Lipase from &x4domonas ueruginosu is a M, 29 kDa protein with a single functional disultide bond as shown by a shift in electrophoretic mobility after treatment with dithiothreitol and iodoacetamide. Liited proteolysis of lipase with Staphylococcus uureus protease V8 resulted in cleavage after amino acid residues Asp)' and GIu~. Comparison of the lipase amino acid sequence with those of other hydrolases with known 3D structures indicated that the folding pattern might be compatible with the al/l hydrolase fold, thereby allowing us to construct a 3D model which fitted the biochemical properties. The model predicts a catalytic triad consisting of Se?, Asp*" and Hi?', and contains a disuhide bond connecting residues Cys'S) and C~S*~~. Residues Asp3* and Gl@ are located at the surface of the enzyme, whereas the disulfide bond is rather inaccessible, which is in agreement with the finding that the protein needed to be partly unfolded before a reduction of the disultide bond could take place. A striking prediction from the model was the lack of a lid-like a-helical loop structure covering the active site which confers to other well-characterized lipases a unique property known as interfacial activation. Experimental determination of lipase activity under conditions where the substrate existed either as monomeric solutions or aggregates confirmed the absence of interfacial activation.