A synchronized, large‐scale field experiment using <i>Arabidopsis thaliana</i> reveals the significance of the UV‐B photoreceptor UVR8 under natural conditions-Reference-Cited by-同舟云学术

A synchronized, large‐scale field experiment using Arabidopsis thaliana reveals the significance of the UV‐B photoreceptor UVR8 under natural conditions

Published:2024-06-16 Issue:10 Volume:47 Page:4031-4047
ISSN:0140-7791
Container-title:Plant, Cell & Environment
language:en
Short-container-title:Plant Cell & Environment

Author:

Neugart Susanne¹,Steininger Viktoria²,Fernandes Catarina²,Martínez‐Abaigar Javier³^ORCID,Núñez‐Olivera Encarnación³,Schreiner Monika⁴,Strid Åke⁵^ORCID,Viczián András⁶,Albert Andreas⁷,Badenes‐Pérez Francisco R.⁸,Castagna Antonella⁹,Dáder Beatriz¹⁰,Fereres Alberto⁸,Gaberscik Alenka¹¹,Gulyás Ágnes¹²,Gwynn‐Jones Dylan¹³^ORCID,Nagy Ferenc⁶,Jones Alan¹⁴¹⁵^ORCID,Julkunen‐Tiitto Riitta¹⁶,Konstantinova Nataliia²,Lakkala Kaisa¹⁷,Llorens Laura¹⁸,Martínez‐Lüscher Johann¹⁹,Nybakken Line²⁰,Olsen Jorunn²¹,Pascual Inmaculada¹⁹,Ranieri Annamaria⁹,Regier Nicole²²,Robson Matthew²³²⁴^ORCID,Rosenqvist Eva²⁵,Santin Marco⁹,Turunen Minna²⁶,Vandenbussche Filip²⁷,Verdaguer Dolors¹⁸,Winkler Barbro⁷^ORCID,Witzel Katja⁴^ORCID,Grifoni Daniele²⁸²⁹^ORCID,Zipoli Gaetano³⁰,Hideg Éva³¹^ORCID,Jansen Marcel A. K.³²^ORCID,Hauser Marie‐Theres²

Affiliation:

1. Division Quality and Sensory of Plant Products Georg‐August‐Universität Göttingen Göttingen Germany

2. Department of Applied Genetics & Cell Biology University of Natural Resources & Life Sciences Vienna Austria

3. Faculty of Science and Technology University of La Rioja Logrono Spain

4. Leibniz Institute of Vegetable and Ornamental Crops Großbeeren Germany

5. Department of Natural Sciences, School of Science and Technology Örebro University Örebro Sweden

6. Institute of Plant Biology, HUN‐REN Biological Research Centre Szeged Hungary

7. Research Unit Environmental Simulation Helmholtz Zentrum München Neuherberg Germany

8. Institute of Agricultural Sciences Spanish Council for Scientific Research Madrid Spain

9. Department of Agriculture, Food and Environment University of Pisa Pisa Italy

10. Department of Agricultural Production, ETSIAAB Universidad Politécnica de Madrid Madrid Spain

11. Department of Biology University of Ljubljana Ljubljana Slovenia

12. Department of Climatology and Landscape Ecology University of Szeged Szeged Hungary

13. Department of Life Sciences Aberystwyth University Aberystwyth UK

14. Earthwatch Europe Oxford UK

15. Scion, New Zealand Forest Research Institute Rotorua New Zealand

16. University of Eastern Finland Joensuu Finland

17. Finnish Meteorological Institute – Space and Earth Observation Centre Sodankylä Finland

18. Department of Environmental Sciences University of Girona Girona Spain

19. Plant Stress Physiology group (Associated Unit to EEAD, CSIC), BIOMA Institute for Biodiversity and the Environment University of Navarra Pamplona Spain

20. Faculty of Environmental Sciences and Natural Resource Management Norwegian University of Life Sciences Ås Norway

21. Department of Plant Sciences Norwegian University of Life Sciences Ås Norway

22. Earth and Environment Sciences, Forel Institute Geneva University Geneva Switzerland

23. Organismal & Evolutionary Biology (OEB), Viikki Plant Science Centre (ViPS), Faculty of Biological & Environmental Sciences University of Helsinki Helsinki Finland

24. National School of Forestry University of Cumbria Ambleside UK

25. Institute of Plant and Environmental Sciences, Crop Science University of Copenhagen Tåstrup Denmark

26. Arctic Centre University of Lapland Rovaniemi Finland

27. Department of Physiology Ghent University Ghent Belgium

28. National Research Council Institute of Bioeconomy Sesto Fiorentino Italy

29. Laboratory of Monitoring and Environmental Modelling for the Sustainable Development (LaMMA Consortium) Sesto Fiorentino Italy

30. National Research Council Institute for Biometeorology Sesto Fiorentino Italy

31. Department of Plant Biology, Faculty of Sciences University of Pécs Pécs Hungary

32. Environmental Research Institute, School of Biological, Earth, and Environmental Sciences University College Cork Cork Ireland

Abstract

AbstractThis study determines the functional role of the plant ultraviolet‐B radiation (UV‐B) photoreceptor, UV RESISTANCE LOCUS 8 (UVR8) under natural conditions using a large‐scale ‘synchronized‐genetic‐perturbation‐field‐experiment’. Laboratory experiments have demonstrated a role for UVR8 in UV‐B responses but do not reflect the complexity of outdoor conditions where ‘genotype × environment’ interactions can mask laboratory‐observed responses. Arabidopsis thaliana knockout mutant, uvr8‐7, and the corresponding Wassilewskija wild type, were sown outdoors on the same date at 21 locations across Europe, ranging from 39°N to 67°N latitude. Growth and climatic data were monitored until bolting. At the onset of bolting, rosette size, dry weight, and phenolics and glucosinolates were quantified. The uvr8‐7 mutant developed a larger rosette and contained less kaempferol glycosides, quercetin glycosides and hydroxycinnamic acid derivatives than the wild type across all locations, demonstrating a role for UVR8 under field conditions. UV effects on rosette size and kaempferol glycoside content were UVR8 dependent, but independent of latitude. In contrast, differences between wild type and uvr8‐7 in total quercetin glycosides, and the quercetin‐to‐kaempferol ratio decreased with increasing latitude, that is, a more variable UV response. Thus, the large‐scale synchronized approach applied demonstrates a location‐dependent functional role of UVR8 under natural conditions.

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/pce.15008

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