APA

Bogdanov K. Y., Maltsev V. A., Vinogradova T. M., Lyashkov A. E., Spurgeon H. A., Stern M. D. & Lakatta E. G. (20061109). Membrane potential fluctuations resulting from submembrane Ca2+ releases in rabbit sinoatrial nodal cells impart an exponential phase to the late diastolic depolarization that controls their chronotropic state. : Circulation research.

Chicago

Bogdanov Konstantin Y, Maltsev Victor A, Vinogradova Tatiana M, Lyashkov Alexey E, Spurgeon Harold A, Stern Michael D and Lakatta Edward G. 20061109. Membrane potential fluctuations resulting from submembrane Ca2+ releases in rabbit sinoatrial nodal cells impart an exponential phase to the late diastolic depolarization that controls their chronotropic state. : Circulation research.

Harvard

Bogdanov K. Y., Maltsev V. A., Vinogradova T. M., Lyashkov A. E., Spurgeon H. A., Stern M. D. and Lakatta E. G. (20061109). Membrane potential fluctuations resulting from submembrane Ca2+ releases in rabbit sinoatrial nodal cells impart an exponential phase to the late diastolic depolarization that controls their chronotropic state. : Circulation research.

MLA

Bogdanov Konstantin Y, Maltsev Victor A, Vinogradova Tatiana M, Lyashkov Alexey E, Spurgeon Harold A, Stern Michael D and Lakatta Edward G. Membrane potential fluctuations resulting from submembrane Ca2+ releases in rabbit sinoatrial nodal cells impart an exponential phase to the late diastolic depolarization that controls their chronotropic state. : Circulation research. 20061109.