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An Alternative Pathway Mediates the Mouse and Human Cone Visual Cycle
Jin Shan Wang, Vladimir J. Kefalov
Department of Ophthalmology and Visual Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
114
Scopus citations
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Keyphrases
Alternative Pathway
100%
Chromophore
100%
Pigment Epithelium
100%
Cone Visual Cycle
100%
Visual Cycle
66%
Dark Adaptation
66%
Pigment Regeneration
66%
Primates
33%
Specific Mechanisms
33%
Dynamic Range
33%
Cone Photoreceptor
33%
Photoreceptor
33%
Evolutionarily Conserved
33%
Regeneration Mechanism
33%
Neural Retina
33%
Background Light
33%
Daylight
33%
11-cis-retinal
33%
Cone pigments
33%
Visual pigment
33%
Rapid Regeneration
33%
Human Visual System
33%
All-trans-retinal
33%
Higher Mammals
33%
Continuous Function
33%
Neuroscience
Photosynthetic Pigment
100%
Photoreceptor
66%
Pigmentation
66%
Vitamin A
33%
Visual Pigment
33%
11 Cis Retinal
33%
Biochemistry, Genetics and Molecular Biology
Photosynthetic Pigment
100%
Dark Adaptation
50%
Photoreceptor Cell
50%
Pigmentation
50%
Sunlight
25%
Vitamin A
25%