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- Optogenetics in the Teaching Laboratory: Using Channelrhodopsin-2 to Study the Neural Basis of Behavior and Synaptic Physiology in Drosophila
- Primate Optogenetics: Progress and Prognosis
- Single-Celled Organisms Shed Light on Neurobiology
- Optogenetics: a Bright Future for Voltage Gated Ion Channels
- Optogenetic Approaches to Drug Discovery in Neuroscience and Beyond Hongkang Zhang1 and Adam E
- Extending the Anion Channelrhodopsin-Based Toolbox for Plant Optogenetics
- Imaging GFP-Based Reporters in Neurons with Multiwavelength Optogenetic Control
- Unraveling Chr2-Driven Stochastic Ca2+ Dynamics in Astrocytes – a Call for New Interventional Paradigms
- Targeted Channelrhodopsin Christopher a Baker1*, Yishai M Elyada2†, Andres Parra2, M Mclean Bolton1*
- Interoceptive Perception of Optogenetic Brain Stimulation Authors: Jorge Luis-Islas1,2, Monica Luna1, Benjamin Floran2, and Ranier Gutierrez1*
- Advances in Engineering and Application of Optogenetic Indicators for Neuroscience
- Mutated Channelrhodopsins with Increased Sodium and Calcium Permeability
- Two-Photon Photoactivated Voltage Imaging in Tissue with an Archaerhodopsin-Derived Reporter
- Ultraflexible Organic Light-Emitting Diodes for Optogenetic Nerve Stimulation
- Development of More Light Sensitive and Red-Shifted Channelrhodopsin Variants for Optogenetic Vision Restoration
- Abstract & Glossary
- Channelrhodopsin Unchained: Structure and Mechanism of a Light-Gated Cation Channel
- Genetically Encoded Fluorescent Indicators for Imaging Brain Chemistry
- Crystal Structure of the Red Light-Activated Channelrhodopsin Chrimson
- A System for Optically Controlling Neural Circuits with Very High Spatial and Temporal Resolution
- Custom-Tailored Molecules
- Wide-Area All-Optical Neurophysiology in Acute Brain Slices
- The Past, Present and Future of Light-Gated Ion Channels and Optogenetics
- Optogenetics at Cellular Resolution
- An Optogenetic Brain-Machine Interface for Spatiotemporal Neuromodulation Ryan Andrew Baumgartner University of Wisconsin-Milwaukee
- Anion-Conducting Channelrhodopsins with Tuned Spectra and Modified Kinetics Engineered for Optogenetic Manipulation of Behavior
- Optimizing Optogenetic Stimulation Protocols in Auditory Corticofugal Neurons Based on Closed-Loop Spike Feedback
- Activation of Distinct Channelrhodopsin Variants Engages Different Patterns of Network Activity
- Optogenetics and Synaptic Plasticity
- Ion Channel Properties of a Cation Channelrhodopsin, Gt CCR4
- Unique Light-Gated Ion Channel Properties of a Novel Modular Cation Channelrhodopsin from an Evolutionary Important Terrestrial Green Alga
- Targeting Barrel Field Spiny Stellate Cells Using a Vesicular Monoaminergic Transporter 2-Cre Mouse Line
- Chr2*H134R ; Tdt 2Xcheta-Tdt 017455 Activity
- Expression and Purification of Channelrhodopsin-2 in Pichia Pastoris: Generation of Blue-Shifted and Red- Shifted Optogenetic Variants
- Optogenetic Stimulation of Medial Amygdala GABA Neurons with Kinetically Different Channelrhodopsin Variants Yield Opposite Beha
- Simultaneous Optogenetic Manipulation and Calcium Imaging in Freely Moving C
- High-Efficiency Channelrhodopsins for Fast Neuronal Stimulation at Low Light Levels
- Channelrhodopsin-2, a Directly Light-Gated Cation-Selective Membrane Channel