Ribonucleic acid synthesis by Escherichia coli C 3000/L after infection by the ribonucleic acid coliphage ZIK/1, and properties of the coliphage-induced double-stranged ribonucleic acid.

1. The efficiency of extracting nucleic acids from Escherichia coli after five methods of obtaining cell lysis was determined. 2. The recovery of various nucleic acid species isolated after chromatography on methylated albumin-coated kieselguhr was also examined. 3. Double-stranded coliphage-induced RNA was isolated from infected bacteria and its resistance to ribonuclease digestion under various conditions determined. 4. The involvement of double-stranded RNA during the infection process was demonstrated. 5. The time-course of the syntheses in infected cells of double-stranded RNA, DNA, single-stranded coliphage and 16s ribosomal RNA, transfer RNA and ribosomal 23s RNA was examined. 6. It was demonstrated that the syntheses of DNA, transfer RNA and ribosomal RNA decreased 10-15min. after infection. 7. Synthesis of coliphage RNA commenced 10-15min. after infection and double-stranded RNA was also synthesized from about 10min. after coliphage adsorption.