a(MESH:"Cations, Divalent")
Mammalian nAChRs are cation selective, being permeable to small monovalent and divalent cations. PubMed:17009926
Mammalian nAChRs are cation selective, being permeable to small monovalent and divalent cations. PubMed:17009926
Mammalian nAChRs are cation selective, being permeable to small monovalent and divalent cations that can fit through the narrowest hydro- philic region of the open pore (Albuquerque et al., 2009; Dani, 1989; Dani & Bertrand, 2007; Dani & Eisenman, 1987). PubMed:26472524
Mammalian nAChRs are cation selective, being permeable to small monovalent and divalent cations that can fit through the narrowest hydro- philic region of the open pore (Albuquerque et al., 2009; Dani, 1989; Dani & Bertrand, 2007; Dani & Eisenman, 1987). PubMed:26472524
While nAChR activity causes depolarization, the divalent cation permeability plays an impor- tant physiological role by supplying ionic signals, including calcium (Bertrand, Galzi, Devillers-Thiery, Bertrand, & Changeux, 1993b; Dani & Bertrand, 2007; Decker & Dani, 1990; Gray, Rajan, Radcliffe, Yakehiro, & Dani, 1996; McGehee, Heath, Gelber, Devay, & Role, 1995; Vernino et al., 1992). PubMed:26472524
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