| 1 |
Burst and tonic firing behaviour in subfornical organ (SFO) neurons (Medlock et al 2018) |
| 2 |
3D model of the olfactory bulb (Migliore et al. 2014) |
| 3 |
3D olfactory bulb: operators (Migliore et al, 2015) |
| 4 |
A 1000 cell network model for Lateral Amygdala (Kim et al. 2013) |
| 5 |
A model of ventral Hippocampal CA1 pyramidal neurons of Tg2576 AD mice (Spoleti et al. 2021) |
| 6 |
A multilayer cortical model to study seizure propagation across microdomains (Basu et al. 2015) |
| 7 |
A network model of tail withdrawal in Aplysia (White et al 1993) |
| 8 |
A simplified cerebellar Purkinje neuron (the PPR model) (Brown et al. 2011) |
| 9 |
A single column thalamocortical network model (Traub et al 2005) |
| 10 |
A synapse model for developing somatosensory cortex (Manninen et al 2020) |
| 11 |
A two-layer biophysical olfactory bulb model of cholinergic neuromodulation (Li and Cleland 2013) |
| 12 |
A two-stage model of dendritic integration in CA1 pyramidal neurons (Katz et al. 2009) |
| 13 |
Actions of Rotenone on ionic currents and MEPPs in Mouse Hippocampal Neurons (Huang et al 2018) |
| 14 |
Active dendrites and spike propagation in a hippocampal interneuron (Saraga et al 2003) |
| 15 |
Active dendrites shape signaling microdomains in hippocampal neurons (Basak & Narayanan 2018) |
| 16 |
Active dendritic integration in robust and precise grid cell firing (Schmidt-Hieber et al 2017) |
| 17 |
Activity dependent changes in motoneurones (Dai Y et al 2002, Gardiner et al 2002) |
| 18 |
Activity dependent conductances in a neuron model (Liu et al. 1998) |
| 19 |
Afferent Integration in the NAcb MSP Cell (Wolf et al. 2005) |
| 20 |
Alcohol action in a detailed Purkinje neuron model and an efficient simplified model (Forrest 2015) |
| 21 |
Allen Institute: Gad2-IRES-Cre VISp layer 5 472447460 |
| 22 |
Allen Institute: Gad2-IRES-Cre VISp layer 5 473561729 |
| 23 |
Allen Institute: Htr3a-Cre VISp layer 2/3 472352327 |
| 24 |
Allen Institute: Htr3a-Cre VISp layer 2/3 472421285 |
| 25 |
Allen Institute: Nr5a1-Cre VISp layer 2/3 473862496 |
| 26 |
Allen Institute: Nr5a1-Cre VISp layer 4 329322394 |
| 27 |
Allen Institute: Nr5a1-Cre VISp layer 4 472306544 |
| 28 |
Allen Institute: Nr5a1-Cre VISp layer 4 472442377 |
| 29 |
Allen Institute: Nr5a1-Cre VISp layer 4 472451419 |
| 30 |
Allen Institute: Nr5a1-Cre VISp layer 4 472915634 |
| 31 |
Allen Institute: Nr5a1-Cre VISp layer 4 473834758 |
| 32 |
Allen Institute: Nr5a1-Cre VISp layer 4 473863035 |
| 33 |
Allen Institute: Nr5a1-Cre VISp layer 4 473871429 |
| 34 |
Allen Institute: Ntsr1-Cre VISp layer 4 472430904 |
| 35 |
Allen Institute: Pvalb-IRES-Cre VISp layer 2/3 472306616 |
| 36 |
Allen Institute: Pvalb-IRES-Cre VISp layer 5 471085845 |
| 37 |
Allen Institute: Pvalb-IRES-Cre VISp layer 5 472349114 |
| 38 |
Allen Institute: Pvalb-IRES-Cre VISp layer 5 472912177 |
| 39 |
Allen Institute: Pvalb-IRES-Cre VISp layer 5 473465774 |
| 40 |
Allen Institute: Pvalb-IRES-Cre VISp layer 5 473862421 |
| 41 |
Allen Institute: Pvalb-IRES-Cre VISp layer 6a 471081668 |
| 42 |
Allen Institute: Pvalb-IRES-Cre VISp layer 6a 472301074 |
| 43 |
Allen Institute: Pvalb-IRES-Cre VISp layer 6a 473860269 |
| 44 |
Allen Institute: Rbp4-Cre VISp layer 5 472424854 |
| 45 |
Allen Institute: Rbp4-Cre VISp layer 6a 473871592 |
| 46 |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 2/3 472299294 |
| 47 |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 2/3 472434498 |
| 48 |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 4 473863510 |
| 49 |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 5 471087975 |
| 50 |
Allen Institute: Rorb-IRES2-Cre-D VISp layer 5 473561660 |
| 51 |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 4 472300877 |
