| Calcium Oscillations / Ruediger Thul ; Tomas C. Bellamy ; H. Llewelyn Roderick ; Martin D. Bootman ; Stephen Coombes1: |
| Abstract |
| Introduction |
| Modelling Ca[superscript 2+] Dynamics |
| Mechanistic Models |
| Homogenous Cell Models |
| Threshold Models |
| Stochastic Modelling |
| Concluding Remarks |
| Oscillations by the p53-Mdm2 Feedback Loop / Galit Lahav2: |
| The p53-Mdm2 Negative Feedback Loop |
| Oscillations of p53 and Mdm2 |
| The Mechanism of p53-Mdm2 Oscillations |
| Variability in the Response of Individual Cells |
| The Potential Function of p53 Oscillations |
| Conclusion and Key Questions in the Field |
| cAMP Oscillations During Aggregation of Dictyostelium / William F. Loomis3: |
| Proposed cAMP Oscillatory Circuit |
| Periodic Motility |
| Discussion |
| Min Oscillation in Bacteria / Joe Lutkenhaus4: |
| Z Ring |
| The Min System |
| The Oscillation |
| Biochemistry of Min Proteins |
| Models |
| Conclusions |
| Development on Time / Isabel Palmeirim ; Sofia Rodrigues ; J. Kim Dale ; Miguel Maroto5: |
| Somitogenesis Is a Strict Time-Controlled Embryonic Process |
| Time Control during Somite Formation: The Segmentation Clock |
| The Genetic Complexity Underlying the Segmentation Clock |
| The "Clock and Wavefront" Model |
| Temporal vs. Positional Information |
| Oscillatory Expression of Hes Family Transcription Factors: Insights from Mathematical Modelling / Hiroshi Momiji ; Nicholas A.M. Monk6: |
| Delay-Driven Oscillations in Cellular Signaling Systems |
| Hes1 as a Cellular Oscillator |
| Mathematical Modelling of the Hes1 Oscillator |
| Properties of Delay-Driven Oscillations |
| Extended Models of Hes1 Regulation |
| Spatio-Temporal Coordination of Oscillatory Dynamics |
| Reverse Engineering Models of Cell Cycle Regulation / Attila Csikasz-Nagy ; Bela Novak ; John J. Tyson7: |
| Bottom-Up Modeling and Reverse Engineering |
| Physiology of the Cell Cycle |
| Three Cell Cycle States and Three Cell Cycle Transitions |
| Cell Cycle Transitions and Bifurcation Points |
| Reverse Engineering the Molecular Regulatory Network |
| The Complete Bifurcation Diagram |
| Cell Cycles and Limit Cycles |
| Conclusion |
| Mitochondrial Oscillations in Physiology and Pathophysiology / Miguel A. Aon ; Sonia Cortassa ; Brian O'Rourke8: |
| The Mitochondrial Oscillator of Heart Cells: The Pathophysiological Domain |
| The Theoretical Approach |
| The Mitochondrial Oscillator in the Physiological Domain |
| Spatial Aspects: ROS and Mitochondrial Criticality |
| From Mitochondrial Dynamics to Whole Heart Arrhythmias |
| Respiratory Oscillations in Yeasts / David Lloyd9: |
| Minute-Long Oscillations in S. cerevisiae |
| Ultradian ([tau] 30-50min) Oscillations in Synchronous Cultures of Yeasts |
| Schizosaccharomyces pombe |
| Candida utilis |
| Saccharomyces cerevisiae: Self Synchronized Continuous Culture |
| Mitochondrial Respiratory Dynamics in Vivo During Growth |
| Oxidative Stress and Signalling by ROS |
| Circadian Oscillations in Yeasts |
| Other Oscillations |
| Functions of Oscillations |
| Stochastic Phase Oscillator Models for Circadian Clocks / Jacques Rougemont ; Felix Naef10: |
| Background |
| Mathematics of Phase Models |
| Theory vs. Data |
| Index |
| Calcium Oscillations / Ruediger Thul ; Tomas C. Bellamy ; H. Llewelyn Roderick ; Martin D. Bootman ; Stephen Coombes1: |
| Abstract |
| Introduction |
図書
