A stochastic model for chemical kinetics

A survey is given of branching process type methods in cell kinetics. Some results are given that allow circadian rhythm and do not require complete independence between cells. Some more classical results on balanced exponential growth are given and some comments are made on flow microfluorometry.

A model for microtubule oscillations is presented based on a set of chemical reaction equations. The rate constants for these reactions are largely determined from experimental data. The plots of assembled tubulin and the phase diagram for assembly are compared with the experimental findings and are

The p r o b a b i l i t y d i s t r i b u t i o n of t h e process level is derived for a general class of irreversible reaction systems. A m e t h o d of a p p r o x i m a t i n g t h e m e a n a n d v a r i a n c e of t h e process level is developed a n d s h o w n to be more accurate for small i

## Abstract A stochastic model for chemical reactions is presented, which represents the population of various species involved in a chemical reaction as the continuous state of a __polynomial__ stochastic hybrid system (pSHS). pSHSs correspond to stochastic hybrid systems with polynomial continuou