Nanoarchitecture of Ca V 2.1 channels and GABA B receptors in the mouse hippocampus: Impact of APP/P...
Nanoarchitecture of Ca V 2.1 channels and GABA B receptors in the mouse hippocampus: Impact of APP/PS1 pathology
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Author / Creator
Martín‐Belmonte, Alejandro , Aguado, Carolina , Alfaro‐Ruiz, Rocío , Kulik, Akos , de la Ossa, Luis , Moreno‐Martínez, Ana Esther , Alberquilla, Samuel , García‐Carracedo, Lucía , Fernández, Miriam , Fajardo‐Serrano, Ana , Aso, Ester , Shigemoto, Ryuichi , Martín, Eduardo D. , Fukazawa, Yugo , Ciruela, Francisco and Luján, Rafael
Publisher
Switzerland
Journal title
Language
English
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Publisher
Switzerland
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Contents
Voltage‐gated Ca V 2.1 (P/Q‐type) Ca 2+ channels play a crucial role in regulating neurotransmitter release, thus contributing to synaptic plasticity and to processes such as learning and memory. Despite their recognized importance in neural function, there is limited information on their potential involvement in neurodegenerative conditions such a...
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Full title
Nanoarchitecture of Ca V 2.1 channels and GABA B receptors in the mouse hippocampus: Impact of APP/PS1 pathology
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TN_cdi_pubmed_primary_38887180
Permalink
https://devfeature-collection.sl.nsw.gov.au/record/TN_cdi_pubmed_primary_38887180
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ISSN
1015-6305
E-ISSN
1750-3639
DOI
10.1111/bpa.13279
