Preface -- Part I Basic models in mathematical biophysics -- Chapter 1 Growth and catalysis models -- Chapter 2 Oscillations, rhythms and chaos in biological systems -- Chapter 3 Spatiotemporal self-organization of biological systems -- Chapter 4 Model of the impact of a weak electric field on the nonlinear system of trans-membrane ion transport -- Part II Models of complex systems -- Chapter 5 Oscillations and periodic space structures of pH and electric potential along the cell membrane of algae Chara corallina -- Chapter 6 Models of Morphogenesis -- Chapter 7 Autowave processes, nerve pulse propagation, and heart activity -- Chapter 8 Nonlinear models of DNA dynamics -- Part III Kinetic models of photosynthetic processes -- Chapter 9 Models of photosynthetic electron transport. Electron transfer in a multienzyme complex -- Chapter 10 Kinetic model of interaction of two photosystems -- Chapter 11 Detailed model of electron transfer in PSII -- Chapter 12 Generalized kinetic model of primary photosynthetic processes -- Part IV Direct multiparticle models of processes in subcellular systems -- Chapter 13 Method of direct multiparticle simulation of protein interactions -- Chapter  14 Modeling of protein complex formation in solution with diffusion and electrostatic interactions -- Chapter 15 Modeling of protein interactions in photosynthetic membrane -- Chapter 16 Spaciotemporal evolution of electrochemical potential ΔμH+ in photosynthetic membrane -- Conclusion -- References -- Index.