A recent study by an interdisciplinary research team shows how a soil bacterium can become a source of inspiration in the search of new active substances. Genomic analyses of the plant pathogen ...

The plant pathogen Pseudomonas syringae causes major damage in agriculture. However, it also produces a large number of biologically active natural products. These could help the bacterium to adapt to ...

Investigations of the genome of Pseudomonas syringae reveal unique natural products A recent study by an interdisciplinary research team shows how a soil bacterium can become a source of ...

The plant-pathogenic bacterium Pseudomonas syringae (center), detects its amoebal predators with a chemical radar and eliminates them. Credit: Luo Yu/Leibniz-HKI A chemical radar allows bacteria to ...

The genome-wide transcriptional regulatory network in Pseudomonas syringae demonstrates the regulatory diversity and functional pathways.

Some of those plants were exposed to a bacterial pathogen called Pseudomonas syringae pv. tomato DC3000 while the controls remained healthy.

To avoid recognition in this space, a strain of the bacterial tomato disease Pseudomonas syringae manipulates plants by producing a substance called ...

John Innes Centre researchers took a comparative evolutionary approach, using the diversity of Pseudomonas syringae bacteria, to determine how this pathogen infects distantly related plants. In ...

Using Pseudomonas syringae, they found that the toxin syringomycin affects both flowering and non-flowering plants, indicating a broad potential for this pathogen to infect diverse plant species.

A research group has discovered an interesting way that bacteria adapt to their environment. Their study, published in Microbiological Research, reveals that bacteria can evolve by losing their ...