Chen Y, Yu FH, Surmeier DJ, Scheuer T, Catterall WA. (2006). Neuromodulation of Na+ channel slow inactivation via cAMP-dependent protein kinase and protein kinase C. Neuron. 49 [PubMed]

Gurkiewicz M, Korngreen A, Waxman SG, Lampert A. (2011). Kinetic modeling of Nav1.7 provides insight into erythromelalgia-associated F1449V mutation. Journal of neurophysiology. 105 [PubMed]

• HMM of Nav1.7 WT and F1449V (Gurkiewicz et al. 2011) [Model]

Herzog RI, Cummins TR, Waxman SG. (2001). Persistent TTX-resistant Na+ current affects resting potential and response to depolarization in simulated spinal sensory neurons. Journal of neurophysiology. 86 [PubMed]

• TTX-R Na+ current effect on cell response (Herzog et al 2001) [Model]
• TTX-R Na+ current effect on cell response (Herzog et al 2001) (MATLAB) [Model]

Lindroos R et al. (2018). Basal Ganglia Neuromodulation Over Multiple Temporal and Structural Scales-Simulations of Direct Pathway MSNs Investigate the Fast Onset of Dopaminergic Effects and Predict the Role of Kv4.2. Frontiers in neural circuits. 12 [PubMed]

• Striatal D1R medium spiny neuron, including a subcellular DA cascade (Lindroos et al 2018) [Model]

Menon V, Spruston N, Kath WL. (2009). A state-mutating genetic algorithm to design ion-channel models. Proceedings of the National Academy of Sciences of the United States of America. 106 [PubMed]

• Hippocampus CA1 pyramidal model with Na channel exhibiting slow inactivation (Menon et al. 2009) [Model]

Tsutsui H, Oka Y. (2002). Slow removal of Na(+) channel inactivation underlies the temporal filtering property in the teleost thalamic neurons. The Journal of physiology. 539 [PubMed]

• Novel Na current with slow de-inactivation (Tsutsui, Oka 2002) [Model]