Among antibodies to flaviviral proteins only those directed at the virion envelope protein (E) or the non-structural glycoprotein NS1 are known to confer protection. To investigate the possible role of complement-mediated cytolysis (CMC) in protection we measured the capacity of anti-NS1, or E monospecific serum or monoclonal antibodies to bind to yellow fever virus (YFV)-infected cells and of anti-NS1 or E serum to sensitize them to CMC. Although both anti-NS1 and anti-E antibody bound to YFV-infected cells, CMC was observed only with anti-NS1 antibody. Greater binding by anti-NS1 antibody suggested the presence of larger amounts of NS1 than E associated with the cell membrane. Using the cell membrane-impermeable, cross-linking reagent BS3, cell surface NS1, but not E, was detected as a homopolymer, a form in which bound antibody might be expected to activate complement more efficiently. Peak titres of progeny virus were reduced 10- to 100-fold when infected cells were treated with complement-fixing, anti-NS1 monoclonal antibody or monospecific, anti-NS1 rabbit serum and complement. Taken together these results are consistent with the hypothesis that CMC subserved by anti-NS1 antibody provides an alternative to direct neutralization of virus in the protective immune response to flaviviral infection.