An electrophysiological characterizaton of Kv7.2 and Nav1.1 channel mutations in genetic epilepsy

L. Volkers

An electrophysiological characterizaton of Kv7.2 and Nav1.1 channel mutations in genetic epilepsy

L. Volkers

Research output: Thesis › Doctoral thesis 1 (Research UU / Graduation UU)

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Abstract

Most genetically determined epilepsies are caused by gene mutations in genes that encode for ion channels and receptors. Functional analysis of these protein mutants shows changes in voltage dependency and/or kinetics or a complete loss of channel function via different mechanisms. Nevertheless, the severity of the epileptic seizures is not only determined by a specific gene mutation, but genetic background, modifying genes and genetic compensatory factors are playing a crucial role in the phenotypic outcome of patients.

Original language	English
Qualification	Doctor of Philosophy
Awarding Institution	Utrecht University
Supervisors/Advisors	Lindhout, D., Primary supervisor, External person Koeleman, Bobby, Co-supervisor Rook, MB, Co-supervisor
Award date	27 Nov 2012
Publisher	Utrecht University
Publication status	Published - 27 Nov 2012

Keywords

Econometric and Statistical Methods: General
Geneeskunde(GENK)
Medical sciences
Bescherming en bevordering van de menselijke gezondheid
Epilepsy
ion channel
KCNQ2
SCN1A
BFNE
Dravet syndrome
GEFS+
potassium
sodium

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Volkers
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title = "An electrophysiological characterizaton of Kv7.2 and Nav1.1 channel mutations in genetic epilepsy",

abstract = "Most genetically determined epilepsies are caused by gene mutations in genes that encode for ion channels and receptors. Functional analysis of these protein mutants shows changes in voltage dependency and/or kinetics or a complete loss of channel function via different mechanisms. Nevertheless, the severity of the epileptic seizures is not only determined by a specific gene mutation, but genetic background, modifying genes and genetic compensatory factors are playing a crucial role in the phenotypic outcome of patients.",

keywords = "Econometric and Statistical Methods: General, Geneeskunde(GENK), Medical sciences, Bescherming en bevordering van de menselijke gezondheid, Epilepsy, ion channel, KCNQ2, SCN1A, BFNE, Dravet syndrome, GEFS+, potassium, sodium",

author = "L. Volkers",

year = "2012",

month = nov,

day = "27",

language = "English",

publisher = "Utrecht University",

type = "Doctoral thesis 1 (Research UU / Graduation UU)",

school = "Utrecht University",

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TY - THES

T1 - An electrophysiological characterizaton of Kv7.2 and Nav1.1 channel mutations in genetic epilepsy

AU - Volkers, L.

PY - 2012/11/27

Y1 - 2012/11/27

N2 - Most genetically determined epilepsies are caused by gene mutations in genes that encode for ion channels and receptors. Functional analysis of these protein mutants shows changes in voltage dependency and/or kinetics or a complete loss of channel function via different mechanisms. Nevertheless, the severity of the epileptic seizures is not only determined by a specific gene mutation, but genetic background, modifying genes and genetic compensatory factors are playing a crucial role in the phenotypic outcome of patients.

AB - Most genetically determined epilepsies are caused by gene mutations in genes that encode for ion channels and receptors. Functional analysis of these protein mutants shows changes in voltage dependency and/or kinetics or a complete loss of channel function via different mechanisms. Nevertheless, the severity of the epileptic seizures is not only determined by a specific gene mutation, but genetic background, modifying genes and genetic compensatory factors are playing a crucial role in the phenotypic outcome of patients.

KW - Econometric and Statistical Methods: General

KW - Geneeskunde(GENK)

KW - Medical sciences

KW - Bescherming en bevordering van de menselijke gezondheid

KW - Epilepsy

KW - ion channel

KW - KCNQ2

KW - SCN1A

KW - BFNE

KW - Dravet syndrome

KW - GEFS+

KW - potassium

KW - sodium

M3 - Doctoral thesis 1 (Research UU / Graduation UU)

PB - Utrecht University

ER -

An electrophysiological characterizaton of Kv7.2 and Nav1.1 channel mutations in genetic epilepsy

Abstract

Keywords

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