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 collaborators from the Department of Physiology, School of Biomedical Sciences, University of Melbourne, Parkville, Australia have published the research work: 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 . . .
  

   

  

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