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Fernandez FR, Mehaffey WH, Molineux ML, Turner RW (2005) High-threshold K+ current increases gain by offsetting a frequency-dependent increase in low-threshold K+ current. J Neurosci 25:363-71 [PubMed]

   Pyramidal neurons: IKHT offsets activation of IKLT to increase gain (Fernandez et al 2005)

References and models cited by this paper

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Baranauskas G, Tkatch T, Nagata K, Yeh JZ, Surmeier DJ (2003) Kv3.4 subunits enhance the repolarizing efficiency of Kv3.1 channels in fast-spiking neurons. Nat Neurosci 6:258-66 [Journal] [PubMed]

Bekkers JM, Delaney AJ (2001) Modulation of excitability by alpha-dendrotoxin-sensitive potassium channels in neocortical pyramidal neurons. J Neurosci 21:6553-60 [PubMed]

Coetzee WA, Amarillo Y, Chiu J, Chow A, Lau D, McCormack T, Moreno H, Nadal MS, Ozaita A, Pountney D, Saganich M, Vega-Saenz de Miera E, Rudy B (1999) Molecular diversity of K+ channels. Ann N Y Acad Sci 868:233-85 [PubMed]

Dodson PD, Billups B, Rusznák Z, Szûcs G, Barker MC, Forsythe ID (2003) Presynaptic rat Kv1.2 channels suppress synaptic terminal hyperexcitability following action potential invasion. J Physiol 550:27-33 [Journal] [PubMed]

Doiron B, Longtin A, Turner RW, Maler L (2001) Model of gamma frequency burst discharge generated by conditional backpropagation. J Neurophysiol 86:1523-45 [Journal] [PubMed]

Erisir A, Lau D, Rudy B, Leonard CS (1999) Function of specific K(+) channels in sustained high-frequency firing of fast-spiking neocortical interneurons. J Neurophysiol 82:2476-89 [Journal] [PubMed]

Fernandez FR, Morales E, Rashid AJ, Dunn RJ, Turner RW (2003) Inactivation of Kv3.3 potassium channels in heterologous expression systems. J Biol Chem 278:40890-8 [Journal] [PubMed]

Gabbiani F, Metzner W, Wessel R, Koch C (1996) From stimulus encoding to feature extraction in weakly electric fish. Nature 384:564-7 [Journal] [PubMed]

Hernández-Pineda R, Chow A, Amarillo Y, Moreno H, Saganich M, Vega-Saenz de Miera EC, Hernández-Cruz A, Rudy B (1999) Kv3.1-Kv3.2 channels underlie a high-voltage-activating component of the delayed rectifier K+ current in projecting neurons from the globus pallidus. J Neurophysiol 82:1512-28 [Journal] [PubMed]

HODGKIN AL, HUXLEY AF (1952) A quantitative description of membrane current and its application to conduction and excitation in nerve. J Physiol 117:500-44 [Journal] [PubMed]

   Squid axon (Hodgkin, Huxley 1952) (LabAXON) [Model]
   Squid axon (Hodgkin, Huxley 1952) (NEURON) [Model]
   Squid axon (Hodgkin, Huxley 1952) (SNNAP) [Model]
   Squid axon (Hodgkin, Huxley 1952) used in (Chen et al 2010) (R language) [Model]
   Squid axon (Hodgkin, Huxley 1952) (SBML, XPP, other) [Model]

Ishikawa T, Nakamura Y, Saitoh N, Li WB, Iwasaki S, Takahashi T (2003) Distinct roles of Kv1 and Kv3 potassium channels at the calyx of Held presynaptic terminal. J Neurosci 23:10445-53 [PubMed]

Kanemasa T, Gan L, Perney TM, Wang LY, Kaczmarek LK (1995) Electrophysiological and pharmacological characterization of a mammalian Shaw channel expressed in NIH 3T3 fibroblasts. J Neurophysiol 74:207-17 [Journal] [PubMed]

Lau D, Vega-Saenz de Miera EC, Contreras D, Ozaita A, Harvey M, Chow A, Noebels JL, Paylor R, Morgan JI, Leonard CS, Rudy B (2000) Impaired fast-spiking, suppressed cortical inhibition, and increased susceptibility to seizures in mice lacking Kv3.2 K+ channel proteins. J Neurosci 20:9071-85 [PubMed]

Lewis A, McCrossan ZA, Abbott GW (2004) MinK, MiRP1, and MiRP2 diversify Kv3.1 and Kv3.2 potassium channel gating. J Biol Chem 279:7884-92 [Journal] [PubMed]

Lien CC, Jonas P (2003) Kv3 potassium conductance is necessary and kinetically optimized for high-frequency action potential generation in hippocampal interneurons. J Neurosci 23:2058-68 [PubMed]

Macica CM, Kaczmarek LK (2001) Casein kinase 2 determines the voltage dependence of the Kv3.1 channel in auditory neurons and transfected cells. J Neurosci 21:1160-8 [PubMed]

Macica CM, von Hehn CA, Wang LY, Ho CS, Yokoyama S, Joho RH, Kaczmarek LK (2003) Modulation of the kv3.1b potassium channel isoform adjusts the fidelity of the firing pattern of auditory neurons. J Neurosci 23:1133-41 [PubMed]

Martina M, Schultz JH, Ehmke H, Monyer H, Jonas P (1998) Functional and molecular differences between voltage-gated K+ channels of fast-spiking interneurons and pyramidal neurons of rat hippocampus. J Neurosci 18:8111-25 [PubMed]

