Mathematical Analysis of Complex Cellular Activity: Frontiers in Applied Dynamical Systems: Reviews and Tutorials, cartea 1
Autor Richard Bertram, Joel Tabak, Wondimu Teka, Theodore Vo, Martin Wechselberger, Vivien Kirk, James Sneyden Limba Engleză Paperback – 23 oct 2015
The first article reviews the basic theory of calcium oscillations (common to almost all cell types), including spatio-temporal behaviors such as waves. The second article uses, and expands on, much of this basic theory to show how the interaction of cytosolic calcium oscillators with membrane ion channels can result in highly complex patterns of electrical spiking. Through these examples one can see clearly how multiple oscillatory processes interact within a cell, and how mathematical methods can be used to understand such interactions better. The two reviews provide excellent examples of how mathematics and physiology can learn from each other, and work jointly towards a better understanding of complex cellular processes.
Review 1: Richard Bertram, Joel Tabak, Wondimu Teka, Theodore Vo, Martin Wechselberger: Geometric Singular Perturbation Analysis of Bursting Oscillations in Pituitary Cells
Review 2: Vivien Kirk, James Sneyd: Nonlinear Dynamics of Calcium
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Specificații
ISBN-13: 9783319181134
ISBN-10: 3319181130
Ilustrații: XII, 107 p. 37 illus., 25 illus. in color.
Dimensiuni: 155 x 235 x 7 mm
Greutate: 0.25 kg
Ediția:1st ed. 2015
Editura: Springer International Publishing
Colecția Springer
Seria Frontiers in Applied Dynamical Systems: Reviews and Tutorials
Locul publicării:Cham, Switzerland
ISBN-10: 3319181130
Ilustrații: XII, 107 p. 37 illus., 25 illus. in color.
Dimensiuni: 155 x 235 x 7 mm
Greutate: 0.25 kg
Ediția:1st ed. 2015
Editura: Springer International Publishing
Colecția Springer
Seria Frontiers in Applied Dynamical Systems: Reviews and Tutorials
Locul publicării:Cham, Switzerland
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Public țintă
GraduateCuprins
Preface.- Bursting Oscillations in Pituitary Cells: Z-Curves, Folded Nodes, Calcium Stores and Mixed-Mode Oscillations.- The Nonlinear Dynamics of Calcium.
Notă biografică
Professor Richard Bertram is a Mathematics Professor at Florida State University. His current academic interests include the intersection between biology and mathematics.
Professor James Sneyd is a Professor in Applied Mathematics at The University of Auckland and his current research interests include mathematical physiology and nonlinear dynamical systems.
Professor James Sneyd is a Professor in Applied Mathematics at The University of Auckland and his current research interests include mathematical physiology and nonlinear dynamical systems.
Textul de pe ultima copertă
This book contains two review articles on mathematical physiology that deal with closely related topics but were written and can be read independently.
The first article reviews the basic theory of calcium oscillations (common to almost all cell types), including spatio-temporal behaviors such as waves. The second article uses, and expands on, much of this basic theory to show how the interaction of cytosolic calcium oscillators with membrane ion channels can result in highly complex patterns of electrical spiking. Through these examples one can see clearly how multiple oscillatory processes interact within a cell, and how mathematical methods can be used to understand such interactions better. The two reviews provide excellent examples of how mathematics and physiology can learn from each other, and work jointly towards a better understanding of complex cellular processes.
Review 1: Richard Bertram, Joel Tabak, Wondimu Teka, Theodore Vo, Martin Wechselberger: Geometric Singular Perturbation Analysis of Bursting Oscillations in Pituitary Cells
Review 2: Vivien Kirk, James Sneyd: The Nonlinear Dynamics of Calcium
The first article reviews the basic theory of calcium oscillations (common to almost all cell types), including spatio-temporal behaviors such as waves. The second article uses, and expands on, much of this basic theory to show how the interaction of cytosolic calcium oscillators with membrane ion channels can result in highly complex patterns of electrical spiking. Through these examples one can see clearly how multiple oscillatory processes interact within a cell, and how mathematical methods can be used to understand such interactions better. The two reviews provide excellent examples of how mathematics and physiology can learn from each other, and work jointly towards a better understanding of complex cellular processes.
Review 1: Richard Bertram, Joel Tabak, Wondimu Teka, Theodore Vo, Martin Wechselberger: Geometric Singular Perturbation Analysis of Bursting Oscillations in Pituitary Cells
Review 2: Vivien Kirk, James Sneyd: The Nonlinear Dynamics of Calcium
Caracteristici
First volume in a new series that covers emerging topics in the field of Applied Dynamical Systems Intended for mathematicians and biologists, as well as advanced graduate students Uses practical tutorials to example important connections between mathematics and physiology Includes supplementary material: sn.pub/extras