In adenovirus-infected cells, the virus-encoded preterminal protein and DNA polymerase form a heterodimer that is directly involved in initiation of DNA replication. Monoclonal antibodies were raised against preterminal protein, and epitopes recognized by the antibodies were identified by using synthetic peptides. Partial proteolysis of preterminal protein reveals that it has a tripartite structure, with the three domains being separated by two protease-sensitive areas, located at sites processed by adenovirus protease. These areas of protease sensitivity are probably surface-exposed loops, as they are the sites, along with the C-terminal region of preterminal protein, recognized by the monoclonal antibodies. Preterminal protein is protected from proteolytic cleavage when bound to adenovirus DNA polymerase, suggesting either multiple contact points between the proteins or a DNA polymerase-induced conformational change in preterminal protein. Two of the preterminal protein-specific antibodies induced dissociation of the preterminal protein-adenovirus DNA polymerase heterodimer and inhibited initiation of adenovirus DNA replication in vitro. Antibodies binding close to the primary processing sites of adenovirus protease inhibited DNA binding, consistent with UV cross-linking results which reveal that an N-terminal, protease-resistant domain of preterminal protein contacts DNA. Monoclonal antibodies recognizing epitopes within the C-terminal 60 amino acids of preterminal protein stimulate DNA binding, an effect mediated through a decrease in the dissociation rate constant. These results suggest that preterminal protein contains a large, noncontiguous surface required for interaction with DNA polymerase, an N-terminal DNA binding domain, and a C-terminal regulatory domain.