It was recently shown that multiple excitatory inputs to CA1 pyramidal neuron dendrites must be activated nearly simultaneously to generate local dendritic spikes and superlinear responses at the soma; even slight input desynchronization prevented local spike initiation (Gasparini, 2006;Losonczy, 2006). This led to the conjecture that CA1 pyramidal neurons may only express their nonlinear integrative capabilities during the highly synchronized sharp waves and ripples that occur during slow wave sleep and resting/consummatory behavior, whereas during active exploration and REM sleep (theta rhythm), inadequate synchronization of excitation would lead CA1 pyramidal cells to function as essentially linear devices. Using a detailed single neuron...
Ripples are high-frequency oscillations associated with population bursts in area CA1 of the hippoca...
In the field of cortical cellular physiology, much effort has been invested in understanding thick a...
SummaryThe transformation of dendritic excitatory synaptic inputs to axonal action potential output ...
SummaryAlthough radial oblique dendrites are a major synaptic input site in CA1 pyramidal neurons, l...
textA CA1 pyramidal neuron in the rodent hippocampus integrates inputs from as many as 30,000 synaps...
Recent studies on the initiation and propagation of dendritic spikes have modified the classical vie...
SummaryCortical pyramidal neurons receive thousands of synaptic inputs arriving at different dendrit...
Summary: Excitatory synaptic input reaches the soma of a cortical excitatory pyramidal neuron via an...
International audienceIn vivo, cortical pyramidal cells are bombarded by asynchronous synaptic input...
Cortical neurons integrate thousands of synaptic inputs in their dendrites in highly nonlinear ways....
Sharp wave-ripples (SWRs) are population oscillatory patterns in hippocampal LFPs during deep sleep ...
Dendrites of pyramidal cells exhibit complex morphologies and contain a variety of ionic conductance...
Dendrites integrate inputs nonlinearly, but it is unclear how these nonlinearities contribute to the...
Dendrites of pyramidal cells exhibit complex morphologies and contain a variety of ionic conductance...
Abstract. The active dendritic conductances shape the input-output properties of many principal neur...
Ripples are high-frequency oscillations associated with population bursts in area CA1 of the hippoca...
In the field of cortical cellular physiology, much effort has been invested in understanding thick a...
SummaryThe transformation of dendritic excitatory synaptic inputs to axonal action potential output ...
SummaryAlthough radial oblique dendrites are a major synaptic input site in CA1 pyramidal neurons, l...
textA CA1 pyramidal neuron in the rodent hippocampus integrates inputs from as many as 30,000 synaps...
Recent studies on the initiation and propagation of dendritic spikes have modified the classical vie...
SummaryCortical pyramidal neurons receive thousands of synaptic inputs arriving at different dendrit...
Summary: Excitatory synaptic input reaches the soma of a cortical excitatory pyramidal neuron via an...
International audienceIn vivo, cortical pyramidal cells are bombarded by asynchronous synaptic input...
Cortical neurons integrate thousands of synaptic inputs in their dendrites in highly nonlinear ways....
Sharp wave-ripples (SWRs) are population oscillatory patterns in hippocampal LFPs during deep sleep ...
Dendrites of pyramidal cells exhibit complex morphologies and contain a variety of ionic conductance...
Dendrites integrate inputs nonlinearly, but it is unclear how these nonlinearities contribute to the...
Dendrites of pyramidal cells exhibit complex morphologies and contain a variety of ionic conductance...
Abstract. The active dendritic conductances shape the input-output properties of many principal neur...
Ripples are high-frequency oscillations associated with population bursts in area CA1 of the hippoca...
In the field of cortical cellular physiology, much effort has been invested in understanding thick a...
SummaryThe transformation of dendritic excitatory synaptic inputs to axonal action potential output ...