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Institute Physiologie und… Neuro- und… Alexei Egorov Publikationen

AG Egorov

Publikationen: "The Entorhinal Cortex"

Müller P, Draguhn A, Egorov AV (2024) Correction to: Persistent sodium currents in neurons: potential mechanisms and pharmacological blockers. Pflugers Arch. 2024 Oct;476(10):1623. doi: 10.1007/s00424-024-02995-0.

Müller P, Draguhn A, Egorov AV (2024) Persistent sodium currents in neurons: potential mechanisms and pharmacological blockers. Pflugers Arch. 2024 Oct;476(10):1445-1473. doi: 10.1007/s00424-024-02980-7. Epub 2024 Jul 5.

Ohara S, Rannap M, Tsutsui KI, Draguhn A, Egorov AV, Witter MP. Hippocampal-medial entorhinal circuit is differently organized along the dorsoventral axis in rodents. Cell Rep. 2023 Jan 31;42(1):112001. doi: 10.1016/j.celrep.2023.112001.

Rozov A., Rannap M., Lorenz F., Nasretdinov A., Draguhn A. and Egorov A.V. (2020) Processing of Hippocampal Network Activity in the Receiver Network of the Medial Entorhinal Cortex Layer V. J Neurosci. 40: 8413-8425.

Pfeiffer P, Egorov AV, Lorenz F, Schleimer JH, Draguhn A, Schreiber S. (2020) Clusters of cooperative ion channels enable a membrane potential-based mechanism for short-term memory. eLife  9: e49974.

Egorov AV, Schumacher D, Medert R, Birnbaumer L, Freichel M, Draguhn A. (2019) TRPC channels are not required for graded persistent activity in entorhinal cortex neurons. Hippocampus  29: 1038-1048.

Roth F.C, Beyer K.M, Both M, Draguhn A. and Egorov A.V. (2016) Downstream effects of hippocampal sharp wave ripple oscillations on medial entorhinal cortex layer V neurons in vitro. Hippocampus 26: 1493-1508.

Fransén E., Tahvildari B., Egorov A.V., Hasselmo M.E. and Alonso A.A. (2006) Mechanism of graded persistent cellular activity in entorhinal cortex layer V neurons. Neuron 49: 735-746.

von Bohlen und Halbach O., Hinz U., Unsicker K. and Egorov A.V. (2005) Distribution of TRPC1 and TRPC5 in medial temporal lobe structures of mice. Cell Tissue Res. 322: 201-206.

Egorov A.V., Hamam B.N., Fransén E., Hasselmo M.E. and Alonso A.A. (2002) Graded persistent activity in entorhinal cortex neurons. Nature 420: 173-178.

Publikationen: "Development of the Entorhinal Cortex"

Sheroziya M.G., von Bohlen und Halbach O., Unsicker K. and Egorov A.V. (2009) Spontaneous bursting activity in the developing entorhinal cortex. J. Neurosci. 29:12131-12144.

Egorov A.V. and Draguhn A. (2013) Development of coherent neuronal activity patterns in mammalian cortical networks: Common principles and local hetereogeneity. Mech. Dev. 130: 412-423. Review

Publikationen: “Dendritische und axonale Erregbarkeit”

Thome C., Kelly T., Yanez A., Schultz C., Engelhardt M., Cambridge S.B., Both M., Draguhn A., Beck H. and Egorov A.V. (2014) Axon-Carrying Dendrites Convey Privileged Synaptic Input in Hippocampal Neurons. Neuron 17: 1418-1430.

Müller P, Draguhn A, Egorov AV. (2018) Persistent sodium current modulates axonal excitability in CA1 pyramidal neurons. J. Neurochem. 146(4):446-458. doi: 10.1111/jnc.14479.

Thome C, Roth FC, Obermayer J, Yanez A, Draguhn A, Egorov AV. (2018) Synaptic entrainment of ectopic action potential generation in hippocampal pyramidal neurons. J. Physiol. 596(21):5237-5249. doi: 10.1113/JP276720.

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