0 a chemical reaction in which many small molecules join to make a polymer
1 a chemical reaction in which many small molecules join to make a polymer
Polymerization of non-filamentous actin into microfilaments is an important process for porcine oocyte maturation and early embryo development.
The polymerization reaction occurred by taking advantage of the high polarity of molten urea as well as its dehydrating ability.
Moreover, we have added to this scenario the possibility that the fluid, while penetrating, undergoes polymerization (curing) thus changing its thermal and hydraulic coefficients.
In other words, the polymerization dynamics of the longer polymers is enslaved by that of the shorter ones.
As in polymerization, propagation tends to maintain a constant number of active centers.
The important point is that the polymerization equations show bifurcation behavior where f is the control parameter and g is the control parameter.
Following common convention, we use the term polymerization somewhat loosely.
In this paper the reactions correspond to the auto-catalytic polymerization which corresponds to a local instability with a given linear growth rate.