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Abstract
Although pectolytic enzymes have been used in biotechnology for a long time (mainly in fruitprocessing), the measurement and expression of their pectolytic activity has not been satisfactorily solved. The only rational method based on the chemical determination of the end-groups formed during the progress of the reaction is laborious and is not satisfactory for the practicaluses of this class of enzymes.
We propose a simple empirical kinetic expression for the reduction in viscosity when a pectin solution (or a pectin-containing raw material) is subjected to the action of pectolytic enzymes. It is written Yt – Yo – a.t /(b + t), where Yt is themeasured viscosity at any time, Yo is the initial viscosity and a and b are parameters the physical sense of which will be discussed in this paper. This model has been proven to efficiently to:
| 1. | fit the whole progress curve, including the early and late phases and, further, to determine two relevant pieces of information about the enzyme/substrate couple-namely, the initial velocity of the process and the residual viscosity at the final plateau region. | ||||
| 2. | measure and express the activity of the enzyme solution used, on the pertinent basis (for applications of pectinases in biotechnology) of a physical property of the reaction medium. | ||||
The model was validated with data obtained in a variety of experimental situations, ranging from the use of a semi-purified enzyme solution acting on a semi-purified pectin in a dilute solution, to the liquefaction of a fruit puree.
A “viscometric unit” of pectolytic activity is proposed, after the observed proportionality between enzyme concentration and one of the parameters of the model.
Our approach, based on the kinetic modelling of change in viscosity, using an empirical equation, presents advantages over recently published methods, also based on viscometric measurements.