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Synapse Development

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Cover of 'Synapse Development'

Table of Contents

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    Book Overview
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    Chapter 1 A Cell Culture System to Investigate the Presynaptic Control of Subsynaptic Membrane Differentiation at the Neuromuscular Junction.
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    Chapter 2 Co-culture Synaptogenic Assay: A New Look at Fluorescence Reporters and Technological Devices.
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    Chapter 3 Synaptogenic Assays Using Neurons Cultured on Micropatterned Substrates.
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    Chapter 4 Monitoring Synapses Via Trans-Synaptic GFP Complementation.
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    Chapter 5 Generation of Spinal Motor Neurons from Human Pluripotent Stem Cells.
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    Chapter 6 Biochemical Purification of Binding Partners of Synaptic Scaffold Proteins.
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    Chapter 7 In Situ Protein Binding Assay Using Fc-Fusion Proteins.
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    Chapter 8 Reconstitution of Synaptic SNAREs into Large Liposomes with Reduced Curvature Stress.
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    Chapter 9 Isolation of Synaptosomes, Synaptic Plasma Membranes, and Synaptic Junctional Complexes.
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    Chapter 10 Purification of Synaptosome Populations Using Fluorescence-Activated Synaptosome Sorting.
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    Chapter 11 Optimized Protocol for Imaging Cleared Neural Tissues Using Light Microscopy.
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    Chapter 12 Structured Illumination Microscopy for the Investigation of Synaptic Structure and Function.
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    Chapter 13 3D d STORM Imaging of Fixed Brain Tissue.
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    Chapter 14 Synapse Development
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    Chapter 15 3D Analysis of Synaptic Ultrastructure in Organotypic Hippocampal Slice Culture by High-Pressure Freezing and Electron Tomography.
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    Chapter 16 Analyzing Endosomal Docking, Fusion, Sorting, and Budding Mechanisms in Isolated Organelles.
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    Chapter 17 Concurrent Imaging of Receptor Trafficking and Calcium Dynamics by Spinning Disk Confocal Microscopy.
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    Chapter 18 Imaging Activity-Dependent Signaling Dynamics at the Neuronal Synapse Using FRET-Based Biosensors.
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    Chapter 19 Analyzing Structural Plasticity of Dendritic Spines in Organotypic Slice Culture.
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    Chapter 20 Using Fluorescent Markers to Estimate Synaptic Connectivity In Situ.
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    Chapter 21 Dual Anterograde and Retrograde Viral Tracing of Reciprocal Connectivity.
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    Chapter 22 Mapping Synaptic Inputs of Developing Neurons Using Calcium Imaging.
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    Chapter 23 Monosynaptic Tracing in Developing Circuits Using Modified Rabies Virus.
Attention for Chapter 10: Purification of Synaptosome Populations Using Fluorescence-Activated Synaptosome Sorting.
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Chapter title
Purification of Synaptosome Populations Using Fluorescence-Activated Synaptosome Sorting.
Chapter number 10
Book title
Synapse Development
Published in
Methods in molecular biology, January 2017
DOI 10.1007/978-1-4939-6688-2_10
Pubmed ID
27943188
Book ISBNs
978-1-4939-6686-8, 978-1-4939-6688-2
Authors

Elisa Luquet, Christoph Biesemann, Annie Munier, Etienne Herzog

Editors

Alexandros Poulopoulos

Abstract

For several decades, neurobiologists have used subcellular fractionation methods to analyze the molecular structure and some functional features of the cells in the central nervous system. Indeed, brain tissue contains a complex intermingled network of neuronal, glial, and vascular cells. To reduce this complexity biochemists have optimized fractionation protocols that enrich in specific compartments such as synapses (called "synaptosomes") and synaptic vesicles, for example. However, recently, these approaches suffered from a lack of specificity and purity. In a recent effort, we extended the conventional synaptosome preparation to purify fluorescent synaptosomes on a cell sorter. We could prove that our method allows for the steep enrichment in fluorescent excitatory VGLUT1(venus) synaptosomes containing the presynaptic element and the tip of the post-synaptic element and a strong depletion in neuronal and glial contaminants. Here, we propose a detailed procedure for the implementation of Fluorescence Activated Synaptosome Sorting.

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Mendeley readers

The data shown below were compiled from readership statistics for 50 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Russia 1 2%
Unknown 49 98%

Demographic breakdown

Readers by professional status Count As %
Student > Ph. D. Student 12 24%
Student > Master 6 12%
Student > Bachelor 5 10%
Researcher 4 8%
Student > Postgraduate 3 6%
Other 8 16%
Unknown 12 24%
Readers by discipline Count As %
Neuroscience 16 32%
Agricultural and Biological Sciences 8 16%
Biochemistry, Genetics and Molecular Biology 8 16%
Medicine and Dentistry 4 8%
Chemical Engineering 1 2%
Other 1 2%
Unknown 12 24%

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