Search Results - "Vinogradova, T M"

Modulation of the transient outward current in adult rat ventricular myocytes by polyunsaturated fatty acids by Bogdanov, K Y, Spurgeon, H A, Vinogradova, T M, Lakatta, E G

“…With the whole cell patch-clamp technique, we studied the effects of the n-3 and n-6 polyunsaturated fatty acids (PUFAs), linoleic (C18:2n-6), eicosapentaenoic…”
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Cyclic Variation of Intracellular Calcium: A Critical Factor for Cardiac Pacemaker Cell Dominance by Lakatta, Edward G, Maltsev, Victor A, Bogdanov, Konstantin Y, Stern, Michael D, Vinogradova, Tatiana M

“…ABSTRACT—While a diversity of cell types and distribution within the sinoatrial node and cell-cell interactions add complexity to a complete elucidation of the…”
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Diastolic Calcium Release Controls the Beating Rate of Rabbit Sinoatrial Node Cells: Numerical Modeling of the Coupling Process by Maltsev, Victor A., Vinogradova, Tatiana M., Bogdanov, Konstantin Y., Lakatta, Edward G., Stern, Michael D.

“…Recent studies employing Ca 2+ indicators and confocal microscopy demonstrate substantial local Ca 2+ release beneath the cell plasma membrane (subspace) of…”
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Local Cholinergic Suppression of Pacemaker Activity in the Rabbit Sinoatrial Node by Vinogradova, Tatiana M, Fedorov, Vadim V, Yuzyuk, Tatyana N, Zaitsev, Alexey V, Rosenshtraukh, Leonid V

“…The effects of transmural vagal stimulation and acetylcholine (ACh) superfusion on primary and latent pacemaker cells of the rabbit sinoatrial node were…”
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Assessment of the impact of different therapeutic approaches on the urobiome changes in children with recurrent urinary tract infection by Budnik, T.V., Kvashnina, L.V., Mordovets, E.M., Tikhonenko, N.O., Gorokhovska, T.O., Markotenko, O.O., Vinogradova, T.M.

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Novel Perspectives on the Beating Rate of the Heart by Vinogradova, Tatiana M, Bogdanov, Konstantin Yu, Lakatta, Edward G

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Sinoatrial node pacemaker activity requires Ca(2+)/calmodulin-dependent protein kinase II activation by Vinogradova, T M, Zhou, Y Y, Bogdanov, K Y, Yang, D, Kuschel, M, Cheng, H, Xiao, R P

“…Cardiac beating arises from the spontaneous rhythmic excitation of sinoatrial (SA) node cells. Here we report that SA node pacemaker activity is critically…”
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Dual Activation of Phosphodiesterases 3 and 4 Regulates Basal Spontaneous Beating Rate of Cardiac Pacemaker Cells: Role of Compartmentalization? by Vinogradova, Tatiana M, Kobrinsky, Evgeny, Lakatta, Edward G

“…Spontaneous firing of sinoatrial (SA) node cells (SANCs) is regulated by cyclic adenosine monophosphate (cAMP)-mediated, protein kinase A (PKA)-dependent…”
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Sinoatrial nodal cell ryanodine receptor and Na+-Ca2+ exchanger: Molecular partners in pacemaker regulation by BOGDANOV, Konstantin Y, VINOGRADOVA, Tatiana M, LAKATTA, Edward G

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Оцінка впливу різних терапевтичних підходів на характер змін уробіому в дітей із рекурентним перебігом інфекції сечової системи by T. V. Budnik, L. V. Kvashnina, E. M. Mordovets, N. O. Tikhonenko, T. O. Gorokhovska, O. O. Markotenko, T. M. Vinogradova

“…Мета — вивчити функціональну динаміку уробіому в дітей із рекурентною інфекцією сечової системи (ІСС) на тлі традиційної й альтернативної терапії у групах…”
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Basal Spontaneous Firing of Rabbit Sinoatrial Node Cells Is Regulated by Dual Activation of PDEs (Phosphodiesterases) 3 and 4 by Vinogradova, Tatiana M, Sirenko, Syevda, Lukyanenko, Yevgeniya O, Yang, Dongmei, Tarasov, Kirill V, Lyashkov, Alexey E, Varghese, Nevin J, Li, Yue, Chakir, Khalid, Ziman, Bruce, Lakatta, Edward G

