Search Results - "Camus, Come" :: Katalog Arama

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NMDAR-dependent long-term depression is associated with increased short term plasticity through autophagy mediated loss of PSD-95 by Compans, Benjamin, Camus, Come, Kallergi, Emmanouela, Sposini, Silvia, Martineau, Magalie, Butler, Corey, Kechkar, Adel, Klaassen, Remco V., Retailleau, Natacha, Sejnowski, Terrence J., Smit, August B., Sibarita, Jean-Baptiste, Bartol, Thomas M., Perrais, David, Nikoletopoulou, Vassiliki, Choquet, Daniel, Hosy, Eric

Published in Nature communications (14-05-2021)
“…Long-term depression (LTD) of synaptic strength can take multiple forms and contribute to circuit remodeling, memory encoding or erasure. The generic term LTD…”

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Dendritic autophagy degrades postsynaptic proteins and is required for long-term synaptic depression in mice by Kallergi, Emmanouela, Daskalaki, Akrivi-Dimitra, Kolaxi, Angeliki, Camus, Come, Ioannou, Evangelia, Mercaldo, Valentina, Haberkant, Per, Stein, Frank, Sidiropoulou, Kyriaki, Dalezios, Yannis, Savitski, Mikhail M., Bagni, Claudia, Choquet, Daniel, Hosy, Eric, Nikoletopoulou, Vassiliki

Published in Nature communications (03-02-2022)
“…The pruning of dendritic spines during development requires autophagy. This process is facilitated by long-term depression (LTD)-like mechanisms, which has led…”

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Nanoscale co-organization and coactivation of AMPAR, NMDAR, and mGluR at excitatory synapses by Goncalves, Julia, Bartol, Tomas M., Camus, Côme, Levet, Florian, Menegolla, Ana Paula, Sejnowski, Terrence J., Sibarita, Jean-Baptiste, Vivaudou, Michel, Choquet, Daniel, Hosy, Eric

Published in Proceedings of the National Academy of Sciences - PNAS (23-06-2020)
“…The nanoscale co-organization of neurotransmitter receptors facing presynaptic release sites is a fundamental determinant of their coactivation and of synaptic…”

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AMPAR-Dependent Synaptic Plasticity Initiates Cortical Remapping and Adaptive Behaviors during Sensory Experience by Campelo, Tiago, Augusto, Elisabete, Chenouard, Nicolas, de Miranda, Aron, Kouskoff, Vladimir, Camus, Come, Choquet, Daniel, Gambino, Frédéric

Published in Cell reports (Cambridge) (01-09-2020)
“…Cortical plasticity improves behaviors and helps recover lost functions after injury. However, the underlying synaptic mechanisms remain unclear. In mice, we…”

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AMPAR-Dependent Synaptic Plasticity Initiates Cortical Remapping and Adaptive Behaviors during Sensory Experience by Campelo, Tiago, Augusto, Elisabete, Chenouard, Nicolas, de Miranda, Aron, Kouskoff, Vladimir, Camus, Come, Choquet, Daniel, Gambino, Frédéric

Published in Cell reports (Cambridge) (01-09-2020)
“…Cortical plasticity improves behaviors and helps recover lost functions after injury. However, the underlying synaptic mechanisms remain unclear. In mice, we…”

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Nanoscale co-organization and coactivation of AMPAR, NMDAR, and mGluR at excitatory synapses by Goncalves, Julia, Bartol, Tomas, Camus, Côme, Levet, Florian, Menegolla, Ana Paula, Sejnowski, Terrence, Sibarita, Jean-Baptiste, Vivaudou, Michel, Choquet, Daniel, Hosy, Eric

Published in Proceedings of the National Academy of Sciences - PNAS (23-06-2020)
“…The nanoscale co-organization of neurotransmitter receptors facing presynaptic release sites is a fundamental determinant of their coactivation and of synaptic…”

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