Mutations in the gene encoding GlyT2 (SLC6A5) define a presynaptic component of human startle disease

Hyperekplexia: abnormal startle response due to glycine receptor mutations

Andrew, M.
Owen, Michael John

February 1997

BACKGROUND: Hyperekplexia is a rare but well-delineated clinical syndrome of pathological startl...

Molecular mechanisms of glycine transporter GlyT2 mutations in startle disease

James, V M
Gill, J L
Topf, M
Harvey, Robert J

January 2012

Startle disease affects newborn children and involves an exaggerated startle response and muscle hyp...

GLRB is the third major gene of effect in hyperekplexia

Chung, S.-K.
Bode, A.
Cushion, T. D.
Thomas, Rhys Huw
Hunt, C.
Wood, S.-E.
Pickrell, W. O.
Drew, C. J. G.
Yamashita, S.
Shiang, R.
Leiz, S.
Longhardt, A.-C.
Raile, V.
Weschke, B.
Puri, R. D.
Verma, I. C.
Harvey, R. J.
Ratnasinghe, D. D.
Parker, M.
Rittey, C.
Masri, A.
Lingappa, L.
Howell, O. W.
Vanbellinghen, J.-F.
Mullins, J. G.
Lynch, J. W.
Rees, M. I.

Glycinergic neurotransmission is a major inhibitory influence in the CNS and its disruption triggers...

Mutations in the gene encoding GlyT2 (SLC6A5) define a presynaptic component of human startle disease

Rees, Mark I.
Harvey, Kirsten
Pearce, Brian R.
Chung, Seo-Kyung
Duguid, Ian C.
Thomas, Philip
Beatty, Sarah
Graham, Gail E.
Armstrong, Linlea
Shiang, Rita
Abbott, Kim J.
Zuberi, Sameer M.
Stephenson, John B. P.
Owen, Michael J.
Tijssen, Marina A. J.
van den Maagdenberg, Arn M. J. M.
Smart, Trevor G.
Supplisson, Stephane
Harvey, Robert J.

July 2006

Hyperekplexia is a human neurological disorder characterized by an excessive startle response and is...

Mutations in the GlyT2 Gene (SLC6A5) Are a Second Major Cause of Startle Disease

Carta, Eloisa
Chung, Seo-Kyung
James, Victoria M.
Robinson, Angela
Gill, Jennifer L.
Remy, Nathalie
Vanbellinghen, Jean-Francois
Drew, Cheney J. G.
Cagdas, Sophie
Cameron, Duncan
Cowan, Frances M.
Del Toro, Mireria
Graham, Gail E.
Manzur, Adnan Y.
Masri, Amira
Rivera, Serge
Scalais, Emmanuel
Shiang, Rita
Sinclair, Kate
Stuart, Catriona A.
Tijssen, Marina A. J.
Wise, Grahame
Zuberi, Sameer M.
Harvey, Kirsten
Pearce, Brian R.
Topf, Maya
Thomas, Rhys H.
Supplisson, Stephane
Rees, Mark I.
Harvey, Robert J.

August 2012

Hereditary hyperekplexia or startle disease is characterized by an exaggerated startle response, evo...

Mutations in the GlyT2 gene (SLC6A5) are a second major cause of startle disease

Carta, E.
Chung, S.-K.
James, V. M.
Robinson, A.
Gill, J. L.
Remy, N.
Vanbellinghen, J.-F.
Drew, C. J. G.
Cagdas, S.
Cameron, D.
Cowan, F. M.
Del Toro, M.
Graham, G. E.
Manzur, A. Y.
Masri, A.
Rivera, S.
Scalais, E.
Shiang, R.
Sinclair, K.
Stuart, C. A.
Tijssen, M. A. J.
Wise, G.
Zuberi, S. M.
Harvey, K.
Pearce, B. R.
Topf, M.
Thomas, Rhys Huw
Supplisson, S.
Rees, M. I.
Harvey, R. J.

