Host Tree and Geography Induce Metabolic Shifts in the Epiphytic Liverwort Radula complanata .
Kaitlyn L Blatt-JanmaatSteffen NeumannJörg ZieglerKristian PetersPublished in: Plants (Basel, Switzerland) (2023)
Bryophytes are prolific producers of unique, specialized metabolites that are not found in other plants. As many of these unique natural products are potentially interesting, for example, pharmacological use, variations in the production regarding ecological or environmental conditions have not often been investigated. Here, we investigate metabolic shifts in the epiphytic Radula complanata L. (Dumort) with regard to different environmental conditions and the type of phorophyte (host tree). Plant material was harvested from three different locations in Sweden, Germany, and Canada and subjected to untargeted liquid chromatography high-resolution mass-spectrometry (UPLC/ESI-QTOF-MS) and data-dependent acquisition (DDA-MS). Using multivariate statistics, variable selection methods, in silico compound identification, and compound classification, a large amount of variation (39%) in the metabolite profiles was attributed to the type of host tree and 25% to differences in environmental conditions. We identified 55 compounds to vary significantly depending on the host tree (36 on the family level) and 23 compounds to characterize R. complanata in different environments. Taken together, we found metabolic shifts mainly in primary metabolites that were associated with the drought response to different humidity levels. The metabolic shifts were highly specific to the host tree, including mostly specialized metabolites suggesting high levels of ecological interaction. As R. complanata is a widely distributed generalist species, we found it to flexibly adapt its metabolome according to different conditions. We found metabolic composition to also mirror the constitution of the habitat, which makes it interesting for conservation measures.
Keyphrases
- ms ms
- liquid chromatography
- high resolution mass spectrometry
- mass spectrometry
- climate change
- human health
- multiple sclerosis
- ultra high performance liquid chromatography
- tandem mass spectrometry
- palliative care
- risk assessment
- simultaneous determination
- molecular docking
- life cycle
- high resolution
- data analysis
- big data
- single molecule