Pierre Paoletti
Affiliations: | Neurobiology | École normale supérieure Paris, Paris, Île-de-France, France |
Website:
http://www.biologie.ens.fr/neuronr/Google:
"Pierre Paoletti"Mean distance: 13.8 (cluster 11) | S | N | B | C | P |
Parents
Sign in to add mentor| Philippe Ascher | grad student | CNRS | (js3) Delete Edit | |
| Steven A. Siegelbaum | post-doc | 1996-1998 | Columbia | (js3) Delete Edit |
Children
Sign in to add trainee| Marc Gielen | grad student | 2005-2009 | ENS Paris | (shannan) Delete Edit |
| Shujia Zhu | grad student | 2009-2013 | ENS Paris | (LvShiyun) Delete Edit |
| Simon Bossi | post-doc | (cragg) Delete Edit |
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Publications
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| Geoffroy C, Berraud-Pache R, Chéron N, et al. (2024) Reversible Control of Native GluN2B-Containing NMDA Receptors with Visible Light. Acs Chemical Neuroscience. 15: 3321-3343 |
| Itoh M, Piot L, Mony L, et al. (2024) Lack of evidence for direct ligand-gated ion channel activity of GluD receptors. Proceedings of the National Academy of Sciences of the United States of America. 121: e2406655121 |
| Piot L, Heroven C, Bossi S, et al. (2023) GluD1 binds GABA and controls inhibitory plasticity. Science (New York, N.Y.). eadf3406 |
| Mony L, Paoletti P. (2023) Mechanisms of NMDA receptor regulation. Current Opinion in Neurobiology. 83: 102815 |
| Bossi S, Pizzamiglio L, Paoletti P. (2023) Excitatory GluN1/GluN3A glycine receptors (eGlyRs) in brain signaling. Trends in Neurosciences |
| Paoletti P, Trautmann A, Marty A. (2022) Philippe Ascher (1936-2022). Neuron. 110: 3864-3865 |
| Paoletti P, Trautmann A, Marty A. (2022) Remembering a giant of neuroscience. Nature. 611: 236 |
| Sikora J, Di Bisceglie Caballero S, Reiss D, et al. (2022) Zn inhibits spatial memory and hippocampal place cell representation through high-affinity binding to the NMDA receptor GluN2A subunit. Iscience. 25: 105355 |
| Bossi S, Dhanasobhon D, Ellis-Davies GCR, et al. (2022) GluN3A excitatory glycine receptors control adult cortical and amygdalar circuits. Neuron |
| Morabito A, Zerlaut Y, Serraz B, et al. (2022) Activity-dependent modulation of NMDA receptors by endogenous zinc shapes dendritic function in cortical neurons. Cell Reports. 38: 110415 |