The enzyme then catalyzes the chemical step in the reaction and releases the product.

This is the single known example of an enzyme catalyzing a pericyclic reaction.

Together these enzymes catalyze the digestion of fat, protein, and carbohydrates.

In a metabolic or genetic pathway, enzymes catalyze a series of reactions.

This enzyme catalyzes the reduction of progesterone to the inactive form 20-alpha-hydroxy-progesterone.

The operating lisp expression that does the transformation is rather like an enzyme catalyzing a reaction.

The enzyme also catalyzes a second reaction in tryptophan metabolism: the conversion of 5-hydroxy-indoleacetate to 5-methoxy-indoleacetate.

The enzymes in the superfamily typically catalyze the reversible conversion of 1-phosphosugars to 6-phosphosugars.

Under these conditions, the enzyme will, in fact, catalyze the reaction only in the thermodynamically allowed direction.

It has been shown in multiple experiments that the enzyme catalyzes this conversion by a double displacement mechanism.