Sam F. Cooke, PhD
Affiliations: | 2016- | Basic and Clinical Neurosciences | King's College (London), London, England, United Kingdom |
Area:
Synaptic plasticity, learning and memoryWebsite:
https://www.kcl.ac.uk/ioppn/depts/bcn/our-research/cells-behaviour/cooke-experience-dependent-plasticityGoogle:
"Sam Cooke"Mean distance: 13.24 (cluster 6) | S | N | B | C | P |
Parents
Sign in to add mentor| Christopher H. Yeo | grad student | 1998-2001 | UCL | |
| Mark F. Bear | post-doc | 2006- | MIT | |
| (LTP/LTD and memory) | ||||
| Tim Bliss | post-doc | 2002-2006 | NIMR | |
| (LTP) | ||||
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Publications
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| Chaloner FA, Cooke SF. (2022) Multiple Mechanistically Distinct Timescales of Neocortical Plasticity Occur During Habituation. Frontiers in Cellular Neuroscience. 16: 840057 |
| Kim T, Chaloner FA, Cooke SF, et al. (2019) Opposing Somatic and Dendritic Expression of Stimulus-Selective Response Plasticity in Mouse Primary Visual Cortex. Frontiers in Cellular Neuroscience. 13: 555 |
| Fong MF, Finnie PS, Kim T, et al. (2019) Distinct Laminar Requirements for NMDA Receptors in Experience-Dependent Visual Cortical Plasticity. Cerebral Cortex (New York, N.Y. : 1991) |
| Bear MF, Cooke SF, Giese KP, et al. (2018) In memoriam: John Lisman - commentaries on CaMKII as a memory molecule. Molecular Brain. 11: 76 |
| Han KS, Cooke SF, Xu W. (2017) Experience-Dependent Equilibration of AMPAR-Mediated Synaptic Transmission during the Critical Period. Cell Reports. 18: 892-904 |
| Kaplan ES, Cooke SF, Komorowski RW, et al. (2016) Contrasting roles for parvalbumin-expressing inhibitory neurons in two forms of adult visual cortical plasticity. Elife. 5 |
| Kaplan ES, Cooke SF, Komorowski RW, et al. (2016) Author response: Contrasting roles for parvalbumin-expressing inhibitory neurons in two forms of adult visual cortical plasticity Elife |
| Cooke SF, Bear MF. (2015) Visual recognition memory: a view from V1. Current Opinion in Neurobiology. 35: 57-65 |
| Cooke SF, Komorowski RW, Kaplan ES, et al. (2015) Erratum: Visual recognition memory, manifested as long-term habituation, requires synaptic plasticity in V1. Nature Neuroscience. 18: 926 |
| Cooke SF, Komorowski RW, Kaplan ES, et al. (2015) Visual recognition memory, manifested as long-term habituation, requires synaptic plasticity in V1. Nature Neuroscience. 18: 262-71 |