Ribosomal protein S1 promotes transcriptional cycling

Prokaryotic RNA polymerases are capable of efficient, continuous synthesis of RNA in vivo, yet purified polymerase-DNA model systems for RNA synthesis typically produce only a limited number of catalytic turnovers. Here, we report that the ribosomal protein S1-which plays critical roles in translation initiation and elongation in Escherichia coli and is believed to stabilize mRNA on the ribosome-is a potent activator of transcriptional cycling in vitro. Deletion of the two C-terminal RNA-binding modules-out of a total of six loosely homologous RNA-binding modules present in S1-resulted in a near-loss of the ability of S1 to enhance transcription, whereas disruption of the very last C-terminal RNA-binding module had only a mild effect. We propose that, in vivo, cooperative interaction of multiple RNA-binding modules in S1 may enhance the transcript release from RNA polymerase, alleviating its inhibitory effect and enabling the core enzyme for continuous reinitiation of transcription.