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Multivesicular release
Multivesicular Release Differentiates the Reliability of Synaptic Transmission Between the Visual Cortex and the Somatosensory Cortex
Synaptics and the Auditory Nerve;.Pdf
The Diverse Roles of Ribbon Synapses in Sensory Neurotransmission
Molecular Assembly and Structural Plasticity of Sensory Ribbon Synapses—A Presynaptic Perspective
The Ubiquitous Nature of Multivesicular Release
Presynaptic LTP and LTD of Excitatory and Inhibitory Synapses
The Presynaptic Ribbon Maintains Vesicle Populations at the Hair Cell Afferent Fiber Synapse Lars Becker Stanford University
Synaptic Vesicles Undock and Then Transiently Dock After an Action Potential
Multivesicular Release at Schaffer Collateral–CA1 Hippocampal Synapses
New Insights Into Cochlear Sound Encoding[Version 1; Referees: 2
The Vesicular Release Probability Sets the Strength of Individual Schaffer Collateral Synapses
Understanding Synaptic and Circuit Disruptions of Excitatory and Inhibitory Function in Fragile X Mental Retardation Approved B
Elementary Properties of Ca2+ Channels and Their Influence On
The Readily-Releasable Pool Dynamically Regulates Multivesicular Release
VISUALIZATION of the RIBBON SYNAPSE USING RIBEYE A-MCHERRY FUSION PROTEIN by Megan C. West Submitted in Partial Fulfillment of T
Proton-Mediated Block of Ca Channels During Multivesicular Release Regulates Short-Term Plasticity at an Auditory Hair Cell Syna
The Vesicular Release Probability Sets the Strength of Individual Schaffer Collateral Synapses
Synaptic Transmission Neuroscience 201A Peter Sargent
Top View
Modelling of the Auditory Ribbon Synapse
Individual Synaptic Vesicles Mediate Stimulated Exocytosis from Cochlear Inner Hair Cells
Sharp Ca Nanodomains Beneath the Ribbon Promote Highly Synchronous Multivesicular Release at Hair Cell Synapses
Persistent, Exocytosis-Independent Silencing of Release Sites Underlies Homosynaptic Depression at Sensory Synapses Inaplysia
Action Potential Counting at Giant Mossy Fiber Terminals Gates Information Transfer in the Hippocampus
Excitability of Type II Cochlear Afferents
Spatiotemporal Dynamics of Multi- Vesicular Release Is Determined by Heterogeneity of Release Sites Within Central Synapses Dario Maschi, Vitaly a Klyachko*
Vesicular Release Probability Sets the Strength of Individual Schaffer Collateral Synapses
Structure and Function of a Neocortical Synapse
Measuring Glutamate Transients at Schaffer Collateral Synapses
The Influence of Multivesicular Release and Postsynaptic Receptor Saturation on Transmission at Granule Cell to Purkinje Cell Synapses
Structural Determinants Underlying the High Efficacy of Synaptic Transmission and Plasticity at Synaptic Boutons in Layer 4 of T
Response Properties from Turtle Auditory Hair Cell Afferent Fibers Suggest Spike Generation Is Driven by Synchronized Release Bo
Visualizing Synaptic Vesicle Turnover and Pool Refilling Driven by Calcium Nanodomains at Presynaptic Active Zones of Ribbon Synapses