| | Models |
| 1. |
3D model of the olfactory bulb (Migliore et al. 2014)
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| 2. |
A detailed Purkinje cell model (Masoli et al 2015)
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| 3. |
A Fast Rhythmic Bursting Cell: in vivo cell modeling (Lee 2007)
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| 4. |
A four compartmental model for ABPD complex in crustacean pyloric network (Maran et al. 2011)
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| 5. |
A model of neuronal bursting using three coupled first order diff. eqs. (Hindmarsh & Rose 1984)
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| 6. |
A modified Morris-Lecar with TRPC4 & GIRK (Tian et al. 2022)
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| 7. |
A network model of tail withdrawal in Aplysia (White et al 1993)
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| 8. |
A network of AOB mitral cells that produces infra-slow bursting (Zylbertal et al. 2017)
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| 9. |
A phantom bursting mechanism for episodic bursting (Bertram et al 2008)
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| 10. |
A simple integrative electrophysiological model of bursting GnRH neurons (Csercsik et al. 2011)
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| 11. |
A single column thalamocortical network model (Traub et al 2005)
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| 12. |
A spatial model of the intermediate superior colliculus (Moren et. al. 2013)
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| 13. |
A spatially extended model for macroscopic spike-wave discharges (Taylor and Baier 2011)
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| 14. |
Actions of Rotenone on ionic currents and MEPPs in Mouse Hippocampal Neurons (Huang et al 2018)
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| 15. |
Activity dependent conductances in a neuron model (Liu et al. 1998)
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| 16. |
Alcohol action in a detailed Purkinje neuron model and an efficient simplified model (Forrest 2015)
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| 17. |
Apical Length Governs Computational Diversity of Layer 5 Pyramidal Neurons (Galloni et al 2020)
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| 18. |
Ave. neuron model for slow-wave sleep in cortex Tatsuki 2016 Yoshida 2018 Rasmussen 2017 (all et al)
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| 19. |
Basal ganglia network model of subthalamic deep brain stimulation (Hahn and McIntyre 2010)
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| 20. |
Basal ganglia-thalamic network model for deep brain stimulation (So et al. 2012)
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| 21. |
Biophysically detailed model of somatosensory thalamocortical circuit
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| 22. |
BK Channels Promote Bursting in Pituitary Cells (Tabak et al 2011)
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| 23. |
Burst and tonic firing behaviour in subfornical organ (SFO) neurons (Medlock et al 2018)
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| 24. |
Bursting activity of neuron R15 in Aplysia (Canavier et al 1991, Butera et al 1995)
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| 25. |
Bursting and oscillations in RD1 Retina driven by AII Amacrine Neuron (Choi et al. 2014)
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| 26. |
Bursting and resonance in cerebellar granule cells (D'Angelo et al. 2001)
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| 27. |
Bursting in dopamine neurons (Li YX et al 1996)
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| 28. |
Bursting respiratory net: clustered architecture gives large phase diff`s (Fietkiewicz et al 2011)
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| 29. |
CA1 oriens alveus interneurons: signaling properties (Minneci et al. 2007)
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| 30. |
CA1 pyramidal cell: I_NaP and I_M contributions to somatic bursting (Golomb et al 2006)
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| 31. |
CA1 pyramidal neuron network model (Ferguson et al 2015)
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| 32. |
Ca2+-activated I_CAN and synaptic depression promotes network-dependent oscil. (Rubin et al. 2009)
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| 33. |
CA3 pyramidal neuron (Lazarewicz et al 2002)
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| 34. |
CA3 Pyramidal Neuron (Migliore et al 1995)
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| 35. |
