RGS-r, a retinal specific RGS protein, binds an intermediate conformation of transducin and enhances recycling

Ching Kang Chen; Thomas Wieland; Melvin I. Simon

doi:10.1073/pnas.93.23.12885

RGS-r, a retinal specific RGS protein, binds an intermediate conformation of transducin and enhances recycling

Ching Kang Chen, Thomas Wieland, Melvin I. Simon

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128 Citas (Scopus)

Resumen

G proteins regulate intracellular signaling by coupling a cycle of guanine nucleotide binding and hydrolysis to transient changes of cellular functions. The mechanisms that control the recycling of transducin, the "pacesetting" G protein that regulates mammalian phototransduction, are unclear. We show that a novel retinal specific RGS-motif protein specifically binds to an intermediate conformation involved in GTP hydrolysis by transducin and accelerates phosphate release and the recycling of transducin. This specific interaction further rationalizes the kinetics of the phototransduction cascade and provides a general hypothesis to explain the mechanism of interaction of RGS proteins with other G proteins.

Idioma original	English (US)
Páginas (desde-hasta)	12885-12889
Número de páginas	5
Publicación	Proceedings of the National Academy of Sciences of the United States of America
Volumen	93
N.º	23
DOI	https://doi.org/10.1073/pnas.93.23.12885
Estado	Published - nov 12 1996
Publicado de forma externa	Sí

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title = "RGS-r, a retinal specific RGS protein, binds an intermediate conformation of transducin and enhances recycling",

abstract = "G proteins regulate intracellular signaling by coupling a cycle of guanine nucleotide binding and hydrolysis to transient changes of cellular functions. The mechanisms that control the recycling of transducin, the {"}pacesetting{"} G protein that regulates mammalian phototransduction, are unclear. We show that a novel retinal specific RGS-motif protein specifically binds to an intermediate conformation involved in GTP hydrolysis by transducin and accelerates phosphate release and the recycling of transducin. This specific interaction further rationalizes the kinetics of the phototransduction cascade and provides a general hypothesis to explain the mechanism of interaction of RGS proteins with other G proteins.",

keywords = "G protein, Phototransduction, Recovery, Retina",

author = "Chen, {Ching Kang} and Thomas Wieland and Simon, {Melvin I.}",

year = "1996",

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T1 - RGS-r, a retinal specific RGS protein, binds an intermediate conformation of transducin and enhances recycling

AU - Chen, Ching Kang

AU - Wieland, Thomas

AU - Simon, Melvin I.

PY - 1996/11/12

Y1 - 1996/11/12

N2 - G proteins regulate intracellular signaling by coupling a cycle of guanine nucleotide binding and hydrolysis to transient changes of cellular functions. The mechanisms that control the recycling of transducin, the "pacesetting" G protein that regulates mammalian phototransduction, are unclear. We show that a novel retinal specific RGS-motif protein specifically binds to an intermediate conformation involved in GTP hydrolysis by transducin and accelerates phosphate release and the recycling of transducin. This specific interaction further rationalizes the kinetics of the phototransduction cascade and provides a general hypothesis to explain the mechanism of interaction of RGS proteins with other G proteins.

AB - G proteins regulate intracellular signaling by coupling a cycle of guanine nucleotide binding and hydrolysis to transient changes of cellular functions. The mechanisms that control the recycling of transducin, the "pacesetting" G protein that regulates mammalian phototransduction, are unclear. We show that a novel retinal specific RGS-motif protein specifically binds to an intermediate conformation involved in GTP hydrolysis by transducin and accelerates phosphate release and the recycling of transducin. This specific interaction further rationalizes the kinetics of the phototransduction cascade and provides a general hypothesis to explain the mechanism of interaction of RGS proteins with other G proteins.

KW - G protein

KW - Phototransduction

KW - Recovery

KW - Retina

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RGS-r, a retinal specific RGS protein, binds an intermediate conformation of transducin and enhances recycling

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