Florian Grundmann scite author profile

Xenorhabdus and Photorhabdus species dedicate a large amount of resources to the production of specialized metabolites derived from non-ribosomal peptide synthetase (NRPS) or polyketide synthase (PKS). Both bacteria undergo symbiosis with nematodes, which is followed by an insect pathogenic phase. So far, the molecular basis of this tripartite relationship and the exact roles that individual metabolites and metabolic pathways play have not been well understood. To close this gap, we have significantly expanded the database for comparative genomics studies in these bacteria. Clustering the genes encoded in the individual genomes into hierarchical orthologous groups reveals a high-resolution picture of functional evolution in this clade. It identifies groups of genes-many of which are involved in secondary metabolite production-that may account for the niche specificity of these bacteria. Photorhabdus and Xenorhabdus appear very similar at the DNA sequence level, which indicates their close evolutionary relationship. Yet, high-resolution mass spectrometry analyses reveal a huge chemical diversity in the two taxa. Molecular network reconstruction identified a large number of previously unidentified metabolite classes, including the xefoampeptides and tilivalline. Here, we apply genomic and metabolomic methods in a complementary manner to identify and elucidate additional classes of natural products. We also highlight the ability to rapidly and simultaneously identify potentially interesting bioactive products from NRPSs and PKSs, thereby augmenting the contribution of molecular biology techniques to the acceleration of natural product discovery.

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Fabclavines: Bioactive Peptide–Polyketide‐Polyamino Hybrids from Xenorhabdus

Fuchs

et al. 2014

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The structure of the fabclavines-unique mixtures of nonribosomally derived peptide-polyketide hybrids connected to an unusual polyamino moiety-has been solved by detailed NMR and MS methods. These compounds have been identified in two different entomopathogenic Xenorhabdus strains, thereby leading also to the identification of the fabclavine biosynthesis gene cluster. Detailed analysis of these clusters and initial mutagenesis experiments allowed the prediction of a biosynthesis pathway in which the polyamino moiety is derived from an unusual type of fatty acid synthase that is normally involved in formation of polyunsaturated fatty acids. As fabclavines show broad-spectrum activity against bacteria, fungi, and other eukaryotic cells, they might act as "protection factors" against all kinds of food competitors during the complex life cycle of Xenorhabdus, its nematode host, and their insect prey.

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Formation of 1,3‐Cyclohexanediones and Resorcinols Catalyzed by a Widely Occuring Ketosynthase

et al. 2013

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Overlooked, but widespread! A new class of ketosynthases (DarB) involved in the biosynthesis of 1,3‐cyclohexanediones and dialkylresorcinols has been identified and characterized in detail. The presence of homologues in 89 different bacteria, including several pathogens, reveals that DarB as well as the corresponding natural products might be widespread, thus presenting a new but so far overlooked pathway to natural products.

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Structure and Biosynthesis of Xenoamicins from Entomopathogenic Xenorhabdus

Zhou

Grundmann

Kaiser

et al. 2013

Chemistry A European J

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During the search for novel natural products from entomopathogenic Xenorhabdus doucetiae DSM17909 and X. mauleonii DSM17908 novel peptides named xenoamicins were identified in addition to the already known antibiotics xenocoumacin and xenorhabdin. Xenoamicins are acylated tridecadepsipeptides consisting of mainly hydrophobic amino acids. The main derivative xenoamicin A (1) was isolated from X. mauleonii DSM17908, and its structure elucidated by detailed 1D and 2D NMR experiments. Detailed MS experiments, also in combination with labeling experiments, confirmed the determined structure and allowed structure elucidation of additional derivatives. Moreover, the xenoamicin biosynthesis gene cluster was identified and analyzed in X. doucetiae DSM17909, and its participation in xenoamicin biosynthesis was confirmed by mutagenesis. Advanced Marfey's analysis of 1 showed that the absolute configuration of the amino acids is in agreement with the predicted stereochemistry deduced from the nonribosomal peptide synthetase XabABCD. Biological testing revealed activity of 1 against Plasmodium falciparum and other neglected tropical diseases but no antibacterial activity.

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