CA3 pyramidal neuron (Safiulina et al. 2010)
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| 36. |
CA3 pyramidal neuron: firing properties (Hemond et al. 2008)
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| 37. |
Caffeine-induced electrical oscillations in Aplysia neurons (Komendantov, Kononenko 2000)
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| 38. |
Cancelling redundant input in ELL pyramidal cells (Bol et al. 2011)
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| 39. |
Cerebellar Nucleus Neuron (Steuber, Schultheiss, Silver, De Schutter & Jaeger, 2010)
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| 40. |
Cerebellar purkinje cell: K and Ca channels regulate APs (Miyasho et al 2001)
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| 41. |
Cholinergic and nicotinic regulation of DA neuron firing (Morozova et al 2020)
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| 42. |
Classic model of the Tritonia Swim CPG (Getting, 1989)
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| 43. |
Collection of simulated data from a thalamocortical network model (Glabska, Chintaluri, Wojcik 2017)
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| 44. |
Complex dynamics: reproducing Golgi cell electroresponsiveness (Geminiani et al 2018, 2019ab)
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| 45. |
Computer model of clonazepam's effect in thalamic slice (Lytton 1997)
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| 46. |
Data-driven, HH-type model of the lateral pyloric (LP) cell in the STG (Nowotny et al. 2008)
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| 47. |
Dendritic L-type Ca currents in motoneurons (Carlin et al 2000)
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| 48. |
Dendritica (Vetter et al 2001)
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| 49. |
Dentate gyrus granule cell: calcium and calcium-dependent conductances (Aradi and Holmes 1999)
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| 50. |
Dependence of neuronal firing on astroglial membrane transport mechanisms (Oyehaug et al 2012)
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| 51. |
Deterministic chaos in a mathematical model of a snail neuron (Komendantov and Kononenko 1996)
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| 52. |
Differential modulation of pattern and rate in a dopamine neuron model (Canavier and Landry 2006)
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| 53. |
Dopaminergic cell bursting model (Kuznetsov et al 2006)
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| 54. |
Dorsal root ganglion (DRG) neuronal model (Kovalsky et al. 2009)
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| 55. |
Dynamic cortical interlaminar interactions (Carracedo et al. 2013)
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| 56. |
Dynamical model of olfactory bulb mitral cell (Rubin, Cleland 2006)
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| 57. |
Dynamics of ramping bursts in a respiratory pre-Botzinger Complex model (Abdulla et al, 2021)
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| 58. |
Evolving simple models of diverse dynamics in hippocampal neuron types (Venkadesh et al 2018)
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| 59. |
Excitability of DA neurons and their regulation by synaptic input (Morozova et al. 2016a, 2016b)
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| 60. |
Fast-spiking cortical interneuron (Golomb et al. 2007)
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| 61. |
Febrile seizure-induced modifications to Ih (Chen et al 2001)
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| 62. |
Fully continuous Pinsky-Rinzel model for bifurcation analysis (Atherton et al. 2016)
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| 63. |
Gating of steering signals through phasic modulation of reticulospinal neurons (Kozlov et al. 2014)
|
| 64. |
Generating oscillatory bursts from a network of regular spiking neurons (Shao et al. 2009)
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| 65. |
Global structure, robustness, and modulation of neuronal models (Goldman et al. 2001)
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| 66. |
Half-center oscillator database of leech heart interneuron model (Doloc-Mihu & Calabrese 2011)
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| 67. |
Hippocampal CA1 pyramidal cell demonstrating dynamic mode switching (Berteau & Bullock 2020)
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| 68. |
Hippocampal CA3 thorny and a-thorny principal neuron models (Linaro et al in review)
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| 69. |
Hodgkin–Huxley model with fractional gating (Teka et al. 2016)
