FUNBIOSIS has been involved in several multidisciplinary projects to study microbial interactions, especially bacterial-fungal interactions.
1. Transcription activator-like effectors (TALEs) are a class of protein effectors from plant pathogenic bacteria that directly modify the expression of host plant genes to help bacterial colonisation. We show an unprecedented case where TALEs protect endosymbiotic bacteria from entrapment within fungal hyphae and thus identified a fundamentally new function of this widespread family of effectors. A combination of novel microfluidic devices, fluorescence microscopy, and high-resolution live imaging provided the first real-time snapshot of septa biogenesis in a zygomycete fungus leading to hyphal trapping of endosymbionts incapable of secreting TALEs.
Richter, I., Uzum, Z., Stanley, C.E. Moebius, N., Stinear, T.P. Pidot, S.J. Ferling, I., Hillmann, F., & Hertweck, C. (2020). Secreted TAL effectors protect symbiotic bacteria from entrapment within fungal hyphae. bioRxiv 2020.03.28.013177; doi:
https://doi.org/10.1101/2020.03.28.013177(öffnet in neuem Fenster).
2. The coenzyme F420 is a specialised redox cofactor with a highly negative redox potential. Genome sequencing revealed the presence of F420 biosynthetic genes in B. rhizoxinica. Fluorescence microscopy, high-resolution LC-MS, and structure elucidation by NMR revealed that B. rhizoxinica produces unexpected F420-derivatives (3PG-F420) in symbiosis with its host. Genetic and biochemical studies by the group of Dr. Gerald Lackner at HKI demonstrate that a switch in substrate specificity of the guanylyltransferase CofC is responsible for the biosynthesis of 3PG-F420, suggesting a rerouting event during the evolution of F420 biosynthesis.
Braga, D., Last, D., Hasan, M., Guo, H., Leichnitz, D., Uzum, Z., Richter, I., Schalk, F., Beemelmanns, C., Hertweck, C., & Lackner, G. (2019). Metabolic Pathway Rerouting in Paraburkholderia rhizoxinica Evolved Long-Overlooked Derivatives of Coenzyme F420. ACS Chemical Biology, 14(9), 2088-2094.
3. The group of Prof. Christian Hertweck investigates pathogenic Burkholderia species to discover virulence factors used by these bacteria to infect and eventually kill humans and animals. Unusual cyclopropanol-substituted polyketides were identified in the model organism B. thailandensis. Cell-based assays and a nematode infection model showed that this rare natural product confers cytotoxicity and virulence.
Trottmann, F., Franke, J., Richter, I., Ishida, K., Cyrulies, M., Dahse, H.-M. Regestein, L., & Hertweck, C. (2019). Cyclopropanol Warhead in Malleicyprol Confers Virulence of Human- and Animal-Pathogenic Burkholderia Species. Angewandte Chemie International Edition, 58, 14129.