An attempt was made to change the specificity of antibodies (Abs) by introduction of mutations. A monoclonal Ab specific for 17alpha-hydroxyprogesterone (17-OHP) was used as the starting Ab. On the basis of a model that was generated by a computer-driven model-building system, we constructed a phage-display library of Abs in which 16 residues were mutated in three complementarity-determining regions of the heavy chain that appeared to form the steroid-binding pocket. We screened the library with 17-OHP and cortisol that had been conjugated with bovine serum albumin, and we isolated many clones that had retained 17-OHP-binding ability as well as clones with the newly developed ability to bind cortisol in addition to 17-OHP. We compared the amino acid sequences between 17-OHP-specific and cortisol-binding Abs, and then constructed several additional Abs. Our results indicated that a change in specificity could be achieved by changing only a single, critical amino acid residue. Models of the 17-OHP-and cortisol-binding pockets formed by the mutated Abs could explain these observations.
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