Rat kidney acylase I was characterised by performing site-directed mutagenesis and enzymatic analysis in the presence of various chemical inhibitors. Site-directed mutagenesis on E147 and overexpression of the protein in a bacterial system, revealed the importance of this residue in enzymatic activity, it corresponds to the putative catalytic E175 in carboxypeptidase G2 from Pseudomonas aeruginosa. The reactivity of histidine and cysteine residues of acylase I with diethylpyrocarbonate (DEPC) and mercuric chloride, respectively, showed that these two amino acids are required for the enzyme to be fully active. Interestingly, the effects of mercuric chloride on rat kidney acylase I were not as great as those on the porcine enzyme, in agreement with previously observed differences between the two enzymes. Moreover, N-[3-(2-furyl)-acryloyl-L-methionine] (FA-Met) a synthetic substrate of the porcine acylase I was found to be an inhibitor of the rat kidney enzyme. These results strongly suggest the existence of differences between the active site of rat and porcine kidney acylases I. Lastly, the rat kidney enzyme was as sensitive as its porcine counterpart to two metal chelating agents, 1,10-phenanthroline and ethylenediamine tetraacetate (EDTA).