Abstract
The ability of cone photoreceptors to adapt to light is extraordinary. In this study we evaluated two biochemical processes, visual pigment phosphorylation and transducin translocation, for their ability to contribute to light adaptation in zebrafish cones. Since cytoplasmic Ca2+ regulates light adaptation, the sensitivities of these processes to both light and Ca2+ were examined. Cytoplasmic Ca2+ regulates the sites of light-stimulated phosphorylation. Unexpectedly, we found that Ca2+ also regulates the extent of phosphorylation of unbleached cone pigments. Immunocytochemical analyses revealed that neither light nor cytoplasmic Ca2+ influences the localization of transducin in zebrafish cones.
Publication types
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Research Support, U.S. Gov't, P.H.S.
MeSH terms
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Adaptation, Ocular / drug effects
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Adaptation, Ocular / physiology*
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Animals
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Calcium / metabolism
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Calcium / pharmacology
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Calcium Signaling / drug effects
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Calcium Signaling / physiology
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Cytoplasm / drug effects
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Cytoplasm / metabolism
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Immunohistochemistry
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Light
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Mutation / genetics
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Organ Culture Techniques
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Phosphorylation / drug effects
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Phosphorylation / radiation effects
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Photic Stimulation
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Protein Transport / physiology
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Protein Transport / radiation effects
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Retinal Cone Photoreceptor Cells / cytology
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Retinal Cone Photoreceptor Cells / drug effects
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Retinal Cone Photoreceptor Cells / metabolism*
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Retinal Pigments / genetics
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Retinal Pigments / metabolism*
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Rod Opsins / genetics
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Rod Opsins / metabolism
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Transducin / metabolism*
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Vision, Ocular / physiology*
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Vision, Ocular / radiation effects
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Zebrafish
Substances
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Retinal Pigments
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Rod Opsins
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Transducin
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Calcium