Park, S.; Flüthmann, P.; Wolany, C.; Goedecke, L.; Spenner, H.M.; Budde, T.; Pape, H.-C.; Jüngling, K.
Neuropeptide S Receptor Stimulation Excites Principal Neurons in Murine Basolateral Amygdala through a Calcium-Dependent Decrease in Membrane Potassium Conductance. Pharmaceuticals 2021, 14, 519.
https://doi.org/10.3390/ph14060519
AMA Style
Park S, Flüthmann P, Wolany C, Goedecke L, Spenner HM, Budde T, Pape H-C, Jüngling K.
Neuropeptide S Receptor Stimulation Excites Principal Neurons in Murine Basolateral Amygdala through a Calcium-Dependent Decrease in Membrane Potassium Conductance. Pharmaceuticals. 2021; 14(6):519.
https://doi.org/10.3390/ph14060519
Chicago/Turabian Style
Park, Sion, Pia Flüthmann, Carla Wolany, Lena Goedecke, Hannah Maleen Spenner, Thomas Budde, Hans-Christian Pape, and Kay Jüngling.
2021. "Neuropeptide S Receptor Stimulation Excites Principal Neurons in Murine Basolateral Amygdala through a Calcium-Dependent Decrease in Membrane Potassium Conductance" Pharmaceuticals 14, no. 6: 519.
https://doi.org/10.3390/ph14060519
APA Style
Park, S., Flüthmann, P., Wolany, C., Goedecke, L., Spenner, H. M., Budde, T., Pape, H.-C., & Jüngling, K.
(2021). Neuropeptide S Receptor Stimulation Excites Principal Neurons in Murine Basolateral Amygdala through a Calcium-Dependent Decrease in Membrane Potassium Conductance. Pharmaceuticals, 14(6), 519.
https://doi.org/10.3390/ph14060519
