Disruption of a retinal guanylyl cyclase gene leads to cone-specific dystrophy and paradoxical rod behavior

Ruey Bing Yang; Susan W. Robinson; Wei Hong Xiong; King Wai Yau; David G. Birch; David L. Garbers

doi:10.1523/jneurosci.19-14-05889.1999

Disruption of a retinal guanylyl cyclase gene leads to cone-specific dystrophy and paradoxical rod behavior

Ruey Bing Yang, Susan W. Robinson, Wei Hong Xiong, King Wai Yau, David G. Birch, David L. Garbers

School of Medicine

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

156 Scopus citations

Abstract

One of two orphan photoreceptor guanylyl cyclases that are highly conserved from fish to mammals, GC-E (or retGC1) was eliminated by gene disruption. Expression of the second retinal cyclase (GC-F) as well as the numbers and morphology of rods remained unchanged in GC-E null mice. However, rods isolated from such mice, despite having a normal dark current, recovered from a light flash markedly faster. Unexpectedly, the a- and b-waves of electroretinograms (ERG) from dark-adapted null mice were suppressed markedly. Cones, initially present in normal numbers in the retina, disappeared by 5 weeks, based on ERG and histology. Thus, the GC-E-deficient mouse defines a model for cone dystrophy, but it also demonstrates that morphologically normal rods display paradoxical behavior in their responses to light.

Original language	English (US)
Pages (from-to)	5889-5897
Number of pages	9
Journal	Journal of Neuroscience
Volume	19
Issue number	14
DOIs	https://doi.org/10.1523/jneurosci.19-14-05889.1999
State	Published - Jul 15 1999

Keywords

Cone dystrophy
Cyclic GMP
Gene disruption
Guanylyl cyclase-E
Guanylyl cyclases
Mice
Photoreceptors
Retina

ASJC Scopus subject areas

Neuroscience(all)

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10.1523/jneurosci.19-14-05889.1999

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title = "Disruption of a retinal guanylyl cyclase gene leads to cone-specific dystrophy and paradoxical rod behavior",

abstract = "One of two orphan photoreceptor guanylyl cyclases that are highly conserved from fish to mammals, GC-E (or retGC1) was eliminated by gene disruption. Expression of the second retinal cyclase (GC-F) as well as the numbers and morphology of rods remained unchanged in GC-E null mice. However, rods isolated from such mice, despite having a normal dark current, recovered from a light flash markedly faster. Unexpectedly, the a- and b-waves of electroretinograms (ERG) from dark-adapted null mice were suppressed markedly. Cones, initially present in normal numbers in the retina, disappeared by 5 weeks, based on ERG and histology. Thus, the GC-E-deficient mouse defines a model for cone dystrophy, but it also demonstrates that morphologically normal rods display paradoxical behavior in their responses to light.",

keywords = "Cone dystrophy, Cyclic GMP, Gene disruption, Guanylyl cyclase-E, Guanylyl cyclases, Mice, Photoreceptors, Retina",

author = "Yang, {Ruey Bing} and Robinson, {Susan W.} and Xiong, {Wei Hong} and Yau, {King Wai} and Birch, {David G.} and Garbers, {David L.}",

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AU - Yang, Ruey Bing

AU - Robinson, Susan W.

AU - Xiong, Wei Hong

AU - Yau, King Wai

AU - Birch, David G.

AU - Garbers, David L.

PY - 1999/7/15

Y1 - 1999/7/15

N2 - One of two orphan photoreceptor guanylyl cyclases that are highly conserved from fish to mammals, GC-E (or retGC1) was eliminated by gene disruption. Expression of the second retinal cyclase (GC-F) as well as the numbers and morphology of rods remained unchanged in GC-E null mice. However, rods isolated from such mice, despite having a normal dark current, recovered from a light flash markedly faster. Unexpectedly, the a- and b-waves of electroretinograms (ERG) from dark-adapted null mice were suppressed markedly. Cones, initially present in normal numbers in the retina, disappeared by 5 weeks, based on ERG and histology. Thus, the GC-E-deficient mouse defines a model for cone dystrophy, but it also demonstrates that morphologically normal rods display paradoxical behavior in their responses to light.

AB - One of two orphan photoreceptor guanylyl cyclases that are highly conserved from fish to mammals, GC-E (or retGC1) was eliminated by gene disruption. Expression of the second retinal cyclase (GC-F) as well as the numbers and morphology of rods remained unchanged in GC-E null mice. However, rods isolated from such mice, despite having a normal dark current, recovered from a light flash markedly faster. Unexpectedly, the a- and b-waves of electroretinograms (ERG) from dark-adapted null mice were suppressed markedly. Cones, initially present in normal numbers in the retina, disappeared by 5 weeks, based on ERG and histology. Thus, the GC-E-deficient mouse defines a model for cone dystrophy, but it also demonstrates that morphologically normal rods display paradoxical behavior in their responses to light.

KW - Cone dystrophy

KW - Cyclic GMP

KW - Gene disruption

KW - Guanylyl cyclase-E

KW - Guanylyl cyclases

KW - Mice

KW - Photoreceptors

KW - Retina

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Disruption of a retinal guanylyl cyclase gene leads to cone-specific dystrophy and paradoxical rod behavior

Abstract

Keywords

ASJC Scopus subject areas

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