Publications

The rice seedling blight fungus Rhizopus microsporus weakens or kills plants by means of a potent toxin produced by endobacteria (Burkholderia rhizoxinica) that live within the fungal hyphae. The success … of the highly attuned microbial interaction is partly based on the bacteria ’ s ability to roam and re-colonize the fungal host. Yet, apart from the toxin, chemical mediators of the symbiosis have remained elusive. By genome mining and comparison we identi fi ed a cryptic NRPS gene cluster that is conserved among all sequenced Rhizopus endosymbionts. Metabolic pro fi ling and targeted gene inactivation led to the discov- ery of a novel linear lipopeptide, holrhizin A, which was fully characterized. Through in vitro and in vivo assays we found that holrhizin acts (A) as a biosurfactant to reduce surface tension, (B) in fl uences the for- mation of mature bio fi lms and thus cell motility behavior that ultimately supports the bacterial cells to (C) colonize and invade the fungal host, consequently supporting the re-establishment of the exceptional Burkholderia-Rhizopus symbiosis. We not only unveil structure and function of an linear lipopeptide from endofungal bacteria but also provide a functional link between the symbiont’ s orphan NRPS genes and a chemical mediator that promotes bacterial invasion into the fungal host.