Hereditary hyperekplexia or startle disease is characterized by an exaggerated startle response, evo...

A novel dominant hyperekplexia mutation Y705C alters trafficking and biochemical properties of the presynaptic glycine transporter GlyT2

Gimenez, C.
Perez-Siles, G.
Martinez-Villarreal, J.
Arribas-Gonzalez, E.
Jimenez, E.
Nunez, E.
de Juan-Sanz, J.
Fernandez-Sanchez, E.
Garcia-Tardon, N.
Ibanez, I.
Romanelli, V.
Nevado, J.
James, V. M.
Topf, M.
Chung, S.-K.
Thomas, Rhys Huw
Desviat, L. R.
Aragon, C.
Zafra, F.
Rees, M. I.
Lapunzina, P.
Harvey, R. J.
Lopez-Corcuera, B.

Hyperekplexia or startle disease is characterized by an exaggerated startle response, evoked by tact...

The glycinergic system in human startle disease: a genetic screening approach

Davies, Jeff S.
Chung, Seo-Kyung
Thomas, Rhys Huw
Robinson, Angela
Hammond, Carrie L.
Mullins, Jonathan G. L.
Carta, Eloise
Pearce, Brian R.
Harvey, Kirsten
Harvey, Robert J.
Rees, Mark I.

Human startle disease, also known as hyperekplexia (OMIM 149400), is a paroxysmal neurological disor...

The glycinergic system in human startle disease: A genetic screening approach

Davies, J S
Chung, S K
Thomas, R H
Robinson, A
Hammond, C L
Mullins, J G L
Carta, E
Pearce, B R
Harvey, K
Harvey, Robert J
Rees, M I

January 2010

Human startle disease, also known as hyperekplexia (OMIM 149400), is a paroxysmal neurological disor...

The glycine transporter GlyT2: Mutations, interactors and diseases

Carta, Eloisa

January 2008

Hyperekplexia or startle disease (OMIM: 149400) is caused by defects in mammalian glycinergic neurot...

The genetics of hyperekplexia: more than startle!

Harvey, Robert J.
Topf, Maya
Harvey, Kirsten
Rees, Mark I.

January 2008

Hyperekplexia is characterised by neonatal hypertonia and an exaggerated startle reflex in response ...

A critical role for glycine transporters in hyperexcitability disorders

Harvey, Robert J
Carta, E
Pearce, B R
Chung, S K
Supplisson, S
Rees, M I
Harvey, K

January 2008

Defects in mammalian glycinergic neurotransmission result in a complex motor disorder characterized ...

Novel missense mutations in the glycine receptor β subunit gene (GLRB) in startle disease

James, Victoria M.
Bode, Anna
Chung, Seo-Kyung
Gill, Jennifer L.
Nielsen, Maartje
Cowan, Frances M.
Vujic, Mihailo
Thomas, Rhys Huw
Rees, Mark I.
Harvey, Kirsten
Keramidas, Angelo
Topf, Maya
Ginjaar, Ieke
Lynch, Joseph W.
Harvey, Robert J.

Startle disease is a rare, potentially fatal neuromotor disorder characterized by exaggerated startl...

Hyperekplexia: abnormal startle response due to glycine receptor mutations

Andrew, M.
Owen, Michael John

February 1997

BACKGROUND: Hyperekplexia is a rare but well-delineated clinical syndrome of pathological startl...

Molecular mechanisms of glycine transporter GlyT2 mutations in startle disease

James, V M
Gill, J L
Topf, M
Harvey, Robert J

January 2012

Startle disease affects newborn children and involves an exaggerated startle response and muscle hyp...

