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- Title
The back and forth of energy transfer between carotenoids and chlorophylls and its role in the regulation of light harvesting.
- Authors
Holleboom, Christoph-Peter; Walla, Peter
- Abstract
Many aspects in the regulation of photosynthetic light-harvesting of plants are still quite poorly understood. For example, it is still a matter of debate which physical mechanism(s) results in the regulation and dissipation of excess energy in high light. Many researchers agree that electronic interactions between chlorophylls (Chl) and certain states of carotenoids are involved in these mechanisms. However, in particular, the role of the first excited state of carotenoids (Car S) is not easily revealed, because of its optical forbidden character. The use of two-photon excitation is an elegant approach to address directly this state and to investigate the energy transfer in the direction Car S → Chl. Meanwhile, it has been applied to a large variety of systems starting from simple carotenoid-tetrapyrrole model compounds up to entire plants. Here, we present a systematic summary of the observations obtained by two-photon excitation about Car S → Chl energy transfer in systems with increasing complexity and the correlation to fluorescence quenching. We compare these observations directly with the energy transfer in the opposite direction, Chl → Car S, for the same systems as obtained in pump-probe studies. We discuss what surprising aspects of this comparison led us to the suggestion that quenching excitonic Car-Chl interactions could contribute to the regulation of light harvesting, and how this suggestion can be connected to other models proposed.
- Subjects
ENERGY transfer; CAROTENOIDS; CHLOROPHYLL; PHOTOSYNTHESIS; ELECTRONS; ENERGY storage
- Publication
Photosynthesis Research, 2014, Vol 119, Issue 1/2, p215
- ISSN
0166-8595
- Publication type
Article
- DOI
10.1007/s11120-013-9815-4