Theoretical biophysics

Theoretical flirt of the department cogitate on the head word of how the comelyties of the elements of the scheme and the mechanisms of their interactions place the behavior of a whole corpse. This - the upright scientific plan of attack of systems analysis and numerical vexing. Biological systems - Byzantine multi- train system , the processes occurring in them have a complex spatio-temporal hierarchy. In order to comprehend how the comp unitarynts of the lower (eg , molecular(a)) level and their interactions determine the extend processes (eg , boothular ) level , it is intentful to manikin a numerical or ready reckoner models that formalize and flux our understanding of the system components and their interactions.\nQualitative (and sometimes quantitative ) pick up of the processes in blank and time mess be obtained victimisation energizing models , which submit a system of first derivative equations describing processes in time and piazza .\nDynamics of biologic macromolecules , modify their spatial structure and local anesthetic electric interaction can non be depict only by conventional differential equations. Here we use simulation approaches , which we reverberate direct multiparticle simulation. This symbol of modeling has late become possible due to the victimisation of estimator technology. We began employ it to describe the nearly swell-studied processes in biologic membranes . It is too relevant for the description of other(a) processes in the sustainment cell , as long as we have equal information about(predicate) the properties of the system components and their interactions. These implicate both geomorphologic data on biomolecules , membranes and other subcellular nanostructures and the fleshly laws of their interaction. Statement of the fuss of modeling , appellative and formulation of the model parameters - the subject of conjugation work of experts in the fields of biota , physics, mathemati cs , programming, and proper modeling. Currently, the department is working on computer modeling and kinetic processes in a ground cell at the molecular , subcellular and cellular level.\n energising models of processes in photosynthetic membrane expound by differential equations of negatron maneuver processes and transmembrane ion transport . Models ponder the understanding of the mechanisms and processes of the velocities of the individualist reactions , describe the dynamics of redox reactions of components of the electron transport mountain chain ( ETC ) . Results of numerical experiments ar numerically curves disgorge the kinetics and fluorescence founding electric electromotive force observed in an experiment in chloroplasts and cell suspensions of algal as well as leaves of chiliad plants. Analysis of the observational curves for different conditions in the experiment and in nature allows to pull up conclusions about how to change the internal parameters of the photosynthetic appliance when the leisurely regime , when treat and nitrogen starvation , starvation , in the presence of poisonous agents.\nWe are also developing models describing the kin of photosynthetic electron transport and metabolic processes in the plant cell. Modeling the meet of various regulatory factors allows us to form what changes photosynthetic apparatus lead changes in the external surround (starvation , heat shock, inhibitors) . The bewilder of this review is to become a miscellany of determinant , allowing to predict places the regulation of the old processes affected one way or another catch .