91 results found
    1. Neuroscience

    Bayesian analysis of retinotopic maps

    Noah C Benson, Jonathan Winawer
    A novel Bayesian method of modeling retinotopic maps is more accurate than traditional voxel-wise methods and can be used to automatically derive high-quality maps.
    1. Neuroscience

    A hierarchical, retinotopic proto-organization of the primate visual system at birth

    Michael J Arcaro, Margaret S Livingstone
    A retinotopic proto-organization present at birth provides the infrastructure for the subsequent development of visual cortex that commences at the onset of visual experience.
    1. Neuroscience

    An extended retinotopic map of mouse cortex

    Jun Zhuang et al.
    An expanded map of mouse cortex reveals the expansion of retinotopic organization into barrel and retrosplenial cortices.
    1. Neuroscience

    Using an achiasmic human visual system to quantify the relationship between the fMRI BOLD signal and neural response

    Pinglei Bao et al.
    The lower-level retinotopic visual cortex of humans born without the optic chiasm comprises two independent neuronal populations and forms a versatile model for quantifying the relationship between the fMRI BOLD signal and neural response.
    1. Neuroscience

    A neural circuit for gamma-band coherence across the retinotopic map in mouse visual cortex

    Richard Hakim et al.
    A neural circuit between layer 2/3 pyramidal cells and somatostatin-expressing inhibitory neurons synchronizes spatially separated regions of the visual cortex to gamma rhythms.
    1. Neuroscience

    Visual Behavior: The eyes have it

    Mehmet Keleş, Mark A Frye
    Molecular genetic experiments are revealing how the fly brain generates behavioral responses to visual stimuli.
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    1. Neuroscience

    Visual projection neurons in the Drosophila lobula link feature detection to distinct behavioral programs

    Ming Wu et al.
    Neurons called lobula columnar cells help fruit flies respond appropriately to specific visual cues, such as those signaling an approaching predator.
    1. Neuroscience

    Mouse color and wavelength-specific luminance contrast sensitivity are non-uniform across visual space

    Daniel J Denman et al.
    Mice can detect changes in hue independent of luminance, with differing sensitivity to hue and luminance in different parts of visual space.
    1. Neuroscience

    Conditioning sharpens the spatial representation of rewarded stimuli in mouse primary visual cortex

    Pieter M Goltstein et al.
    Stimulus-reward learning sharpens the local representation of the visual space while leaving the overall retinotopic map intact.
    1. Neuroscience

    Vision: Framing orientation selectivity

    Floris P de Lange, Matthias Ekman
    The ongoing debate on the neural basis of orientation selectivity in the primary visual cortex continues.
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