The egg plasma membrane and cortical structures are highly enriched in protein tyrosine kinase activity which is thought to play an important role in the fertilization process. In order to identify the tyrosine protein kinases in the egg cortex, a site directed polyclonal antibody was produced against a peptide duplicating a conserved region of the catalytic domain of the sea urchin c-abl gene product. The region chosen as an antigen had a high degree of homology (57%) to other protein tyrosine kinases. The antibody was found to bind with a high degree of specificity to a 57 kDa protein tyrosine kinase in S. purpuratus eggs. The antibody was capable of immunoprecipitating the enzyme as a 57 kDa phosphoprotein from purified egg cortex fractions solubilized in NP-40. Immunoprecipitation was completely inhibited by prior incubation of the antibody with the synthetic peptide used as an antigen. Binding of the antibody completely inhibited kinase activity. However, the immunoprecipitated kinase activity could be eluted from the Sepharose-coupled antibody and was shown to have catalytic activity towards a tyrosine containing peptide substrate. The enzyme also underwent autophosphorylation on tyrosine in vitro. Ultrastructural localization of the kinase by immuno-electron microscopy revealed that the enzyme was primarily restricted to the egg plasma membrane.