A
Anne Marowsky
Researcher at University of Zurich
Publications - 18
Citations - 1398
Anne Marowsky is an academic researcher from University of Zurich. The author has contributed to research in topics: Epoxide Hydrolases & Epoxide hydrolase 2. The author has an hindex of 10, co-authored 18 publications receiving 1314 citations.
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Knockout of ERK1 MAP kinase enhances synaptic plasticity in the striatum and facilitates striatal-mediated learning and memory
Cristina Mazzucchelli,Chiara Vantaggiato,Alessandro Ciamei,Stefania Fasano,Pavel Pakhotin,Wojciech Krezel,Hans Welzl,David P. Wolfer,Gilles Pagès,Olga Valverde,Anne Marowsky,Annamaria Porrazzo,Paul C. Orban,Rafael Maldonado,Markus U. Ehrengruber,Vincenzo Cestari,Hans-Peter Lipp,Paul F. Chapman,Jacques Pouysségur,Riccardo Brambilla +19 more
TL;DR: The results reveal an unexpected complexity of ERK-dependent signaling in the brain and a critical regulatory role for ERK1 in the long-term adaptive changes underlying striatum-dependent behavioral plasticity and drug addiction.
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A specialized subclass of interneurons mediates dopaminergic facilitation of amygdala function.
TL;DR: It is found that paracapsular cells form a network surrounding the basolateral complex of the amygdala and provide feedforward inhibition into the Basolateral and the central amygdala, providing a compelling neural mechanism for the increased affective behavior observed during stress or other hyperdopaminergic states.
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Shift of adenosine kinase expression from neurons to astrocytes during postnatal development suggests dual functionality of the enzyme.
F.E. Studer,D. E. Fedele,Anne Marowsky,Cornelia Schwerdel,K. Wernli,Kaspar E. Vogt,Jean-Marc Fritschy,Detlev Boison +7 more
TL;DR: First, ADK expression in young neurons may provide a salvage pathway to utilize adenosine in nucleic acid synthesis, thus supporting differentiation and plasticity and influencing myelination and contributing to the differential resistance of young and adult animals to seizures.
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Distribution of soluble and microsomal epoxide hydrolase in the mouse brain and its contribution to cerebral epoxyeicosatrienoic acid metabolism.
TL;DR: C cerebral EET metabolism is driven by several epoxide hydrolases, a fact important in view of the present targeting of sEH as a potential therapeutic target and the presence of additional, hitherto unknown cerebral epoxidehydrolases.
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Functional mapping of GABAA receptor subtypes in the amygdala
TL;DR: Mice with specific diazepam‐insensitive GABAA receptor subtypes provide a novel tool to investigate GAB AA receptor distribution and the organization of inhibitory circuits at a functional level and investigate a possible link between interneuron and receptor diversity.