Hugo C. Barreto scite author profile

The recently discovered Type VII/Esat-6 secretion systems seem to be widespread among bacteria of the phyla Actinobacteria and Firmicutes. In some species they play an important role in pathogenic interactions with eukaryotic hosts. Several studies have predicted that the locus yukEDCByueBC of the non-pathogenic, Gram-positive bacterium Bacillus subtilis would encode an Esat-6-like secretion system (Ess). We provide here for the first time evidences for the functioning of this secretion pathway in an undomesticated B. subtilis strain. We show that YukE, a small protein with the typical features of the secretion substrates from the WXG100 superfamily is actively secreted to culture media. YukE secretion depends on intact yukDCByueBC genes, whose products share sequence or structural homology with known components of the S. aureus Ess. Biochemical characterization of YukE indicates that it exists as a dimer both in vitro and in vivo. We also show that the B. subtilis Ess essentially operates in late stationary growth phase in absolute dependence of phosphorylated DegU, the response regulator of the two-component system DegS-DegU. We present possible reasons that eventually have precluded the study of this secretion system in the B. subtilis laboratory strain 168.

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The Landscape of Adaptive Evolution of a Gut Commensal Bacteria in Aging Mice

Barreto

Sousa

Gordo

2020

Current Biology

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The Landscape of Adaptive Evolution of a Gut Commensal Bacteria in Aging Mice

2019

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Mutation accumulation and horizontal gene transfer inEscherichia colicolonizing the gut of old mice

Barreto

Frazão

Sousa

et al. 2020

Communicative & Integrative Biology

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The ecology and environment of the microbes that inhabit the mammalian intestine undergoes several changes as the host ages. Here, we ask if the selection pressure experienced by a new strain colonizing the aging gut differs from that in the gut of young adults. Using experimental evolution in mice after a short antibiotic treatment, as a model for a common clinical situation, we show that a new colonizing E. coli strain rapidly adapts to the aging gut via both mutation accumulation and bacteriophage-mediated horizontal gene transfer (HGT). The pattern of evolution of E. coli in aging mice is characterized by a larger number of transposable element insertions and intergenic mutations compared to that in young mice, which is consistent with the gut of aging hosts harboring a stressful and iron limiting environment.

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Hugo C. Barreto

High Levels of DegU-P Activate an Esat-6-Like Secretion System in Bacillus subtilis

The Landscape of Adaptive Evolution of a Gut Commensal Bacteria in Aging Mice

The Landscape of Adaptive Evolution of a Gut Commensal Bacteria in Aging Mice

Mutation accumulation and horizontal gene transfer inEscherichia colicolonizing the gut of old mice

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