Steady-state kinetics of Rhus laccase with rapid substrate

An enzyme catalysing the reaction of a substrate with multiple reaction sites may display steady state kinetics described by a Michaels-Menten equation. The K m is identical for all sites considered individually and all sites together. The maximum velocity for a single site depends on the rate const

## Abstract A model has been developed to describe the kinetics of the oxidation of phenol by oxygen using laccase (EC 1.10.3.2) from __Trametes versicolor__ as catalyst. The model incorporates an assumption, referred to as the pseudo‐steady state assumption, that at any instant during the reaction

Substrate inhibition in biodegradation processes typically leads to a maximum in the plot of specific degradation rate U [ = (CSo -C,)/C,O] versus substrate concentration C,. The Haldane equation ( 1 ) is frequently used' to interpret experimental data of this type. When an optimization is required

A model is developed for a monoenxyme membrane sensor in whose coating the assayed substrate is reversibly transformed into the detected product. Equations are given for the dependence of the extent of substrate conversion on the physicochemical parameters of the enzyme reaction. It is shown that th