M
Mathias Pribil
Researcher at University of Copenhagen
Publications - 49
Citations - 2892
Mathias Pribil is an academic researcher from University of Copenhagen. The author has contributed to research in topics: Thylakoid & Chloroplast. The author has an hindex of 23, co-authored 42 publications receiving 2309 citations. Previous affiliations of Mathias Pribil include Ludwig Maximilian University of Munich.
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Journal ArticleDOI
PGRL1 Is the Elusive Ferredoxin-Plastoquinone Reductase in Photosynthetic Cyclic Electron Flow
Alexander Hertle,Thomas Blunder,Tobias Wunder,Paolo Pesaresi,Mathias Pribil,Ute Armbruster,Dario Leister +6 more
TL;DR: It is shown that PGRL1 accepts electrons from ferredoxin in a PGR5-dependent manner and reduces quinones in an AA-sensitive fashion and is proposed to be the elusive ferred toxin-plastoquinone reductase (FQR).
Journal ArticleDOI
Role of plastid protein phosphatase TAP38 in LHCII dephosphorylation and thylakoid electron flow.
TL;DR: Regulation of photosynthesis efficiency involves reversible phosphorylation of the light-harvesting complex through the activity of the newly identified phosphatase TAP38.
Journal ArticleDOI
Arabidopsis STN7 Kinase Provides a Link between Short- and Long-Term Photosynthetic Acclimation
Paolo Pesaresi,Alexander Hertle,Mathias Pribil,Tatjana Kleine,Raik Wagner,Henning Strissel,Anna Ihnatowicz,Vera Bonardi,Michael Scharfenberg,Anja Schneider,Thomas Pfannschmidt,Dario Leister +11 more
TL;DR: The data imply that STN7-dependent phosphorylation of an as yet unknown thylakoid protein triggers LTR signaling events, whereby an involvement of the TSP9 protein in the signaling pathway could be excluded.
Journal ArticleDOI
Structure and dynamics of thylakoids in land plants
TL;DR: An update on the roles of lipids, proteins, and protein complexes, as well as possible trafficking mechanisms, during thylakoid biogenesis and the de-etiolation process complements this review.
Journal ArticleDOI
The Impacts of Phosphorus Deficiency on the Photosynthetic Electron Transport Chain.
Andreas Carstensen,Andrei Herdean,Sidsel Birkelund Schmidt,Anurag Sharma,Cornelia Spetea,Mathias Pribil,Søren Husted +6 more
TL;DR: A comprehensive biological model is presented describing how P deficiency disrupts the photosynthetic machinery and the electron transport chain through a series of sequential events in barley, showing that plants can be severely affected by P deficiency for weeks without displaying any visual leaf symptoms.