Natarajan Ramani scite author profile

SummaryIntegration host factor is a sequence-specific, histone-like, multifunctional DNA-binding and -bending protein of Escherichia coli. The characterization and functional analysis of this protein has been done mainly in bacteriophage /. and other mobile genetic elements. Less is known concerning the role of integration host factor (IHF) in E. coli, although it has been implicated in a number of processes in this organism including DNA replication, site-specific recombination, and gene expression. This review presents recent work which suggests that IHF alters the activity of an unusually large number of operons in E. coli. We discuss the possible physiological relevance of the involvement of IHF in gene expression and the hypothesis that IHF is a member of a class of functionally redundant proteins that participate in chromosome structure and multiple processes involving DNA.

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Analysis of the proteins andcis-acting elements regulating the stress-induced phage shock protein operon

Weiner

Brissette

Ramani

et al. 1995

Nucl Acids Res

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The phage shock protein operon (pspABCE) of Escherichia coli is strongly induced by adverse environmental conditions. Expression is controlled principally at the transcriptional level, and transcription is directed by the sigma factor sigma 54. PspB and PspC are required for high-level psp expression during osmotic shock, ethanol treatment and f1 infection, but heat-induced expression is independent of these proteins. We report here that the promoter region contains an upstream activation sequence (UAS) that is required for psp induction and has the enhancer-like ability to activate at a distance. A DNA-binding activity is detected in crude protein extracts that is dependent on the UAS and induced by heat shock. We further show that integration host factor (IHF) binds in vitro to a site between the UAS and sigma 54 recognition sequence. In bacteria lacking IHF, psp expression is substantially reduced in response to high temperature and ethanol. During osmotic shock in contrast, psp expression is only weakly stimulated by IHF, and IHF mutants can strongly induce the operon. The dependence of psp expression on IHF varies with the inducing condition, but does not correlate with dependence on PspB and PspC, indicating distinct, agent-specific activation mechanisms.

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micF antisense RNA has a major role in osmoregulation of OmpF in Escherichia coli

1994

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micF RNA, produced from a multicopy plasmid, was originally shown to be a major factor in negative osmoregulation of the OmpF outer membrane protein in Escherichia coli. However, subsequent experiments with a micF deletion strain suggested that chromosomal micF RNA was not a key component in this process. We report here that micF RNA is essential for the reduction in OmpF levels in cells grown in media of low-to-intermediate levels of osmolarity. Under these conditions, the amount of OmpF was reduced up to 60% in the parent strain while OmpF levels were not altered in the micF deletion mutant. In medium of higher osmolarity, OmpF synthesis was strongly inhibited in both strains. RNA measurements showed that micF RNA levels rose rapidly in cells grown in low-to-intermediate levels of osmolarity concomitant with the reduction in OmpF protein, while ompF mRNA decreased strongly only during high-osmolarity conditions. Taken together, these results strongly suggest that the negative osmoregulation of OmpF at low-to-intermediate osmolarity levels requires micF RNA and that this is masked at higher osmolarity by the known strong inhibition of OmpF transcription by OmpR. Results consistent with this model were also obtained by using procaine, a compound reported to inhibit ompF expression by a mechanism very similar to that involved in osmoregulation.

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