peng-Cheng Chen,Eric W. Roth,Eric W. Roth,Omar K. Farha,Omar K. Farha,Chad A. Mirkin,Chad A. Mirkin +15 more
TL;DR: It is shown that metal–organic framework nanoparticles (MOF NPs) densely functionalized with oligonucleotides can be programmed to crystallize into a diverse set of superlattices with well-defined crystal symmetries and compositions.
Journal ArticleDOI
DNA nanocages swallow gold nanoparticles (AuNPs) to form AuNP@DNA cage core-shell structures.
TL;DR: A class of core-shell complexes (AuNP@DNA cages) are reported, where hard gold NPs are encapsulated in geometrically well-defined soft DNA nanocages and the AuNP guest can be further controllably released from the host (DNA nanocage), pointing to potential applications in surface engineering of inorganic NPs and cargo delivery of DNA nanOCages.
Journal ArticleDOI
Two-dimensional DNA-programmable assembly of nanoparticles at liquid interfaces.
Sunita Srivastava,Dmytro Nykypanchuk,Masafumi Fukuto,Jonathan D. Halverson,Alexei V. Tkachenko,Kevin G. Yager,Oleg Gang +6 more
TL;DR: This work demonstrates the use of charged liquid interfaces for the assembly and reorganization of 2D systems of DNA-coated NPs and demonstrates that the ability to regulate 2D morphology yields control of the interfacial rheological properties of the NP membrane: from viscous to elastic.
Journal ArticleDOI
Spherical Nucleic Acid Nanoparticles: Therapeutic Potential
TL;DR: The unique structures and properties of SNAs are described and how these properties enable their application in gene regulation, immunomodulation, and drug and protein delivery are discussed.
References
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Journal ArticleDOI
In vivo cancer targeting and imaging with semiconductor quantum dots
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Journal ArticleDOI
Selective Colorimetric Detection of Polynucleotides Based on the Distance-Dependent Optical Properties of Gold Nanoparticles
TL;DR: A highly selective, colorimetric polynucleotide detection method based on mercaptoalkyloligonucleotide-modified gold nanoparticle probes is reported, which can detect about 10 femtomoles of an oligonucleotide.