Barygin O

Barygin O

Barygin

Oleg I.

PhD

ResearcherID:  Y-7101-2019
Research Gate:  Oleg_Barygin
Scopus ID:  10046651100
eLibrary ID:  167887

Specialist in ion channel pharmacology, especially interested in the molecular mechanisms of action of ligands on NMDA and AMPA receptors and ASIC channels. Mostly using electrophysiological methods.

Articles

Dron M, Zhigulin A, Tikhonov D, Barygin O / Screening for Activity Against AMPA Receptors Among Anticonvulsants — Focus on Phenytoin / Front. Pharmacol. 2021 12 : 775040
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Temnyakova N, Vasilenko D, Barygin O, Dron M, Averina E, Grishin Yu, Grigoriev V, Palyulin V, Fedorov M, Karlov D / Ifenprodil-like NMDA receptor modulator based on the biphenyl scaffold / Mendeleev Communications 2020 30(3) : 342-343
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Dron M, Zhigulin A, Barygin O / Mechanisms of NMDA receptor inhibition by diarylamidine compounds / Eur J Neurosci 2020 51 : 1573–1582
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Belinskaia D, Belinskaia M, Barygin O, Vanchakova N, Shestakova N / Psychotropic drugs for the management of chronic pain and itch / Pharmaceuticals (Basel) 2019 12(2) : 99
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Karlov D, Barygin O, Dron M, Palyulin V, Grigoriev V, Fedorov M / Short peptide with an inhibitory activity on the NMDA/Gly-induced currents / Gly-induced currents, SAR and QSAR in Environmental Research 2019 30(9) : 683-695
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Chernov N, Shutov R, Barygin O, Dron M, Starova G, Kuz'mich N, Yakovlev I / Synthesis of Chromone-Containing Allylmorpholines through a Morita–Baylis–Hillman-Type Reaction / Eur. J. Org. Chem. 2018 2018 : 6304-6313
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Barygin O, Nagaeva E, Tikhonov D, Belinskaia D, Vanchakova N, Shestakova N / Inhibition of the NMDA and AMPA receptor channels by antidepressants and antipsychotics / Brain Research 2017 1660 : 58-66
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Barygin O, Komarova M, Tikhonova T, Korosteleva A, Nikolaev M, Magazanik L, Tikhonov D / Complex action of tyramine, tryptamine and histamine on native and recombinant ASICs / Channels (Austin) 2017 Nov 2; 11(6) : 648-659
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Barygin O, Komarova M, Tikhonova T, Tikhonov D / Non-classical mechanism of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor channel block by fluoxetine / Eur J Neurosci 2015 Apr; 41(7) : 869-77
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