Project description:In order to study the inhibition mechanism of volatile organic compounds produced by Xenorhabdus bovienii on Fusarium solani (NK-NH1), we selected the inhibited and uninhibited Fusarium solani mycelia for transcriptome sequencing, and tried to find the corresponding inhibition mechanism at the gene level.
Project description:Polyamine moieties have been described as part of the fabclavine and zeamine family of natural products. While the corresponding biosynthetic gene clusters have been found in many different proteobacteria, a unique BGC was identified in the entomopathogenic bacterium Xenorhabdus bovienii. Mass spectrometric analysis of a X. bovienii mutant strain revealed a new deoxy-polyamine. The corresponding biosynthesis includes two additional reductive steps, initiated by an additional dehydratase (DH) domain, which was not found in any other Xenorhabdus strain. Moreover, this DH domain could be successfully integrated into homologous biosynthesis pathways, leading to the formation of other deoxy-polyamines. Additional heterologous production experiments revealed that the DH domain could act in cis as well as in trans.
