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Molecular neurogenetics of seizure mutants in Drosophila

$38,320F32FY2002NSNIH

University Of Wisconsin Madison, Madison WI

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Abstract

DESCRIPTION (provided by applicant): Characterization of behavioral mutants in Drosophila has identified a plethora of synaptic proteins and ion channels. Furthermore, recent experiments and genomic comparisons have demonstrated the role of the same proteins in numerous human neurological diseases. I propose to use forward and reverse genetic approaches in Drosophila to elucidate the cellular and molecular mechanisms underlying neurological diseases such as epilepsy and related disorders that involve aberrant neuronal hyperexcitability. Aim 1 proposes a reverse genetics approach to study the in vivo role of the KCNQ K+ channel, a regulator of neuronal excitability, which has been directly linked to epilepsy, heart arrhythmia and deafness. The temporal and spatial expression pattern of the KCNQ channel will be determined. A structure-function analysis of the KCNQ channel will be performed by generating various site-directed mutant animals. These KCNQ mutant flies will be characterized behaviorally and physiologically to determine the role of this channel in neuronal signaling, plasticity and neurological disorders. Aim 2 proposes a forward genetics approach to characterize three novel hyperexcitable mutants with behavioral and physiological seizures followed by paralysis. These affected genes are well mapped and will be identified and cloned. In addition, detailed physiological characterization of muscle and neuronal function will be done to determine the specific mechanisms underlying the behavioral detects in these mutants.

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Molecular neurogenetics of seizure mutants in Drosophila · GrantIndex