Fluorine NMR studies of fluorocinnamoylchymotrypsins

Abstract

Three monofluorocinnamoylchymotrypsins have been examined at pH 4 by fluorine NMR spectroscopy. Protein-induced fluorine chemical shifts are quite large (~7 ppm) when fluorine is present at the para position but nearly zero for ortho fluorine. The shifts roughly parallel those observed in complexes formed between the enzyme and the analogous N-acetylfluorophenylalanines, suggesting a similarity in molecular environment for the aromatic ring in both systems. Little correlation is found, however, between the shifts for the acylenzymes and those of the corresponding enzyme-cinnamate complexes, indicating that the environment for the aromatic ring in the complexes is dissimilar from that experienced by the aromatic group in the acylated enzyme. Solvent isotope effects ( H 2O D 2O ) on the fluorine chemical shifts for the fluorocinnamoylchymotrypsins are small and downfield. Fluorine NMR observations suggest that the presence of the fluorocinnamoyl group greatly stabilizes the enzyme toward denaturation in 8 m urea.