Maxim Volgushev

Affiliations: 
University of Connecticut, Storrs, CT, United States 
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"Maxim Volgushev"
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Publications

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Simonova NA, Volgushev MA, Malyshev AY. (2022) Enhanced Non-Associative Long-Term Potentiation in Immature Granule Cells in the Dentate Gyrus of Adult Rats. Frontiers in Synaptic Neuroscience. 14: 889947
Chasse R, Malyshev A, Fitch RH, et al. (2021) Altered heterosynaptic plasticity impairs visual discrimination learning in adenosine A1 receptor knockout mice. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience
Bannon NM, Chistiakova M, Volgushev M. (2020) Synaptic Plasticity in Cortical Inhibitory Neurons: What Mechanisms May Help to Balance Synaptic Weight Changes? Frontiers in Cellular Neuroscience. 14: 204
Bannon NM, Chistiakova M, Volgushev M. (2020) Synaptic Plasticity in Cortical Inhibitory Neurons: What Mechanisms May Help to Balance Synaptic Weight Changes? Frontiers in Cellular Neuroscience. 14
Chistiakova M, Ilin V, Roshchin M, et al. (2019) Distinct heterosynaptic plasticity in fast spiking and non-fast spiking inhibitory neurons in rat visual cortex. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience
Simonova NA, Bal NV, Balaban PM, et al. (2019) An Optogenetic Approach to Studies of the Mechanisms of Heterosynaptic Plasticity in Neocortical Neurons Neuroscience and Behavioral Physiology. 49: 208-215
Ghanbari A, Malyshev A, Volgushev M, et al. (2017) Estimating short-term synaptic plasticity from pre- and postsynaptic spiking. Plos Computational Biology. 13: e1005738
Luong L, Bannon NM, Redenti A, et al. (2017) Very low concentrations of ethanol suppress excitatory synaptic transmission in rat visual cortex. The European Journal of Neuroscience
Nikitin ES, Bal NV, Malyshev A, et al. (2017) Encoding of High Frequencies Improves with Maturation of Action Potential Generation in Cultured Neocortical Neurons. Frontiers in Cellular Neuroscience. 11: 28
Nikitin ES, Malyshev AY, Balaban PM, et al. (2017) Physiological Aspects of the Use of the Hodgkin–Huxley Model of Action Potential Generation for Neurons in Invertebrates and Vertebrates Neuroscience and Behavioral Physiology. 47: 751-757
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