Project Details
Projekt
SPP 2125: Deconstruction and Reconstruction of the Plant Microbiota "DECRyPT"
Subject Area
Biology
Agriculture, Forestry and Veterinary Medicine
Medicine
Agriculture, Forestry and Veterinary Medicine
Medicine
Term
since 2018
Website
Homepage
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 360002565
The central scientific objectives of this priority programme (SPP) are to obtain deep and potentially predictive insights into plant-microbiota associations and to develop pioneering reductionist approaches towards a molecular understanding of plant microbiota functions. This SPP will elucidate genetic factors underlying plant microbiota establishment, test presumed community adaptation in ecological contexts and define community-associated emergent properties. Computational and genomic tools will guide hypothesis-testing and the design of microbiota reconstitution experiments in controlled environments.
DFG Programme
Priority Programmes
International Connection
Netherlands, Switzerland
Projects
- A drought tolerant synthetic bacterial community for barley (Applicant Tarkka, Mika )
- Accurate and high-resolution classification of synthetic and natural community amplicon data (Applicant Garrido-Oter, Ruben )
- Bacterial genetic determinants preventing fungal dysbiosis in Arabidopsis roots (Applicant Hacquard, Ph.D., Stephane )
- Cell-surface immune sensors – guards of plant microbiota (Applicant Ranf-Zipproth, Stefanie )
- Characterization of microbe-microbe, microbe-plant, and plant-plant interactions in the phyllosphere and their influence on microbiome function (Applicant Vlot-Schuster, A. Corina )
- Characterization of PEROXIDASE5 as a novel regulator of plant growth-defense responses via differential microbiota-dependent interference with ROS homeostasis (Applicant Schulze-Lefert, Paul )
- Characterization of the molecular mechanism underpinning local and systemic responses in root-microbe multispecies interactions (Applicants Tissier, Alain ; Zuccaro, Alga )
- Conservation of immunosuppression by Xanthomonadales commensals in Arabidopsis roots (Applicant Schulze-Lefert, Paul )
- Coordination Funds (Applicant Zuccaro, Alga )
- Ecology of the core microbiome in natural Lotus corniculatus populations (Applicants Bossdorf, Oliver ; Kemen, Eric )
- Effects of other microbes and the host on the interaction and ecological function of Pseudomonas and Sphingomonas isolates with plants (Applicants Bossdorf, Oliver ; Weigel, Ph.D., Detlef )
- Exploring the genetic dialogue between Arabidopsis immunity and root endophyte accommodation programs (Applicant Parker, Jane E. )
- Functions of T3SS-containing Proteobacteria and plant innate immunity in root microbiota establishment (Applicant Schulze-Lefert, Paul )
- Genetics of bacterial community response to plant metabolites and consequences for plant growth (Applicants Becker, Claude ; Schandry, Niklas )
- Identifying the role of nodule endophytes in shaping nitrogen fixation effectiveness (Applicant Marin, Macarena )
- Investigating the molecular interplay between plant immunity and the leaf microbiota (Applicant Vorholt, Julia )
- Mechanisms and dynamics underlying host preference of commensal root-associated bacteria (Applicant Wippel, Kathrin )
- Mechanisms of basidiomycete yeast function in complex leaf microbial communities (Applicants Döhlemann, Gunther ; Kemen, Eric )
- -MetaLoMic 2.0- Deciphering the mechanistic impact of secondary plant metabolites on microbiome-host interactions in Lotus japonicus (Applicants Dawid, Corinna ; Gutjahr, Caroline ; Parniske, Martin ; Schloter, Michael )
- Molecular basis of plant microbiota function and its regulation by plant immunity (Applicant Schulze-Lefert, Paul )
- Molecular basis of the relationship between microbiota and the plant’s immune system (Applicant Robatzek, Silke )
- Molecular mechanisms underlying the microbiota-influenced host growth-defense coordination (Applicant Nakano, Ryohei Thomas )
- Role of camalexin and sulfur nutrition in microbial assembly (Applicant Kopriva, Stanislav )
- Symbiosis-dependent microbiome patterning in Lotus japonicus roots (Applicant Ott, Thomas )
- The impact of plant secondary metabolites on the soil microbiota (MICROSEC) (Applicant Dörmann, Peter )
Spokesperson
Professorin Dr. Alga Zuccaro
