Several simple 8-substituted 9-alkyl- and 7,8-disubstituted 9-alkylguanine derivatives were synthesized as potential antiviral agents. These were tested for antiviral protection against a lethal Semliki Forest virus (SFV) infection in mice, and their antiviral properties were evaluated from a structure-activity standpoint. In this model system, 9-alkylguanines with the alkyl chain consisting of four to six carbons were found to be the most active. Substitution of the 8-position of the purine ring did not enhance activity, with the exception of the 7-alkyl-8-oxo substituent. These data were found to support the hypothesis that guanines need not contain an intact carbohydrate moiety in order to exhibit antiviral activity by virtue of immune potentiation. Hence, phosphorylation of guanosine analogs that exhibit antiviral activity by a similar mechanism does not play a significant role.