| | Models |
| 1. |
A Fast Rhythmic Bursting Cell: in vivo cell modeling (Lee 2007)
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| 2. |
A model for recurrent spreading depolarizations (Conte et al. 2017)
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| 3. |
A Model of Multiple Spike Initiation Zones in the Leech C-interneuron (Crisp 2009)
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| 4. |
A multilayer cortical model to study seizure propagation across microdomains (Basu et al. 2015)
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| 5. |
A set of reduced models of layer 5 pyramidal neurons (Bahl et al. 2012)
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| 6. |
A simplified cerebellar Purkinje neuron (the PPR model) (Brown et al. 2011)
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| 7. |
A single column thalamocortical network model (Traub et al 2005)
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| 8. |
A two-layer biophysical olfactory bulb model of cholinergic neuromodulation (Li and Cleland 2013)
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| 9. |
Action potential-evoked Na+ influx similar in axon and soma (Fleidervish et al. 2010) (Python)
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| 10. |
Activity dependent changes in motoneurones (Dai Y et al 2002, Gardiner et al 2002)
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| 11. |
Afferent Integration in the NAcb MSP Cell (Wolf et al. 2005)
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| 12. |
Allen Institute: Htr3a-Cre VISp layer 2/3 472421285
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| 13. |
Allen Institute: Nr5a1-Cre VISp layer 2/3 473862496
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| 14. |
Allen Institute: Nr5a1-Cre VISp layer 4 329322394
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| 15. |
Allen Institute: Nr5a1-Cre VISp layer 4 472306544
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| 16. |
Allen Institute: Nr5a1-Cre VISp layer 4 472442377
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| 17. |
Allen Institute: Nr5a1-Cre VISp layer 4 472451419
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| 18. |
Allen Institute: Nr5a1-Cre VISp layer 4 472915634
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| 19. |
Allen Institute: Nr5a1-Cre VISp layer 4 473834758
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| 20. |
Allen Institute: Nr5a1-Cre VISp layer 4 473863035
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| 21. |
Allen Institute: Nr5a1-Cre VISp layer 4 473871429
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| 22. |
Allen Institute: Rbp4-Cre VISp layer 5 472424854
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| 23. |
Allen Institute: Rbp4-Cre VISp layer 6a 473871592
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| 24. |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 2/3 472299294
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| 25. |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 2/3 472434498
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| 26. |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 4 473863510
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| 27. |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 5 471087975
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| 28. |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 5 473561660
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| 29. |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 4 472300877
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| 30. |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 4 472427533
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| 31. |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 4 472912107
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| 32. |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 4 473465456
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| 33. |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 5 472306460
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| 34. |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 4 329321704
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| 35. |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 4 472363762
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| 36. |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 4 473862845
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| 37. |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 5 473863578
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| 38. |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 5 473871773
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| 39. |
Allen Institute: Sst-IRES-Cre VISp layer 5 473835796
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| 40. |
AP shape and parameter constraints in optimization of compartment models (Weaver and Wearne 2006)
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| 41. |
Axon-somatic back-propagation in a detailed model of cat spinal motoneuron (Balbi et al, 2015)
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| 42. |
Axonal gap junctions produce fast oscillations in cerebellar Purkinje cells (Traub et al. 2008)
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| 43. |
Axonal NaV1.6 Sodium Channels in AP Initiation of CA1 Pyramidal Neurons (Royeck et al. 2008)
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| 44. |
