Photoinduced transformation of UVR8 monitored by vibrational and fluorescence spectroscopy
Author:
Affiliation:
1. Institute of Molecular
2. Cell and Systems Biology
3. College of Medical
4. Veterinary and Life Sciences
5. Glasgow G12 8QQ
6. Biophysics Group
7. Department of Physics and Astronomy
8. Faculty of Sciences
9. Vrije Universiteit
10. Amsterdam
Abstract
The plant photoreceptor UVR8 uses tryptophan side chains to absorb UV-B radiation to induce photoprotective responses via a so far unknown molecular signaling mechanism. We investigated structural transformations and quantum efficiency of UVR8 photoactivation by vibrational and fluorescence spectroscopy.
Funder
Leverhulme Trust
Foundation for Fundamental Research on Matter
Publisher
Springer Science and Business Media LLC
Subject
Physical and Theoretical Chemistry
Link
http://pubs.rsc.org/en/content/articlepdf/2015/PP/C4PP00246F
Reference21 articles.
1. K. Tilbrook , A. B.Arongaus, M.Binkert, M.Heijde, R.Yin and R.Ulm, The Arabidopsis book/American Society of Plant Biologists, 2013, vol. 11, p. e0164
2. The UV-B Photoreceptor UVR8: From Structure to Physiology
3. Plant UVR8 Photoreceptor Senses UV-B by Tryptophan-Mediated Disruption of Cross-Dimer Salt Bridges
4. Structural basis of ultraviolet-B perception by UVR8
5. Perception of UV-B by the Arabidopsis UVR8 Protein
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