We have found that penicillin G sulfoxide (pen G SO) behaves as a general stabilizing agent of two bacterial penicillin G acylases (PGAs) from E. coli and from K. citrophila), and this role is related to a strong inhibitory effect on the enzymes. The stabilizing effect has been observed during two different inactivation processes: (i) thermal inactivation of soluble enzymes at alkaline pH, and (ii) inactivation of immobilized enzymes as a consequence of covalent multiinteraction with highly activated agarose aldehyde gels. At the same time, pen G SO behaves as a strong competitive inhibitor of these two enzymes. The inhibition constant is more than 10-fold lower than the one corresponding to another smaller competitive inhibitor, phenylacetic acid (PAA), the structure of which is exactly the acyl donor moiety corresponding to pen G SO. In turn, PAA hardly exerts any stabilizing effect on PGAs. The stabilizing effect of pen G SO allowed the preparation of derivatives of these PGAs preserving full catalytic activity in spite of being 1,400- and 650-fold more stable than the corresponding soluble or one-point attached immobilized enzymes.