Breakdown of accmmodation in nerve: a possible role for INAp (Hennings et al 2005)
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| 45. |
CA1 pyramidal cell: I_NaP and I_M contributions to somatic bursting (Golomb et al 2006)
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| 46. |
CA1 pyramidal neuron (Combe et al 2018)
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| 47. |
CA1 pyramidal neuron to study INaP properties and repetitive firing (Uebachs et al. 2010)
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| 48. |
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003)
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| 49. |
Calcium response prediction in the striatal spines depending on input timing (Nakano et al. 2013)
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| 50. |
Cerebellar Golgi cell (Solinas et al. 2007a, 2007b)
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| 51. |
Cerebellar nuclear neuron (Sudhakar et al., 2015)
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| 52. |
Cerebellar Nucleus Neuron (Steuber, Schultheiss, Silver, De Schutter & Jaeger, 2010)
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| 53. |
Cerebellar purkinje cell (De Schutter and Bower 1994)
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| 54. |
Cerebellar purkinje cell: K and Ca channels regulate APs (Miyasho et al 2001)
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| 55. |
Cerebellum granule cell FHF (Dover et al. 2016)
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| 56. |
Changes of ionic concentrations during seizure transitions (Gentiletti et al. 2016)
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| 57. |
CN bushy, stellate neurons (Rothman, Manis 2003)
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| 58. |
CN bushy, stellate neurons (Rothman, Manis 2003) (Brian 2)
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| 59. |
CN bushy, stellate neurons (Rothman, Manis 2003) (Brian)
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| 60. |
Collection of simulated data from a thalamocortical network model (Glabska, Chintaluri, Wojcik 2017)
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| 61. |
Comparison of full and reduced globus pallidus models (Hendrickson 2010)
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| 62. |
Complex CA1-neuron to study AP initiation (Wimmer et al. 2010)
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| 63. |
Computational Model of a Central Pattern Generator (Cataldo et al 2006)
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| 64. |
Computational model of bladder small DRG neuron soma (Mandge & Manchanda 2018)
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| 65. |
Computer simulations of neuron-glia interactions mediated by ion flux (Somjen et al. 2008)
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| 66. |
Control of vibrissa motoneuron firing (Harish and Golomb 2010)
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| 67. |
Cortical pyramidal neuron, phase response curve (Stiefel et al 2009)
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| 68. |
DCN fusiform cell (Ceballos et al. 2016)
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| 69. |
Deconstruction of cortical evoked potentials generated by subthalamic DBS (Kumaravelu et al 2018)
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| 70. |
Direct recruitment of S1 pyramidal cells and interneurons via ICMS (Overstreet et al., 2013)
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| 71. |
Discharge hysteresis in motoneurons (Powers & Heckman 2015)
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| 72. |
Dopamine neuron of the vent. periaqu. gray and dors. raphe nucleus (vlPAG/DRN) (Dougalis et al 2017)
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| 73. |
Drosophila 3rd instar larval aCC motoneuron (Gunay et al. 2015)
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| 74. |
Dynamic cortical interlaminar interactions (Carracedo et al. 2013)
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| 75. |
Dynamical model of olfactory bulb mitral cell (Rubin, Cleland 2006)
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| 76. |
Effects of eugenol on the firing of action potentials in NG108-15 neurons (Huang et al. 2011)
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| 77. |
Effects of KIR current inactivation in NAc Medium Spiny Neurons (Steephen and Manchanda 2009)
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| 78. |
Escape response latency in the Giant Fiber System of Drosophila melanogastor (Augustin et al 2019)
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| 79. |
External Tufted Cell Model (Ryan Viertel, Alla Borisyuk 2019)
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| 80. |
Firing neocortical layer V pyramidal neuron (Reetz et al. 2014; Stadler et al. 2014)
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| 81. |
Gamma genesis in the basolateral amygdala (Feng et al 2019)
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| 82. |
Globus pallidus multi-compartmental model neuron with realistic morphology (Gunay et al. 2008)
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| 83. |
Globus pallidus neuron models with differing dendritic Na channel expression (Edgerton et al., 2010)
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| 84. |
Grid cell oscillatory interference with noisy network oscillators (Zilli and Hasselmo 2010)
