Showing papers by "Denise M. Monack published in 1989"

Sequences required for expression of Bordetella pertussis virulence factors share homology with prokaryotic signal transduction proteins.

Abstract: The bvg locus of Bordetella pertussis is required for coordinate regulation of several factors associated with virulence. The control system is modulated by various environmental signals, including low temperature, MgSO4, and nicotinic acid. The nucleotide sequence of the bvg region has been determined and three open reading frames, bvgA, bvgB, and bvgC, are present. Twelve-base-pair linker insertion mutations in any of these open reading frames result in a Bvg- phenotype. The predicted protein products of bvgA and bvgC share homology with a family of prokaryotic regulatory proteins that respond to environmental stimuli and are members of two-component sensory transduction systems. We propose a model in which BvgB and the N-terminal portion of BvgC are localized in the periplasm. Environmental signals are recognized, transduced to the cytoplasmic portion of BvgC, and then transmitted to BvgA, a positive regulator of transcription.

Phase variation in Bordetella pertussis by frameshift mutation in a gene for a novel two-component system

Abstract: Bordetella pertussis, the aetiological agent of whooping cough, coordinately regulates the expression of many virulence-associated determinants, including filamentous haemagglutinin, pertussis toxin, adenylyl cyclase toxin, dermonecrotic toxin and haemolysin. The coordinate regulation is apparent in the repression of synthesis of these determinants in response to environmental stimuli; a phenomenon known as antigenic or phenotypic modulation. B. pertussis also varies between metastable genetic states, or phases. There is a virulent phase in which virulence-associated determinants are synthesized, and an avirulent phase in which they are not. Previous studies have shown that a genetic locus, vir, is required for expression from many virulence-associated loci, and that replacing the cloned vir locus in trans can restore the virulent phase phenotype to spontaneously occurring avirulent phase strains. Here, we show that phase variation in one series of strains is due to a frameshift mutation within an open reading frame that is predicted to code for a Vir protein product. The deduced protein sequence is similar to both components of the 'two-component' regulatory system which control gene expression in response to environmental stimuli in a range of bacterial species.

Phase variants of Bordetella bronchiseptica arise by spontaneous deletions in the vir locus

Abstract: Summary Bordetella bronchiseptica is a common respiratory tract pathogen of many mammalian species. Nucleotide sequences from the iocus involved in coordinate regulation of B. pertussis virulence factors, vir, were shown to have a high degree of homology to chromosomal DNA from virulent (Vir+) and avirulent (Vir−) strains of B. bronchiseptica. Small deletions, 50 bp to 500 bp, within the vir locus were found in some of the Vir− phase variants. The vir locus and the adjacent 5′ portion of the fhaB structural gene were cloned from the parental Vir+B. bronchiseptica strain on a 23.5kb BamHl fragment. Restriction enzyme mapping of the cloned B. bronchiseptica vir locus revealed similarities with and differences from the previously cloned B. pertussis vir locus. The cloned B. bronchiseptica vir locus complemented spontaneous Vir− variants of Bordetella pertussis and B. bronchiseptica as well as wr::Tn5 mutants of B. pertussis. Comparison of various functions of the vir loci of B. bronchiseptica and B. pertussis revealed some interesting differences in the coordinate regulation of virulence factors.