The methane mono-oxygenase reaction system studied in vivo by membrane-inlet mass spectrometry

Abstract

A membrane-inlet mass spectrometer connected to an open-system cuvette was used for direct measurement of dissolved methane and O2 in bacterial samples of strain OU-4-1, a type II methanotrophic bacterium. A technique was applied for keeping the concentration of dissolved methane or O2 in the sample constant while the concentration of the other dissolved gas was varied. This allowed the reaction mechanism of methane mono-oxygenase to be studied in vivo. The enzyme was found to follow a random bi-reactant mechanism with respect to binding of methane and O2. Binding of one substrate decreased the affinity for the other. The true binding constants were 1 microM for methane and 0.14 microM for O2. Studies of HCN inhibition confirmed the random bi-reactant mechanism. HCN was found to be a non-exclusive inhibitor with a binding constant of 0.4 microM.