• K. Park, J. Lee, M. M. Kohl, B. A. Richards, J. Kwag*
      Optogenetic activation of parvalbumin-positive interneurons restores hippocampal theta-nested gamma oscillation impairment by Aβ oligomers
      Neuroscience 2019(2019)
    • J. Lee, K. Park, H. J. Jang, B. A. Richards, M. M. Kohl, J. Kwag*
      Optogenetic activation of somatostatin interneurons selectively restores hippocampal spike timing-dependent long-term potentiation impaired by Aβ oligomers
      Neuroscience 2019(2019)
    • J. Lee and J. Kwag
      Aβ oligomers impair mGluR5-mediated enhancement of depolarization-induced suppression of inhibition by disrupting PLCβ-dependent endocannabinoid mobilization
      The 10th IBRO World Congress of Neuroscience(2019)
    • K. Park, H. Chung, H. J. Jang, M. M. Kohl, and J. Kwag*
      Dissociation of parvalbumin-positive and somatostatin-positive interneurons’ contributions to frequency-selective impairments of synaptic inhibition to hippocampal pyramidal cells induced by Aβ oligomers in vitro
      The 10th IBRO World Congress of Neuroscience(2019)
    • J. Gwak and J. Kwag*
      Short-term plasticity in PV and SST interneurons enhances neural code propagation in the feedforward network model
      Annual Computational Neuroscience Meeting(2019)
    • H. J. Jang, J. M. Rowland, H. Chung, B. A. Richards, M. M. Kohl, and J. Kwag*
      Differential roles of PV and SST interneurons in spike-timing pattern propagation in the cortical feedforward network
      Annual Computational Neuroscience Meeting(2019)
    • J. Gwak and J. Kwag*
      Parvalbumin and somatostatin interneurons selectively modulate the propagation of asynchronous firing rates in cortical feedforward network models
      Annual Meeting of the Korean Society for Brain and Neural Science(2018)
    • H. Chung and J. Kwag*
      Optogenetic activation of hippocampal SST-positive interneurons recovers impaired theta oscillation in Alzheimer’s disease model in vivo
      Society for Neuroscience(2018)
    • H. J. Jang and J. Kwag*
      In vivo evidence of spatio-temporal spike pattern propagation in feedforward network of vibrissal primary somatosensory cortex
      Society for Neuroscience(2018)
    • J. Lee and J. Kwag*
      1-42 impairs mGluR5-gated spike timing-dependent long-term potentiation by disrupting CB1 receptors
      European College of Neuropsychopharmacology Congress(2017)
    • J. Lee, K. Park, and J. Kwag*
      The effect of Aβ1-42 oligomers on the intrinsic properties of hippocampal somatostatin-positive interneurons
      Annual Meeting of the Korean Society for Brain and Neural Science(2017)
    • H. Chung, K. Park, and J. Kwag*
      Synaptic layer-dependent modulation of CCh-induced theta oscillation by CB1 receptor in the hippocampal CA1 region in vitro
      Annual Meeting of the Korean Society for Brain and Neural Science(2017)
    • K.Park and J. Kwag*
      Differential feedforward and feedback inhibition recruitment by acetylcholine controls the hippocampal CA1 pyramidal cell’s input-output function through endocannabinoid activation
      Society for Neuroscience (2017)
    • H. J. Jang and J. Kwag*
      Propagation of spatio-temporally complex spike pattern in feedforward network of the barrel cortex: in vitro multi-electrode array and in silico neural network model study
      Annual Computational Neuroscience Meeting(2017)
    • S. H. Kim and J.Kwag*
      Learning head directional information by spike timing-dependent plasticity enhances the boundary avoidance in neuromorphic navigational model
      Society for Neuroscience(2016)
    • H. J. Jang, B. A. Richards, M. M. Kohl and J. Kwag*
      Investigation of synaptic and network mechanisms underlying reliable propagation of neural codes in feedforward neural network model
      Human Frontier Science Program Awardees Meeting(2016)
    • S. H. Kim and J. Kwag*
      Neural network model for obstacle avoidance based on neuromorphic computational model of boundary vector cell and head direction cell
      Annual Computational Neuroscience Meeting(2016)
    • H. J. Jang and J. Kwag*
      Dynamic gating of spike pattern propagation by Hebbian and anti-Hebbian spike timing-dependent plasticity in excitatory feedforward network model
      Annual Computational Neuroscience Meeting(2016)
    • H. J. Jang and J. Kwag*
      Spike timing-dependent plasticity enables reliable propagation of in vivo spike pattern in feedforward network model
      State of the Brain(2016)
    • K. Park and J. Kwag*
      Cholinergic modulation of the gain of hippocampal CA1 pyramidal neuron is synaptic input layer-dependent
      Society for Neuroscience(2015)
    • J. Lee and J. Kwag*
      1-42 impairs metabotropic glutamate receptor-gated spiketiming dependent long-term potentiation of hippocampal CA3- CA1 synapse
      Society for Neuroscience(2015)
    • S. W. Park and J. Kwag*
      Computational investigation of the direct transformation of grid cell spike activities into hippocampal ramp-like input and spike phase precession of place cell
      Society for Neuroscience(2015)
