Mechanisms by which the cortex generates a sparse and reliable spiking code
Introduction
Does the cortex use a dense
code in which neurons discharge to lots of stimuli (e.g. like a
photoreceptor) or is the code more sparse, with spikes representing
more rare events? A related question is: how energy efficient is
the cortex? Do cortical neurons generate high rates of activity
or are they more quiet than active? (A sparse code is typically
associated with fewer spikes over prolonged periods.)
Here we examine the cellular mechanisms of
sparseness, reliability, and precision in visual cortical neurons by
recording intracellularly from visual cortical neurons in V1 from
anesthetized animals while presenting natural scenes on a computer
monitor.
This seminar is based upon a study published here: Haider, B., Krause, M.R., Duque, A., Yu, Y., Touryan, J., Mazer, J.A.,
McCormick, D.A. (2010) Synaptic
and network mechanisms of sparse and reliable visual cortical activity during
nonclassical receptive field stimulation. Neuron, 65: 107-121.
This work was done in collaboration with the laboratory of Jamie Mazer at Yale.
