Annick Allardet-Servent scite author profile

Analysis of a TnblaM mutant of Brucella suis 1330, identified as being unable to multiply in Hela cells, allowed us to identify a 11 860 bp region of the B. suis genome encoding a type IV secretion system, homologous to the VirB system of Agrobacterium tumefaciens and the Ptl system of Bordetella pertussis. DNA sequence revealed 12 open reading frames (ORFs) encoding homologues of the 11 VirB proteins present in the pTi plasmid of Agrobacterium with a similar genetic organization, and a twelfth ORF encoding a putative lipoprotein, homologous to a protein involved in mating pair formation during bacterial conjugation and to adhesins used by Pseudomonas species to bind to plant roots. Phylogenetic trees based on the sequences of VirB4 and VirB9 protein homologues suggest that evolution of the systems from DNA transfer towards protein secretion did not stem from a single event but that the protein secretion systems have evolved independently. Four independent mutants in virB5, virB9 or virB10 were highly attenuated in an in vitro infection model with human macrophages. The virulence was restored by complementation with a plasmid containing the full virB region. The virB region appears to be essential for the intracellular survival and multiplication of B. suis.

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The Brucella suis virB operon is induced intracellularly in macrophages

Boschiroli

Ouahrani‐Bettache²,

Foulongne³

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

265

214

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A type IV secretion system similar to the VirB system of the phytopathogen Agrobacterium tumefaciens is essential for the intracellular survival and multiplication of the mammalian pathogen Brucella. Reverse transcriptase-PCR showed that the 12 genes encoding the Brucella suis VirB system form an operon. Semiquantitative measurements of virB mRNA levels by slot blotting showed that transcription of the virB operon, but not the flanking genes, is regulated by environmental factors in vitro. Flow cytometry used to measure green fluorescent protein expression from the virB promoter confirmed the data from slot blots. Fluorescence-activated cell sorter analysis and fluorescence microscopy showed that the virB promoter is induced in macrophages within 3 h after infection. Induction only occurred once the bacteria were inside the cells, and phagosome acidification was shown to be the major signal inducing intracellular expression. Because phagosome acidification is essential for the intracellular multiplication of Brucella, we suggest that it is the signal that triggers the secretion of unknown effector molecules. These effector molecules play a role in the remodeling of the phagosome to create the unique intracellular compartment in which Brucella replicates.

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Presence of one linear and one circular chromosome in the Agrobacterium tumefaciens C58 genome

et al. 1993

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Analysis of the entire Agrobacterium tumefaciens C58 genome by pulsed-field gel electrophoresis (PFGE) reveals four replicons: two large molecules of 3,000 and 2,100 kb, the 450-kb cryptic plasmid, and the 200-kb Ti plasmid. Digestion by PacI or SwaI generated 12 or 14 fragments, respectively. The two megabase-sized replicons, used as probes, hybridize with different restriction fragments, showing that these replicons are two independent genetic entities. A 16S rRNA probe and genes encoding functions essential to the metabolism of the organism were found to hybridize with both replicons, suggesting their chromosomal nature. In PFGE, megabase-sized circular DNA does not enter the gel. The 2.1-Mb chromosome always generated an intense band, while the 3-Mb band was barely visible. After linearization of the DNA by X-irradiation, the intensity of the 3-Mb band increased while that of the 2.1-Mb remained constant. This suggests that the 3-Mb chromosome is circular and that the 2.1-Mb chromosome is linear. To confirm this hypothesis, genomic DNA, trapped in an agarose plug, was first submitted to PFGE to remove any linear DNA present. The plug was then recovered, and the remaining DNA was digested with either PacI or SwaI and then separated by PFGE. The fragments corresponding to the small chromosome were found to be absent, while those corresponding to the circular replicon remained, further proof of the linear nature of the 2.1-Mb chromosome.

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Genome structure and phylogeny in the genus Brucella

et al. 1997

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PacI and SpeI restriction maps were obtained for the two chromosomes of each of the six species of the genus Brucella: B. melitensis, B. abortus, B. suis, B. canis, B. ovis, and B. neotomae. Three complementary techniques were used: hybridization with the two replicons as probes, cross-hybridization of restriction fragments, and a new mapping method. For each type strain, a unique I-SceI site was introduced in each of the two replicons, and the location of SpeI sites was determined by linearization at the unique site, partial digestion, and end labeling of the fragments. The restriction and genetic maps of the six species were highly conserved. However, numerous small insertions or deletions, ranging from 1 to 34 kb, were observed by comparison with the map of the reference strain of the genus, B. melitensis 16M. A 21-kb SpeI fragment specific to B. ovis was found in the small chromosome of this species. A 640-kb inversion was demonstrated in the B. abortus small chromosome. All of these data allowed the construction of a phylogenetic tree, which reflects the traditional phenetic classification of the genus.Brucella is a small gram-negative bacterium pathogenic for animals and occasionally for humans. The genus is divided into six species on the basis of cultural, metabolic, and antigenic characteristics: B. melitensis, B. abortus, B. suis, B. ovis, B. canis, and B. neotomae (6). However, it was shown by DNA-DNA hybridization that the genus is more probably monospecific (42). In a previous work (1), we found that each of the socalled species exhibited a specific macrorestriction pattern by digestion of genomic DNA with XbaI, with only minor variations between biovars within a species. Recently, a physical map was proposed for the genus type strain, B. melitensis 16M, by a cross-hybridization method (30). We showed that the Brucella genome was constituted by two circular chromosomes with sizes of about 2.05 and 1.15 Mb.In this study, we established the PacI and SpeI restriction maps of the two chromosomes of the other reference strains in the genus Brucella: B. abortus 544, B. suis 1330, B. canis 62/290, B. ovis 63/290, and B. neotomae 5K33. Three different but complementary techniques were employed: hybridization with the two replicons as probes, cross-hybridization of restriction fragments, and a new mapping strategy using I-SceI. I-SceI is an endonuclease encoded by a group I intron of the Saccharomyces cerevisiae mitochondrial 21S rRNA gene (31). Recently, by using artificially inserted I-SceI sites, a physical map of chromosome XI of S. cerevisiae (40) and a physical map of YAC inserts (5) were made. Since bacterial genomes lack natural I-SceI sites, we showed that the introduction of a unique restriction site recognized by I-SceI could be a useful tool for the study of the genome organization (20). In this study, we used an indirect end-labeling method to localize the SpeI sites, derived from a previously described procedure involving partial digestion of linearized DNA, followed by Southern blotting and h...

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