| 52 |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 4 472427533 |
| 53 |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 4 472912107 |
| 54 |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 4 473465456 |
| 55 |
Allen Institute: Scnn1a-Tg2-Cre VISp layer 5 472306460 |
| 56 |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 4 329321704 |
| 57 |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 4 472363762 |
| 58 |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 4 473862845 |
| 59 |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 4 473872986 |
| 60 |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 5 472455509 |
| 61 |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 5 473863578 |
| 62 |
Allen Institute: Scnn1a-Tg3-Cre VISp layer 5 473871773 |
| 63 |
Allen Institute: Sst-IRES-Cre VISp layer 2/3 471086533 |
| 64 |
Allen Institute: Sst-IRES-Cre VISp layer 2/3 472304676 |
| 65 |
Allen Institute: Sst-IRES-Cre VISp layer 4 472304539 |
| 66 |
Allen Institute: Sst-IRES-Cre VISp layer 5 472299363 |
| 67 |
Allen Institute: Sst-IRES-Cre VISp layer 5 472450023 |
| 68 |
Allen Institute: Sst-IRES-Cre VISp layer 5 473835796 |
| 69 |
Allen Institute: Sst-IRES-Cre VISp layer 6a 472440759 |
| 70 |
Alpha rhythm in vitro visual cortex (Traub et al 2020) |
| 71 |
Amyloid beta (IA block) effects on a model CA1 pyramidal cell (Morse et al. 2010) |
| 72 |
Amyloid-beta effects on release probability and integration at CA3-CA1 synapses (Romani et al. 2013) |
| 73 |
An allosteric kinetics of NMDARs in STDP (Urakubo et al. 2008) |
| 74 |
AP back-prop. explains threshold variability and rapid rise (McCormick et al. 2007, Yu et al. 2008) |
| 75 |
AP shape and parameter constraints in optimization of compartment models (Weaver and Wearne 2006) |
| 76 |
Apical Length Governs Computational Diversity of Layer 5 Pyramidal Neurons (Galloni et al 2020) |
| 77 |
Ave. neuron model for slow-wave sleep in cortex Tatsuki 2016 Yoshida 2018 Rasmussen 2017 (all et al) |
| 78 |
Axonal gap junctions produce fast oscillations in cerebellar Purkinje cells (Traub et al. 2008) |
| 79 |
Axonal NaV1.6 Sodium Channels in AP Initiation of CA1 Pyramidal Neurons (Royeck et al. 2008) |
| 80 |
BCM-like synaptic plasticity with conductance-based models (Narayanan Johnston, 2010) |
| 81 |
Burst induced synaptic plasticity in Apysia sensorimotor neurons (Phares et al 2003) |
| 82 |
Bursting and oscillations in RD1 Retina driven by AII Amacrine Neuron (Choi et al. 2014) |
| 83 |
Bursting and resonance in cerebellar granule cells (D'Angelo et al. 2001) |
| 84 |
Ca+/HCN channel-dependent persistent activity in multiscale model of neocortex (Neymotin et al 2016) |
| 85 |
CA1 interneuron: K currents (Lien et al 2002) |
| 86 |
CA1 network model for place cell dynamics (Turi et al 2019) |
| 87 |
CA1 network model: interneuron contributions to epileptic deficits (Shuman et al 2019) |
| 88 |
CA1 oriens alveus interneurons: signaling properties (Minneci et al. 2007) |
| 89 |
CA1 pyramidal cell: I_NaP and I_M contributions to somatic bursting (Golomb et al 2006) |
| 90 |
CA1 pyramidal cell: reconstructed axonal arbor and failures at weak gap junctions (Vladimirov 2011) |
| 91 |
CA1 pyramidal neuron (Combe et al 2018) |
| 92 |
CA1 pyramidal neuron (Migliore et al 1999) |
| 93 |
CA1 pyramidal neuron synaptic integration (Li and Ascoli 2006, 2008) |
| 94 |
CA1 pyramidal neuron to study INaP properties and repetitive firing (Uebachs et al. 2010) |
| 95 |
CA1 pyramidal neuron: as a 2-layer NN and subthreshold synaptic summation (Poirazi et al 2003) |
| 96 |
CA1 pyramidal neuron: action potential backpropagation (Gasparini & Migliore 2015) |
| 97 |
