Cull-Candy, Stuart.
AMPA-receptors and fast synaptic transmission in the brain [electronic resource] / Stuart Cull-Candy. - London : Henry Stewart Talks, 2015. - 1 online resource (1 streaming video file (36 min.) : color, sound). - Synapses, neurotransmitters and receptor channels, 2056-452X . - Henry Stewart talks. Biomedical & life sciences collection. Synapses, neurotransmitters and receptor channels. .
Animated audio-visual presentation with synchronized narration. Title from title frames.
Contents: The fast component of excitatory synaptic transmission in the brain mediated by AMPARs -- Functionally distinct AMPAR subtypes are involved in transmission (importance of topology) -- How AMPAR diversity shapes transmission (implications of differential distribution and plasticity) -- How AMPAR structure affects its behaviour and properties -- Role of auxiliary AMPAR proteins (stargazin) in controlling AMPAR properties and diversity.
Access restricted to subscribers.
Mode of access: World Wide Web.
3796 Henry Stewart Talks
Brain--Metabolism.
Neural receptors.
Neural transmission.
Brain--metabolism.
Neuronal Plasticity--physiology.
Receptors, AMPA.
Synapses--physiology.
Synaptic Transmission.
AMPA-receptors and fast synaptic transmission in the brain [electronic resource] / Stuart Cull-Candy. - London : Henry Stewart Talks, 2015. - 1 online resource (1 streaming video file (36 min.) : color, sound). - Synapses, neurotransmitters and receptor channels, 2056-452X . - Henry Stewart talks. Biomedical & life sciences collection. Synapses, neurotransmitters and receptor channels. .
Animated audio-visual presentation with synchronized narration. Title from title frames.
Contents: The fast component of excitatory synaptic transmission in the brain mediated by AMPARs -- Functionally distinct AMPAR subtypes are involved in transmission (importance of topology) -- How AMPAR diversity shapes transmission (implications of differential distribution and plasticity) -- How AMPAR structure affects its behaviour and properties -- Role of auxiliary AMPAR proteins (stargazin) in controlling AMPAR properties and diversity.
Access restricted to subscribers.
Mode of access: World Wide Web.
3796 Henry Stewart Talks
Brain--Metabolism.
Neural receptors.
Neural transmission.
Brain--metabolism.
Neuronal Plasticity--physiology.
Receptors, AMPA.
Synapses--physiology.
Synaptic Transmission.