The regulatory design of higher organisms is proposed to comprise a trade‐off between
activities devoted to reproduction and those devoted to cellular maintenance and repair …

Promoter activity in vivo is not just dependent on the performance of the regulator/promoter
pair which may predominantly control transcription initiation in response to a given signal, it …

BACTERIAL REGULATION: GLOBAL REGULATORY NETWORKSl Page 1 Ann. Rev. Genet.
1984. 18:415-41 BACTERIAL REGULATION: GLOBAL REGULATORY NETWORKSl Susan …

In this article I consider how the interactions of RNA polymerase and promoter sites may
determine and control the specificity of the initiation of transcription in bacteria. I shall …

In Escherichia coli, the stationary phase alternative sigma factor σs controls the expression
of genes involved cell survival in response to cessation of growth (stationary phase) and …

The second vegetative sigma factor sigma S (encoded by the rpoS gene) is the master
regulator in a complex regulatory network that governs the expression of many stationary …

The general stress resistance of Escherichia coli is controlled by the RpoS sigma factor (φS),
but mutations in rpoS are surprisingly common in natural and laboratory populations …

Gene expression in bacteria relies on promoter recognition by the DNA-dependent RNA
polymerase and subsequent transcription initiation. Bacterial cells are able to tune their …

Highlights•Growth versus maintenance/resilience is the overarching theme of cellular
regulation.•Why transition to multicellularity is integrated into the growth-versus-survival …

The evolutionary survival of prokaryotes has depended not only on their performance during
conditions that allow rapid growth, but also on their ability to adjust their internal affairs to …