GLRB is the third major gene of effect in hyperekplexia

Chung, S.-K.
Bode, A.
Cushion, T. D.
Thomas, Rhys Huw
Hunt, C.
Wood, S.-E.
Pickrell, W. O.
Drew, C. J. G.
Yamashita, S.
Shiang, R.
Leiz, S.
Longhardt, A.-C.
Raile, V.
Weschke, B.
Puri, R. D.
Verma, I. C.
Harvey, R. J.
Ratnasinghe, D. D.
Parker, M.
Rittey, C.
Masri, A.
Lingappa, L.
Howell, O. W.
Vanbellinghen, J.-F.
Mullins, J. G.
Lynch, J. W.
Rees, M. I.

Glycinergic neurotransmission is a major inhibitory influence in the CNS and its disruption triggers...

Mutations in the gene encoding GlyT2 (SLC6A5) define a presynaptic component of human startle disease

Rees, Mark I.
Harvey, Kirsten
Pearce, Brian R.
Chung, Seo-Kyung
Duguid, Ian C.
Thomas, Philip
Beatty, Sarah
Graham, Gail E.
Armstrong, Linlea
Shiang, Rita
Abbott, Kim J.
Zuberi, Sameer M.
Stephenson, John B. P.
Owen, Michael J.
Tijssen, Marina A. J.
van den Maagdenberg, Arn M. J. M.
Smart, Trevor G.
Supplisson, Stephane
Harvey, Robert J.

July 2006

Hyperekplexia is a human neurological disorder characterized by an excessive startle response and is...

Mutations in the GlyT2 Gene (SLC6A5) Are a Second Major Cause of Startle Disease

Carta, Eloisa
Chung, Seo-Kyung
James, Victoria M.
Robinson, Angela
Gill, Jennifer L.
Remy, Nathalie
Vanbellinghen, Jean-Francois
Drew, Cheney J. G.
Cagdas, Sophie
Cameron, Duncan
Cowan, Frances M.
Del Toro, Mireria
Graham, Gail E.
Manzur, Adnan Y.
Masri, Amira
Rivera, Serge
Scalais, Emmanuel
Shiang, Rita
Sinclair, Kate
Stuart, Catriona A.
Tijssen, Marina A. J.
Wise, Grahame
Zuberi, Sameer M.
Harvey, Kirsten
Pearce, Brian R.
Topf, Maya
Thomas, Rhys H.
Supplisson, Stephane
Rees, Mark I.
Harvey, Robert J.

August 2012

Hereditary hyperekplexia or startle disease is characterized by an exaggerated startle response, evo...

Mutations in the GlyT2 gene (SLC6A5) are a second major cause of startle disease

Carta, E.
Chung, S.-K.
James, V. M.
Robinson, A.
Gill, J. L.
Remy, N.
Vanbellinghen, J.-F.
Drew, C. J. G.
Cagdas, S.
Cameron, D.
Cowan, F. M.
Del Toro, M.
Graham, G. E.
Manzur, A. Y.
Masri, A.
Rivera, S.
Scalais, E.
Shiang, R.
Sinclair, K.
Stuart, C. A.
Tijssen, M. A. J.
Wise, G.
Zuberi, S. M.
Harvey, K.
Pearce, B. R.
Topf, M.
Thomas, Rhys Huw
Supplisson, S.
Rees, M. I.
Harvey, R. J.

Hereditary hyperekplexia or startle disease is characterized by an exaggerated startle response, evo...

A novel dominant hyperekplexia mutation Y705C alters trafficking and biochemical properties of the presynaptic glycine transporter GlyT2

Gimenez, C.
Perez-Siles, G.
Martinez-Villarreal, J.
Arribas-Gonzalez, E.
Jimenez, E.
Nunez, E.
de Juan-Sanz, J.
Fernandez-Sanchez, E.
Garcia-Tardon, N.
Ibanez, I.
Romanelli, V.
Nevado, J.
James, V. M.
Topf, M.
Chung, S.-K.
Thomas, Rhys Huw
Desviat, L. R.
Aragon, C.
Zafra, F.
Rees, M. I.
Lapunzina, P.
Harvey, R. J.
Lopez-Corcuera, B.

