Enzyme activators lower Km (the Michaelis constant) and/or raise Vmax (the asymptotic reaction velocity at infinite substrate concentration); conversely, inhibitors raise Km and/or lower Vmax . But what if an effector moves both Km and Vmax in the same direction? Uncompetitive inhibitors, which decrease both Km and Vmax by the same factor, are the most common example of this. A less well-known example occurs often when crowding agents are added to the buffer in order to mimic the environment commonly encountered in vivo. Crowding agents tested on different enzymes have been shown to have every conceivable effect on Km or Vmax , causing them to rise, fall, or stay the same. In this article, a mathematical analysis is presented allowing biochemists to judge whether an effector that causes Km and Vmax to both move in the same direction serves as an inhibitor, an activator, or most surprising, as both. © 2019 International Union of Biochemistry and Molecular Biology, 47(4):446-449, 2019.
Keywords: Audience; biochemistry, enzymes, kinetics; biochemistry; pedagogy; discrepant events; topics; upper division undergraduate; domain.
© 2019 International Union of Biochemistry and Molecular Biology.