The 6a-lR-hydroxyethyl group of imipenem, a clinically used carbapenem antibacterial agent, is believed to displace the hydrolytic water from its optimal position in the active site of class A ~ lactamases. This interaction renders the molecule a poor substrate for these bacterial enzymes, hence preserving the antibacterial property of the antibiotic. The extent of the contribution of the 6a-lR~hydroxyethyl group in substrates toward stabilization of the antibiotic to the hydrolytic action of class A TEM-1 ~-lactamase was studied by the synthesis and evaluation of two penicillanic acid derivatives, 6a-(1R-hydroxyethyl)penicillanic acid (2) and 6~-(1R-hydroxyethyl)penicillanic acid (3). The kinetic evaluation of the enzymic hydrolysis of these two penicillanic acid derivatives indicated that the 6a-1R-hydroxyethyl group imparts as much as 104-fold to the hydrolytic stability of the ~-lactam substrate.