Inhibition of a transcriptional pause by RNA anchoring to RNA polymerase.

We describe a mechanism by which nascent RNA inhibits transcriptional pausing. PutL RNA of bacteriophage HK022 suppresses transcription termination at downstream terminators and pausing within a nearby U-rich sequence. In vitro transcription and footprinting assays reveal that this pausing results from backtracking of RNA polymerase and that binding of nascent putL RNA to polymerase limits backtracking by restricting re-entry of the transcript into the RNA exit channel.

The mutation that makes Escherichia coli resistant to lambda P gene-mediated host lethality is located within the DNA initiator Gene dnaA of the bacterium.

Earlier, we reported that the bacteriophage lambda P gene product is lethal to Escherichia coli, and the E. coli rpl mutants are resistant to this lambda P gene-mediated lethality. In this paper, we show that under the lambda P gene-mediated lethal condition, the host DNA synthesis is inhibited at the initiation step.

Protein arginine methyltransferase I: substrate specificity and role in hnRNP assembly.

Prmt1, the major protein arginine methyltransferase in mammalian cells, has been implicated in signal transduction, transcriptional control, and protein trafficking. In the present study, mouse embryonic stem cells homozygous for an essentially null mutation in the Prmt1 gene were used to examine Prmt1 activity and substrate specificity, which by several criteria appeared to be highly specific. First, other methyltransferases did not substitute for the loss of Prmt1 activity.