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| 70. |
Homeostatic mechanisms may shape oscillatory modulations (Peterson & Voytek 2020)
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| 71. |
Impact of dendritic size and topology on pyramidal cell burst firing (van Elburg and van Ooyen 2010)
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| 72. |
Inhibition and glial-K+ interaction leads to diverse seizure transition modes (Ho & Truccolo 2016)
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| 73. |
Integrated Oscillator Model for pancreatic islet beta-cells (Marinelli et al., 2022)
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| 74. |
Ion concentration dynamics as a mechanism for neuronal bursting (Barreto & Cressman 2011)
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| 75. |
Ionic mechanisms of bursting in CA3 pyramidal neurons (Xu and Clancy 2008)
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| 76. |
Irregular oscillations produced by cyclic recurrent inhibition (Friesen, Friesen 1994)
|
| 77. |
KV1 channel governs cerebellar output to thalamus (Ovsepian et al. 2013)
|
| 78. |
Large scale model of the olfactory bulb (Yu et al., 2013)
|
| 79. |
Leech Heart (HE) Motor Neuron conductances contributions to NN activity (Lamb & Calabrese 2013)
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| 80. |
Leech heart interneuron network model (Hill et al 2001, 2002)
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| 81. |
Linking dynamics of the inhibitory network to the input structure (Komarov & Bazhenov 2016)
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| 82. |
Lobster STG pyloric network model with calcium sensor (Gunay & Prinz 2010) (Prinz et al. 2004)
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| 83. |
Low dose of dopamine may stimulate prolactin secretion by increasing K currents (Tabak et al. 2006)
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| 84. |
Low Threshold Calcium Currents in TC cells (Destexhe et al 1998)
|
| 85. |
Low Threshold Calcium Currents in TC cells (Destexhe et al 1998) (Brian)
|
| 86. |
LP neuron model database (Zang and Marder 2023)
|
| 87. |
Maximal firing rate in midbrain dopamine neurons (Knowlton et al., 2021)
|
| 88. |
Mean-field systems and small scale neural networks (Ferguson et al. 2015)
|
| 89. |
Mechanisms of fast rhythmic bursting in a layer 2/3 cortical neuron (Traub et al 2003)
|
| 90. |
Mitral cell activity gating by respiration and inhibition in an olfactory bulb NN (Short et al 2016)
|
| 91. |
Mixed mode oscillations as a mechanism for pseudo-plateau bursting (Vo et al. 2010)
|
| 92. |
Model for K-ATP mediated bursting in mSNc DA neurons (Knowlton et al 2018)
|
| 93. |
Model for pancreatic beta-cells (Law et al. 2020)
|
| 94. |
Model for pancreatic beta-cells with two isoforms of PFK (Marinelli et al., 2022)
|
| 95. |
Modeling interactions in Aplysia neuron R15 (Yu et al 2004)
|
| 96. |
Morris-Lecar model of the barnacle giant muscle fiber (Morris, Lecar 1981)
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| 97. |
Multi-timescale adaptive threshold model (Kobayashi et al 2009)
|
| 98. |
Multi-timescale adaptive threshold model (Kobayashi et al 2009) (NEURON)
|
| 99. |
Multifunctional control of feeding in Aplysia (Webster-Wood et al. 2020)
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| 100. |
Multiple dynamical modes of thalamic relay neurons (Wang XJ 1994)
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| 101. |
Multiple modes of a conditional neural oscillator (Epstein, Marder 1990)
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| 102. |
Multiscale model of excitotoxicity in PD (Muddapu and Chakravarthy 2020)
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| 103. |
Multiscale modeling of epileptic seizures (Naze et al. 2015)
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| 104. |
MyFirstNEURON (Houweling, Sejnowski 1997)
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| 105. |
Neocortical Layer I: I-A and I-K (Zhou, Hablitz 1996)
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| 106. |
Network bursts in cultured NN result from different adaptive mechanisms (Masquelier & Deco 2013)
|
| 107. |
Network model with neocortical architecture (Anderson et al 2007,2012; Azhar et al 2012)
|
| 108. |
Nigral dopaminergic neurons: effects of ethanol on Ih (Migliore et al. 2008)
|
| 109. |
NMDA spikes in basal dendrites of L5 pyramidal neurons (Polsky et al. 2009)
|
| 110. |
Norns - Neural Network Studio (Visser & Van Gils 2014)
|
| 111. |
Olfactory bulb mitral cell gap junction NN model: burst firing and synchrony (O`Connor et al. 2012)
|
| 112. |
