Computational modeling predicts ephemeral acidic microdomains in the glutamatergic synaptic cleft.

Feghhi, Touhid; Hernandez, Roberto X; Stawarski, Michal; Thomas, Connon I; Kamasawa, Naomi; Lau, A W C; Macleod, Gregory T

Feghhi, Touhid; Hernandez, Roberto X; Stawarski, Michal; Thomas, Connon I; Kamasawa, Naomi; Lau, A W C; Macleod, Gregory T.

Affiliation

Feghhi T; Department of Physics, College of Science, Florida Atlantic University, Boca Raton, Florida.
Hernandez RX; Integrative Biology & Neuroscience Graduate Program, Florida Atlantic University, Boca Raton, Florida; International Max Planck Research School for Brain and Behavior, Jupiter, Florida; Jupiter Life Sciences Initiative, Florida Atlantic University, Jupiter, Florida.
Stawarski M; Wilkes Honors College, Florida Atlantic University, Jupiter, Florida.
Thomas CI; Electron Microscopy Core Facility, Max Planck Florida Institute, Jupiter, Florida.
Kamasawa N; Electron Microscopy Core Facility, Max Planck Florida Institute, Jupiter, Florida.
Lau AWC; Department of Physics, College of Science, Florida Atlantic University, Boca Raton, Florida.
Macleod GT; Jupiter Life Sciences Initiative, Florida Atlantic University, Jupiter, Florida; Wilkes Honors College, Florida Atlantic University, Jupiter, Florida; Brain Institute, Florida Atlantic University, Jupiter, Florida; Institute for Human Health & Disease Intervention, Florida Atlantic University, J

Biophys J ; 120(24): 5575-5591, 2021 12 21.

Article in En | MEDLINE | ID: mdl-34774503

Subject(s)

Synapses; Synaptic Vesicles; Animals; Computer Simulation; Glutamic Acid/metabolism; Mice; Synapses/metabolism; Synaptic Transmission; Synaptic Vesicles/metabolism

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Synapses / Synaptic Vesicles Type of study: Prognostic_studies / Risk_factors_studies Limits: Animals Language: En Journal: Biophys J Year: 2021 Type: Article

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