Codon-based combinatorial alanine scanning site-directed mutagenesis: design, implementation, and polymerase chain reaction screening.

Combinatorial alanine scanning mutagenesis is a powerful tool for the exploration of protein structure-function relationships. Unfortunately, combinatorial alanine replacement of multiple residues using standard site-directed mutagenesis is restricted to a subset of amino acids. To circumvent this limitation, an efficient procedure for combinatorial site-specific replacement by alanine of any residue in a given protein sequence has been established. The method, which involves simple procedures and commonly used materials, is based upon the use of codon-based mutagenesis. A defined ratio of alanine to wild-type codon was introduced at each predetermined triplet using the "column-splitting" technique during oligonucleotide synthesis. High-throughout genetic screening of mutant libraries was facilitated by the incorporation of diagnostic restriction sites at targeted codons followed by a PCR-based screening procedure. The method was tested on a set of 13 residues located at the interface between the variable domains of a Fab fragment of an antibody. The occurrence of alanine substitution was found to be comparable to the statistically predicted distribution.