Pacemaker neurons and respiratory rhythm generation (Purvis et al 2007)
|
| 113. |
Paradoxical GABA-mediated excitation (Lewin et al. 2012)
|
| 114. |
Parallel STEPS: Large scale stochastic spatial reaction-diffusion simulat. (Chen & De Schutter 2017)
|
| 115. |
Persistent synchronized bursting activity in cortical tissues (Golomb et al 2005)
|
| 116. |
Phase plane reveals two slow variables in midbrain dopamine neuron bursts (Yu and Canavier, 2015)
|
| 117. |
PreBotzinger Complex inspiratory neuron with NaP and CAN currents (Park and Rubin 2013)
|
| 118. |
Principles of Computational Modelling in Neuroscience (Book) (Sterratt et al. 2011)
|
| 119. |
Purkinje cell: Synaptic activation predicts voltage control of burst-pause (Masoli & D'Angelo 2017)
|
| 120. |
Pyramidal Neuron Deep: Constrained by experiment (Dyhrfjeld-Johnsen et al. 2005)
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| 121. |
Pyramidal Neuron: Deep, Thalamic Relay and Reticular, Interneuron (Destexhe et al 1998, 2001)
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| 122. |
Rat subthalamic projection neuron (Gillies and Willshaw 2006)
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| 123. |
Regulation of the firing pattern in dopamine neurons (Komendantov et al 2004)
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| 124. |
Reliability of Morris-Lecar neurons with added T, h, and AHP currents (Zeldenrust et al. 2013)
|
| 125. |
Respiratory pacemaker neurons (Butera et al 1999)
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| 126. |
Resurgent Na+ current offers noise modulation in bursting neurons (Venugopal et al 2019)
|
| 127. |
Reverberatory bursts propagation and synchronization in developing cultured NNs (Huang et al 2016)
|
| 128. |
Robust and tunable bursting requires slow positive feedback (Franci et al 2018)
|
| 129. |
Robust modulation of integrate-and-fire models (Van Pottelbergh et al 2018)
|
| 130. |
Role of Ih in firing patterns of cold thermoreceptors (Orio et al., 2012)
|
| 131. |
Salamander retinal ganglian cells: morphology influences firing (Sheasby, Fohlmeister 1999)
|
| 132. |
Simulating ion channel noise in an auditory brainstem neuron model (Schmerl & McDonnell 2013)
|
| 133. |
Simulations of motor unit discharge patterns (Powers et al. 2011)
|
| 134. |
Single neuron with dynamic ion concentrations (Cressman et al. 2009)
|
| 135. |
Spike trains in Hodgkin–Huxley model and ISIs of acupuncture manipulations (Wang et al. 2008)
|
| 136. |
STDP depends on dendritic synapse location (Letzkus et al. 2006)
|
| 137. |
Stochastic model for pituitary corticotrophs (Duncan et al., 2022)
|
| 138. |
Structure-dynamics relationships in bursting neuronal networks revealed (Mäki-Marttunen et al. 2013)
|
| 139. |
Studies of stimulus parameters for seizure disruption using NN simulations (Anderson et al. 2007)
|
| 140. |
Subiculum network model with dynamic chloride/potassium homeostasis (Buchin et al 2016)
|
| 141. |
Sympathetic Preganglionic Neurone (Briant et al. 2014)
|
| 142. |
Synaptic strengths are critical in creating the proper output phasing in a CPG (Gunay et al 2019)
|
| 143. |
Temperature-Dependent Pyloric Pacemaker Kernel (Caplan JS et al., 2014)
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| 144. |
Thalamic interneuron multicompartment model (Zhu et al. 1999)
|
| 145. |
Thalamic neuron: Modeling rhythmic neuronal activity (Meuth et al. 2005)
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| 146. |
Thalamic reticular neurons: the role of Ca currents (Destexhe et al 1996)
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| 147. |
Thalamocortical Relay cell under current clamp in high-conductance state (Zeldenrust et al 2018)
|
| 148. |
Thalamocortical relay neuron models constrained by experiment and optimization (Iavarone et al 2019)
|
| 149. |
The activity phase of postsynaptic neurons (Bose et al 2004)
|
| 150. |
The dynamics underlying pseudo-plateau bursting in a pituitary cell model (Teka et al. 2011)
|
| 151. |
The relationship between two fast/slow analysis techniques for bursting oscill. (Teka et al. 2012)
|
| 152. |
The role of ATP-sensitive potassium channels in a hippocampal neuron (Huang et al. 2007)
|
| 153. |
TRPM8-dependent dynamic response in cold thermoreceptors (Olivares et al. 2015)
|
| 154. |
Two-cell inhibitory network bursting dynamics captured in a one-dimensional map (Matveev et al 2007)
|
| 155. |
Understanding how fast activating K+ channels promote bursting in pituitary cells (Vo et al 2014)
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| 156. |
Updated Tritonia Swim CPG (Calin-Jagemann et al. 2007)
|
| 157. |
Zebrafish Mauthner-cell model (Watanabe et al 2017)
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