Almog M, Korngreen A. (2014). A Quantitative Description of Dendritic Conductances and Its Application to Dendritic Excitation in Layer 5 Pyramidal Neurons The Journal of neuroscience : the official journal of the Society for Neuroscience. 34 [PubMed]
Anwar H, Hepburn I, Nedelescu H, Chen W, De Schutter E. (2013). Stochastic calcium mechanisms cause dendritic calcium spike variability. The Journal of neuroscience : the official journal of the Society for Neuroscience. 33 [PubMed]
Burrell BD, Crisp KM. (2008). Serotonergic modulation of afterhyperpolarization in a neuron that contributes to learning in the leech. Journal of neurophysiology. 99 [PubMed]
Golomb D, Yue C, Yaari Y. (2006). Contribution of persistent Na+ current and M-type K+ current to somatic bursting in CA1 pyramidal cells: combined experimental and modeling study. Journal of neurophysiology. 96 [PubMed]
Gu N, Vervaeke K, Storm JF. (2007). BK potassium channels facilitate high-frequency firing and cause early spike frequency adaptation in rat CA1 hippocampal pyramidal cells. The Journal of physiology. 580 [PubMed]
Horrigan FT, Cui J, Aldrich RW. (1999). Allosteric voltage gating of potassium channels I. Mslo ionic currents in the absence of Ca(2+). The Journal of general physiology. 114 [PubMed]
Huss M et al. (2007). Roles of ionic currents in lamprey CpG neurons: a modeling study. Journal of neurophysiology. 97 [PubMed]
Jaffe DB, Brenner R. (2018). A computational model for how the fast afterhyperpolarization paradoxically increases gain in regularly firing neurons. Journal of neurophysiology. 119 [PubMed]
Jaffe DB et al. (1994). A model for dendritic Ca2+ accumulation in hippocampal pyramidal neurons based on fluorescence imaging measurements. Journal of neurophysiology. 71 [PubMed]
Jaffe DB, Wang B, Brenner R. (2011). Shaping of action potentials by type I and type II large-conductance Ca²+-activated K+ channels. Neuroscience. 192 [PubMed]
Mateos-Aparicio P, Murphy R, Storm JF. (2014). Complementary functions of SK and Kv7/M potassium channels in excitability control and synaptic integration in rat hippocampal dentate granule cells. The Journal of physiology. 592 [PubMed]
Montefusco F, Tagliavini A, Ferrante M, Pedersen MG. (2017). Concise Whole-Cell Modeling of BKCa-CaV Activity Controlled by Local Coupling and Stoichiometry. Biophysical journal. 112 [PubMed]
Ohura S, Kamiya H. (2018). Sodium Channel-Dependent and -Independent Mechanisms Underlying Axonal Afterdepolarization at Mouse Hippocampal Mossy Fibers. eNeuro. 5 [PubMed]
Roper P, Callaway J, Shevchenko T, Teruyama R, Armstrong W. (2003). AHP's, HAP's and DAP's: how potassium currents regulate the excitability of rat supraoptic neurones. Journal of computational neuroscience. 15 [PubMed]
Shao LR, Halvorsrud R, Borg-Graham L, Storm JF. (1999). The role of BK-type Ca2+-dependent K+ channels in spike broadening during repetitive firing in rat hippocampal pyramidal cells. The Journal of physiology. 521 Pt 1 [PubMed]
Takagi H, Sato R, Mori M, Ito E, Suzuki H. (1998). Roles of A- and D-type K channels in EPSP integration at a model dendrite. Neuroscience letters. 254 [PubMed]
Takagi H et al. (2000). Time-sharing contributions of A- and D-type K+ channels to the integration of high-frequency sequential excitatory post synaptic potentials at a model dendrite in rats. Neuroscience letters. 289 [PubMed]
Traub RD, Wong RK, Miles R, Michelson H. (1991). A model of a CA3 hippocampal pyramidal neuron incorporating voltage-clamp data on intrinsic conductances. Journal of neurophysiology. 66 [PubMed]