Characterization of the responses to saline stress in the symbiotic green microalga Trebouxia sp. TR9

Although tolerance to saline conditions has been thoroughly studied in plants and, to an extent, free-living microalgae, scientific data regarding salt stress on symbiotic lichen microalgae is scarce to non-existent. Since lichen phycobionts are capable of enduring harsh, restrictive and rapidly cha...

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Bibliographic Details
Published in:Planta 2018-12, Vol.248 (6), p.1473-1486
Main Authors: Hinojosa-Vidal, Ernesto, Marco, Francisco, Martínez-Alberola, Fernando, Escaray, Francisco J., García-Breijo, Francisco J., Reig-Armiñana, José, Carrasco, Pedro, Barreno, Eva
Format: Article
Language:English
Subjects:
Abiotic stress
Abscisic Acid - metabolism
Agriculture
Algae
Aquatic plants
Ascomycota - genetics
Ascomycota - physiology
Ascomycota - ultrastructure
Biomedical and Life Sciences
Cellular structure
Changing environments
Chlorophyll
Chlorophyta - genetics
Chlorophyta - microbiology
Chlorophyta - physiology
Chlorophyta - ultrastructure
Ecology
Environmental changes
Forestry
Gene expression
Lichens
Lichens - genetics
Lichens - microbiology
Lichens - physiology
Lichens - ultrastructure
Life Sciences
Microalgae
Microalgae - genetics
Microalgae - microbiology
Microalgae - physiology
Microalgae - ultrastructure
ORIGINAL ARTICLE
Photosynthesis
Photosynthesis - drug effects
Phycobionts
Physiological effects
Plant Growth Regulators - metabolism
Plant Sciences
Saline environments
Salinity
Salt
Salts
Sodium chloride
Sodium Chloride - pharmacology
Stress, Physiological
Stresses
Symbiosis
Trebouxia
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Summary:Although tolerance to saline conditions has been thoroughly studied in plants and, to an extent, free-living microalgae, scientific data regarding salt stress on symbiotic lichen microalgae is scarce to non-existent. Since lichen phycobionts are capable of enduring harsh, restrictive and rapidly changing environments, it is interesting to study the metabolic machinery operating under these extreme conditions. We aim to determine the effects of prolonged exposure to high salt concentrations on the symbiotic phycobiont Trebouxia sp. TR9, isolated from the lichen Ramalina farinacea. Our results suggest that, when this alga is confronted with extreme saline conditions, the cellular structures are affected to an extent, with limited chlorophyll content loss and photosynthetic activity remaining after 72 h of exposure to 5 M NaCl. Furthermore, this organism displays a rather different molecular response compared to land plants and free-living halophile microalgae, with no noticeable increase in ABA levels and ABA-related gene expression until the external NaCl concentration is raised to 3 M NaCl. Despite this, the ABA transduction pathway seems functional, since the ABA-related genes tested are responsive to exogenous ABA. These observations could suggest that this symbiotic green alga may have developed alternative molecular pathways to cope with highly saline environments.
ISSN:0032-0935
1432-2048
DOI:10.1007/s00425-018-2993-8