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| 85. |
Half-center oscillator database of leech heart interneuron model (Doloc-Mihu & Calabrese 2011)
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| 86. |
HH model neuron of the Suprachiasmatic Nucleus including a persistent Na+ channel (Paul et al 2016)
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| 87. |
Impedance spectrum in cortical tissue: implications for LFP signal propagation (Miceli et al. 2017)
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| 88. |
Infraslow intrinsic rhythmogenesis in a subset of AOB projection neurons (Gorin et al 2016)
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| 89. |
Interneuron Specific 3 Interneuron Model (Guet-McCreight et al, 2016)
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| 90. |
Intrinsic sensory neurons of the gut (Chambers et al. 2014)
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| 91. |
Irregular spiking in NMDA-driven prefrontal cortex neurons (Durstewitz and Gabriel 2006)
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| 92. |
KV1 channel governs cerebellar output to thalamus (Ovsepian et al. 2013)
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| 93. |
L5 PFC microcircuit used to study persistent activity (Papoutsi et al. 2014, 2013)
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| 94. |
L5 PFC pyramidal neurons (Papoutsi et al. 2017)
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| 95. |
L5b PC model constrained for BAC firing and perisomatic current step firing (Hay et al., 2011)
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| 96. |
Layer V PFC pyramidal neuron used to study persistent activity (Sidiropoulou & Poirazi 2012)
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| 97. |
Layer V pyramidal cell functions and schizophrenia genetics (Mäki-Marttunen et al 2019)
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| 98. |
Layer V pyramidal cell model with reduced morphology (Mäki-Marttunen et al 2018)
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| 99. |
Leech Heart (HE) Motor Neuron conductances contributions to NN activity (Lamb & Calabrese 2013)
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| 100. |
Leech heart interneuron network model (Hill et al 2001, 2002)
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| 101. |
Linear vs non-linear integration in CA1 oblique dendrites (Gómez González et al. 2011)
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| 102. |
Mathematical model for windup (Aguiar et al. 2010)
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| 103. |
Mechanisms of fast rhythmic bursting in a layer 2/3 cortical neuron (Traub et al 2003)
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| 104. |
Medial vestibular neuron models (Quadroni and Knopfel 1994)
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| 105. |
Microcircuits of L5 thick tufted pyramidal cells (Hay & Segev 2015)
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| 106. |
Model of eupnea and sigh generation in respiratory network (Toporikova et al 2015)
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| 107. |
Model of SK current`s influence on precision in Globus Pallidus Neurons (Deister et al. 2009)
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| 108. |
Model of the cerebellar granular network (Sudhakar et al 2017)
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| 109. |
Modeling interactions in Aplysia neuron R15 (Yu et al 2004)
|
| 110. |
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005)
|
| 111. |
Models of Na channels from a paper on the PKC control of I Na,P (Baker 2005)
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| 112. |
Motoneuron model of self-sustained firing after spinal cord injury (Kurian et al. 2011)
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| 113. |
Multiscale simulation of the striatal medium spiny neuron (Mattioni & Le Novere 2013)
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| 114. |
Muscle spindle feedback circuit (Moraud et al, 2016)
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| 115. |
Myelinated nerve fibre myelin resistance dependent on extracellular K+ level (Brazhe et al. 2010)
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| 116. |
Nav1.6 sodium channel model in globus pallidus neurons (Mercer et al. 2007)
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| 117. |
Neocortical pyramidal neuron: deep; effects of dopamine (Durstewitz et al 2000)
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| 118. |
Olfactory bulb network model of gamma oscillations (Bathellier et al. 2006; Lagier et al. 2007)
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| 119. |
Pacemaker neurons and respiratory rhythm generation (Purvis et al 2007)
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| 120. |
Paradoxical effect of fAHP amplitude on gain in dentate gyrus granule cells (Jaffe & Brenner 2018)
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| 121. |
Paradoxical GABA-mediated excitation (Lewin et al. 2012)
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| 122. |
Persistent synchronized bursting activity in cortical tissues (Golomb et al 2005)
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| 123. |
Phase response curve of a globus pallidal neuron (Fujita et al. 2011)
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| 124. |
Pleiotropic effects of SCZ-associated genes (Mäki-Marttunen et al. 2017)
