AbstractG protein activation by membrane-bound receptors initiates a chain reaction that amplifies cellular responses to external signals. In retinal photoreceptors, amplification by the phototransduction cascade is regulated by quickly switching off the visual pigment that acts as the receptor for light
AbstractEfficient single-photon detection by retinal rod photoreceptors requires timely and reproduc...
SummaryFor over 30 years, photoreceptors have been an outstanding model system for elucidating basic...
AbstractA recent study suggests a neuronal circuit in the retina by which amacrine cells contribute ...
AbstractG protein activation by membrane-bound receptors initiates a chain reaction that amplifies c...
AbstractSingle photon responses were compared in wild-type and transgenic retinal rods with and with...
AbstractWe propose a model for the recovery of the retinal rod photoresponse after a short stimulus....
AbstractG-protein-coupled enzyme cascades are used by eukaryotic cells to detect external signals an...
SummarySignaling through G protein-coupled receptors (GPCRs) underlies many cellular processes, yet ...
Phototransduction in vertebrate photoreceptor cells represents a paradigm of signaling pathways medi...
Rod photoreceptors are among the most sensitive light detectors in nature. They achieve their remark...
Our laboratory is interested in the molecular mechanism ofG protein-mediated signal transduction. We...
BACKGROUND:Phototransduction in vertebrate photoreceptor cells represents a paradigm of signaling pa...
ABSTRACT G-protein-coupled enzyme cascades are used by eukaryotic cells to detect external signals a...
Phototransduction in vertebrates represents a paradigm of signalling pathways, in particular those m...
AbstractG protein-coupled receptor inactivation is a crucial feature of cellular signaling systems; ...
AbstractEfficient single-photon detection by retinal rod photoreceptors requires timely and reproduc...
SummaryFor over 30 years, photoreceptors have been an outstanding model system for elucidating basic...
AbstractA recent study suggests a neuronal circuit in the retina by which amacrine cells contribute ...
AbstractG protein activation by membrane-bound receptors initiates a chain reaction that amplifies c...
AbstractSingle photon responses were compared in wild-type and transgenic retinal rods with and with...
AbstractWe propose a model for the recovery of the retinal rod photoresponse after a short stimulus....
AbstractG-protein-coupled enzyme cascades are used by eukaryotic cells to detect external signals an...
SummarySignaling through G protein-coupled receptors (GPCRs) underlies many cellular processes, yet ...
Phototransduction in vertebrate photoreceptor cells represents a paradigm of signaling pathways medi...
Rod photoreceptors are among the most sensitive light detectors in nature. They achieve their remark...
Our laboratory is interested in the molecular mechanism ofG protein-mediated signal transduction. We...
BACKGROUND:Phototransduction in vertebrate photoreceptor cells represents a paradigm of signaling pa...
ABSTRACT G-protein-coupled enzyme cascades are used by eukaryotic cells to detect external signals a...
Phototransduction in vertebrates represents a paradigm of signalling pathways, in particular those m...
AbstractG protein-coupled receptor inactivation is a crucial feature of cellular signaling systems; ...
AbstractEfficient single-photon detection by retinal rod photoreceptors requires timely and reproduc...
SummaryFor over 30 years, photoreceptors have been an outstanding model system for elucidating basic...
AbstractA recent study suggests a neuronal circuit in the retina by which amacrine cells contribute ...
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