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Science 8 December 2000:
Reports
The Contribution of Noise to Contrast Invariance of Orientation Tuning in Cat Visual Cortex
Jeffrey S. Anderson, Ilan Lampl, Deda C. Gillespie, David Ferster *
Feedforward models of visual cortex appear to be inconsistent with
a well-known property of cortical cells: contrast invariance of
orientation tuning. The models' fixed threshold broadens orientation tuning as contrast increases, whereas in real cells tuning width is
invariant with contrast. We have compared the orientation tuning of
spike and membrane potential responses in single cells. Both are
contrast invariant, yet a threshold-linear relation applied to the
membrane potential accurately predicts the orientation tuning of spike
responses. The key to this apparent paradox lies in the noisiness of
the membrane potential. Responses that are subthreshold on average are
still capable of generating spikes on individual trials. Unlike the
iceberg effect, contrast invariance remains intact even as threshold
narrows orientation selectivity. Noise may, by extension, smooth the
average relation between membrane potential and spike rate throughout
the brain.
Department of Neurobiology and Physiology, Northwestern
University, 2153 North Campus Drive, Evanston, IL 60208, USA.
* ferster{at}northwestern.edu
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PERSPECTIVES NEUROSCIENCE: Maxim Volgushev and Ulf T. Eysel (8 December 2000)Science
290 (5498), 1908.
[DOI: 10.1126/science.290.5498.1908]| Summary »
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