Monitoring enzyme catalysis in the multimeric state: direct observation of Arthrobacter 4-hydroxybenzoyl-coenzyme A thioesterase catalytic complexes using time-resolved electrospray ionization mass spectrometry.

The ability to examine real-time reaction kinetics for multimeric enzymes in their native state may offer unique insights into understanding the catalytic mechanism and its interplay with three-dimensional structure. In this study, we have used a time-resolved electrospray mass spectrometry approach to probe the kinetic mechanism of 4-hydroxybenzoyl-coenzyme A (4-HBA-CoA) thioesterase from Arthrobacter sp. strain SU in the millisecond time domain. Intact tetrameric complexes of 4-HBA-CoA thioesterase with up to four natural substrate (4-HBA-CoA) molecules bound were detected at times as early as 6 ms using an online rapid-mixing device directly coupled to an electrospray ionization time-of-flight mass spectrometer. Species corresponding to the formation of a folded tetramer of the thioesterase at charge states 16+, 17+, 18+, and 19+ around m/z 3800 were observed and assigned as individual tetramers of thioesterase and noncovalent complexes of the tetramers with up to four substrate and/or product molecules. Real-time evaluation of the reaction kinetics was accomplished by monitoring change in peak intensity corresponding to the substrate and product complexes of the tetrameric protein. The mass spectral data suggest that product 4-HBA is released from the active site of the enzyme prior to the release of product CoA following catalytic turnover. This study demonstrates the utility of this technique to provide additional molecular details for an understanding of the individual enzyme states during the thioesterase catalysis and ability to observe real-time interactions between enzyme and substrates and/or products in the millisecond time range.