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3D DNA Nanostructure

Overview of attention for book
Cover of '3D DNA Nanostructure'

Table of Contents

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    Book Overview
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    Chapter 1 Designed 3D DNA Crystals
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    Chapter 2 Three-Dimensional DNA Nanostructures Assembled from DNA Star Motifs
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    Chapter 3 Design of Wireframe DNA Nanostructures—DNA Gridiron
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    Chapter 4 Complex DNA Brick Assembly
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    Chapter 5 3D DNA Nanostructure
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    Chapter 6 Assembling RNA Nanoparticles
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    Chapter 7 DNA Functionalization of Nanoparticles
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    Chapter 8 Purification Techniques for Three-Dimensional DNA Nanostructures
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    Chapter 9 DNA Nanostructure as Smart Carriers for Drug Delivery
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    Chapter 10 DNA G-Quadruplex-Based Assay of Enzyme Activity
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    Chapter 11 Spatial Organization of Enzyme Cascade on a DNA Origami Nanostructure
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    Chapter 12 Lipid Membrane Encapsulation of a 3D DNA Nano Octahedron
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    Chapter 13 DNA-PAINT Super-Resolution Imaging for Nucleic Acid Nanostructures
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    Chapter 14 Designing DNA Nanotube Liquid Crystals as a Weak-Alignment Medium for NMR Structure Determination of Membrane Proteins
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    Chapter 15 Direct Nanofabrication Using DNA Nanostructure
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    Chapter 16 Confined Growth of Metal Nanoparticles Within 3D DNA Origami Molds
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    Chapter 17 DNA-Directed Self-Assembly of Highly Ordered and Dense Single-Walled Carbon Nanotube Arrays
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    Chapter 18 A Proximity-Based Programmable DNA Nanoscale Assembly Line
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    Chapter 19 DNA Walkers as Transport Vehicles of Nanoparticles Along a Carbon Nanotube Track
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    Chapter 20 Erratum
Attention for Chapter 7: DNA Functionalization of Nanoparticles
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Citations

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Chapter title
DNA Functionalization of Nanoparticles
Chapter number 7
Book title
3D DNA Nanostructure
Published in
Methods in molecular biology, January 2017
DOI 10.1007/978-1-4939-6454-3_7
Pubmed ID
27813003
Book ISBNs
978-1-4939-6452-9, 978-1-4939-6454-3
Authors

Fang Lu, Oleg Gang, Lu, Fang, Gang, Oleg

Abstract

DNA-nanoparticle conjugates are hybrid nanoscale objects that integrate different types of DNA molecules and inorganic nanoparticles with a typical architecture of a DNA shell around an inorganic core. Such incorporation provides particles with unique properties of DNA, addressability and recognition, but, at the same time, allows exploiting the properties of the particle's inorganic core. Thus, these hybrid nano-objects are advantageous for rational fabrication of functional materials and for biomedical applications. Here, we describe several established DNA functionalization procedures for different types of surface ligands and nanoparticle core materials.

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Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 54 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Mexico 1 2%
Spain 1 2%
Hungary 1 2%
France 1 2%
Unknown 50 93%

Demographic breakdown

Readers by professional status Count As %
Researcher 14 26%
Student > Ph. D. Student 13 24%
Student > Master 8 15%
Lecturer 2 4%
Student > Bachelor 2 4%
Other 9 17%
Unknown 6 11%
Readers by discipline Count As %
Chemistry 17 31%
Materials Science 11 20%
Engineering 6 11%
Chemical Engineering 4 7%
Physics and Astronomy 2 4%
Other 7 13%
Unknown 7 13%

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