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]

• Stochastic calcium mechanisms cause dendritic calcium spike variability (Anwar et al. 2013) [Model]

Anwar H, Hong S, De Schutter E. (2012). Controlling Ca2+-activated K+ channels with models of Ca2+ buffering in Purkinje cells. Cerebellum (London, England). 11 [PubMed]

• Controlling KCa channels with different Ca2+ buffering models in Purkinje cell (Anwar et al. 2012) [Model]

Anwar H et al. (2014). Dendritic diameters affect the spatial variability of intracellular calcium dynamics in computer models. Frontiers in cellular neuroscience. 8 [PubMed]

• Calcium dynamics depend on dendritic diameters (Anwar et al. 2014) [Model]

Gorin M et al. (2016). Interdependent Conductances Drive Infraslow Intrinsic Rhythmogenesis in a Subset of Accessory Olfactory Bulb Projection Neurons. The Journal of neuroscience : the official journal of the Society for Neuroscience. 36 [PubMed]

• Infraslow intrinsic rhythmogenesis in a subset of AOB projection neurons (Gorin et al 2016) [Model]

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]

• Shaping of action potentials by different types of BK channels (Jaffe et al., 2011) [Model]

Makadia HK et al. (2015). Multiscale model of dynamic neuromodulation integrating neuropeptide-induced signaling pathway activity with membrane electrophysiology. Biophysical journal. 108 [PubMed]

• Model of AngII signaling and membrane electrophysiology (Makadia, Anderson, Fey et al., 2015) [Model]

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]

• Dentate granule cell: mAHP & sAHP; SK & Kv7/M channels (Mateos-Aparicio et al., 2014) [Model]

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]

• BK - CaV coupling (Montefusco et al. 2017) [Model]

Nicoletti M et al. (2019). Biophysical modeling of C. elegans neurons: Single ion currents and whole-cell dynamics of AWCon and RMD PloS one. 14 [PubMed]

• Biophysical models of AWCon and RMD C. elegans neurons (M. Nicoletti at al. 2019) [Model]

Stanley DA, Bardakjian BL, Spano ML, Ditto WL. (2011). Stochastic amplification of calcium-activated potassium currents in Ca2+ microdomains. Journal of computational neuroscience. 31 [PubMed]

• CA1 pyramidal: Stochastic amplification of KCa in Ca2+ microdomains (Stanley et al. 2011) [Model]

Tabak J, Tomaiuolo M, Gonzalez-Iglesias AE, Milescu LS, Bertram R. (2011). Fast-activating voltage- and calcium-dependent potassium (BK) conductance promotes bursting in pituitary cells: a dynamic clamp study. The Journal of neuroscience : the official journal of the Society for Neuroscience. 31 [PubMed]

• BK Channels Promote Bursting in Pituitary Cells (Tabak et al 2011) [Model]

Vo T, Tabak J, Bertram R, Wechselberger M. (2014). A geometric understanding of how fast activating potassium channels promote bursting in pituitary cells. Journal of computational neuroscience. 36 [PubMed]

• Understanding how fast activating K+ channels promote bursting in pituitary cells (Vo et al 2014) [Model]