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Description:
Pseudomonas aeruginosa is an opportunistic pathogen and an important causative agent of potentially life-threatening nosocomial infections in predisposed patients. The Gram-negative bacterium produces a large and diverse repertoire of small-molecule secondary metabolites that serve as regulators and effectors of its virulence. In this study, a range of mass spectrometry-based bacterial metabolomics approaches was used to investigate these small-molecule virulence factors and their interplay with pseudomonal metabolism as well as with phenotypic traits related to virulence. The groundwork was laid by exploring the metabolite inventory of P. aeruginosa and improving the coverage of its metabolome by the application of a custom software named CluMSID, that clusters analytes based on similarities of their MS² spectra. CluMSID led to the annotation of, i.a., 27 novel members of the class of alkylquinolone quorum sensing signalling molecules, which represent crucial players in the highly complex network that regulates pseudomonal virulence. The tool was developed towards a versatile and user-friendly R package hosted on Bioconductor, whose functionalities and benefits are described in detail. The new findings on the alkylquinolone chemodiversity led to further studies with a mechanistic focus that probed the substrate specificity of the enzyme complex PqsBC. It was demonstrated that PqsBC accepts different medium-chain acyl-coenzyme A substrates for the condensation with 2-aminobenzoylacetate and thereby produces alkylquinolones with various side chain lengths, whose distribution is a function of substrate specificity and substrate availability. Moreover, it was shown that PqsBC also synthesises alkylquinolones with unsaturated side chains. The focus was further broadened from metabolite and pathway-centred questions to a more global perspective on pseudomonal virulence and metabolism, which directed attention at PrmC, an enzyme with a partially unknown function indispensable for in vivo virulence. An untargeted ...