Phototransduction in a transgenic mouse model of nougaret night blindness

Mustapha Moussaif; William W. Rubin; Vasily Kerov; Rebecca Reh; Desheng Chen; Janis Lem; Ching Kang Chen; James B. Hurley; Marie E. Burns; Nikolai O. Artemyev

doi:10.1523/JNEUROSCI.1322-06.2006

Phototransduction in a transgenic mouse model of nougaret night blindness

Mustapha Moussaif, William W. Rubin, Vasily Kerov, Rebecca Reh, Desheng Chen, Janis Lem, Ching Kang Chen, James B. Hurley, Marie E. Burns, Nikolai O. Artemyev

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

The Nougaret form of dominant stationary night blindness is linked to a G38D mutation in the rod transducin-α subunit (Tα). In this study, we have examined the mechanism of Nougaret night blindness using transgenic mice expressing TαG38D. The biochemical, electrophysiological, and vision-dependent behavioral analyses of the mouse model revealed a unique phenotype of reduced rod sensitivity, impaired activation, and slowed recovery of the phototransduction cascade. Two key deficiencies in TαG38D function, its poor ability to activate PDE6 (cGMP phosphodiesterase) and decreased GTPase activity, are found to be the major mechanisms altering visual signaling in transgenic mice. Despite these defects, rod-mediated sensitivity in heterozygous mice is not decreased to the extent seen in heterozygous Nougaret patients.

Original language	English (US)
Pages (from-to)	6863-6872
Number of pages	10
Journal	Journal of Neuroscience
Volume	26
Issue number	25
DOIs	https://doi.org/10.1523/JNEUROSCI.1322-06.2006
State	Published - 2006
Externally published	Yes

Keywords

G-proteins
Night blindness
Photoreceptor
Phototransduction
Retina
Transducin

ASJC Scopus subject areas

General Neuroscience

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10.1523/JNEUROSCI.1322-06.2006

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title = "Phototransduction in a transgenic mouse model of nougaret night blindness",

abstract = "The Nougaret form of dominant stationary night blindness is linked to a G38D mutation in the rod transducin-α subunit (Tα). In this study, we have examined the mechanism of Nougaret night blindness using transgenic mice expressing TαG38D. The biochemical, electrophysiological, and vision-dependent behavioral analyses of the mouse model revealed a unique phenotype of reduced rod sensitivity, impaired activation, and slowed recovery of the phototransduction cascade. Two key deficiencies in TαG38D function, its poor ability to activate PDE6 (cGMP phosphodiesterase) and decreased GTPase activity, are found to be the major mechanisms altering visual signaling in transgenic mice. Despite these defects, rod-mediated sensitivity in heterozygous mice is not decreased to the extent seen in heterozygous Nougaret patients.",

keywords = "G-proteins, Night blindness, Photoreceptor, Phototransduction, Retina, Transducin",

author = "Mustapha Moussaif and Rubin, {William W.} and Vasily Kerov and Rebecca Reh and Desheng Chen and Janis Lem and Chen, {Ching Kang} and Hurley, {James B.} and Burns, {Marie E.} and Artemyev, {Nikolai O.}",

year = "2006",

doi = "10.1523/JNEUROSCI.1322-06.2006",

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AU - Moussaif, Mustapha

AU - Rubin, William W.

AU - Kerov, Vasily

AU - Reh, Rebecca

AU - Chen, Desheng

AU - Lem, Janis

AU - Chen, Ching Kang

AU - Hurley, James B.

AU - Burns, Marie E.

AU - Artemyev, Nikolai O.

PY - 2006

Y1 - 2006

N2 - The Nougaret form of dominant stationary night blindness is linked to a G38D mutation in the rod transducin-α subunit (Tα). In this study, we have examined the mechanism of Nougaret night blindness using transgenic mice expressing TαG38D. The biochemical, electrophysiological, and vision-dependent behavioral analyses of the mouse model revealed a unique phenotype of reduced rod sensitivity, impaired activation, and slowed recovery of the phototransduction cascade. Two key deficiencies in TαG38D function, its poor ability to activate PDE6 (cGMP phosphodiesterase) and decreased GTPase activity, are found to be the major mechanisms altering visual signaling in transgenic mice. Despite these defects, rod-mediated sensitivity in heterozygous mice is not decreased to the extent seen in heterozygous Nougaret patients.

AB - The Nougaret form of dominant stationary night blindness is linked to a G38D mutation in the rod transducin-α subunit (Tα). In this study, we have examined the mechanism of Nougaret night blindness using transgenic mice expressing TαG38D. The biochemical, electrophysiological, and vision-dependent behavioral analyses of the mouse model revealed a unique phenotype of reduced rod sensitivity, impaired activation, and slowed recovery of the phototransduction cascade. Two key deficiencies in TαG38D function, its poor ability to activate PDE6 (cGMP phosphodiesterase) and decreased GTPase activity, are found to be the major mechanisms altering visual signaling in transgenic mice. Despite these defects, rod-mediated sensitivity in heterozygous mice is not decreased to the extent seen in heterozygous Nougaret patients.

KW - G-proteins

KW - Night blindness

KW - Photoreceptor

KW - Phototransduction

KW - Retina

KW - Transducin

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ER -

Phototransduction in a transgenic mouse model of nougaret night blindness

Abstract

Keywords

ASJC Scopus subject areas

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