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Drion G, Massotte L, Sepulchre R, Seutin V (2011) How modeling can reconcile apparently discrepant experimental results: the case of pacemaking in dopaminergic neurons. PLoS Comput Biol 7:e1002050 [PubMed]

References and models cited by this paper

References and models that cite this paper

Dougalis AG, Matthews GAC, Liss B, Ungless MA (2017) Ionic currents influencing spontaneous firing and pacemaker frequency in dopamine neurons of the ventrolateral periaqueductal gray and dorsal raphe nucleus (vlPAG/DRN): A voltage-clamp and computational modelling study. J Comput Neurosci 42:275-305 [Journal] [PubMed]
   Dopamine neuron of the vent. periaqu. gray and dors. raphe nucleus (vlPAG/DRN) (Dougalis et al 2017) [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]
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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