Synthesis of complementary RNA on RNA templates using the DNA-dependent RNA polymerase of Escherichia coli

In vitro transcription from Bacillus subtilis nucleoids by homologous RNA polymerase

The effect of DNA structural features on RNA synthesis was investigated. Purified Bacillus subtilis nucleoids templated from vegetative cells were transcribed by the homologous RNA polymerase using Hg-UTP as one of the nucleotide substrates. Low RNA polymerase/DNA ratios were used during transcription in order to avoid nonspecific initiations. The rate of synthesis of total RNA was 40% greater on nucleoid templates than on naked DNA. The proportion of asymmetric transcript synthesized on nucleoid templates (HvsL strand transcripts) was close to that observed in vivo, whereas with naked DNA this value was at least 3-times lower. The percentage of rRNA relative to the total RNA, synthesized in the in vitro system with the nucleoid template, approaches the rate of the in vivo transcription. The size of the RNA synthesized on nucleoids was large and heterogeneous while with naked DNA it was homogeneous and of about 6 S. Our results suggest that the supercoiled, folded nucleoids may retain some of the structural features responsible for the regulation of RNA synthesis in vivo.

Specificity of chromatin transcription in vitro. Anomalies due to RNA-dependent RNA synthesis

In the presence of Mn2+, globin mRNA can be transcribed into a partial RNA copy by Escherichia coli RNA polymerase. This process also occurs when the mRNA is transcribed together with chromatin. A fraction, at least, of the newly synthesized RNA copy (anti-globin RNA) can serve as a template for the synthesis of globin sequences of the same polarity as the original mRNA. This process is sufficient to explain the specific synthesis of a subset of the globin RNA on mouse foetal liver chromatin. It also accounts for the synthesis of double-stranded RNA sequence by E. coli RNA polymerase, on chromatin as well as on pure mRNA. Results are presented suggesting that the poly(A) tract of the mRNA could be preferentially transcribed. In the presence of Mg2+, the RNA-dependent transcription is strongly inhibited, as well as the synthesis of double-stranded RNA. Under these conditions, the transcription on chromatin appears to be largely DNA dependent, and the synthesis of globin sequences is completely asymmetric. Spermine (0.3 mM) seems to improve the specificity of transcription. The transcription of chromatin in vitro is thus largely dependent on the nature of the divalent cation present in the in the incubation mixture.