“…BACKGROUND:Spontaneous firing of sinoatrial node cells (SANCs) is regulated by cAMP-mediated, PKA (protein kinase A)-dependent (cAMP/PKA) local subsarcolemmal…”
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High Basal Protein Kinase A–Dependent Phosphorylation Drives Rhythmic Internal Ca2+ Store Oscillations and Spontaneous Beating of Cardiac Pacemaker Cells by Vinogradova, Tatiana M, Lyashkov, Alexey E, Zhu, Weizhong, Ruknudin, Abdul M, Sirenko, Syevda, Yang, Dongmei, Deo, Shekhar, Barlow, Matthew, Johnson, Shavsha, Caffrey, James L, Zhou, Ying-Ying, Xiao, Rui-Ping, Cheng, Heping, Stern, Michael D, Maltsev, Victor A, Lakatta, Edward G

“…Local, rhythmic, subsarcolemmal Ca releases (LCRs) from the sarcoplasmic reticulum (SR) during diastolic depolarization in sinoatrial nodal cells (SANC) occur…”
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Rhythmic Ryanodine Receptor Ca2+ Releases During Diastolic Depolarization of Sinoatrial Pacemaker Cells Do Not Require Membrane Depolarization by Vinogradova, Tatiana M, Zhou, Ying-Ying, Maltsev, Victor, Lyashkov, Alexey, Stern, Michael, Lakatta, Edward G

“…ABSTRACT—Localized, subsarcolemmal Ca release (LCR) via ryanodine receptors (RyRs) during diastolic depolarization of sinoatrial nodal cells augments the…”
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β-Adrenergic Stimulation Modulates Ryanodine Receptor Ca2+ Release During Diastolic Depolarization to Accelerate Pacemaker Activity in Rabbit Sinoatrial Nodal Cells by Vinogradova, Tatiana M, Bogdanov, Konstantin Yu, Lakatta, Edward G

“…It has long been recognized that activation of sympathetic β-adrenoceptors (β-ARs) increases the spontaneous beating rate of sinoatrial nodal cells (SANCs);…”
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Reorganization of mitotic apparatus in the etoposide-treated CHO-K1 cells precedes apoptotic death by Balashova, E. E., Ryaskina, S. S., Vinogradova, T. M., Bystrevskaya, V. B.

“…In a culture of CHO-K1 cells, etoposide (1 h, 25 μM) has been shown to produce interphase arrest, after which the cells resume mitotic division and, after some…”
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The organization of the mitotic apparatus poles in etoposide-treated CHO-K1 cells by Balashova, E E, Riaskina, S S, Vinogradova, T M, Bystrevskaia, V B

“…In this study, we have examined the organization of the mitotic spindle poles in CHO-K1 cells dividing after treatment with the etoposide (1 h, 25 microM). We…”
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The reorganization of the mitotic apparatus in etoposide-treated CHO-K1 cells precedes accumulation of the apoptotic cells by Balashova, E E, Riaskina, S S, Vinogradova, T M, Bystrevskaia, V B

“…Etoposide (1 h, 25 microM) causes interphase arrest in CHO-K1 after which cells resume mitotic division and die due to apoptosis after a certain time period…”
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Organization of mitotic apparatus poles in etoposide-treated CHO-K1 cells by Balashova, E. E., Ryaskina, S. S., Vinogradova, T. M., Bystrevskaya, V. B.

“…Analyzed in this study is the organization of mitotic spindle poles in CHO-K1 cells dividing after treatment with etoposide (1 h, 25 μM). At various periods…”
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Changes in rhythm of the isolated and intact frog heart with time by Vinogradova, T. M., Sukhova, G. S., Tumanov, A. I., Lebedev, I. A.

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Sinoatrial Node Pacemaker Activity Requires Ca2+/Calmodulin-Dependent Protein Kinase II Activation by Vinogradova, Tatiana M, Zhou, Ying-Ying, Bogdanov, Konstantin Y, Yang, Dongmei, Kuschel, Meike, Cheng, Heping, Xiao, Rui-Ping

“…ABSTRACT—Cardiac beating arises from the spontaneous rhythmic excitation of sinoatrial (SA) node cells. Here we report that SA node pacemaker activity is…”
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