    • H. J. Jang and J. Kwag*
      Dynamic activation of feedforward and feedback inhibition enables reliable propagation of sparse in vivo spike patterns in feedforward network
      Society for Neuroscience(2015)
    • S. W. Park and J. Kwag*
      TRANSFORMATION OF GRID CELL ACTIVITY TO PLACE CELL REQUIRES ASYMMETRIC RAMP-LIKE INPUTS: A COMPUTATIONAL MODEL STUDY
      Annual Meeting of the Korean Society for Brain and Neural Science(2014)
    • J. Lee and J. Kwag*
      AMYLOID BETA IMPAIRS SPIKE-TIMING DEPENDENT LONG-TERM POTENTIATION OF HIPPOCAMPAL CA3-CA1 SYNAPSE
      Annual Meeting of the Korean Society for Brain and Neural Science(2014)
    • H. Kim and J. Kwag*
      CHARACTERIZATION OF SUBICULAR INPUTS TO LAYER V NEURONS OF MEDIAL ENTORHINAL CORTEX
      Annual Meeting of the Korean Society for Brain and Neural Science(2014)
    • H. J. Jang and J. Kwag*
      Temporal Pattern Propagation in Feedforward Network
      The 6th International Conference on Brain and Cognitive Engineering(2014)
    • H. J. Jang and J. Kwag*
      Feedforward and feedback inhibition differentially modulate the spike output patterns of CA1 pyramidal neuron
      Society for Neuroscience(2013)
    • S. Lee and J. Kwag*
      Kv7channels Differentially Modulate Excitability Of Layer II And V Pyramidal Neurons In Rat Auditory Cortex
      The Federation of European Neuroscience(2012)
    • H. J. Jang and J. Kwag*
      Decreased A-type K+current alters the spike timing-dependent plasticity induction rule in hippocampal network model: a NEURON model study
      The Federation of European Neuroscience (2012)
    • M. Kim and J. Kwag*
      Effect of Spike Rate Adaptation on phase precession in adaptive Integrate-and-Fire neuron model
      Society for Neuroscience(2011)
    • S. Park and J. Kwag*
      Inhibitory synaptic input location-dependence of the control of spike timing during theta-frequency oscillation in hippocampal CA1 pyramidal neuron:A NEURON model study
      Society for Neuroscience(2011)
    • S. Lee and J. Kwag*
      Ramp-like input generates phase precession relative to theta-frequency oscillation in hippocampal CA1 pyramidal neuron
      Annual Meeting of the Korean Society for Brain and Neural Science(2011)
    • H. J. Jang and J. Kwag*
      GABAergic maturation with development changes the spike timing-dependent plasticity induction rules in hippocampal neural network
      Annual Meeting of the Korean Society for Brain and Neural Science(2011)
    • M. Kim, S. Lee, and J. Kwag*
      Adaptation as an intrinsic mechanism underlying phase precession in adaptive integrate and fire neuron model
      Annual Meeting of the Korean Society for Brain and Neural Science (2011)
    • S. Park and J. Kwag
      Phase response properties of entorhinal cortex layer V pyramidal and multipolar neurons
      Annual Meeting of the Korean Society for Brain and Neural Science(2011)
    • J. Kwag and O. Paulsen
      Mechanism underlying the reversal of spike timing-dependent long-term depression to potentiation by external input during theta-frequency oscillation
      Society for Neuroscience (2010)
    • J. Kwag and O. Paulsen
      Control of spike timing by GABA(A) receptor-mediated inhibitory synaptic input during theta frequency oscillation in rat CA1 pyramidal neurons
      Physiological Society meeting(2009)
    • J. Kwag and O. Paulsen
      Synaptic and intrinsic mechanisms underlying the control of spike timing during theta oscillation in the hippocampal CA1 pyramidal neurons
      The Federation of European Neuroscience(2008)
    • J. Kwag and O. Paulsen
      Spike timing control of CA1 pyramidal neurons during theta oscillation is synaptic input-dependent
      Cold Spring Harbor laboratory conference(2008)
    • J. Kwag, E.O. Mann, D. McLelland, O. Paulsen
      Synaptic control of spike timing during oscillations is frequency-dependent
      Society for Neuroscience(2007)
    • C. Canto, J. Kwag, T. Hafting, M. Fyhn, E.O. Mann, E.I. Moser, M.B. Moser, M.P. Witter, O. Paulsen
      Rate-to-transformation in layer II principal neurons of the rat medial entorhinal cortex
      Society for Neuroscience(2007)
    • J. Kwag, E.O. Mann, O. Paulsen
      Contribution of Ih in the control of spike timing in hippocampal CA1 neurons
      International Brain Reserach Organization(2007)
    • M. Lengyel, J. Kwag, O. Paulsen, F. P. Battaglia, P. Dayan
      Firing rates and phases in the hippocampus: a combined modeling, in vitro, in vivo approach
      Society for Neuroscience (2006)
    • J. Kwag, E.O. Mann, D. McLelland, O. Paulsen
      Ih contributes to spike timing control in pyramidal neurons
      The Federation of European Neuroscience (2006)
    • J. Kwag, E.O. Mann, D. McLelland, O. Paulsen
      Excitatory and inhibitory phase response curves in hippocampal neurons during oscillations.
      Society for Neuroscience(2005)
    • M. Lengyel, J. Kwag, O. Paulsen, P. Dayan
      Matching storage and recall for rate- and phase-based autoassociative memories
      Computations and Systems Neuroscience(2005)