Mature eggs of Taenia taeniaeformis hatched readily in the presence of sodium hypochlorite and no loss in infectivity of oncospheres for mice was observed after hatching. Crude and sodium deoxycholate-solubilized antigens (termed TtO-DOC) prepared from such oncospheres stimulated high levels of protection against T. taeniaeformis infection in immunized mice similar to those described previously for oncospheres prepared by other methods. Mice immunized with TtO-DOC antigens that had been exposed to potassium metaperiodate remained significantly protected against infection. Exposure of TtO-DOC antigens to pronase and thermolysin, or to trypsin, significantly reduced the ability of these antigens to protect mice against infection. These data suggest that the antigens which immunize mice against infection include protein components. 125I-labelled TtO-DOC antigens were immunoprecipitated with sera from mice infected with T. taeniaeformis and the immunoprecipitates analysed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE). Immunoprecipitation with sera from C3H/He mice infected for 28 days revealed a single major labelled protein antigen having a relative molecular mass ( M r) of 31,000. Sera from 5-month infected C3H/He mice immunoprecipitated at least thirteen labelled antigens, including one at M r 31,000. Attempts to use SDS-PAGE separated proteins to immunize mice showed that oncosphere antigens exposed to the reducing conditions prior to SDS-PAGE lost their ability to protect mice against infection. It was concluded that SDS-PAGE was an unsatisfactory technique for the isolation of a host protective fraction of TtO-DOC antigens. TtO-DOC proteins were resolved by PAGE performed in the presence of sodium deoxycholate (DOC-PAGE) and mice were vaccinated with cut-outs from the gel. A fraction of the DOC-polyacrylamide gel was found to be effective in immunizing mice against infection. Thus, although the characteristics of the protein antigens in this DOC-PAGE fraction have yet to be determined, an important fractionation technique has been identified. It was shown that partial removal of DOC from oncosphere antigen preparations solubilized in 1% DOC was required for the antigen to stimulate protective immunity. These findings will facilitate further antigen characterization studies towards the development of a defined-antigen vaccine in murine cysticercosis. This is particularly so as attempts to raise anti-oncospheral monoclonal antibodies capable of passively transferring protection to mice by using crude antigen preparations to immunize donor mice have not been successful.