Properties of adenovirus messenger ribonucleic Acid synthesized in vitro.

Adenovirus deoxyribonucleic acid (DNA) was used as template for the in vitro synthesis of viral-specific ribonucleic acid (RNA). When the kinetics of the reaction were compared by using native and heat-denatured DNA templates, the latter synthesized RNA at a slower rate. The fate of the DNA after acting as template and physical characteritstics of the RNA product were studied. The DNA template, according to its sedimentation rate, was not significantly degraded by the Micrococcus lysodeicticus RNA polymerase. The products of the RNA polymerase reaction had the following properties. (i) Hybridization experiments revealed a high degree of complementarity (50 to 70%) for its homologous DNA. (ii) A very low complementarity (6 to 7%) was found for its heterologous DNA. (iii) The sedimentation rate of the synthetic RNA in a sucrose gradient was 5 to 10S when native DNA was used as the template. When heat-denatured DNA was used, the resulting RNA product, free of the template, sedimented at a rate of 3 to 16S. A rapidly sedimenting (>30S) DNA-RNA complex resulted when denatured DNA was the template. The DNA moiety of the complex was sensitive to 125 mug of deoxyribonuclease per ml. The RNA of the complex, however, was fully refractory to 50 mug of ribonuclease per ml. When the adenovirus DNA was sonically treated and then used as template, the RNA product sedimented at 3 to 9S. The heat-denatured sonically treated DNA template yielded a DNA-RNA complex that also sedimented at an unusually fast rate (>18S).