Interaction of L-threo and L-erythro isomers of 3-fluoroglutamate with glutamate decarboxylase from Escherichia coli.

Abstract

L-threo-3-Fluoroglutamate and L-erythro-3-fluoroglutamate were tested with glutamate decarboxylase from Escherichia coli. Both isomers were substrates: the threo isomer was decarboxylated into optically active 4-amino-3-fluorobutyrate, whereas the erythro isomer lost the fluorine atom during the reaction, yielding succinic semialdehyde after hydrolysis of the unstable intermediate enamine. The difference between the two isomers demonstrates that the glutamic acid-pyridoxal phosphate Schiff base is present at the active site under a rigid conformation. Furthermore, although the erythro isomer lost the fluorine atom, yielding a reactive aminoacrylic acid in the active site, no irreversible inactivation of E. coli glutamate decarboxylase was observed.