Computational simulations and ca2+ imaging reveal that slow synaptic depolarizations (slow epsps) inhibit fast epsp evoked action potentials for most of their time course in enteric neurons

HIGHLIGHTS

• who: Parvin Zarei Eskikand and colleagues from the Department of Physiology, School of Biomedical Sciences, University of Melbourne, Parkville, Australia have published the paper: Computational simulations and Ca2+ imaging reveal that slow synaptic depolarizations (slow EPSPs) inhibit fast EPSP evoked action potentials for most of their time course in enteric neurons, in the Journal: (JOURNAL) of June/13,/2022
• what: The authors developed a computational model to investigate synaptic interactions between different types of synaptic potentials in enteric interneurons and motor neurons, both of which have prominent fast EPSPs. Both GABAA and GABAC receptors are . . .
  

   

  

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