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Researchers at the Laboratory for Molecular Infection Medicine Sweden at Umeå University in Sweden participated in the discovery of a unique system of acquisition of essential metals in the pathogenic bacterium Staphylococcus aureus. This research was led by scientists at the CEA in France, in collaboration with researchers at the University of Pau, the INRA and the CNRS. It represents a new potential target for the design of antibiotics. These results are being published in the journal Science on Friday, May 27.
All cells must find a way to acquire trace metals. Bacteria and plants scavenge iron, for instance, by synthesizing and releasing iron-chelating compounds called siderophores. Ghssein et al. describe three enzymes in Staphylococcus aureus that are responsible for the biosynthesis of another type of metallophore (see the Perspective by Nolan). Metabolomics and a range of biochemical assays show that this compound, named staphylopine, is involved in the uptake of a range of metals, depending on the growth environment. The genes required for staphylopine biosynthesis are conserved across a number of pathogenic bacteria and are similar to those for a broad-spectrum metallophore produced by plants.