Tutorials in mathematical biosciences. II, Mathematical modeling of calcium dynamics and signal transduction/
Tutorials in mathematical biosciences. II, Mathematical modeling of calcium dynamics and signal transduction/
Mathematical modeling of calcium dynamics and signal transduction
James Sneyd (ed. ); with contributions by R. Bertram ... [et al.].
- Berlin; New York: Springer, c2005.
- xii, 202 p.: ill. 24 cm.
- Lecture notes in mathematics. Mathematical Biosciences subseries, 1867, 0075-8434; .
- Lecture notes in mathematics (Springer-Verlag); 1867. Lecture notes in mathematics (Springer-Verlag); Mathematical biosciences subseries. 1867. .
"These lectures are based on material ... presented in tutorials or developed by visitors and postdoctoral fellows of the Mathematical Bioscience Institute (MBI) at The Ohio State University"--Pref.
Includes bibliographical references.
3540254390 (alk. paper)
Calcium--Physiological transport--Mathematical models.
Cellular signal transduction--Mathematical models.
Calcium--Physiological effect--Mathematical models.
Calcium Signaling--physiology.
Cell physiology--Mathematics.
Models, Theoretical.
Muscle Contraction.
2005 J-991 QU 55 / M4265 2005
"These lectures are based on material ... presented in tutorials or developed by visitors and postdoctoral fellows of the Mathematical Bioscience Institute (MBI) at The Ohio State University"--Pref.
Includes bibliographical references.
3540254390 (alk. paper)
Calcium--Physiological transport--Mathematical models.
Cellular signal transduction--Mathematical models.
Calcium--Physiological effect--Mathematical models.
Calcium Signaling--physiology.
Cell physiology--Mathematics.
Models, Theoretical.
Muscle Contraction.
2005 J-991 QU 55 / M4265 2005