Improving cutinase stability in aqueous solution and in reverse micelles by media engineering

Abstract

The stability of a recombinant cutinase from the fungus Fusarium solani was evaluated in aqueous media and in reverse micelles. Thermal unfolding in aqueous solution is a two-state process at the pH values tested and trehalose increased the temperature at the mid-point of the unfolding transitions. Irreversible inactivation is a first-order process at pH 9.2, but two inactivation phases were resolved at pH 4.5. Trehalose did not change the irreversible inactivation pathway but increased the kinetics of the irreversible inactivation step. Unfolding of cutinase induced by guanidine hydrochloride was more complex, showing a stable intermediate, molten globule in character, within the transition region. Trehalose did not change the three-state nature of the unfolding process. Encapsulation of cutinase in AOT reverse micelles induced unfolding at room temperature due to an enzyme location at the micellar interface. The presence of 1-hexanol as co-surfactant delayed or even prevented the unfolding of cutinase by promoting the establishment of a new equilibrium in the system. Cutinase is encapsulated in a 10-fold larger AOT/hexanol reverse micelle built up by the fusion of empty reverse micelles. When tested in a membrane reactor in the presence of 1-hexanol, an operational half-life of 674 days was achieved.