CA1 pyramidal neuron: calculation of MRI signals (Cassara et al. 2008) |
| 98 |
CA1 pyramidal neuron: conditional boosting of dendritic APs (Watanabe et al 2002) |
| 99 |
CA1 pyramidal neuron: dendritic spike initiation (Gasparini et al 2004) |
| 100 |
CA1 pyramidal neuron: depolarization block (Bianchi et al. 2012) |
| 101 |
CA1 pyramidal neuron: effects of Ih on distal inputs (Migliore et al 2004) |
| 102 |
CA1 pyramidal neuron: effects of Lamotrigine on dendritic excitability (Poolos et al 2002) |
| 103 |
CA1 pyramidal neuron: effects of R213Q and R312W Kv7.2 mutations (Miceli et al. 2013) |
| 104 |
CA1 pyramidal neuron: functional significance of axonal Kv7 channels (Shah et al. 2008) |
| 105 |
CA1 pyramidal neuron: Ih current (Migliore et al. 2012) |
| 106 |
CA1 pyramidal neuron: integration of subthreshold inputs from PP and SC (Migliore 2003) |
| 107 |
CA1 pyramidal neuron: nonlinear a5-GABAAR controls synaptic NMDAR activation (Schulz et al 2018) |
| 108 |
CA1 pyramidal neuron: Persistent Na current mediates steep synaptic amplification (Hsu et al 2018) |
| 109 |
CA1 pyramidal neuron: rebound spiking (Ascoli et al.2010) |
| 110 |
Ca1 pyramidal neuron: reduction model (Marasco et al. 2012) |
| 111 |
CA1 pyramidal neuron: schizophrenic behavior (Migliore et al. 2011) |
| 112 |
CA1 pyramidal neuron: signal propagation in oblique dendrites (Migliore et al 2005) |
| 113 |
CA1 pyramidal neuron: synaptically-induced bAP predicts synapse location (Sterratt et al. 2012) |
| 114 |
CA1 pyramidal neurons: binding properties and the magical number 7 (Migliore et al. 2008) |
| 115 |
CA1 pyramidal neurons: effect of external electric field from power lines (Cavarretta et al. 2014) |
| 116 |
CA1 pyramidal neurons: effects of a Kv7.2 mutation (Miceli et al. 2009) |
| 117 |
CA1 pyramidal neurons: effects of Alzheimer (Culmone and Migliore 2012) |
| 118 |
CA1 pyramidal neurons: effects of Kv7 (M-) channels on synaptic integration (Shah et al. 2011) |
| 119 |
CA3 hippocampal pyramidal neuron with voltage-clamp intrinsic conductance data (Traub et al 1991) |
| 120 |
CA3 pyramidal neuron (Lazarewicz et al 2002) |
| 121 |
CA3 Pyramidal Neuron (Migliore et al 1995) |
| 122 |
CA3 pyramidal neuron (Safiulina et al. 2010) |
| 123 |
CA3 pyramidal neuron: firing properties (Hemond et al. 2008) |
| 124 |
CA3 pyramidal neurons: Kv1.2 mediates modulation of cortical inputs (Hyun et al., 2015) |
| 125 |
Calcium and potassium currents of olfactory bulb juxtaglomerular cells (Masurkar and Chen 2011) |
| 126 |
Calcium influx during striatal upstates (Evans et al. 2013) |
| 127 |
Calcium response prediction in the striatal spines depending on input timing (Nakano et al. 2013) |
| 128 |
Calcium spikes in basal dendrites (Kampa and Stuart 2006) |
| 129 |
Calcium waves and mGluR-dependent synaptic plasticity in CA1 pyr. neurons (Ashhad & Narayanan 2013) |
| 130 |
Cell signaling/ion channel variability effects on neuronal response (Anderson, Makadia, et al. 2015) |
| 131 |
Cerebellar Golgi cell (Solinas et al. 2007a, 2007b) |
| 132 |
Cerebellar granular layer (Maex and De Schutter 1998) |
| 133 |
Cerebellar purkinje cell (De Schutter and Bower 1994) |
| 134 |
Cerebellar purkinje cell: interacting Kv3 and Na currents influence firing (Akemann, Knopfel 2006) |
| 135 |
Cerebellar purkinje cell: K and Ca channels regulate APs (Miyasho et al 2001) |
| 136 |
Cerebellum granule cell FHF (Dover et al. 2016) |
| 137 |
Channel density variability among CA1 neurons (Migliore et al. 2018) |
| 138 |
Circadian rhythmicity shapes astrocyte morphology and neuronal function in CA1 (McCauley et al 2020) |
| 139 |
Classic model of the Tritonia Swim CPG (Getting, 1989) |
| 140 |
CN bushy, stellate neurons (Rothman, Manis 2003) |
| 141 |