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| 125. |
PreBotzinger Complex inspiratory neuron with NaP and CAN currents (Park and Rubin 2013)
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| 126. |
Preserving axosomatic spiking features despite diverse dendritic morphology (Hay et al., 2013)
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| 127. |
Pyramidal neuron conductances state and STDP (Delgado et al. 2010)
|
| 128. |
Pyramidal Neuron Deep: Constrained by experiment (Dyhrfjeld-Johnsen et al. 2005)
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| 129. |
Pyramidal neuron, fast, regular, and irregular spiking interneurons (Konstantoudaki et al 2014)
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| 130. |
Rapid desynchronization of an electrically coupled Golgi cell network (Vervaeke et al. 2010)
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| 131. |
Rat phrenic motor neuron (Amini et al 2004)
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| 132. |
Rat subthalamic projection neuron (Gillies and Willshaw 2006)
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| 133. |
Recurrent discharge in a reduced model of cat spinal motoneuron (Balbi et al, 2013)
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| 134. |
Respiratory central pattern generator (mammalian brainstem) (Rubin & Smith 2019)
|
| 135. |
Respiratory central pattern generator including Kolliker-Fuse nucleus (Wittman et al 2019)
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| 136. |
Respiratory central pattern generator network in mammalian brainstem (Rubin et al. 2009)
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| 137. |
Respiratory control model with brainstem CPG and sensory feedback (Diekman, Thomas, and Wilson 2017)
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| 138. |
Respiratory pacemaker neurons (Butera et al 1999)
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| 139. |
Resurgent Na+ current offers noise modulation in bursting neurons (Venugopal et al 2019)
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| 140. |
Rhesus Monkey Young and Aged L3 PFC Pyramidal Neurons (Rumbell et al. 2016)
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| 141. |
Robust transmission in the inhibitory Purkinje Cell to Cerebellar Nuclei pathway (Abbasi et al 2017)
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| 142. |
Role of Ih in firing patterns of cold thermoreceptors (Orio et al., 2012)
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| 143. |
Schiz.-linked gene effects on intrinsic single-neuron excitability (Maki-Marttunen et al. 2016)
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| 144. |
SCZ-associated variant effects on L5 pyr cell NN activity and delta osc. (Maki-Marttunen et al 2018)
|
| 145. |
Sensory-evoked responses of L5 pyramidal tract neurons (Egger et al 2020)
|
| 146. |
Shaping NMDA spikes by timed synaptic inhibition on L5PC (Doron et al. 2017)
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| 147. |
Single compartment Dorsal Lateral Medium Spiny Neuron w/ NMDA and AMPA (Biddell and Johnson 2013)
|
| 148. |
Specific inhibition of dendritic plateau potential in striatal projection neurons (Du et al 2017)
|
| 149. |
Spike Initiation in Neocortical Pyramidal Neurons (Mainen et al 1995)
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| 150. |
Spinal circuits controlling limb coordination and gaits in quadrupeds (Danner et al 2017)
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| 151. |
Spinal Motor Neuron (McIntyre et al 2002)
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| 152. |
State-dependent rhythmogenesis in a half-center locomotor CPG (Ausburn et al 2017)
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| 153. |
STD-dependent and independent encoding of Input irregularity as spike rate (Luthman et al. 2011)
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| 154. |
Striatal Output Neuron (Mahon, Deniau, Charpier, Delord 2000)
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| 155. |
Structure-dynamics relationships in bursting neuronal networks revealed (Mäki-Marttunen et al. 2013)
|
| 156. |
Subiculum network model with dynamic chloride/potassium homeostasis (Buchin et al 2016)
|
| 157. |
Submyelin Potassium accumulation in Subthalamic neuron (STN) axons (Bellinger et al. 2008)
|
| 158. |
Synthesis of spatial tuning functions from theta cell spike trains (Welday et al., 2011)
|
| 159. |
Thalamocortical relay neuron models constrained by experiment and optimization (Iavarone et al 2019)
|
| 160. |
The origin of different spike and wave-like events (Hall et al 2017)
|
| 161. |
Theta phase precession in a model CA3 place cell (Baker and Olds 2007)
|
| 162. |
Tonic neuron in spinal lamina I: prolongation of subthreshold depol. (Prescott and De Koninck 2005)
|
| 163. |
TRPM8-dependent dynamic response in cold thermoreceptors (Olivares et al. 2015)
|
| 164. |
TTX-R Na+ current effect on cell response (Herzog et al 2001)
|
| 165. |
TTX-R Na+ current effect on cell response (Herzog et al 2001) (MATLAB)
|
| 166. |
Unbalanced peptidergic inhibition in superficial cortex underlies seizure activity (Hall et al 2015)
|
| 167. |
Visual physiology of the layer 4 cortical circuit in silico (Arkhipov et al 2018)
|
| 168. |
Voltage- and Branch-specific Climbing Fiber Responses in Purkinje Cells (Zang et al 2018)
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