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
Citations
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Journal ArticleDOI
The Stability of a Nanoparticle Diamond Lattice Linked by DNA
TL;DR: Molecular simulations are used to investigate how NP size and DNA stiffness affect the structure, stability, and crystallite shape of NP superlattices with diamond symmetry and find that, due to reorientation of surface particles, it is possible to create bonds at the surface with dangling DNA links on the interior, thereby reducing surface energy.
Journal ArticleDOI
Engineering bacterial surface interactions using DNA as a programmable material.
TL;DR: This highlight aims to provide an overview on this emerging research topic of DNA-engineered bacterial interactions from the aspect of synthetic chemists, with the introduction of native bacterial surface ligands and established synthetic approaches to install artificial ligands, including direct modification, metabolic engineering, and genetic engineering.
Journal ArticleDOI
Orthogonal Chemical Modification of Template-Synthesized Nanostructures with DNA.
TL;DR: The ability to orthogonally functionalize the ends or the side of a nanorod, as well as the gaps between two rods, with different DNA strands allows one to synthesize nanostructure assemblies that would be difficult to realize any other way and that could ultimately be utilized for making a wide variety of device architectures.
Book ChapterDOI
Design Strategies for the Fabrication of Tailored Nanocomposites via RAFT Polymerization
Journal ArticleDOI
DNA-Grafted 3D Superlattice Self-Assembly
Shuang Wang,Shuang Wang,Xiaolin Xie,Zhi Chen,Ningning Ma,Xue Zhang,Kai Li,Kai Li,Chao Teng,Yonggang Ke,Ye Tian +10 more
TL;DR: In this paper, the authors highlight the assembly strategies and rules of DNA-grafted three-dimensional superlattice, dynamic assembly by different driving factors, and discuss their future applications.
References
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Journal ArticleDOI
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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.