CodY, a pleiotropic regulator, influences multicellular behaviour and efficient production of virulence factors in Bacillus cereus

In response to nutrient limitation in the environment, the global transcriptional regulator CodY modulates various pathways in low G+C Gram-positive bacteria. In Bacillus subtilis CodY triggers adaptation to starvation by secretion of proteases coupled to the expression of amino acid transporters. Furthermore, it is involved in modulating survival strategies like sporulation, motility, biofilm formation, and CodY is also known to affect virulence factor production in pathogenic bacteria. In this study, the role of CodY in Bacillus cereus ATCC 14579, the enterotoxin-producing type strain, is investigated. A marker-less deletion mutant of codY (?codY) was generated in B. cereus and the transcriptome changes were surveyed using DNA microarrays. Numerous genes involved in biofilm formation and amino acid transport and metabolism were upregulated and genes associated with motility and virulence were repressed upon deletion of codY. Moreover, we found that CodY is important for efficient production of toxins and for adapting from nutrient-rich to nutrient-limited growth conditions of B. cereus. In contrast, biofilm formation is highly induced in the ?codY mutant, suggesting that CodY represses biofilm formation. Together, these results indicate that CodY plays a crucial role in the growth and persistence of B. cereus in different environments such as soil, food, insect guts and the human body

L-alanine-induced germination in Bacillus licheniformis -the impact of native gerA sequences

BACKGROUND: L-alanine, acting through the GerA receptor, was recently found to be an efficient germinant in Bacillus licheniformis ATCC14580/DSM13. RESULTS: In this study, we show that several of 46 examined B. licheniformis strains germinate remarkably slower than the type strain when exposed to L-alanine. These strains are not necessarily closely related, as determined by MLST (multi-locus sequence typing). Three of the slow-germinating strains were further examined in order to see whether nucleotide substitutions in the gerA sequences were responsible for the slow L-alanine germination. This was performed by complementing the transformable type strain derivate MW3ΔgerAA with gerA variants from the three slow-germinating strains; NVH1032, NVH1112 and NVH800. CONCLUSIONS: A wide selection of B. licheniformis strains was evaluated for L-alanine-induced germination efficiency. Our results show that gerA substitutions could only partially explain why spores of some B. licheniformis strains responded slower than others in the presence of L-alanine

Sporeforming bacteria of relevance for milk and feed quality and animal health. A review.

Rapporten gir en kunnskapsstatus om sporedannende bakterier som har betydning for fôr- og mjølkekvalitet og dyrehelse, kontamineringskilder, årsaker til framvekst i ensilasje, diagnostikk og analysemetoder.publishedVersio

Sporeforming bacteria of relevance for milk and feed quality and animal health. A review.

Rapporten gir en kunnskapsstatus om sporedannende bakterier som har betydning for fôr- og mjølkekvalitet og dyrehelse, kontamineringskilder, årsaker til framvekst i ensilasje, diagnostikk og analysemetoder.Sporeforming bacteria of relevance for milk and feed quality and animal health. A review.publishedVersio