The role of endospore appendages in spore-spore interactions in the pathogenic Bacillus cereus group.

Species within the Bacillus cereus sensu lato group, known for their spore-forming ability, are recognized for their significant role in food spoilage and food poisoning. The spores of B. cereus are adorned with numerous pilus-like appendages, referred to as S-ENAs and L-ENAs. These appendages are thought to play vital roles in self-aggregation, adhesion, and biofilm formation. Our study investigates the role of S-ENAs and L-ENAs, as well as the impact of various environmental factors on spore-to-spore contacts and the interaction between spores and vegetative cells, using both bulk and single-cell approaches. Our findings indicate that ENAs, especially their tip fibrillae, play a crucial role in spore self-aggregation, but not in the adhesion of spores to vegetative cells. The absence of L-BclA, which forms the L-ENA tip fibrillum, reduced spore aggregation mediated by both S-ENAs and L-ENAs, highlighting the interconnected roles of S-ENAs and L-ENAs. We also found that increased salt concentrations in the liquid environment significantly reduced spore aggregation, suggesting a charge dependency of spore-spore interactions. By shedding light on these complex interactions, our study offers valuable insights into spore dynamics. This knowledge can inform future studies on spore behaviour in environmental settings and assist in developing strategies to manage bacterial aggregation for beneficial purposes, such as controlling biofilms in food production equipment.

被引量：- 发表：2024

Comparative genomics identifies key adaptive traits of sponge-associated microbial symbionts.

被引量：- 发表：2024

Acquisition of elemental sulfur by sulfur-oxidising Sulfolobales.

Elemental sulfur (S8 0)-oxidising Sulfolobales (Archaea) dominate high-temperature acidic hot springs (>80°C, pH <4). However, genomic analyses of S8 0-oxidising members of the Sulfolobales reveal a patchy distribution of genes encoding sulfur oxygenase reductase (SOR), an S8 0 disproportionating enzyme attributed to S8 0 oxidation. Here, we report the S8 0-dependent growth of two Sulfolobales strains previously isolated from acidic hot springs in Yellowstone National Park, one of which associated with bulk S8 0 during growth and one that did not. The genomes of each strain encoded different sulfur metabolism enzymes, with only one encoding SOR. Dialysis membrane experiments showed that direct contact is not required for S8 0 oxidation in the SOR-encoding strain. This is attributed to the generation of hydrogen sulfide (H2S) from S8 0 disproportionation that can diffuse out of the cell to solubilise bulk S8 0 to form soluble polysulfides (Sx 2-) and/or S8 0 nanoparticles that readily diffuse across dialysis membranes. The Sulfolobales strain lacking SOR required direct contact to oxidise S8 0, which could be overcome by the addition of H2S. High concentrations of S8 0 inhibited the growth of both strains. These results implicate alternative strategies to acquire and metabolise sulfur in Sulfolobales and have implications for their distribution and ecology in their hot spring habitats.

被引量：- 发表：2024

3-Hydroxypropionate production from myo-inositol by the gut acetogen Blautia schinkii.

Species of the genus Blautia are not only abundant in the human gut but also contribute to human well-being. Our study demonstrates that the gut acetogen Blautia schinkii can grow on myo-inositol. We identified the pathway of myo-inositol degradation through a combination of physiological and biochemical studies, genome-wide expression profiling and homology searches. Initially, myo-inositol is oxidized to 2-keto-myo-inositol. This compound is then metabolized by a series of enzymes - a dehydratase, hydrolase, isomerase and kinase - to form 2-deoxy-5-keto-d-gluconic acid 6-phosphate. This intermediate is split by an aldolase into malonate semialdehyde and dihydroxyacetone phosphate, which is an intermediate of the Embden-Meyerhof-Parnas pathway. This pathway leads to the production of pyruvate and, subsequently, acetate. Concurrently, malonate semialdehyde is reduced to 3-hydroxypropionate (3-HP). The genes responsible for myo-inositol degradation are clustered on the genome, except for the gene encoding the aldolase. We identified the putative aldolase Fba_3 and 3-HP dehydrogenase Adh1 encoding genes bioinformatically and verified them biochemically using enzyme assays with heterologously produced and purified protein. The major fermentation end products were 3-HP and acetate, produced in similar amounts. The production of the unusual fermentation end product 3-HP is significant not only for human health but also for the potential bioindustrial production of this highly desired compound.

被引量：- 发表：2024

Virus ecology and 7-year temporal dynamics across a permafrost thaw gradient.

Soil microorganisms are pivotal in the global carbon cycle, but the viruses that affect them and their impact on ecosystems are less understood. In this study, we explored the diversity, dynamics, and ecology of soil viruses through 379 metagenomes collected annually from 2010 to 2017. These samples spanned the seasonally thawed active layer of a permafrost thaw gradient, which included palsa, bog, and fen habitats. We identified 5051 virus operational taxonomic units (vOTUs), doubling the known viruses for this site. These vOTUs were largely ephemeral within habitats, suggesting a turnover at the vOTU level from year to year. While the diversity varied by thaw stage and depth-related patterns were specific to each habitat, the virus communities did not significantly change over time. The abundance ratios of virus to host at the phylum level did not show consistent trends across the thaw gradient, depth, or time. To assess potential ecosystem impacts, we predicted hosts in silico and found viruses linked to microbial lineages involved in the carbon cycle, such as methanotrophy and methanogenesis. This included the identification of viruses of Candidatus Methanoflorens, a significant global methane contributor. We also detected a variety of potential auxiliary metabolic genes, including 24 carbon-degrading glycoside hydrolases, six of which are uniquely terrestrial. In conclusion, these long-term observations enhance our understanding of soil viruses in the context of climate-relevant processes and provide opportunities to explore their role in terrestrial carbon cycling.

被引量：- 发表：2024