CN bushy, stellate neurons (Rothman, Manis 2003) (Brian 2) |
| 142 |
CN bushy, stellate neurons (Rothman, Manis 2003) (Brian) |
| 143 |
Collection of simulated data from a thalamocortical network model (Glabska, Chintaluri, Wojcik 2017) |
| 144 |
Comparison of full and reduced globus pallidus models (Hendrickson 2010) |
| 145 |
Complex CA1-neuron to study AP initiation (Wimmer et al. 2010) |
| 146 |
Computational analysis of NN activity and spatial reach of sharp wave-ripples (Canakci et al 2017) |
| 147 |
Computational modeling of ultrasonic Subthalamic Nucleus stimulation (Tarnaud et al 2019) |
| 148 |
Computational neuropharmacology of CA1 pyramidal neuron (Ferrante et al. 2008) |
| 149 |
Computer models of corticospinal neurons replicate in vitro dynamics (Neymotin et al. 2017) |
| 150 |
Computer simulations of neuron-glia interactions mediated by ion flux (Somjen et al. 2008) |
| 151 |
Conductance-based model of rodent thoracic sympathetic postganglionic neuron (McKinnon et al 2019) |
| 152 |
Contrast invariance by LGN synaptic depression (Banitt et al. 2007) |
| 153 |
Control of oscillations and spontaneous firing in dopamine neurons (Rumbell & Kozloski 2019) |
| 154 |
Currents contributing to decision making in neurons B31-B32 of Aplysia (Hurwitz et al. 2008) |
| 155 |
Data-driven, HH-type model of the lateral pyloric (LP) cell in the STG (Nowotny et al. 2008) |
| 156 |
Dentate granule cell: mAHP & sAHP; SK & Kv7/M channels (Mateos-Aparicio et al., 2014) |
| 157 |
Dentate Gyrus Feed-forward inhibition (Ferrante et al. 2009) |
| 158 |
Dentate gyrus granule cell: calcium and calcium-dependent conductances (Aradi and Holmes 1999) |
| 159 |
Depolarization Enhacement of Dendritic Spike Propagation (Bock et al 2022) |
| 160 |
Determinants of the intracellular and extracellular waveforms in DA neurons (Lopez-Jury et al 2018) |
| 161 |
DG granule cell: I-A model (Beck et al 1992) |
| 162 |
Diameter, Myelination and Na/K pump interactions affect axonal resilience to high frequency spiking |
| 163 |
Dichotomy of action-potential backpropagation in CA1 pyramidal neuron dendrites (Golding et al 2001) |
| 164 |
Differences between type A and B photoreceptors (Blackwell 2006) |
| 165 |
Differential modulation of pattern and rate in a dopamine neuron model (Canavier and Landry 2006) |
| 166 |
Discrimination on behavioral time-scales mediated by reaction-diffusion in dendrites (Bhalla 2017) |
| 167 |
Distance-dependent synaptic strength in CA1 pyramidal neurons (Menon et al. 2013) |
| 168 |
Dopamine neuron of the vent. periaqu. gray and dors. raphe nucleus (vlPAG/DRN) (Dougalis et al 2017) |
| 169 |
Dopaminergic subtantia nigra neuron (Moubarak et al 2019) |
| 170 |
DRG neuron models investigate how ion channel levels regulate firing properties (Zheng et al 2019) |
| 171 |
Drosophila 3rd instar larval aCC motoneuron (Gunay et al. 2015) |
| 172 |
Dynamic cortical interlaminar interactions (Carracedo et al. 2013) |
| 173 |
Dynamical assessment of ion channels during in vivo-like states (Guet-McCreight & Skinner 2020) |
| 174 |
Dynamical model of olfactory bulb mitral cell (Rubin, Cleland 2006) |
| 175 |
Early-onset epileptic encephalopathy (Miceli et al. 2015) |
| 176 |
Effect of the initial synaptic state on the probability to induce LTP and LTD (Migliore et al. 2015) |
| 177 |
Effect of voltage sensitive fluorescent proteins on neuronal excitability (Akemann et al. 2009) |
| 178 |
Effects of electric fields on cognitive functions (Migliore et al 2016) |
| 179 |
Effects of increasing CREB on storage and recall processes in a CA1 network (Bianchi et al. 2014) |
| 180 |
Effects of KIR current inactivation in NAc Medium Spiny Neurons (Steephen and Manchanda 2009) |
| 181 |
