The interaction between avian myeloblastosis virus DNA polymerase and synthetic nucleic acids was studied by an adaptation of the membrane filter binding technique. Bacillus subtilis DNA was used as a substrate for the binding reaction and was retained on the filters in the presence of the viral polymerase. The polymerase activity was demonstrated to be retained on the filter in either the presence or absence of the bacterial DNA. Characterization of the polymerase-DNA interaction demonstrated a marked similarity to previous data regarding the binding of Escherichia coli DNA-dependent RNA polymerase to nucleic acids when studied using related techniques. In contrast, the association between methylated bovine serum albumin and the B. subtilis DNA was found to differ significantly in both reaction stoichiometry and stability. Synthetic polynucleotides were shown to inhibit the binding of the bacterial DNA to the viral DNA polymerase and poly 2′-fluoro-2′-deoxyuridylic acid was found to be the most potent inhibitor of this reaction. Results from the binding-inhibition studies correlated well with studies concerning the inhibition of enzyme activity and it is concluded that the inhibitory polynucleotides act by interfering with binding of nucleic acid template to the viral enzyme.