Literature DB >> 21813691

Temporal precision in the visual pathway through the interplay of excitation and stimulus-driven suppression.

Daniel A Butts1, Chong Weng, Jianzhong Jin, Jose-Manuel Alonso, Liam Paninski.   

Abstract

Visual neurons can respond with extremely precise temporal patterning to visual stimuli that change on much slower time scales. Here, we investigate how the precise timing of cat thalamic spike trains-which can have timing as precise as 1 ms-is related to the stimulus, in the context of both artificial noise and natural visual stimuli. Using a nonlinear modeling framework applied to extracellular data, we demonstrate that the precise timing of thalamic spike trains can be explained by the interplay between an excitatory input and a delayed suppressive input that resembles inhibition, such that neuronal responses only occur in brief windows where excitation exceeds suppression. The resulting description of thalamic computation resembles earlier models of contrast adaptation, suggesting a more general role for mechanisms of contrast adaptation in visual processing. Thus, we describe a more complex computation underlying thalamic responses to artificial and natural stimuli that has implications for understanding how visual information is represented in the early stages of visual processing.

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Year:  2011        PMID: 21813691      PMCID: PMC3197857          DOI: 10.1523/JNEUROSCI.0434-11.2011

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  70 in total

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  38 in total

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5.  Inferring synaptic inputs from spikes with a conductance-based neural encoding model.

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10.  Spatiotemporal Filter for Visual Motion Integration from Pursuit Eye Movements in Humans and Monkeys.

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