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Upstream γ-synchronization enhances odor processing in downstream neurons
Tal Dalal,
Rafi Haddad
Brain Science
The Leslie and Susan Gonda Multidisciplinary Brain Research Center
Research output
:
Contribution to journal
›
Article
›
peer-review
3
Scopus citations
Overview
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Keyphrases
Mitral
100%
Odor Processing
100%
Tufted Cell
100%
Firing Rate
66%
Cell Cycle Synchronization
50%
Granule Cell
50%
Brain Regions
33%
Cell Activity
33%
Sensory Information
33%
Olfactory Bulb
33%
Piriform Cortex
33%
Cell Firing
33%
Causal Evidence
33%
GABAergic
16%
Oscillatory Activity
16%
Cortical Neurons
16%
Olfactory System
16%
Odor Response
16%
Cortex Neurons
16%
Response Variability
16%
Ensemble Representation
16%
Odor-evoked Responses
16%
Neuroscience
Firing Rate
100%
Granule Cell
75%
Cell Synchronization
75%
Piriform Cortex
50%
Cell Activity
50%
Olfactory Bulb
50%
Brain Areas
25%
Evoked Potential
25%
Olfactory System
25%