Protein Nanotechnology

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Cover of 'Protein Nanotechnology'

Table of Contents

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Book Overview
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Chapter 1 Protein Nanotechnology
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Chapter 2 Bioengineered silk proteins to control cell and tissue functions
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Chapter 3 Aqueous-Based Spinning of Fibers from Self-Assembling Structural Proteins
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Chapter 4 Fibrous Protein Nanofibers
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Chapter 5 Self-assembling nanomaterials: monitoring the formation of amyloid fibrils, with a focus on small-angle X-ray scattering.
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Chapter 6 Amyloid Fibrils from Readily Available Sources: Milk Casein and Lens Crystallin Proteins
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Chapter 7 Formation of Amphipathic Amyloid Monolayers from Fungal Hydrophobin Proteins
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Chapter 8 Proteins and Peptides as Biological Nanowires: Towards Biosensing Devices
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Chapter 9 Nanotechnology with S-Layer Proteins
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Chapter 10 Stimuli-Responsive Peptide Nanostructures at the Fluid–Fluid Interface
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Chapter 11 Designed Self-Assembling Peptides as Templates for the Synthesis of Metal Nanoparticles
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Chapter 12 Purification of molecular machines and nanomotors using phage-derived monoclonal antibody fragments.
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Chapter 13 Determination of enzyme thermal parameters for rational enzyme engineering and environmental/evolutionary studies.
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Chapter 14 Rational-Based Protein Engineering: Tips and Tools
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Chapter 15 Construction and Analysis of Randomized Protein-Encoding Libraries Using Error-Prone PCR
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Chapter 16 Droplets as reaction compartments for protein nanotechnology.
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Chapter 17 Label-Free, Real-Time Interaction and Adsorption Analysis 1: Surface Plasmon Resonance
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Chapter 18 Label-Free, Real-Time Interaction and Adsorption Analysis 2: Quartz Crystal Microbalance
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Chapter 19 Atomic Force Microscopy for Protein Nanotechnology

Attention for Chapter 12: Purification of molecular machines and nanomotors using phage-derived monoclonal antibody fragments.

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Chapter title	Purification of molecular machines and nanomotors using phage-derived monoclonal antibody fragments.
Chapter number	12
Book title	Protein Nanotechnology
Published in	Methods in molecular biology, January 2013
DOI	10.1007/978-1-62703-354-1-12
Pubmed ID	23504426
Book ISBNs	978-1-62703-353-4, 978-1-62703-354-1
Authors	Esteban, Olga, Christ, Daniel, Stock, Daniela, Olga Esteban, Daniel Christ, Daniela Stock
Abstract	Molecular machines and nanomotors are sophisticated biological assemblies that convert potential energy stored either in transmembrane ion gradients or in ATP into kinetic energy. Studying these highly dynamic biological devices by X-ray crystallography is challenging, as they are difficult to produce, purify, and crystallize. Phage display technology allows us to put a handle on these molecules in the form of highly specific antibody fragments that can also stabilize conformations and allow versatile labelling for electron microscopy, immunohistochemistry, and biophysics experiments.Here, we describe a widely applicable protocol for selecting high-affinity monoclonal antibody fragments against a complex molecular machine, the A-type ATPase from T. thermophilus that allows fast and simple purification of this transmembrane rotary motor from its wild-type source. The approach can be readily extended to other integral membrane proteins and protein complexes as well as to soluble molecular machines and nanomotors.

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