A new approach to the analysis of hybridization of bacterial nucleic acids. Analysis of the ribosomal ribonucleic acids of Bacillus subtilis

Abstract

A new graphical analytical technique is described for the hybridization of bacterial RNA with denatured homologous DNA immobilized on cellulose nitrate membrane filters. To a constant amount of DNA, various amounts of bacterial RNA were added and the percentage of input RNA bound was plotted against the DNA/RNA weight ratio in a given experiment. When RNA samples were used that hybridize to denatured DNA as a single species, the resulting curves (RNA-hybridization-efficiency curves) could be analysed to show the percentage of the DNA capable of specifically binding the RNA and could also be used to detect the presence of minor RNA contaminants in a purified specimen. The method could also estimate the relative amounts of two species of RNA in a mixture when these were hybridized independently to different DNA cistrons or cistron groups. As an example of RNA that can be studied in this way, the 16s and 23s ribosomal RNA species of Bacillus subtilis were chosen. These each behave in DNA-RNA hybridization as a single species and bind independently to different groups of DNA cistrons. The results obtained from hybridization-efficiency curves were compared with those obtained by the more usual method of saturating the specific DNA regions with excess of ribosomal RNA (hybridization-saturation curves). It was confirmed by both approaches that 0.15 (+/-0.02)% of B. subtilis DNA would hybridize with 16s ribosomal RNA, 0.30 (+/-0.02)% would hybridize with 23s ribosomal RNA, and 0.46 (+/-0.02)% would hybridize with (16s+23s) ribosomal RNA. This agreement suggested that mass-action equilibria between hybridized and free RNA had a negligible effect on the hybridization curves over the range of DNA and RNA concentrations employed.