Martina M, Yao GL, Bean BP (2003) Properties and functional role of voltage-dependent potassium channels in dendrites of rat cerebellar Purkinje neurons. J Neurosci 23:5698-707 [PubMed]

Mathieson WB, Maler L (1988) Morphological and electrophysiological properties of a novel in vitro preparation: the electrosensory lateral line lobe brain slice. J Comp Physiol A 163:489-506 [PubMed]

Matsukawa H, Wolf AM, Matsushita S, Joho RH, Knöpfel T (2003) Motor dysfunction and altered synaptic transmission at the parallel fiber-Purkinje cell synapse in mice lacking potassium channels Kv3.1 and Kv3.3. J Neurosci 23:7677-84 [PubMed]

McKay BE, Turner RW (2004) Kv3 K+ channels enable burst output in rat cerebellar Purkinje cells. Eur J Neurosci 20:729-39 [Journal] [PubMed]

Morales E, Fernandez FR, Sinclair S, Molineux ML, Mehaffey WH, Turner RW (2004) Releasing the peri-neuronal net to patch-clamp neurons in adult CNS. Pflugers Arch 448:248-58 [Journal] [PubMed]

Moreno H, Vega-Saenz de Miera E, Nadal MS, Amarillo Y, Rudy B (2001) Modulation of Kv3 potassium channels expressed in CHO cells by a nitric oxide-activated phosphatase. J Physiol 530:345-58 [PubMed]

Noonan L, Doiron B, Laing C, Longtin A, Turner RW (2003) A dynamic dendritic refractory period regulates burst discharge in the electrosensory lobe of weakly electric fish. J Neurosci 23:1524-34 [PubMed]

Porcello DM, Ho CS, Joho RH, Huguenard JR (2002) Resilient RTN fast spiking in Kv3.1 null mice suggests redundancy in the action potential repolarization mechanism. J Neurophysiol 87:1303-10 [Journal] [PubMed]

Rashid AJ, Dunn RJ, Turner RW (2001) A prominent soma-dendritic distribution of Kv3.3 K+ channels in electrosensory and cerebellar neurons. J Comp Neurol 441:234-47 [PubMed]

Rashid AJ, Morales E, Turner RW, Dunn RJ (2001) The contribution of dendritic Kv3 K+ channels to burst threshold in a sensory neuron. J Neurosci 21:125-35 [PubMed]

Rothman JS, Manis PB (2003) The roles potassium currents play in regulating the electrical activity of ventral cochlear nucleus neurons. J Neurophysiol 89:3097-113 [Journal] [PubMed]

   CN bushy, stellate neurons (Rothman, Manis 2003) (Brian 2) [Model]
   CN bushy, stellate neurons (Rothman, Manis 2003) (Brian) [Model]
   CN bushy, stellate neurons (Rothman, Manis 2003) [Model]

Rothman JS, Manis PB (2003) Kinetic analyses of three distinct potassium conductances in ventral cochlear nucleus neurons. J Neurophysiol 89:3083-96 [Journal] [PubMed]

   CN bushy, stellate neurons (Rothman, Manis 2003) [Model]

Rothman JS, Manis PB (2003) Differential expression of three distinct potassium currents in the ventral cochlear nucleus. J Neurophysiol 89:3070-82 [Journal] [PubMed]

   CN bushy, stellate neurons (Rothman, Manis 2003) [Model]

Rudy B, Chow A, Lau D, Amarillo Y, Ozaita A, Saganich M, Moreno H, Nadal MS, Hernandez-Pineda R, Hernandez-Cruz A, Erisir A, Leonard C, Vega-Saenz de Miera E (1999) Contributions of Kv3 channels to neuronal excitability. Ann N Y Acad Sci 868:304-43 [PubMed]

Rudy B, McBain CJ (2001) Kv3 channels: voltage-gated K+ channels designed for high-frequency repetitive firing. Trends Neurosci 24:517-26 [PubMed]

Svirskis G, Kotak V, Sanes DH, Rinzel J (2002) Enhancement of signal-to-noise ratio and phase locking for small inputs by a low-threshold outward current in auditory neurons. J Neurosci 22:11019-25 [PubMed]

Wang LY, Gan L, Forsythe ID, Kaczmarek LK (1998) Contribution of the Kv3.1 potassium channel to high-frequency firing in mouse auditory neurones. J Physiol 509 ( Pt 1):183-94 [PubMed]

   MNTB Neuron: Kv3.1 currents (Wang et al 1998) [Model]

Weiser M, Vega-Saenz de Miera E, Kentros C, Moreno H, Franzen L, Hillman D, Baker H, Rudy B (1994) Differential expression of Shaw-related K+ channels in the rat central nervous system. J Neurosci 14:949-72 [PubMed]

Ellis LD, Krahe R, Bourque CW, Dunn RJ, Chacron MJ (2007) Muscarinic receptors control frequency tuning through the downregulation of an A-type potassium current. J Neurophysiol 98:1526-37 [Journal] [PubMed]

Fernandez FR, Mehaffey WH, Turner RW (2005) Dendritic Na+ current inactivation can increase cell excitability by delaying a somatic depolarizing afterpotential. J Neurophysiol 94:3836-48 [Journal] [PubMed]

   Dendritic Na inactivation drives a decrease in ISI (Fernandez et al 2005) [Model]

Mehaffey WH, Fernandez FR, Maler L, Turner RW (2007) Regulation of burst dynamics improves differential encoding of stimulus frequency by spike train segregation. J Neurophysiol 98:939-51 [Journal] [PubMed]

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