Electrically-coupled Retzius neurons (Vazquez et al. 2009) |
| 182 |
Electrodecrements in in vitro model of infantile spasms (Traub et al 2020) |
| 183 |
Enhanced Excitability in Hermissenda: modulation by 5-HT (Cai et al 2003) |
| 184 |
Epilepsy may be caused by very small functional changes in ion channels (Thomas et al. 2009) |
| 185 |
Estimation and Production of Time Intervals (Migliore et al 2001) |
| 186 |
Excitability of PFC Basal Dendrites (Acker and Antic 2009) |
| 187 |
Excitability of the soma in central nervous system neurons (Safronov et al 2000) |
| 188 |
Fast oscillations in inhibitory networks (Maex, De Schutter 2003) |
| 189 |
Feedforward inhibition in pyramidal cells (Ferrante & Ascoli 2015) |
| 190 |
Firing neocortical layer V pyramidal neuron (Reetz et al. 2014; Stadler et al. 2014) |
| 191 |
FS Striatal interneuron: K currents solve signal-to-noise problems (Kotaleski et al 2006) |
| 192 |
Functional impact of dendritic branch point morphology (Ferrante et al., 2013) |
| 193 |
Gamma genesis in the basolateral amygdala (Feng et al 2019) |
| 194 |
Gap junction coupled network of striatal fast spiking interneurons (Hjorth et al. 2009) |
| 195 |
Gating of steering signals through phasic modulation of reticulospinal neurons (Kozlov et al. 2014) |
| 196 |
GC model (Beining et al 2017) |
| 197 |
Global structure, robustness, and modulation of neuronal models (Goldman et al. 2001) |
| 198 |
Globus pallidus multi-compartmental model neuron with realistic morphology (Gunay et al. 2008) |
| 199 |
Globus pallidus neuron models with differing dendritic Na channel expression (Edgerton et al., 2010) |
| 200 |
Glutamate mediated dendritic and somatic plateau potentials in cortical L5 pyr cells (Gao et al '20) |
| 201 |
HH model of SCN neurons including a transient K+ channel (Bano-Otalora et al 2021) |
| 202 |
High frequency oscillations in a hippocampal computational model (Stacey et al. 2009) |
| 203 |
Hippocampal CA3 network and circadian regulation (Stanley et al. 2013) |
| 204 |
Hippocampal Mossy Fiber bouton: presynaptic KV7 channel function (Martinello et al 2019) |
| 205 |
Hippocampus CA1 Interneuron Specific 3 (IS3) in vivo-like virtual NN simulations (Luo et al 2020) |
| 206 |
Hippocampus CA1 pyramidal model with Na channel exhibiting slow inactivation (Menon et al. 2009) |
| 207 |
Homeostatic synaptic plasticity (Rabinowitch and Segev 2006a,b) |
| 208 |
Hopfield and Brody model (Hopfield, Brody 2000) |
| 209 |
Hypocretin and Locus Coeruleus model neurons (Carter et al 2012) |
| 210 |
I A in Kenyon cells resemble Shaker currents (Pelz et al 1999) |
| 211 |
IA and IT interact to set first spike latency (Molineux et al 2005) |
| 212 |
Ih tunes oscillations in an In Silico CA3 model (Neymotin et al. 2013) |
| 213 |
Impact of dendritic atrophy on intrinsic and synaptic excitability (Narayanan & Chattarji, 2010) |
| 214 |
Impedance spectrum in cortical tissue: implications for LFP signal propagation (Miceli et al. 2017) |
| 215 |
INa and IKv4.3 heterogeneity in canine LV myocytes (Flaim et al 2006) |
| 216 |
Infraslow intrinsic rhythmogenesis in a subset of AOB projection neurons (Gorin et al 2016) |
| 217 |
Interneuron Specific 3 Interneuron Model (Guet-McCreight et al, 2016) |
| 218 |
Intracortical synaptic potential modulation by presynaptic somatic potential (Shu et al. 2006, 2007) |
| 219 |
Ionic mechanisms of bursting in CA3 pyramidal neurons (Xu and Clancy 2008) |
| 220 |
Ionic mechanisms of dendritic spikes (Almog and Korngreen 2014) |
| 221 |
Kenyon cells in the honeybee (Wustenberg et al 2004) |
| 222 |
Ketamine disrupts theta modulation of gamma in a computer model of hippocampus (Neymotin et al 2011) |
| 223 |
