Search Results - "Bystrova, M. F."

The “One Neuron–One Receptor” Rule in the Physiology and Genetics of Olfaction by Bystrova, M. F., Kolesnikov, S. S.

“…The phenomenal sensitivity of the olfactory system and its ability to detect an enormous diversity of olfactory stimuli are to a large extent due to the…”
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Expression and Functional Role of Olfactory, Taste, and Phototransduction Signal Proteins in β Cells in Islets of Langerhans by Kovalitskaya, Yu. A., Kovalenko, N. P., Bystrova, M. F.

“…The taste, olfactory, and visual sensory systems support the reception and recognition of physical and chemical stimuli encountered in the environment…”
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Localization of 28-kDa peroxiredoxin in rat epithelial tissues and its antioxidant properties by Novoselov, S V, Peshenko, I V, Popov, V I, Novoselov, V I, Bystrova, M F, Evdokimov, V J, Kamzalov, S S, Merkulova, M I, Shuvaeva, T M, Lipkin, V M, Fesenko, E E

“…Peroxiredoxins are a novel family of antioxidant proteins that specifically prevent enzymes from metal-catalyzed oxidation. The localization of a member of the…”
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Dispensable ATP permeability of Pannexin 1 channels in a heterologous system and in mammalian taste cells by Romanov, R. A., Bystrova, M. F., Rogachevskaya, O. A., Sadovnikov, V. B., Shestopalov, V. I., Kolesnikov, S. S.

“…Afferent output in taste cells of the type II is mediated by ATP liberated through ion channels. It is widely accepted that Panx1 channels are responsible for…”
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Differential expression patterns of peroxiredoxins in olfactory neurons by Kolesnikova, A. S., Khokhlov, A. A., Romanov, R. R., Bystrova, M. F.

“…Peroxiredoxins (Prdxs) comprise a large family of cysteine-based peroxidases that are involved in a wide variety of physiological processes. At the single-cell…”
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Peroxiredoxin-6-interacting proteins in rat olfactory epithelium by Budanova, E. N., Bystrova, M. F.

“…Peroxiredoxin 6 (Prx6) belongs to the family of thiol-dependent peroxidases that catalyze the reduction of hydrogen peroxide, organic peroxides, and…”
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Electrical excitability of taste cells. Mechanisms and possible physiological significance by Romanov, R. A., Rogachevskaja, O. A., Bystrova, M. F., Kolesnikov, S. S.

“…Neuronal, muscle and some endocrine cells are electrically excitable. While in muscle and endocrine cells AP stimulates and synchronizes intracellular…”
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Immunohistochemical detection of olfactory marker protein in tissues with ectopic expression of olfactory receptor genes by Budanova, E. N., Bystrova, M. F.

“…Olfactory marker protein (OMP) is a unique marker of mature olfactory neurons, which specifically express olfactory receptor genes. Widespread ectopic…”
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Channel activity of recombinant pannexin 1 by Romanov, R. A., Bystrova, M. F., Rogachevskaya, O. A., Kolesnikov, S. S.

“…Mammalian taste cells of the type II release ATP, an afferent neurotransmitter, by employing unselective ATP-permeable ion channels. The molecular identity of…”
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Cell-to-Cell Communication in the Taste Bud: ATP and Acetylcholine as Primary Mediators by Rogachevskaya, O. A., Romanov, R. A., Khokhlov, A. A., Bystrova, M. F., Kolesnikov, S. S.

“…It was shown that physiological processes in taste buds (peripheral sensory gustatory organs in vertebrates) are realized with the involvement of several…”
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Identification of TRPM5 Ion Channels in Type-II Taste Cells of Mice by Romanov, R. A., Bystrova, M. F., Rogachevskaya, O. A., Kolesnikov, S. S.

“…TRPM5 are ion channels belonging to the TRP family, which demonstrate a nonselective permeability for monovalent cations and are activated by an increase in…”
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P2Y isoforms operative in mouse taste cells by Bystrova, Marina F, Yatzenko, Yulia E, Fedorov, Ilya V, Rogachevskaja, Olga A, Kolesnikov, Stanislav S

“…Recent functional evidence indicates that mouse taste cells express P2Y receptors coupled to IP(3) production and Ca(2+) mobilization. Our studies of the…”
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Hydrogen peroxide and peroxiredoxins in redox regulation of intracellular signaling by Bystrova, M F, Budanova, E N

“…A growing body of evidence indicates that hydrogen peroxide is generated in response to ligand-receptor interaction and is involved in redox-regulation of…”
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Voltage-gated Ca2+ channels in type III taste cells by Romanov, R. A., Yatzenko, Y. E., Kabanova, N. V., Bystrova, M. F., Kolesnikov, S. S.

“…In the mammalian taste bud, the heterogeneous cell population includes three morphologically distinct types of cells, type I to type III, which are also…”
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Assaying activity of the ion channel TRPM5 in identified taste bud cells by Romanov, R. A., Kabanova, N. V., Malkin, S. L., Bystrova, M. F., Kolesnikov, S. S.

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ATP-permeable ion channels operating in taste cells by Romanov, R. A., Rogachevskaja, O. A., Khokhlov, A. A., Bystrova, M. F., Kolesnikov, S. S.

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Study of the quaternary structure of rat 1-Cys peroxiredoxin by Bystrova, M F, Budanova, E N, Novoselov, V I, Fesenko, E E

“…Peroxiredoxins (Prx) are a family of antioxidant proteins with peroxidase activity. The ability of 1-Cys Prx to self-associate was studied with the use of…”
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Properties of odour-binding glycoproteins from rat olfactory epithelium by Fesenko, E E, Novoselov, V I, Bystrova, M F

“…The specific membrane glycoproteins with high affinity for camphor and decanal were isolated from rat olfactory epithelium. Antibodies to these glycoproteins…”
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Monitoring ATP release from individual cells with a biosensor by Romanov, R. A., Khokhlov, A. A., Bystrova, M. F., Rogachevskaja, O. A., Yatzenko, Yu. E., Kolesnikov, S. S.

“…Adenosine triphosphate (ATP) is a neurotransmitter/neuromodulator in both central and peripheral nervous systems. Particularly in the taste bud, a peripheral…”
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The subunits of specific odor-binding glycoproteins from rat olfactory epithelium by Fesenko, E.E., Novoselov, V.I., Bystrova, M.F.

“…The specific odor-binding glycoproteins have been isolated from rat olfactory epithelium. They consist of two subunits, gp88 and gp55. Subunit gp88 is capable…”
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