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Melanopsin-based brightness discrimination in mice and humans.

Melanopsin-based brightness discrimination in mice and humans.

http://www.wikidata.org/entity/Q36431693

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Neuroimaging, cognition, light and circadian rhythms Human melanopsin forms a pigment maximally sensitive to blue light (λmax ≈ 479 nm) supporting activation of G(q/11) and G(i/o) signalling cascades The effect of lens aging and cataract surgery on circadian rhythm Restoring the ON Switch in Blind Retinas: Opto-mGluR6, a Next-Generation, Cell-Tailored Optogenetic Tool Colour as a signal for entraining the mammalian circadian clock Optogenetic Vision Restoration Using Rhodopsin for Enhanced Sensitivity.Blue light stimulates cognitive brain activity in visually blind individuals.Using siRNA to define functional interactions between melanopsin and multiple G Protein partners.Pupillary light reflex to light inside the natural blind spot.Melanopsin-driven increases in maintained activity enhance thalamic visual response reliability across a simulated dawn Luminance and chromatic signals interact differently with melanopsin activation to control the pupil light response.Association between melanopsin gene polymorphism (I394T) and pupillary light reflex is dependent on light wavelength.Melanopsin Contributions to the Representation of Images in the Early Visual System.Displaced retinal ganglion cells in albino and pigmented rats Human trichromacy revisited Melanopsin gene polymorphism I394T is associated with pupillary light responses in a dose-dependent manner.Opponent melanopsin and S-cone signals in the human pupillary light response.The melanopic sensitivity function accounts for melanopsin-driven responses in mice under diverse lighting conditions Distribution of melanopsin positive neurons in pigmented and albino mice: evidence for melanopsin interneurons in the mouse retina Selective stimulation of penumbral cones reveals perception in the shadow of retinal blood vessels Melanopsin-derived visual responses under light adapted conditions in the mouse dLGN.Rod- and cone-driven responses in mice expressing human L-cone pigment.All spiking, sustained ON displaced amacrine cells receive gap-junction input from melanopsin ganglion cells.Form and function of the M4 cell, an intrinsically photosensitive retinal ganglion cell type contributing to geniculocortical vision Spatial receptive fields in the retina and dorsal lateral geniculate nucleus of mice lacking rods and cones.Characterizing and modeling the intrinsic light response of rat ganglion-cell photoreceptors.Human Visual Cortex Responses to Rapid Cone and Melanopsin-Directed Flicker.Visual input to the mouse lateral posterior and posterior thalamic nuclei: photoreceptive origins and retinotopic order.Adaptation to steady light by intrinsically photosensitive retinal ganglion cells Processing of S-cone signals in the inner plexiform layer of the mammalian retina.Signalling by melanopsin (OPN4) expressing photosensitive retinal ganglion cells.Restoration of Vision with Ectopic Expression of Human Rod Opsin.LED Lights With Hidden Intensity-Modulated Blue Channels Aiming for Enhanced Subconscious Visual Responses.Eye-specific visual processing in the mouse suprachiasmatic nuclei.A five-primary photostimulator suitable for studying intrinsically photosensitive retinal ganglion cell functions in humans.Contributions of rhodopsin, cone opsins, and melanopsin to postreceptoral pathways inferred from natural image statistics.In a Heartbeat: Light and Cardiovascular Physiology.Sex differences in light sensitivity impact on brightness perception, vigilant attention and sleep in humans.The human visual cortex response to melanopsin-directed stimulation is accompanied by a distinct perceptual experience.Melanopsin supports irradiance-driven changes in maintained activity in the superior colliculus of the mouse.

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P2860

Melanopsin-based brightness discrimination in mice and humans.

http://www.wikidata.org/entity/Q36431693

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2012年学术文章

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2012年学术文章

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2012年學術文章

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2012年學術文章

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Melanopsin-based brightness discrimination in mice and humans.

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Melanopsin-based brightness discrimination in mice and humans.

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Melanopsin-based brightness discrimination in mice and humans.

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Melanopsin-based brightness discrimination in mice and humans.

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Melanopsin-based brightness discrimination in mice and humans.

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Melanopsin-based brightness discrimination in mice and humans.

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J.CUB.2012.04.039

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Current Biology

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Melanopsin-based brightness discrimination in mice and humans.

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Annette E Allen

http://www.w3.org/2001/XMLSchema#string

Anthony Vugler

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Graham Vickery

http://www.w3.org/2001/XMLSchema#string

Jonathan Wynne

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Robert Bedford

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Robert J Lucas

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Sei-Ichi Tsujimura

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Timothy M Brown

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P2860

UV-sensitive photoreceptor protein OPN5 in humans and mice

Melanopsin contributions to irradiance coding in the thalamo-cortical visual system

Short-wavelength light sensitivity of circadian, pupillary, and visual awareness in humans lacking an outer retina

Dissecting a role for melanopsin in behavioural light aversion reveals a response independent of conventional photoreception

Intrinsically photosensitive retinal ganglion cells: many subtypes, diverse functions.

Strange vision: ganglion cells as circadian photoreceptors

Phototransduction by retinal ganglion cells that set the circadian clock

Melanopsin-expressing ganglion cells in primate retina signal colour and irradiance and project to the LGN

Melanopsin bistability: a fly's eye technology in the human retina

Visual responses in mice lacking critical components of all known retinal phototransduction cascades.

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