Kv4.3, Kv1.4 encoded K channel in heart cells & tachy. (Winslow et al 1999, Greenstein et al 2000) |
| 224 |
Kv4.3, Kv1.4 encoded K(+) channel in heart cells (Greenstein et al 2000) (XPP) |
| 225 |
L5 PFC microcircuit used to study persistent activity (Papoutsi et al. 2014, 2013) |
| 226 |
L5 PFC pyramidal neurons (Papoutsi et al. 2017) |
| 227 |
L5b PC model constrained for BAC firing and perisomatic current step firing (Hay et al., 2011) |
| 228 |
Lamprey spinal CPG neuron (Huss et al. 2007) |
| 229 |
Large scale model of the olfactory bulb (Yu et al., 2013) |
| 230 |
Lateral dendrodenditic inhibition in the Olfactory Bulb (David et al. 2008) |
| 231 |
Layer V PFC pyramidal neuron used to study persistent activity (Sidiropoulou & Poirazi 2012) |
| 232 |
Layer V pyramidal cell functions and schizophrenia genetics (Mäki-Marttunen et al 2019) |
| 233 |
Layer V pyramidal cell model with reduced morphology (Mäki-Marttunen et al 2018) |
| 234 |
LCN-HippoModel: model of CA1 PCs deep-superficial theta firing dynamics (Navas-Olive et al 2020) |
| 235 |
Learning intrinsic excitability in Medium Spiny Neurons (Scheler 2014) |
| 236 |
Leech Heart (HE) Motor Neuron conductances contributions to NN activity (Lamb & Calabrese 2013) |
| 237 |
Levodopa-Induced Toxicity in Parkinson's Disease (Muddapu et al, 2022) |
| 238 |
Lobster STG pyloric network model with calcium sensor (Gunay & Prinz 2010) (Prinz et al. 2004) |
| 239 |
Long time windows from theta modulated inhib. in entorhinal–hippo. loop (Cutsuridis & Poirazi 2015) |
| 240 |
Mature and young adult-born dentate granule cell models (T2N interface) (Beining et al. 2017) |
| 241 |
MEC layer II stellate cell: Synaptic mechanisms of grid cells (Schmidt-Hieber & Hausser 2013) |
| 242 |
Mechanisms of fast rhythmic bursting in a layer 2/3 cortical neuron (Traub et al 2003) |
| 243 |
Medial vestibular neuron models (Quadroni and Knopfel 1994) |
| 244 |
Microcircuits of L5 thick tufted pyramidal cells (Hay & Segev 2015) |
| 245 |
Mixed mode oscillations as a mechanism for pseudo-plateau bursting (Vo et al. 2010) |
| 246 |
Model of SK current`s influence on precision in Globus Pallidus Neurons (Deister et al. 2009) |
| 247 |
Model of the cerebellar granular network (Sudhakar et al 2017) |
| 248 |
Modeling interactions in Aplysia neuron R15 (Yu et al 2004) |
| 249 |
Modelling reduced excitability in aged CA1 neurons as a Ca-dependent process (Markaki et al. 2005) |
| 250 |
Modulation of septo-hippocampal theta activity by GABAA receptors (Hajos et al. 2004) |
| 251 |
Multi-comp. CA1 O-LM interneuron model with varying dendritic Ih distributions (Sekulic et al 2015) |
| 252 |
Multicompartmental cerebellar granule cell model (Diwakar et al. 2009) |
| 253 |
Multiscale interactions between chemical and electric signaling in LTP (Bhalla 2011) |
| 254 |
Multiscale simulation of the striatal medium spiny neuron (Mattioni & Le Novere 2013) |
| 255 |
Multitarget pharmacology for Dystonia in M1 (Neymotin et al 2016) |
| 256 |
MyFirstNEURON (Houweling, Sejnowski 1997) |
| 257 |
Na channel mutations in the dentate gyrus (Thomas et al. 2009) |
| 258 |
NAcc medium spiny neuron: effects of cannabinoid withdrawal (Spiga et al. 2010) |
| 259 |
Neocortical Layer I: I-A and I-K (Zhou, Hablitz 1996) |
| 260 |
Network model of the granular layer of the cerebellar cortex (Maex, De Schutter 1998) |
| 261 |
Network model with neocortical architecture (Anderson et al 2007,2012; Azhar et al 2012) |
| 262 |
Network recruitment to coherent oscillations in a hippocampal model (Stacey et al. 2011) |
| 263 |
Neuronal dendrite calcium wave model (Neymotin et al, 2015) |
| 264 |
Neuronal morphology goes digital ... (Parekh & Ascoli 2013) |
| 265 |