Hyperekplexia or startle disease is characterized by an exaggerated startle response, evoked by tact...

The glycinergic system in human startle disease: a genetic screening approach

Davies, Jeff S.
Chung, Seo-Kyung
Thomas, Rhys Huw
Robinson, Angela
Hammond, Carrie L.
Mullins, Jonathan G. L.
Carta, Eloise
Pearce, Brian R.
Harvey, Kirsten
Harvey, Robert J.
Rees, Mark I.

Human startle disease, also known as hyperekplexia (OMIM 149400), is a paroxysmal neurological disor...

The glycinergic system in human startle disease: A genetic screening approach

Davies, J S
Chung, S K
Thomas, R H
Robinson, A
Hammond, C L
Mullins, J G L
Carta, E
Pearce, B R
Harvey, K
Harvey, Robert J
Rees, M I

January 2010

Human startle disease, also known as hyperekplexia (OMIM 149400), is a paroxysmal neurological disor...

The glycine transporter GlyT2: Mutations, interactors and diseases

Carta, Eloisa

January 2008

Hyperekplexia or startle disease (OMIM: 149400) is caused by defects in mammalian glycinergic neurot...

The genetics of hyperekplexia: more than startle!

Harvey, Robert J.
Topf, Maya
Harvey, Kirsten
Rees, Mark I.

January 2008

Hyperekplexia is characterised by neonatal hypertonia and an exaggerated startle reflex in response ...

A critical role for glycine transporters in hyperexcitability disorders

Harvey, Robert J
Carta, E
Pearce, B R
Chung, S K
Supplisson, S
Rees, M I
Harvey, K

January 2008

Defects in mammalian glycinergic neurotransmission result in a complex motor disorder characterized ...

Novel missense mutations in the glycine receptor β subunit gene (GLRB) in startle disease

James, Victoria M.
Bode, Anna
Chung, Seo-Kyung
Gill, Jennifer L.
Nielsen, Maartje
Cowan, Frances M.
Vujic, Mihailo
Thomas, Rhys Huw
Rees, Mark I.
Harvey, Kirsten
Keramidas, Angelo
Topf, Maya
Ginjaar, Ieke
Lynch, Joseph W.
Harvey, Robert J.

Startle disease is a rare, potentially fatal neuromotor disorder characterized by exaggerated startl...

Hyperekplexia: abnormal startle response due to glycine receptor mutations

Andrew, M.
Owen, Michael John

February 1997

BACKGROUND: Hyperekplexia is a rare but well-delineated clinical syndrome of pathological startl...

Molecular mechanisms of glycine transporter GlyT2 mutations in startle disease

James, V M
Gill, J L
Topf, M
Harvey, Robert J

January 2012

Startle disease affects newborn children and involves an exaggerated startle response and muscle hyp...

GLRB is the third major gene of effect in hyperekplexia

Chung, S.-K.
Bode, A.
Cushion, T. D.
Thomas, Rhys Huw
Hunt, C.
Wood, S.-E.
Pickrell, W. O.
Drew, C. J. G.
Yamashita, S.
Shiang, R.
Leiz, S.
Longhardt, A.-C.
Raile, V.
Weschke, B.
Puri, R. D.
Verma, I. C.
Harvey, R. J.
Ratnasinghe, D. D.
Parker, M.
Rittey, C.
Masri, A.
Lingappa, L.
Howell, O. W.
Vanbellinghen, J.-F.
Mullins, J. G.
Lynch, J. W.
Rees, M. I.

Glycinergic neurotransmission is a major inhibitory influence in the CNS and its disruption triggers...

Mutations in the gene encoding GlyT2 (SLC6A5) define a presynaptic component of human startle disease

Abstract

Extracted data

Mutations in the gene encoding GlyT2 (SLC6A5) define a presynaptic component of human startle disease

Abstract

Extracted data

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