Mapping the antigenic epitope for a monoclonal antibody against lysozyme.

A monoclonal antibody (HyHEL-5), prepared to chicken lysozyme c by the method of Köhler and Milstein, identified an antigenic site (epitope) that was shared by the lysozymes of seven different species of galliform birds. The lysozymes of two galliform species, bobwhite quail and chachalaca, shared only partial antigenic identity with the epitope defined by this antibody. Duck lysozyme did not react with the antibody at all. Amino acids that determined the epitope structure were tentatively identified by comparing the amino acid sequences of these lysozymes and assuming the antigenic changes produced by evolutionary substitutions are not due to long-range conformational changes. Arg 68 was identified as a determining amino acid. Arg 68 is hydrogen-bonded to Arg 45, and together these two amino acids form a basic cluster that may be a subsite of the epitope. The antibody inhibited lysis of Micrococcus lysodeikticus by chicken lysozyme. Additionally, Biebrich Scarlet, a dye that binds to the catalytic site, inhibited antibody binding to this lysozyme, which indicates that the epitope extends into the cleft region between Arg 45 and Arg 114. The epitope was hypothesized to involve a region measuring at least 13 x 6 x 15 A including the Arg 68-Arg 45 complex that borders the enzymatic catalytic site. Four other monoclonal antibodies to lysozyme have been partially characterized; each had a distinct pattern of binding specificity for various species of bird lysozymes.