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He is interested into how both host-microbe and microbe-microbe interactions impact microbial community structure and plant health.
In the Multitrophic Plant-Microbe Interactions group, we aim at understanding the fundamental mechanisms that underlie the structure and the functions of multi-kingdom microbial consortia colonizing plant roots. By combining microbial community profiling data from natural A. thaliana populations, with the use of reference microbial culture collections and gnotobiotic plant systems, we dissect how both host-microbe and microbe-microbe interactions impact microbial community structure and plant health. We also generate extensive microbial genome data that serve as key resources to identify the genetic determinants of microbial adaptation to plant roots and to interpret metatranscriptomic profiles of synthetic microbial consortia. More recently, we also focused on the fascinating, yet overlooked circuits that connect root microbiota composition belowground with aboveground leaf development. We aim to identify conserved strategies used by distantly related plant species for long-distance communication with root microbes and to design synthetic microbial communities that promote resistance to multiple aboveground stresses. Our projects involve the use of tractable microbial communities, cutting-edge metabolome, microbiome and grafting techniques, as well as genetic engineering methods and advanced gnotobiotic plant growth systems to mechanistically understand and engineer plant microbiota functions.
In the Multitrophic Plant-Microbe Interactions group, we aim at understanding the fundamental mechanisms that underlie the structure and the functions of multi-kingdom microbial consortia colonizing plant roots. By combining microbial community profiling data from natural A. thaliana populations, with the use of reference microbial culture collections and gnotobiotic plant systems, we dissect how both host-microbe and microbe-microbe interactions impact microbial community structure and plant health. We also generate extensive microbial genome data that serve as key resources to identify the genetic determinants of microbial adaptation to plant roots and to interpret metatranscriptomic profiles of synthetic microbial consortia. More recently, we also focused on the fascinating, yet overlooked circuits that connect root microbiota composition belowground with aboveground leaf development. We aim to identify conserved strategies used by distantly related plant species for long-distance communication with root microbes and to design synthetic microbial communities that promote resistance to multiple aboveground stresses. Our projects involve the use of tractable microbial communities, cutting-edge metabolome, microbiome and grafting techniques, as well as genetic engineering methods and advanced gnotobiotic plant growth systems to mechanistically understand and engineer plant microbiota functions.
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Felix Getzke,Lei Wang, Guillaume Chesneau,Nils Böhringer,Fantin Mesny, Nienke Denissen, Hidde Wesseler, Priscilla Tijesuni Adisa, Michael Marner,Paul Schulze-Lefert, Till F Schäberle,Stéphane Hacquard
Nature communicationsno. 1 (2024): 4438-4438
NEW PHYTOLOGISTno. 1 (2024): 329-342
Nathan Vannier,Fantin Mesny, Felix Getzke, Guillaume Chesneau, Laura Dethier,Jana Ordon,Thorsten Thiergart,Stéphane Hacquard
Felix Getzke,M. Amine Hassani,Max Cruesemann, Milena Malisic,Pengfan Zhang, Yuji Ishigaki,Nils Boehringer,Alicia Jimenez Fernandez, Lei Wang,Jana Ordon, Ka-Wai Ma, Thorsten Thiergart,
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICAno. 15 (2023): e2221508120-e2221508120
EMBO reportsno. 9 (2023)
user-5f3206704c775e3a7964bd8b(2022)
New Phytologistno. 2 (2022): 608-621
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