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Motor Neuroscience in Health and Disease
Our research aspires towards the dual goals of understanding, with molecular and cellular resolution, the neuronal circuit networks and interconnecting synapses that comprise the motor system, and in tandem, to decipher and ameliorate neurodegenerative motor disorders. The vital necessity for precise motor control, the ability to image motor synapses in vivo together with expedient electrophysiological access, coupled with the stringency of locomotor behavioural quantitation, make motor circuits an potent paradigm to allow molecular, cellular and physiological interrogation of the mechanisms through which synapses and circuits develop, adapt and coordinate to produce ensemble activity. Exploiting these advantages can also illuminate how neuronal circuits are depleted by ageing and neurodegenerative disorders including SMA and ALS (motor neuron disease). As the basis for our investigations, we exploit the advanced neurogenetic control enabled by the molecular and genome engineering capabilities of the Drosophila model system. Drosophila share not only extensive genetic conservation with humans but also many morphological, physiological and behavioural similarities. Augmenting this foundation, we extend and validate our studies in rodents in addition to human cellular models.
Motor Neuroscience in Health and Disease
Our research aspires towards the dual goals of understanding, with molecular and cellular resolution, the neuronal circuit networks and interconnecting synapses that comprise the motor system, and in tandem, to decipher and ameliorate neurodegenerative motor disorders. The vital necessity for precise motor control, the ability to image motor synapses in vivo together with expedient electrophysiological access, coupled with the stringency of locomotor behavioural quantitation, make motor circuits an potent paradigm to allow molecular, cellular and physiological interrogation of the mechanisms through which synapses and circuits develop, adapt and coordinate to produce ensemble activity. Exploiting these advantages can also illuminate how neuronal circuits are depleted by ageing and neurodegenerative disorders including SMA and ALS (motor neuron disease). As the basis for our investigations, we exploit the advanced neurogenetic control enabled by the molecular and genome engineering capabilities of the Drosophila model system. Drosophila share not only extensive genetic conservation with humans but also many morphological, physiological and behavioural similarities. Augmenting this foundation, we extend and validate our studies in rodents in addition to human cellular models.
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论文共 67 篇作者统计合作学者相似作者
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Charlotte Gehin,Museer A. Lone,Winston Lee, Laura Capolupo, Sylvia Ho, Adekemi M. Adeyemi, Erica H. Gerkes, Alexander P. A. Stegmann,Estrella Lopez-Martin,Eva Bermejo-Sanchez,Beatriz Martinez-Delgado,Christiane Zweier,
JOURNAL OF CLINICAL INVESTIGATIONno. 10 (2023)
Giriram Mohana,Julien Dorier,Xiao Li,Marion Mouginot,Rebecca C Smith, Héléna Malek,Marion Leleu,Daniel Rodriguez, Jenisha Khadka, Patrycja Rosa,Pascal Cousin,Christian Iseli,
Cellno. 18 (2023): 3826-3844.e26
Elizabeth Catudio Garrett,Ashley M Bielawski,Evelyne Ruchti,Lewis M Sherer,Indrayani Waghmare,David Hess-Homeier,Brian D McCabe,R Steven Stowers,Sarah J Certel
Frontiers in Behavioral Neuroscience (2023): 1147507
Wei Jiao,Gard Spreemann,Evelyne Ruchti,Soumya Banerjee,Samuel Vernon, Ying Shi,R Steven Stowers, Kathryn Hess,Brian D McCabe
crossref(2022)
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