Article abstract


Nature Neuroscience 11, 1335 - 1342 (2008)
Published online: 19 October 2008 | doi:10.1038/nn.2212

Fractional differentiation by neocortical pyramidal neurons

Brian N Lundstrom1, Matthew H Higgs1,2, William J Spain1,2 & Adrienne L Fairhall1


Neural systems adapt to changes in stimulus statistics. However, it is not known how stimuli with complex temporal dynamics drive the dynamics of adaptation and the resulting firing rate. For single neurons, it has often been assumed that adaptation has a single time scale. We found that single rat neocortical pyramidal neurons adapt with a time scale that depends on the time scale of changes in stimulus statistics. This multiple time scale adaptation is consistent with fractional order differentiation, such that the neuron's firing rate is a fractional derivative of slowly varying stimulus parameters. Biophysically, even though neuronal fractional differentiation effectively yields adaptation with many time scales, we found that its implementation required only a few properly balanced known adaptive mechanisms. Fractional differentiation provides single neurons with a fundamental and general computation that can contribute to efficient information processing, stimulus anticipation and frequency-independent phase shifts of oscillatory neuronal firing.

Top
  1. Department of Physiology and Biophysics, Box 357290, University of Washington, Seattle, Washington 98195, USA.
  2. Veterans Affairs Puget Sound Health Care System, Department of Neurology, 1660 South Columbian Way, Seattle, Washington 98108, USA.

Correspondence to: Adrienne L Fairhall1 e-mail: fairhall@u.washington.edu



MORE ARTICLES LIKE THIS

These links to content published by NPG are automatically generated.

REVIEWS

Burst firing in sensory systems

Nature Reviews Neuroscience Review (01 Jan 2004)

See all 7 matches for Reviews