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Challenges and opportunities for structural DNA nanotechnology

Challenges and opportunities for structural DNA nanotechnology

http://www.wikidata.org/entity/Q27025958

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Protein Calligraphy: A New Concept Begins To Take Shape DNA Nanotechnology for Cancer Therapy Biosafe nanoscale pharmaceutical adjuvant materials Self-assembled bionanostructures: proteins following the lead of DNA nanostructures Engineering artificial machines from designable DNA materials for biomedical applications Molecular threading: mechanical extraction, stretching and placement of DNA molecules from a liquid-air interface Ionic conductivity, structural deformation, and programmable anisotropy of DNA origami in electric field "Post-it" type connected DNA created with a reversible covalent cross-link Lattice-free prediction of three-dimensional structure of programmed DNA assemblies DNA functionalization by dynamic chemistry Nanostructures from Synthetic Genetic Polymers Nanotheranostics of circulating tumor cells, infections and other pathological features in vivo Biomechanics of DNA structures visualized by 4D electron microscopy.In situ structure and dynamics of DNA origami determined through molecular dynamics simulations.Templated synthesis of nylon nucleic acids and characterization by nuclease digestion.Designer nanoscale DNA assemblies programmed from the top down.Functionally-interdependent shape-switching nanoparticles with controllable properties.DNA as a powerful tool for morphology control, spatial positioning, and dynamic assembly of nanoparticles Near-infrared silver cluster optically signaling oligonucleotide hybridization and assembling two DNA hosts.DNA origami as biocompatible surface to match single-molecule and ensemble experiments.Modeling nucleic acids.Layer-by-layer assembled antisense DNA microsponge particles for efficient delivery of cancer therapeutics.Structure of a designed protein cage that self-assembles into a highly porous cube.Facile and scalable preparation of pure and dense DNA origami solutions.Assembly of RNA nanostructures on supported lipid bilayers.Self-assembled DNA tetrahedral optofluidic lasers with precise and tunable gain control.Bioactive DNA-peptide nanotubes enhance the differentiation of neural stem cells into neurons.Nanomedical engineering: shaping future nanomedicines.DNA origami-based standards for quantitative fluorescence microscopy.An assembly funnel makes biomolecular complex assembly efficient.High-throughput patterning of photonic structures with tunable periodicity.Purification and assembly of thermostable Cy5 labeled γ-PNAs into a 3D DNA nanocage.Quantitative investigation of the poly-adenine DNA dissociation from the surface of gold nanoparticles A controllable aptamer-based self-assembled DNA dendrimer for high affinity targeting, bioimaging and drug delivery.Green fluorescent protein nanopolygons as monodisperse supramolecular assemblies of functional proteins with defined valency A Self-Assembled DNA Origami-Gold Nanorod Complex for Cancer Theranostics.DNA tetrominoes: the construction of DNA nanostructures using self-organised heterogeneous deoxyribonucleic acids shapes.Interenzyme substrate diffusion for an enzyme cascade organized on spatially addressable DNA nanostructures.A Signal-Passing DNA-Strand-Exchange Mechanism for Active Self-Assembly of DNA Nanostructures.Theory on the Mechanism of DNA Renaturation: Stochastic Nucleation and Zipping

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Challenges and opportunities for structural DNA nanotechnology

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2011 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած

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2011年の論文

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2011年論文

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Challenges and opportunities for structural DNA nanotechnology

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Challenges and opportunities for structural DNA nanotechnology

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Nature Nanotechnology

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Challenges and opportunities for structural DNA nanotechnology

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Andre V. Pinheiro

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Dongran Han

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Hao Yan

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P2860

Algorithmic self-assembly of DNA Sierpinski triangles

Assembling Materials with DNA as the Guide

Self-assembly of a nanoscale DNA box with a controllable lid

Folding DNA to create nanoscale shapes and patterns

Nanomaterials based on DNA

A proximity-based programmable DNA nanoscale assembly line

The emerging field of RNA nanotechnology

Two-dimensional nanoparticle arrays show the organizational power of robust DNA motifs

Six-helix bundles designed from DNA

From molecular to macroscopic via the rational design of a self-assembled 3D DNA crystal

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10.1038/NNANO.2011.187

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William M. Shih

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51773196

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