ModelDB: Citation Relationship

Citation Relationships

Amini B, Clark JW, Canavier CC (1999) Calcium dynamics underlying pacemaker-like and burst firing oscillations in midbrain dopaminergic neurons: a computational study. J Neurophysiol 82:2249-61 [PubMed]

References and models cited by this paper

References and models that cite this paper

Canavier CC, Landry RS (2006) An increase in AMPA and a decrease in SK conductance increase burst firing by different mechanisms in a model of a dopamine neuron in vivo. J Neurophysiol 96:2549-63 [Journal] [PubMed]

•	Differential modulation of pattern and rate in a dopamine neuron model (Canavier and Landry 2006) [Model]

Canavier CC, Oprisan SA, Callaway JC, Ji H, Shepard PD (2007) Computational model predicts a role for ERG current in repolarizing plateau potentials in dopamine neurons: implications for modulation of neuronal activity. J Neurophysiol 98:3006-22 [Journal] [PubMed]

•	ERG current in repolarizing plateau potentials in dopamine neurons (Canavier et al 2007) [Model]

Enrico P, Migliore M, Spiga S, Mulas G, Caboni F, Diana M (2016) Morphofunctional alterations in ventral tegmental area dopamine neurons in acute and prolonged opiates withdrawal. A computational perspective. Neuroscience 322:195-207 [Journal] [PubMed]

•	VTA neurons: Morphofunctional alterations in acute opiates withdrawal (Enrico et al. 2016) [Model]

Franci A, Drion G, Sepulchre R (2018) Robust and tunable bursting requires slow positive feedback. J Neurophysiol 119:1222-1234 [Journal] [PubMed]

•	Robust and tunable bursting requires slow positive feedback (Franci et al 2018) [Model]

Knowlton C, Kutterer S, Roeper J, Canavier CC (2018) Calcium dynamics control K-ATP channel-mediated bursting in substantia nigra dopamine neurons: a combined experimental and modeling study. J Neurophysiol 119:84-95 [Journal] [PubMed]

•	Model for K-ATP mediated bursting in mSNc DA neurons (Knowlton et al 2018) [Model]

Komendantov AO, Komendantova OG, Johnson SW, Canavier CC (2004) A modeling study suggests complementary roles for GABAA and NMDA receptors and the SK channel in regulating the firing pattern in midbrain dopamine neurons. J Neurophysiol 91:346-57 [Journal] [PubMed]

•	Regulation of the firing pattern in dopamine neurons (Komendantov et al 2004) [Model]

Kuznetsova AY, Huertas MA, Kuznetsov AS, Paladini CA, Canavier CC (2010) Regulation of firing frequency in a computational model of a midbrain dopaminergic neuron. J Comput Neurosci 28:389-403 [Journal] [PubMed]

•	Regulation of firing frequency in a midbrain dopaminergic neuron model (Kuznetsova et al. 2010) [Model]

Osinski BL, Kay LM (2016) Granule cell excitability regulates gamma and beta oscillations in a model of the olfactory bulb dendrodendritic microcircuit. J Neurophysiol 116:522-39 [Journal] [PubMed]

•	Olfactory Bulb mitral-granule network generates beta oscillations (Osinski & Kay 2016) [Model]

Rumbell T, Kozloski J (2019) Dimensions of control for subthreshold oscillations and spontaneous firing in dopamine neurons PLOS Computational Biology 15:1-34 [Journal]

•	Control of oscillations and spontaneous firing in dopamine neurons (Rumbell & Kozloski 2019) [Model]

Yu N, Canavier CC (2015) A Mathematical Model of a Midbrain Dopamine Neuron Identifies Two Slow Variables Likely Responsible for Bursts Evoked by SK Channel Antagonists and Terminated by Depolarization Block. J Math Neurosci 5:5 [Journal] [PubMed]

•	Phase plane reveals two slow variables in midbrain dopamine neuron bursts (Yu and Canavier, 2015) [Model]

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