Citation Relationships



Schultz W (1998) Predictive reward signal of dopamine neurons. J Neurophysiol 80:1-27 [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]

Chadderdon GL, Neymotin SA, Kerr CC, Lytton WW (2012) Reinforcement learning of targeted movement in a spiking neuronal model of motor cortex. PLoS One 7:e47251 [Journal] [PubMed]

   Reinforcement learning of targeted movement (Chadderdon et al. 2012) [Model]

Daw ND, Courville AC, Tourtezky DS, Touretzky DS (2006) Representation and timing in theories of the dopamine system. Neural Comput 18:1637-77 [Journal] [PubMed]

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]

Durstewitz D (2006) A few important points about dopamine's role in neural network dynamics. Pharmacopsychiatry 39 Suppl 1:S72-5 [Journal] [PubMed]

Frank MJ (2005) Dynamic dopamine modulation in the basal ganglia: a neurocomputational account of cognitive deficits in medicated and nonmedicated Parkinsonism. J Cogn Neurosci 17:51-72 [Journal] [PubMed]

   Dynamic dopamine modulation in the basal ganglia: Learning in Parkinson (Frank et al 2004,2005) [Model]

Frank MJ, Samanta J, Moustafa AA, Sherman SJ (2007) Hold your horses: impulsivity, deep brain stimulation, and medication in parkinsonism. Science 318:1309-12 [Journal] [PubMed]

   Roles of subthalamic nucleus and DBS in reinforcement conflict-based decision making (Frank 2006) [Model]

Gillies A, Willshaw D (2004) Models of the subthalamic nucleus. The importance of intranuclear connectivity. Med Eng Phys 26:723-32 [Journal] [PubMed]

Gruber AJ, Dayan P, Gutkin BS, Solla SA (2006) Dopamine modulation in the basal ganglia locks the gate to working memory. J Comput Neurosci 20:153-66 [Journal] [PubMed]

Gruber AJ, Solla SA, Surmeier DJ, Houk JC (2003) Modulation of striatal single units by expected reward: a spiny neuron model displaying dopamine-induced bistability. J Neurophysiol 90:1095-114 [Journal] [PubMed]

   Spiny neuron model with dopamine-induced bistability (Gruber et al 2003) [Model]

Grüning A (2007) Elman backpropagation as reinforcement for simple recurrent networks. Neural Comput 19:3108-31 [Journal] [PubMed]

Hazy TE, Frank MJ, O'reilly RC (2007) Towards an executive without a homunculus: computational models of the prefrontal cortex/basal ganglia system. Philos Trans R Soc Lond B Biol Sci 362:1601-13 [Journal] [PubMed]

Hjorth J, Blackwell KT, Kotaleski JH (2009) Gap junctions between striatal fast-spiking interneurons regulate spiking activity and synchronization as a function of cortical activity. J Neurosci 29:5276-86 [Journal] [PubMed]

   Gap junction coupled network of striatal fast spiking interneurons (Hjorth et al. 2009) [Model]

Humphries MD, Stewart RD, Gurney KN (2006) A physiologically plausible model of action selection and oscillatory activity in the basal ganglia. J Neurosci 26:12921-42 [Journal] [PubMed]

   Spiking neuron model of the basal ganglia (Humphries et al 2006) [Model]

Izhikevich EM (2007) Solving the distal reward problem through linkage of STDP and dopamine signaling. Cereb Cortex 17:2443-52 [Journal] [PubMed]

   Linking STDP and Dopamine action to solve the distal reward problem (Izhikevich 2007) [Model]

Keramati M, Dezfouli A, Piray P (2011) Speed/accuracy trade-off between the habitual and the goal-directed processes. PLoS Comput Biol 7:e1002055 [Journal] [PubMed]

   Speed/accuracy trade-off between the habitual and the goal-directed processes (Kermati et al. 2011) [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]

Lindskog M, Kim M, Wikström MA, Blackwell KT, Kotaleski JH (2006) Transient calcium and dopamine increase PKA activity and DARPP-32 phosphorylation. PLoS Comput Biol 2:e119 [Journal] [PubMed]

   Model of DARPP-32 phosphorylation in striatal medium spiny neurons (Lindskog et al. 2006) [Model]

Morozova EO, Myroshnychenko M, Zakharov D, di Volo M, Gutkin B, Lapish CC, Kuznetsov A (2016) Contribution of synchronized GABAergic neurons to dopaminergic neuron firing and bursting. J Neurophysiol 116:1900-1923 [Journal] [PubMed]

   Excitability of DA neurons and their regulation by synaptic input (Morozova et al. 2016a, 2016b) [Model]

Mozafari M, Kheradpisheh SR, Masquelier T, Nowzari-Dalini A, Ganjtabesh M (2018) First-Spike-Based Visual Categorization Using Reward-Modulated STDP IEEE Transactions on Neural Networks and Learning Systems :1-13 [Journal]

   First-Spike-Based Visual Categorization Using Reward-Modulated STDP (Mozafari et al. 2018) [Model]

O'Reilly RC, Frank MJ (2005) Making Working Memory Work: A Computational Model of Learning in the Prefrontal Cortex and Basal Ganglia Neural Comput 18:283-328

O'Reilly RC, Frank MJ (2006) Making working memory work: a computational model of learning in the prefrontal cortex and basal ganglia. Neural Comput 18:283-328 [Journal] [PubMed]

Porr B, Wörgötter F (2007) Learning with "relevance": using a third factor to stabilize Hebbian learning. Neural Comput 19:2694-719 [Journal] [PubMed]

Wörgötter F, Porr B (2005) Temporal sequence learning, prediction, and control: a review of different models and their relation to biological mechanisms. Neural Comput 17:245-319 [Journal] [PubMed]

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]

(26 refs)