An electrogenic Na+/HCO-3- cotransport modulates resting membrane potential and action potential duration in cardiac myocytes
Aiello, E.A.; Cingolani, H.E.
Biophysical Journal 72(2 Part 2): A51
1997
ISSN/ISBN: 0006-3495 Accession: 030016295
PDF emailed within 1 workday: $29.90
Related References
Villa-Abrille, M.ía.C.; Petroff, M.ín.G.V.; Aiello, E.A. 2007: The electrogenic Na+/HCO3- cotransport modulates resting membrane potential and action potential duration in cat ventricular myocytes Journal of Physiology 578(Part 3): 819-829Harvey, R.D.; Clark, C.D.; Hume, J.R. 1990: Chloride current in mammalian cardiac myocytes. Novel mechanism for autonomic regulation of action potential duration and resting membrane potential Journal of General Physiology 95(6): 1077-1102
Subedi, K.P.; Kim, J.-C.; Kang, M.; Son, M.-J.; Kim, Y.-S.; Woo, S.-H. 2011: Voltage-dependent anion channel 2 modulates resting Ca²+ sparks, but not action potential-induced Ca²+ signaling in cardiac myocytes Cell Calcium 49(2): 136-143
Levi, A.J. 1990: Cardiac glycosides action potential shortening and electrogenic sodium calcium exchange in isolated guinea pig cardiac myocytes Journal of Physiology (Cambridge) 426: 15P
Pecha, S.; Ismaili, D.; Geelhoed, B.; Knaut, M.; Reichenspurner, H.; Eschenhagen, T.; Schnabel, R.B.; Christ, T.; Ravens, U. 2023: Resting membrane potential is less negative in trabeculae from right atrial appendages of women, but action potential duration does not shorten with age Journal of Molecular and Cellular Cardiology 176: 1-10
Capogrossi, M.C.; Houser, S.R.; Bahinski, A.; Lakatta, E.G. 1987: Synchronous occurrence of spontaneous localized calcium release from the sarcoplasmic reticulum generates action potentials in rat cardiac ventricular myocytes at normal resting membrane potential Circulation Research 61(4): 498-503
Hardy, M.E.L.; Lawrence, C.L.; Standen, N.B.; Rodrigo, G.C. 2006: Can optical recordings of membrane potential be used to screen for drug-induced action potential prolongation in single cardiac myocytes? Journal of Pharmacological and Toxicological Methods 54(2): 173-182
X.Z.J.; Adams, D.J. 1992: Potassium currents contributing to the resting membrane potential and the action potential in rat parasympathetic cardiac neurons Biophysical Journal 61(2 Part 2): A253
Liu, W.-j.; Deng, J.-x.; Wang, G.; Gao, K.-p.; Lin, Z.-x.; Liu, S.-y.; Wang, Y.-h.; Liu, J. 2015: Manipulation of KCNE2 expression modulates action potential duration and Ito and IK in rat and mouse ventricular myocytes American Journal of Physiology. Heart and Circulatory Physiology 309(8): H1288-H1302
Waters, A.; Harder, D.R. 1985: Altered membrane properties of cerebral vascular smooth muscle following subarachnoid hemorrhage: an electrophysiological study. I: Changes in resting membrane potential (Em) and effect on the electrogenic pump potential contribution to Em Stroke (1970) 16(6): 990-997
Waters, A.; Harder, D.R. 1985: Altered membrane properties of cerebral vascular smooth muscle following subarachnoid hemorrhage: an electrophysiological study. I. Changes in resting membrane potential (Em) and effect on the electrogenic pump potential contribution to Em Stroke 16(6): 990-997
Ravens, U. 1982: Effects of several cardiac glycosides on the action potential amplitude and the resting membrane potential in isolated guinea pig papillary muscle Naunyn-Schmiedeberg's Archives of Pharmacology 321(Suppl): R47
Carmeliet, E.E.; Van der Walt, J.J. 1968: Duration of the action potential as a function of the membrane potential in cardiac Purkinje fibres Journal of Physiology 194(2): 88p
Yang, L.-Z.; Zhu, Y.-C. 2015: Urocortin2 prolongs action potential duration and modulates potassium currents in guinea pig myocytes and HEK293 cells European Journal of Pharmacology 758: 97-106
Opritov, V.A.; Pyatygin, S.S. 1989: Evidence for coupling of the action potential generation with the electrogenic component of the resting potential in cucurbita pepo l. stem excitable cells Biochemie und Physiologie der Pflanzen (BPP) 184(5-6): 447-451
Tanskanen, A.J.; Alvarez, L.H.R. 2007: Voltage noise influences action potential duration in cardiac myocytes Mathematical Biosciences 208(1): 125-146
Takeya, K.; Yajima, M.; Kobayashi, S.; Ando, H. 1982: Influence of grayano toxin 1 on the electrogenic pumping activity predicted from the changes in membrane resting potential levels of cardiac cell of guinea pig papillary muscle Japanese Journal of Pharmacology 32(Suppl): 171P
Jordan, P.N.; Christini, D.J. 2004: The influence of ionic memory on action potential duration alternans in cardiac myocytes Biophysical Journal 86(1): 299a
Bouchard, R.A.; Clark, R.B.; Giles, W.R. 1995: Effects of action potential duration on excitation-contraction coupling in rat ventricular myocytes. Action potential voltage-clamp measurements Circulation Research 76(5): 790-801
Kocic, I.; Hirano, Y.; Hiraoka, M. 2002: Rate-dependent changes in action potential duration and membrane currents in hamster ventricular myocytes Pflugers Archiv: European Journal of Physiology 443(3): 353-361