scholarly article | Q13442814 |
P50 | author | Frances K Skinner | Q55296625 |
Alexandra P Chatzikalymniou | Q88727033 | ||
P2093 | author name string | Katie A Ferguson | |
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Fluctuating synaptic conductances recreate in vivo-like activity in neocortical neurons | Q28366442 | ||
Differential expression of HCN subunits alters voltage-dependent gating of h-channels in CA1 pyramidal neurons from dorsal and ventral hippocampus | Q28564312 | ||
Unbiased stereological estimation of the total number of neurons in the subdivisions of the rat hippocampus using the optical fractionator | Q29619043 | ||
Network models provide insights into how oriens-lacunosum-moleculare and bistratified cell interactions influence the power of local hippocampal CA1 theta oscillations | Q30660319 | ||
Mapping the electrophysiological and morphological properties of CA1 pyramidal neurons along the longitudinal hippocampal axis | Q30714494 | ||
Fast synaptic inhibition promotes synchronized gamma oscillations in hippocampal interneuron networks | Q34192262 | ||
OLM interneurons differentially modulate CA3 and entorhinal inputs to hippocampal CA1 neurons | Q34304220 | ||
Simple, biologically-constrained CA1 pyramidal cell models using an intact, whole hippocampus context | Q34433662 | ||
Functional fission of parvalbumin interneuron classes during fast network events | Q34729573 | ||
Hippocampal theta oscillations are travelling waves | Q34984392 | ||
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Different types of theta rhythmicity are induced by social and fearful stimuli in a network associated with social memory | Q35160237 | ||
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Hippocampal theta rhythm and its coupling with gamma oscillations require fast inhibition onto parvalbumin-positive interneurons | Q37088610 | ||
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Interneuronal mechanisms of hippocampal theta oscillations in a full-scale model of the rodent CA1 circuit. | Q37646924 | ||
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Five methodological challenges in cognitive electrophysiology | Q38129670 | ||
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Ketamine disrupts θ modulation of γ in a computer model of hippocampus. | Q38537612 | ||
Computational implications of biophysical diversity and multiple timescales in neurons and synapses for circuit performance | Q38698951 | ||
Rhythms of the hippocampal network | Q38767515 | ||
Experimentally constrained CA1 fast-firing parvalbumin-positive interneuron network models exhibit sharp transitions into coherent high frequency rhythms. | Q41767247 | ||
Inhibition-induced theta resonance in cortical circuits. | Q41956120 | ||
Active subthreshold dendritic conductances shape the local field potential | Q42127607 | ||
Computational models of O-LM cells are recruited by low or high theta frequency inputs depending on h-channel distributions. | Q42290154 | ||
Flexible theta sequence compression mediated via phase precessing interneurons. | Q42329641 | ||
Phase segregation of medial septal GABAergic neurons during hippocampal theta activity. | Q42468523 | ||
GABAergic neurons of the medial septum lead the hippocampal network during theta activity. | Q42625698 | ||
Self-generated theta oscillations in the hippocampus | Q43250900 | ||
A model of atropine-resistant theta oscillations in rat hippocampal area CA1. | Q44136805 | ||
The hippocamposeptal pathway generates rhythmic firing of GABAergic neurons in the medial septum and diagonal bands: an investigation using a complete septohippocampal preparation in vitro. | Q44921562 | ||
Modulation of septo-hippocampal Theta activity by GABAA receptors: an experimental and computational approach | Q44926303 | ||
In vivo contribution of h-channels in the septal pacemaker to theta rhythm generation. | Q45079487 | ||
Slow and fast inhibition and an H-current interact to create a theta rhythm in a model of CA1 interneuron network | Q46461010 | ||
The presence of pacemaker HCN channels identifies theta rhythmic GABAergic neurons in the medial septum. | Q46530237 | ||
Excitatory Inputs Determine Phase-Locking Strength and Spike-Timing of CA1 Stratum Oriens/Alveus Parvalbumin and Somatostatin Interneurons during Intrinsically Generated Hippocampal Theta Rhythm. | Q47707759 | ||
Linear versus nonlinear signal transmission in neuron models with adaptation currents or dynamic thresholds | Q47798192 | ||
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The CAN-In network: A biologically inspired model for self-sustained theta oscillations and memory maintenance in the hippocampus. | Q48096085 | ||
Action potentials and relations to the theta rhythm of medial septal neurons in vivo | Q48133308 | ||
Parvalbumin Interneurons of Hippocampus Tune Population Activity at Theta Frequency. | Q48141143 | ||
Quantitative analysis of GABA-like-immunoreactive and parvalbumin-containing neurons in the CA1 region of the rat hippocampus using a stereological method, the disector | Q48223675 | ||
Design-based estimation of neuronal number and individual neuronal volume in the rat hippocampus | Q48237014 | ||
Immunoreactivity for the GABAA receptor alpha1 subunit, somatostatin and Connexin36 distinguishes axoaxonic, basket, and bistratified interneurons of the rat hippocampus | Q48361036 | ||
Human Hippocampal Theta Oscillations during Movement without Visual Cues. | Q48827662 | ||
Examining the limits of cellular adaptation bursting mechanisms in biologically-based excitatory networks of the hippocampus. | Q50793278 | ||
Human hippocampal theta oscillations and the formation of episodic memories. | Q50803755 | ||
Network bursting using experimentally constrained single compartment CA3 hippocampal neuron models with adaptation. | Q50980295 | ||
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Dendritic glutamate receptor channels in rat hippocampal CA3 and CA1 pyramidal neurons | Q71687747 | ||
Spike frequency adaptation affects the synchronization properties of networks of cortical oscillations | Q74512041 | ||
P433 | issue | 4 | |
P577 | publication date | 2017-07-01 | |
P1433 | published in | eNeuro | Q27726083 |
P1476 | title | Combining Theory, Model, and Experiment to Explain How Intrinsic Theta Rhythms Are Generated in an In Vitro Whole Hippocampus Preparation without Oscillatory Inputs | |
P478 | volume | 4 |
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Q64283421 | NetPyNE, a tool for data-driven multiscale modeling of brain circuits |
Q60917944 | Using computational models to predict in vivo synaptic inputs to interneuron specific 3 (IS3) cells of CA1 hippocampus that also allow their recruitment during rhythmic states |
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