MicrocircuitDB: Citation Relationship

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Reference cited by multiple papers

Turner RW, Maler L, Deerinck T, Levinson SR, Ellisman MH (1994) TTX-sensitive dendritic sodium channels underlie oscillatory discharge in a vertebrate sensory neuron. J Neurosci 14:6453-71 [PubMed]

References and models cited by this paper

References and models that cite this paper

Chacron MJ (2006) Nonlinear information processing in a model sensory system. J Neurophysiol 95:2933-46 [Journal] [PubMed]

Chacron MJ, Longtin A, Maler L (2004) To burst or not to burst? J Comput Neurosci 17:127-36 [Journal] [PubMed]

Doiron B, Laing C, Longtin A, Maler L (2002) Ghostbursting: a novel neuronal burst mechanism. J Comput Neurosci 12:5-25 [PubMed]

Doiron B, Longtin A, Berman N, Maler L (2001) Subtractive and divisive inhibition: effect of voltage-dependent inhibitory conductances and noise. Neural Comput 13:227-48 [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]

Doiron B, Noonan L, Lemon N, Turner RW (2003) Persistent Na+ current modifies burst discharge by regulating conditional backpropagation of dendritic spikes. J Neurophysiol 89:324-37 [Journal] [PubMed]

Doiron B, Oswald AM, Maler L (2007) Interval coding. II. Dendrite-dependent mechanisms. J Neurophysiol 97:2744-57 [Journal] [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]

Gabbiani F, Cox SJ (2010) Mathematics for Neuroscientists :1-486 [Journal]

•	Mathematics for Neuroscientists (Gabbiani and Cox 2010) [Model]

Górski T, Veltz R, Galtier M, Fragnaud H, Goldman JS, Telenczuk B, Destexhe A (2018) Dendritic sodium spikes endow neurons with inverse firing rate response to correlated synaptic activity. J Comput Neurosci 45:223-234 [Journal] [PubMed]

•	Response to correlated synaptic input for HH/IF point neuron vs with dendrite (Górski et al 2018) [Model]

Jaffe DB, Brenner R (2018) A computational model for how the fast afterhyperpolarization paradoxically increases gain in regularly firing neurons. J Neurophysiol 119:1506-1520 [Journal] [PubMed]

•	Paradoxical effect of fAHP amplitude on gain in dentate gyrus granule cells (Jaffe & Brenner 2018) [Model]

Mainen ZF, Sejnowski TJ (1996) Influence of dendritic structure on firing pattern in model neocortical neurons. Nature 382:363-6 [Journal] [PubMed]

•	Influence of dendritic structure on neocortical neuron firing patterns (Mainen and Sejnowski 1996) [Model]

Mehaffey WH, Doiron B, Maler L, Turner RW (2005) Deterministic multiplicative gain control with active dendrites. J Neurosci 25:9968-77 [Journal] [PubMed]

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]

Rapp M, Yarom Y, Segev I (1996) Modeling back propagating action potential in weakly excitable dendrites of neocortical pyramidal cells. Proc Natl Acad Sci U S A 93:11985-90 [PubMed]

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