The crane fly glycosylated triketide delta-lactone cornicinine elicits akinete differentiation of the cyanobiont in aquatic Azolla fern symbioses

Güngör E, Savary J, Adema K, Dijkhuizen LW, Keilwagen J, Himmelbach A, Mascher M, Koppers N, Bräutigam A, Van Hove C, Riant O, et al. (2024)
Plant, Cell and Environment .

Zeitschriftenaufsatz | E-Veröff. vor dem Druck | Englisch
 
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Autor*in
Güngör, Erbil; Savary, Jerome; Adema, Kelvin; Dijkhuizen, Laura W; Keilwagen, Jens; Himmelbach, Axel; Mascher, Martin; Koppers, Nils; Bräutigam, AndreaUniBi ; Van Hove, Charles; Riant, Olivier; Nierzwicki-Bauer, Sandra
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Abstract / Bemerkung
The restriction of plant-symbiont dinitrogen fixation by an insect semiochemical had not been previously described. Here we report on a glycosylated triketide delta-lactone from Nephrotoma cornicina crane flies, cornicinine, that causes chlorosis in the floating-fern symbioses from the genus Azolla. Only the glycosylated trans-A form of chemically synthesized cornicinine was active: 500nM cornicinine in the growth medium turned all cyanobacterial filaments from Nostoc azollae inside the host leaf-cavities into akinetes typically secretingCTB-bacteriocins. Cornicinine further inhibited akinete germination in Azolla sporelings, precluding re-establishment of the symbiosis during sexual reproduction. It did not impact development of the plant Arabidopsis thaliana or several free-living cyanobacteria from the genera Anabaena or Nostoc but affected the fern host without cyanobiont. Fern-host mRNA sequencing from isolated leaf cavities confirmed high NH4-assimilation and proanthocyanidin biosynthesis in this trichome-rich tissue. After cornicinine treatment, it revealed activation of Cullin-RING ubiquitin-ligase-pathways, known to mediate metabolite signaling and plant elicitation consistent with the chlorosis phenotype, and increased JA-oxidase, sulfate transport and exosome formation. The work begins to uncover molecular mechanisms of cyanobiont differentiation in a seed-free plant symbiosis important for wetland ecology or circular crop-production today, that once caused massive CO2 draw-down during the Eocene geological past. © 2024 John Wiley & Sons Ltd.
Erscheinungsjahr
2024
Zeitschriftentitel
Plant, Cell and Environment
eISSN
1365-3040
Page URI
https://pub.uni-bielefeld.de/record/2988651

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Güngör E, Savary J, Adema K, et al. The crane fly glycosylated triketide delta-lactone cornicinine elicits akinete differentiation of the cyanobiont in aquatic Azolla fern symbioses. Plant, Cell and Environment . 2024.
Güngör, E., Savary, J., Adema, K., Dijkhuizen, L. W., Keilwagen, J., Himmelbach, A., Mascher, M., et al. (2024). The crane fly glycosylated triketide delta-lactone cornicinine elicits akinete differentiation of the cyanobiont in aquatic Azolla fern symbioses. Plant, Cell and Environment . https://doi.org/10.1111/pce.14907
Güngör, Erbil, Savary, Jerome, Adema, Kelvin, Dijkhuizen, Laura W, Keilwagen, Jens, Himmelbach, Axel, Mascher, Martin, et al. 2024. “The crane fly glycosylated triketide delta-lactone cornicinine elicits akinete differentiation of the cyanobiont in aquatic Azolla fern symbioses”. Plant, Cell and Environment .
Güngör, E., Savary, J., Adema, K., Dijkhuizen, L. W., Keilwagen, J., Himmelbach, A., Mascher, M., Koppers, N., Bräutigam, A., Van Hove, C., et al. (2024). The crane fly glycosylated triketide delta-lactone cornicinine elicits akinete differentiation of the cyanobiont in aquatic Azolla fern symbioses. Plant, Cell and Environment .
Güngör, E., et al., 2024. The crane fly glycosylated triketide delta-lactone cornicinine elicits akinete differentiation of the cyanobiont in aquatic Azolla fern symbioses. Plant, Cell and Environment .
E. Güngör, et al., “The crane fly glycosylated triketide delta-lactone cornicinine elicits akinete differentiation of the cyanobiont in aquatic Azolla fern symbioses”, Plant, Cell and Environment , 2024.
Güngör, E., Savary, J., Adema, K., Dijkhuizen, L.W., Keilwagen, J., Himmelbach, A., Mascher, M., Koppers, N., Bräutigam, A., Van Hove, C., Riant, O., Nierzwicki-Bauer, S., Schluepmann, H.: The crane fly glycosylated triketide delta-lactone cornicinine elicits akinete differentiation of the cyanobiont in aquatic Azolla fern symbioses. Plant, Cell and Environment . (2024).
Güngör, Erbil, Savary, Jerome, Adema, Kelvin, Dijkhuizen, Laura W, Keilwagen, Jens, Himmelbach, Axel, Mascher, Martin, Koppers, Nils, Bräutigam, Andrea, Van Hove, Charles, Riant, Olivier, Nierzwicki-Bauer, Sandra, and Schluepmann, Henriette. “The crane fly glycosylated triketide delta-lactone cornicinine elicits akinete differentiation of the cyanobiont in aquatic Azolla fern symbioses”. Plant, Cell and Environment (2024).

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