6533b834fe1ef96bd129d8c0
RESEARCH PRODUCT
A systems-wide understanding of photosynthetic acclimation in algae and higher plants
Roberto BassiIoannis DikaiosBrieuc UrbainMichel Goldschmidt-clermontOliver EbenhöhAnna MatuszyńskaStephanie SpelbergJulie MaguireKailash AdhikariAdeline Le MonnierDipali SinghStefano MagniGiulio Rocco StellaLucilla TaddeiFederica CaritiClaudia ZabkeFiona Wanjiku MoejesAntonella SuccurroKathrin MüllerGiovanni FinazziMark G. PoolmanValeria VillanovaSerena FloriGuillaume CogneAngela Falciatoresubject
0301 basic medicine[SDV.BIO]Life Sciences [q-bio]/BiotechnologyPhysiologyAcclimatizationContext (language use)PhD traininginterdisciplinary trainingPlant Science: Biochemistry biophysics & molecular biology [F05] [Life sciences]BiologyacclimationPhotosynthesisAcclimatizationModels Biologicalmodelling03 medical and health sciencesAlgaeChlorophytaapplication industrielle[SDV.BV]Life Sciences [q-bio]/Vegetal Biologymathematical modellingPhotosynthesis: Biochimie biophysique & biologie moléculaire [F05] [Sciences du vivant]biodiversitymodélisationmicro-alguePhototrophphotosynthetic systemEcologyNon-photochemical quenchingSystems Biologyacclimatation photosynthétiquephotosynthetic optimisationPlanktonPlantsanalyse rétrospectivebiology.organism_classificationindustrial applicationEuropean Training Network030104 developmental biologyAcclimation; European Training Network; PhD training; biodiversity; interdisciplinary training; mathematical modelling; microalgal cultivation; non-photochemical quenching; photosynthetic optimisationPhotosynthetic acclimationadaptation à la lumièremicroalgal cultivationappareil photosynthétiqueBiochemical engineeringnon-photochemical quenchingdescription
The ability of phototrophs to colonise different environments relies on robust protection against oxidative stress, a critical requirement for the successful evolutionary transition from water to land. Photosynthetic organisms have developed numerous strategies to adapt their photosynthetic apparatus to changing light conditions in order to optimise their photosynthetic yield, which is crucial for life on Earth to exist. Photosynthetic acclimation is an excellent example of the complexity of biological systems, where highly diverse processes, ranging from electron excitation over protein protonation to enzymatic processes coupling ion gradients with biosynthetic activity, interact on drastically different timescales from picoseconds to hours. Efficient functioning of the photosynthetic apparatus and its protection is paramount for efficient downstream processes, including metabolism and growth. Modern experimental techniques can be successfully integrated with theoretical and mathematical models to promote our understanding of underlying mechanisms and principles. This review aims to provide a retrospective analysis of multidisciplinary photosynthetic acclimation research carried out by members of the Marie Curie Initial Training Project, AccliPhot, placing the results in a wider context. The review also highlights the applicability of photosynthetic organisms for industry, particularly with regards to the cultivation of microalgae. It intends to demonstrate how theoretical concepts can successfully complement experimental studies broadening our knowledge of common principles in acclimation processes in photosynthetic organisms, as well as in the field of applied microalgal biotechnology.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-01-01 |