Riccardo Manetti scite author profile

Transcription of virulence genes of Bordetella pertussis is co-ordinately regulated by the BvgA and BvgS proteins, which are members of the two-component family of bacterial signal-transduction proteins. BvgS is the transmembrane sensor and BvgA the transcriptional regulator. By gel mobility shift assays we demonstrate that phosphorylated BvgA (BvgA approximately P) forms distinct complexes with the filamentous haemagglutinin (PFHA) promoter DNA at different BvgA approximately P: DNA ratios. DNase I protection analyses show that phosphorylation of BvgA not only enhances affinity of the protein for the binding sites of the PFHA and bvgP1 promoters, but it extends significantly the bound region towards position -35 of these promoters. Conversely, a 10-fold higher amount of BvgA approximately P is required for binding to a large DNA region, from -168 to -60, of the pertussis toxin (Ptox) promoter sequence. These findings suggest that the molecular interaction of BvgA approximately P with the Ptox promoter is different from its interaction with the PFHA and bvgP1 promoters. The sigma 70 Escherichia coli RNA polymerase (RNP) does not bind to the bvg-regulated promoters. However, following the formation of a BvgA approximately P-promoter complex, the E. coli RNP specifically recognizes and binds to the bvg-regulated promoters. Thus, BvgA approximately P exerts its action at the level of promoter recognition by directing promoter selectivity by RNP.

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Response of the bvg regulon of Bordetella pertussis to different temperatures and short-term temperature shifts

Prugnola

Aricò²,

Manetti³

et al. 1995

Microbiology

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Bordetella pertussis produces a number of virulence factors whose expression is coordinately regulated by the bvgA3 locus. Transcription of virulence genes is repressed by environmental factors such as low temperature (25 "C) and chemical stimuli. Temperature shift of bacterial cultures from 25 "C to 37 "C activates two classes of bvg-regulated virulence genes: the early genes, which are activated within 10 min, and late genes, which require 2 4 h for activation. During the interval between the activation of the early and late genes, the intracellular concentration of BvgA increases 50-fold. It has been proposed that this increased concentration may be required for the activation of the late genes. Here we have analysed the response of the bvg locus to intermediate temperatures and to repeated temperature shifts. Temperature shifts of B.pertussis cultures from 22 "C to 28 "C, 32 "C or 35 "C resulted in the synthesis of low, intermediate, and high amounts of BvgA. This implied that the intracellular concentration of BvgA is temperature-dependent. We have also observed that the amount of virulence factors produced correlates with the BvgA concentration. When bacteria grown at 37 "C were shifted to 22 "C, transcription from the adenylate cyclase toxin haemolysis promoter (PAC) was repressed after 30 min, while transcription from the bvg (P,) and filamentous haemagglutinin (PFHA) promoters was repressed after 2 h. During this time, the amount of BvgA did not decrease. A subsequent temperature shift from 22 "C to 37 "C induced transcription from the P, and P, , promoters after 10 min and transcription from the PAC promoter after 20 min. This result shows that in the presence of a high concentration of BvgA, the time lag between temperature shift and late promoter transcription is reduced from 2 4 h to 20 min. The above data support the proposal that the concentration of BvgA plays a role in activating expression of the late genes.

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A novel chromatin‐forming histone H1 homologue is encoded by a dispensable and growth‐regulated gene in Bordetella pertussis

Scarlato

Aricò

Goyard

et al. 1995

Molecular Microbiology

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We report the identification of a protein homologous to a histone H1 in Bordetella pertussis. The B. pertussis histone homologue, BpH1, varies in size in different strains from 182 to 206 amino acids. The variability of the size of the protein is due to gene variability by insertion or deletion of DNA modules. Insertion of a kanamycin cassette into the bpH1 gene generates a BpH1 null mutant with phenotypic properties and growth rate similar to those of the wild-type strain, showing that this gene is dispensable. In vitro, the BpH1 protein prevents chromosomal DNA degradation from DNase I and constrains supercoiled DNA. Transcription of the bpH1 gene is activated during exponential growth of the bacteria, whereas it is repressed during the stationary phase of growth. It is proposed that BpH1 plays a role in chromatin formation and condensation during DNA replication and that repression of transcription depends upon a reduced rate of DNA replication.

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Mutations in the linker region of Bvgs abolish response to environmental signals for the regulation of the virulence factors in bordetella pertussis

Manetti¹,

Aricò²,

Rappuoli³

et al. 1995

Gene

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Mutations in the linker region of BvgS abolish response to environmental signals for the regulation of the virulence factors in Bordetella pertussis

Manetti

Aricò

Rappuoli

et al. 1994

Gene

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