3D DNA Nanostructure

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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 18: A Proximity-Based Programmable DNA Nanoscale Assembly Line

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Citations

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Chapter title	A Proximity-Based Programmable DNA Nanoscale Assembly Line
Chapter number	18
Book title	3D DNA Nanostructure
Published in	Methods in molecular biology, January 2017
DOI	10.1007/978-1-4939-6454-3_18
Pubmed ID	27813014
Book ISBNs	978-1-4939-6452-9, 978-1-4939-6454-3
Authors	Xiaoyan Zhang, Xiaoqiang Ding, Jianzhou Zou, Hongzhou Gu, Zhang, Xiaoyan, Ding, Xiaoqiang, Zou, Jianzhou, Gu, Hongzhou
Abstract	The assembly line is one of the key features of industrial production on the macroscopic scale, allowing programmability and sequential addition of parts to a final product. In this chapter, we use DNA to extend this notion to the nanoscale by the judicious combination of three DNA-based components: a DNA origami tile that provides a framework and track for the assembly process, three two-state DNA cassettes that can be programmed to donate cargo and are attached to the tile, and a DNA walker that can move on the track to collect cargo.

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Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 91 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country	Count	As %
Japan	1	1%
United States	1	1%
Netherlands	1	1%
Unknown	88	97%

Demographic breakdown

Readers by professional status	Count	As %
Student > Ph. D. Student	22	24%
Researcher	14	15%
Student > Master	13	14%
Student > Bachelor	10	11%
Professor	10	11%
Other	15	16%
Unknown	7	8%

Readers by discipline	Count	As %
Chemistry	22	24%
Agricultural and Biological Sciences	15	16%
Biochemistry, Genetics and Molecular Biology	14	15%
Engineering	9	10%
Materials Science	6	7%
Other	17	19%
Unknown	8	9%