Changes in the proportion of inhibitory interneuron types from sensory to executive areas of the primate neocortex: implications for the origins of working memory …
S Torres-Gomez, JD Blonde… - Cerebral …, 2020 - academic.oup.com
Neuronal spiking activity encoding working memory (WM) is robust in primate association
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working Memory …
S Torres-Gomez, JD Blonde, D Mendoza-Halliday… - Cerebral Cortex, 2020 - par.nsf.gov
Neuronal spiking activity encoding working memory (WM) is robust in primate association
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working Memory …
S Torres-Gomez, JD Blonde… - … cortex (New York …, 2020 - pubmed.ncbi.nlm.nih.gov
Neuronal spiking activity encoding working memory (WM) is robust in primate association
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working Memory …
S Torres-Gomez, JD Blonde… - Cerebral …, 2020 - nyuscholars.nyu.edu
Neuronal spiking activity encoding working memory (WM) is robust in primate association
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working Memory …
S Torres-Gomez, JD Blonde… - Cerebral Cortex (New …, 2020 - europepmc.org
Neuronal spiking activity encoding working memory (WM) is robust in primate association
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
[引用][C] Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working …
S Torres-Gomez, JD Blonde, D Mendoza-Halliday… - Cerebral …, 2020 - ir.lib.uwo.ca
"Changes in the Proportion of Inhibitory Interneuron Types from Sensory" by Santiago Torres-Gomez,
Jackson D. Blonde et al. Home Search Browse All Collections My Account About DC Network …
Jackson D. Blonde et al. Home Search Browse All Collections My Account About DC Network …
[HTML][HTML] Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working …
S Torres-Gomez, JD Blonde… - Cerebral Cortex (New …, 2020 - ncbi.nlm.nih.gov
Neuronal spiking activity encoding working memory (WM) is robust in primate association
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working Memory …
S Torres-Gomez, JD Blonde… - Cerebral …, 2020 - academic.oup.com
Neuronal spiking activity encoding working memory (WM) is robust in primate association
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working Memory …
S Torres-Gomez, JD Blonde… - Cerebral …, 2020 - search.ebscohost.com
Neuronal spiking activity encoding working memory (WM) is robust in primate association
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
[PDF][PDF] Changes in the Proportion of Inhibitory Interneuron Types from Sensory to Executive Areas of the Primate Neocortex: Implications for the Origins of Working …
S Torres-Gomez, JD Blonde, D Mendoza-Halliday… - 2020 - cns.nyu.edu
Neuronal spiking activity encoding working memory (WM) is robust in primate association
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …
cortices but weak or absent in early sensory cortices. This may be linked to changes in the …