Local tuning biases in mouse primary visual cortex

Neurons in primary visual cortex are selective to the orientation and spatial frequency of sinusoidal gratings. In the classic model of cortical organization, a population of neurons responding to the same region of the visual field but tuned to all possible feature combinations provides a detailed...

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Veröffentlicht in:	Journal of neurophysiology 2018-07, Vol.120 (1), p.274-280
Hauptverfasser:	Jimenez, Luis O, Tring, Elaine, Trachtenberg, Joshua T, Ringach, Dario L
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Bias Mice Neurons Orientation Rapid Report Visual Cortex Visual Fields
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container_title	Journal of neurophysiology
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creator	Jimenez, Luis O Tring, Elaine Trachtenberg, Joshua T Ringach, Dario L
description	Neurons in primary visual cortex are selective to the orientation and spatial frequency of sinusoidal gratings. In the classic model of cortical organization, a population of neurons responding to the same region of the visual field but tuned to all possible feature combinations provides a detailed representation of the local image. Such a functional module is assumed to be replicated across primary visual cortex to provide a uniform representation of the image across the entire visual field. In contrast, it has been hypothesized that the tiling properties of ON- and OFF-center receptive fields in the retina, largely mirrored in the geniculate, may constrain cortical tuning at each location in the visual field. This model predicts the existence of local biases in tuning that vary across the visual field and would prevent the cortex from developing a uniform, modular representation as postulated by the classic model. Here, we confirm the existence of local tuning biases in the primary visual cortex of the mouse, lending support to the notion that cortical tuning may be constrained by signals from the periphery. NEW & NOTEWORTHY Populations of cortical neurons responding to the same part of the visual field are shown to have similar tuning. Such local biases are consistent with the hypothesis that cortical tuning, in mouse primary visual cortex, is constrained by signals from the periphery.
doi_str_mv	10.1152/jn.00150.2018
format	Article
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subjects	Animals Bias Mice Neurons Orientation Rapid Report Visual Cortex Visual Fields
title	Local tuning biases in mouse primary visual cortex
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