Neurophysiological impact of inactivation pathways in A-type K+ channels (Fineberg et al 2012) |
| 266 |
Nigral dopaminergic neurons: effects of ethanol on Ih (Migliore et al. 2008) |
| 267 |
NMDA subunit effects on Calcium and STDP (Evans et al. 2012) |
| 268 |
Nodose sensory neuron (Schild et al. 1994, Schild and Kunze 1997) |
| 269 |
Normal ripples, abnormal ripples, and fast ripples in a hippocampal model (Fink et al. 2015) |
| 270 |
O-LM interneuron model (Lawrence et al. 2006) |
| 271 |
Olfactory bulb granule cell: effects of odor deprivation (Saghatelyan et al 2005) |
| 272 |
Olfactory bulb microcircuits model with dual-layer inhibition (Gilra & Bhalla 2015) |
| 273 |
Olfactory bulb mitral and granule cell column formation (Migliore et al. 2007) |
| 274 |
Olfactory bulb mitral and granule cell: dendrodendritic microcircuits (Migliore and Shepherd 2008) |
| 275 |
Olfactory bulb mitral cell gap junction NN model: burst firing and synchrony (O`Connor et al. 2012) |
| 276 |
Olfactory bulb mitral cell: synchronization by gap junctions (Migliore et al 2005) |
| 277 |
Olfactory Bulb Network (Davison et al 2003) |
| 278 |
Olfactory bulb network model of gamma oscillations (Bathellier et al. 2006; Lagier et al. 2007) |
| 279 |
Olfactory Computations in Mitral-Granule cell circuits (Migliore & McTavish 2013) |
| 280 |
Olfactory Mitral Cell (Bhalla, Bower 1993) |
| 281 |
Olfactory Mitral Cell (Davison et al 2000) |
| 282 |
Opposing roles for Na+/Ca2+ exchange and Ca2+-activated K+ currents during STDP (O`Halloran 2020) |
| 283 |
Orientation preference in L23 V1 pyramidal neurons (Park et al 2019) |
| 284 |
Origin of heterogeneous spiking patterns in spinal dorsal horn neurons (Balachandar & Prescott 2018) |
| 285 |
Paired turbulence and light effect on calcium increase in Hermissenda (Blackwell 2004) |
| 286 |
Paradoxical GABA-mediated excitation (Lewin et al. 2012) |
| 287 |
Parallel odor processing by mitral and middle tufted cells in the OB (Cavarretta et al 2016, 2018) |
| 288 |
Parametric computation and persistent gamma in a cortical model (Chambers et al. 2012) |
| 289 |
Phase response curve of a globus pallidal neuron (Fujita et al. 2011) |
| 290 |
Pleiotropic effects of SCZ-associated genes (Mäki-Marttunen et al. 2017) |
| 291 |
Preserving axosomatic spiking features despite diverse dendritic morphology (Hay et al., 2013) |
| 292 |
Principles of Computational Modelling in Neuroscience (Book) (Sterratt et al. 2011) |
| 293 |
Pyramidal neuron coincidence detection tuned by dendritic branching pattern (Schaefer et al 2003) |
| 294 |
Pyramidal Neuron Deep: Constrained by experiment (Dyhrfjeld-Johnsen et al. 2005) |
| 295 |
Pyramidal Neuron Deep: K+ kinetics (Korngreen, Sakmann 2000) |
| 296 |
Pyramidal neuron, fast, regular, and irregular spiking interneurons (Konstantoudaki et al 2014) |
| 297 |
Rapid desynchronization of an electrically coupled Golgi cell network (Vervaeke et al. 2010) |
| 298 |
Reduced-morphology model of CA1 pyramidal cells optimized + validated w/ HippoUnit (Tomko et al '21) |
| 299 |
Regulation of firing frequency in a midbrain dopaminergic neuron model (Kuznetsova et al. 2010) |
| 300 |
Regulation of the firing pattern in dopamine neurons (Komendantov et al 2004) |
| 301 |
Retinal Ganglion Cell: I-A (Benison et al 2001) |
| 302 |
Rhesus Monkey Layer 3 Pyramidal Neurons: Young vs aged PFC (Coskren et al. 2015) |
| 303 |
Rhesus Monkey Young and Aged L3 PFC Pyramidal Neurons (Rumbell et al. 2016) |
| 304 |
Robust and tunable bursting requires slow positive feedback (Franci et al 2018) |
| 305 |
Role of afferent-hair cell connectivity in determining spike train regularity (Holmes et al 2017) |
| 306 |
Role of the AIS in the control of spontaneous frequency of dopaminergic neurons (Meza et al 2017) |
