A new approach to the isolation of RNA-DNA hybrids and its application to the quantitative determination of labeled tumor virus RNA

Abstract

A procedure has been developed by which the hybrid formed between a labeled RNA and complementary DNA can be selectively separated from all other single and double-stranded nucleic acids. We describe the application of this procedure to the quantitative determination of labeled avian tumor virus RNA. Purified DNA complementary to avian myeloblastosis virus RNA is extended at its 3′ terminus with 40 to 60 dCMP residues, using terminal deoxynucleotidyl-transferase. The elongated DNA is annealed with the labeled nucleic acid preparation and the mixture is passed through a column of Sephadex to which poly(I) has been covalently bound. The poly(I) retains the specific RNA-DNA hybrids by virtue of their poly(C) extension. The column is washed with RNAase to degrade nonhybridized RNA, the RNA retained on the column is eluted with formamide and its radioactivity is determined. The background hybridization was reduced to 0.003 to 0.008% by addition of oligo(C) 5.20 to the hybridization mixture and by carrying out the adsorption to the poly(I)-Sephadex column in the presence of poly(U). The hybridization efficiency was about 50%. The content of radioactive Rous sarcoma virus-specific RNA was determined in infected and uninfected cells after labeling with [ 3H]uridine for two hours. The content of labeled virus-specific RNA in infected cells was 0.6 to 0.9% and 0.05% in uninfected cells. The value found for monkey cell RNA was 0.009%. This method can be used for the detection of hybrids between labeled RNA and complementary DNAs too short to allow quantitation by conventional methods. If the RNAase step is omitted the procedure can be used for the isolation of any RNA for which a complementary DNA is available, as well as for its precursor.