Transcription of double-stranded RNA by Escherichia coli DNA-dependent RNA polymerase.

Double-stranded RNA of some virus genomes can be used as template for the DNA-dependent RNA polymerase purified from Escherichia coli. The RNA synthesis requires all four nucleoside triphosphates and manganese ions and is dependent on the presence of sigma subunit. The reaction is inhibited by rifampicin, streptolydigin and ethidium bromide, but not by DNase and actinomycin D which does not bind to double-stranded RNA. The template activity of double-stranded RNA from various viruses is different in each case. The order of template efficiency is Penicillum chrysogenum virus greater than cytoplasmic polyhedrosis virus greater than rice dwarf virus greater than reovirus. The product obtained using cytoplasmic polyhedrosis virus double-stranded RNA as template is single-stranded and hybridizes specifically to the denatured template RNA. One of the major 5'-starting nucleotide sequences of the product RNA is pppA-A-Y--. These results indicate that transcription in vitro of double-stranded RNA by E. Coli RNA polymerase is initiated at specific sites on the template.