Ascoli GA, Gasparini S, Medinilla V, Migliore M. (2010). Local control of postinhibitory rebound spiking in CA1 pyramidal neuron dendrites. The Journal of neuroscience : the official journal of the Society for Neuroscience. 30 [PubMed]
Brennan EKW, Sudhakar SK, Jedrasiak-Cape I, John TT, Ahmed OJ. (2020). Hyperexcitable Neurons Enable Precise and Persistent Information Encoding in the Superficial Retrosplenial Cortex. Cell reports. 30 [PubMed]
Chen K et al. (2001). Persistently modified h-channels after complex febrile seizures convert the seizure-induced enhancement of inhibition to hyperexcitability. Nature medicine. 7 [PubMed]
Delord B, Baraduc P, Costalat R, Burnod Y, Guigon E. (2000). A model study of cellular short-term memory produced by slowly inactivating potassium conductances. Journal of computational neuroscience. 8 [PubMed]
Dewell RB, Gabbiani F. (2018). Biophysics of object segmentation in a collision-detecting neuron. eLife. 7 [PubMed]
Gold C, Henze DA, Koch C, Buzsáki G. (2006). On the origin of the extracellular action potential waveform: A modeling study. Journal of neurophysiology. 95 [PubMed]
Golomb D et al. (2007). Mechanisms of firing patterns in fast-spiking cortical interneurons. PLoS computational biology. 3 [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]
Hoffman DA, Magee JC, Colbert CM, Johnston D. (1997). K+ channel regulation of signal propagation in dendrites of hippocampal pyramidal neurons. Nature. 387 [PubMed]
Hyun JH et al. (2015). Kv1.2 mediates heterosynaptic modulation of direct cortical synaptic inputs in CA3 pyramidal cells. The Journal of physiology. 593 [PubMed]
Kanold PO, Manis PB. (1999). Transient potassium currents regulate the discharge patterns of dorsal cochlear nucleus pyramidal cells. The Journal of neuroscience : the official journal of the Society for Neuroscience. 19 [PubMed]
Korngreen A, Kaiser KM, Zilberter Y. (2005). Subthreshold inactivation of voltage-gated K+ channels modulates action potentials in neocortical bitufted interneurones from rats. The Journal of physiology. 562 [PubMed]
Mahon S, Deniau JM, Charpier S, Delord B. (2000). Role of a striatal slowly inactivating potassium current in short-term facilitation of corticostriatal inputs: a computer simulation study. Learning & memory (Cold Spring Harbor, N.Y.). 7 [PubMed]
Masurkar AV, Chen WR. (2011). Potassium currents of olfactory bulb juxtaglomerular cells: characterization, simulation, and implications for plateau potential firing. Neuroscience. 192 [PubMed]
Miyasho T et al. (2001). Low-threshold potassium channels and a low-threshold calcium channel regulate Ca2+ spike firing in the dendrites of cerebellar Purkinje neurons: a modeling study. Brain research. 891 [PubMed]
Molineux ML, Fernandez FR, Mehaffey WH, Turner RW. (2005). A-type and T-type currents interact to produce a novel spike latency-voltage relationship in cerebellar stellate cells. The Journal of neuroscience : the official journal of the Society for Neuroscience. 25 [PubMed]
Ori H, Marder E, Marom S. (2018). Cellular function given parametric variation in the Hodgkin and Huxley model of excitability. Proceedings of the National Academy of Sciences of the United States of America. 115 [PubMed]
Rothman JS, Manis PB. (2003). Differential expression of three distinct potassium currents in the ventral cochlear nucleus. Journal of neurophysiology. 89 [PubMed]
Sanchez RM, Surkis A, Leonard CS. (1998). Voltage-clamp analysis and computer simulation of a novel cesium-resistant A-current in guinea pig laterodorsal tegmental neurons. Journal of neurophysiology. 79 [PubMed]
Saraga F, Skinner FK. (2002). Dynamics and diversity in interneurons: a model exploration with slowly inactivating potassium currents. Neuroscience. 113 [PubMed]
Shen W, Hernandez-Lopez S, Tkatch T, Held JE, Surmeier DJ. (2004). Kv1.2-containing K+ channels regulate subthreshold excitability of striatal medium spiny neurons. Journal of neurophysiology. 91 [PubMed]
Shu Y, Hasenstaub A, Duque A, Yu Y, McCormick DA. (2006). Modulation of intracortical synaptic potentials by presynaptic somatic membrane potential. Nature. 441 [PubMed]
Shu Y, Yu Y, Yang J, McCormick DA. (2007). Selective control of cortical axonal spikes by a slowly inactivating K+ current. Proceedings of the National Academy of Sciences of the United States of America. 104 [PubMed]
Takagi H, Kawasaki M. (2003). Modeling of time disparity detection by the Hodgkin-Huxley equations. Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology. 189 [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]
Vidybida AK. (2007). Input-output relations in binding neuron. Bio Systems. 89 [PubMed]
Winograd M, Destexhe A, Sanchez-Vives MV. (2008). Hyperpolarization-activated graded persistent activity in the prefrontal cortex. Proceedings of the National Academy of Sciences of the United States of America. 105 [PubMed]
Yang CR, Seamans JK, Gorelova N. (1999). Developing a neuronal model for the pathophysiology of schizophrenia based on the nature of electrophysiological actions of dopamine in the prefrontal cortex. Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology. 21 [PubMed]