Divergence of Function in the Hot Dog Fold Enzyme Superfamily: The Bacterial Thioesterase YciA†

Thioesters play a central role in the cells where they participate in metabolism, membrane synthesis, signal transduction, and gene regulation. Thioesters are converted to the thiol and carboxylic acid components by thioesterase-catalyzed hydrolysis. Here we examine the biochemical and biological function of the hot dog fold thioesterase YciA (EcYciA) from Escherichia coli and its close sequence homologue HI0827 from Haemophilus influenzae (HiYciA). The quaternary structure of HiYciA was determined, using equilibrium sedimentation techniques, to be a homohexamer. Mass spectral and 31P NMR analysis of purified HiYciA revealed a bound CoA ligand. Kinetic analyses showed that CoA is a strong feedback inhibitor. YciA thioesterase activity toward acyl-CoA substrates was determined using steady-state kinetic methods. The kcat and kcat/Km values obtained reveal a striking combination of high catalytic efficiency and low substrate specificity. The substrate activity of propionyl-s-N-acetylcysteine was found to be...