| 307 |
Roles of I(A) and morphology in AP prop. in CA1 pyramidal cell dendrites (Acker and White 2007) |
| 308 |
Salamander retinal ganglian cells: morphology influences firing (Sheasby, Fohlmeister 1999) |
| 309 |
Salamander retinal ganglion cell: ion channels (Fohlmeister, Miller 1997) |
| 310 |
Self-organized olfactory pattern recognition (Kaplan & Lansner 2014) |
| 311 |
Serotonergic modulation of Aplysia sensory neurons (Baxter et al 1999) |
| 312 |
Shaping NMDA spikes by timed synaptic inhibition on L5PC (Doron et al. 2017) |
| 313 |
Small world networks of Type I and Type II Excitable Neurons (Bogaard et al. 2009) |
| 314 |
Spatial summation of excitatory and inhibitory inputs in pyramidal neurons (Hao et al. 2010) |
| 315 |
Specific inhibition of dendritic plateau potential in striatal projection neurons (Du et al 2017) |
| 316 |
Spinal Motor Neuron: Na, K_A, and K_DR currents (Safronov, Vogel 1995) |
| 317 |
State dependent drug binding to sodium channels in the dentate gyrus (Thomas & Petrou 2013) |
| 318 |
STDP and BDNF in CA1 spines (Solinas et al. 2019) |
| 319 |
STDP depends on dendritic synapse location (Letzkus et al. 2006) |
| 320 |
Stochastic 3D model of neonatal rat spinal motoneuron (Ostroumov 2007) |
| 321 |
Stochastic ion channels and neuronal morphology (Cannon et al. 2010) |
| 322 |
Striatal D1R medium spiny neuron, including a subcellular DA cascade (Lindroos et al 2018) |
| 323 |
Striatal Spiny Projection Neuron, inhibition enhances spatial specificity (Dorman et al 2018) |
| 324 |
Striatum D1 Striosome and Matrix Upstates (Prager et al., 2020) |
| 325 |
Studies of stimulus parameters for seizure disruption using NN simulations (Anderson et al. 2007) |
| 326 |
Sympathetic Preganglionic Neurone (Briant et al. 2014) |
| 327 |
Synaptic gating at axonal branches, and sharp-wave ripples with replay (Vladimirov et al. 2013) |
| 328 |
Synaptic information transfer in computer models of neocortical columns (Neymotin et al. 2010) |
| 329 |
Synaptic integration in tuft dendrites of layer 5 pyramidal neurons (Larkum et al. 2009) |
| 330 |
Synaptic integration of an identified nonspiking interneuron in crayfish (Takashima et al 2006) |
| 331 |
Synchrony by synapse location (McTavish et al. 2012) |
| 332 |
Systematic integration of data into multi-scale models of mouse primary V1 (Billeh et al 2020) |
| 333 |
Temperature-Dependent Pyloric Pacemaker Kernel (Caplan JS et al., 2014) |
| 334 |
Thalamic neuron: Modeling rhythmic neuronal activity (Meuth et al. 2005) |
| 335 |
Thalamocortical augmenting response (Bazhenov et al 1998) |
| 336 |
Thalamocortical relay neuron models constrained by experiment and optimization (Iavarone et al 2019) |
| 337 |
The activity phase of postsynaptic neurons (Bose et al 2004) |
| 338 |
The APP in C-terminal domain alters CA1 neuron firing (Pousinha et al 2019) |
| 339 |
The microcircuits of striatum in silico (Hjorth et al 2020) |
| 340 |
The origin of different spike and wave-like events (Hall et al 2017) |
| 341 |
The relationship between two fast/slow analysis techniques for bursting oscill. (Teka et al. 2012) |
| 342 |
Theta phase precession in a model CA3 place cell (Baker and Olds 2007) |
| 343 |
Tonic firing in substantia gelatinosa neurons (Melnick et al 2004) |
| 344 |
Unbalanced peptidergic inhibition in superficial cortex underlies seizure activity (Hall et al 2015) |
| 345 |
Updated Tritonia Swim CPG (Calin-Jagemann et al. 2007) |
| 346 |
Ventromedial Thalamocortical Neuron (Bichler et al 2021) |
| 347 |
Vomeronasal sensory neuron (Shimazaki et al 2006) |
| 348 |
VTA dopamine neuron (Tarfa, Evans, and Khaliq 2017) |
| 349 |
Zebrafish Mauthner-cell model (Watanabe et al 2017) |
