Synapse Development Methods and Protocols /
| Údar corparáideach: | |
|---|---|
| Rannpháirtithe: | |
| Achoimre: | XI, 372 p. 79 illus., 67 illus. in color. text |
| Teanga: | Béarla |
| Foilsithe / Cruthaithe: |
New York, NY :
Springer New York : Imprint: Humana,
2017.
|
| Eagrán: | 1st ed. 2017. |
| Sraith: | Methods in Molecular Biology,
1538 |
| Ábhair: | |
| Rochtain ar líne: | https://doi.org/10.1007/978-1-4939-6688-2 |
| Formáid: | Leictreonach LEABHAR |
Clár na nÁbhar:
- A Cell Culture System to Investigate the Presynaptic Control of Subsynaptic Membrane Differentiation at the Neuromuscular Junction
- Co-Culture Synaptogenic Assay: A New Look at Fluorescence Reporters and Technological Devices
- Synaptogenic Assays Using Neurons Cultured on Micropatterned Substrates
- Monitoring Synapses Via Trans-Synaptic GFP Complementation
- Generation of Spinal Motor Neurons from Human Pluripotent Stem Cells
- Biochemical Purification of Binding Partners of Synaptic Scaffold Proteins
- In Situ Protein Binding Assay Using Fc-Fusion Proteins
- ation Microscopy for the Investigation of Synaptic Structure and Function
- 3D dSTORM Imaging of Fixed Brain Tissue
- Photomarking Relocalization Technique for Correlated Two-Photon and Electron Microcopy Imaging of Single Stimulated Synapses
- 3D Analysis of Synaptic Ultrastructure in Organotypic Hippocampal Slice Culture by High-Pressure Freezing and ElectronTomography
- Analyzing Endosomal Docking, Fusion, Sorting, and Budding Mechanisms in Isolated Organelles
- Concurrent Imaging of Receptor Trafficking and Calcium Dynamics by Spinning Disk Confocal Microscopy
- Imaging Activity-Dependent Signaling Dynamics at the Neuronal Synapse Using FRET-Based Biosensors
- Analyzing Structural Plasticity of Dendritic Spines in Organotypic Slice Culture
- Using Fluorescent Markers to Estimate Synaptic Connectivity In Situ
- Dual Anterograde and Retrograde Viral Tracing of Reciprocal Connectivity
- Mapping Synaptic Inputs of Developing Neurons Using Calcium Imaging
- Monosynaptic Tracing in Developing Circuits Using Modified Rabies Virus.