AbstractThe thylakoid membrane is mainly composed of non-common lipids, so called galactolipids. Despite the importance of these lipids for the function of the photosynthetic reaction centers, the molecular organization of these membranes is largely unexplored. Here we use multiscale molecular dynamics simulations to characterize the thylakoid membrane of both cyanobacteria and higher plants. We consider mixtures of up to five different galactolipids plus phosphatidylglycerol to represent these complex membranes. We find that the different lipids generally mix well, although nanoscale heterogeneities are observed especially in case of the plant membrane. The fluidity of the cyanobacterial membrane is markedly reduced compared to the plant m...
AbstractThe aggregation and segregation of photosystems in higher plant thylakoid membranes as strom...
Thylakoid membranes are energy-converting membranes with a unique lipid composition. Though the memb...
Carbohydrate molecules are essential parts of living cells. They are used as energy storage and sign...
The thylakoid membrane is mainly composed of non-common lipids, so called galactolipids. Despite the...
AbstractThe thylakoid membrane is mainly composed of non-common lipids, so called galactolipids. Des...
Thylakoid membranes are energy-converting membranes with a unique lipid composition. Though the memb...
The thylakoid membrane is in a temperature-sensitive equilibrium that shifts repeatedly during the l...
Photosystem II (PSII) is one of the key protein complexes in photosynthesis. We introduce a coarse g...
International audiencePhotosynthetic membranes, or thylakoids, are the most extensive membrane syste...
The thylakoid membrane has a unique lipid composition, consisting mostly of galactolipids. These thy...
International audienceThylakoid membranes, the universal structure where photosynthesis takes place ...
Plant light-harvesting complex II (LHCII) is the key antenna complex for plant photosynthesis. We pr...
AbstractThe distribution of the two photosystems, PSI and PSII, in grana and stroma lamellae of the ...
AbstractThe aggregation and segregation of photosystems in higher plant thylakoid membranes as strom...
Thylakoid membranes are energy-converting membranes with a unique lipid composition. Though the memb...
Carbohydrate molecules are essential parts of living cells. They are used as energy storage and sign...
The thylakoid membrane is mainly composed of non-common lipids, so called galactolipids. Despite the...
AbstractThe thylakoid membrane is mainly composed of non-common lipids, so called galactolipids. Des...
Thylakoid membranes are energy-converting membranes with a unique lipid composition. Though the memb...
The thylakoid membrane is in a temperature-sensitive equilibrium that shifts repeatedly during the l...
Photosystem II (PSII) is one of the key protein complexes in photosynthesis. We introduce a coarse g...
International audiencePhotosynthetic membranes, or thylakoids, are the most extensive membrane syste...
The thylakoid membrane has a unique lipid composition, consisting mostly of galactolipids. These thy...
International audienceThylakoid membranes, the universal structure where photosynthesis takes place ...
Plant light-harvesting complex II (LHCII) is the key antenna complex for plant photosynthesis. We pr...
AbstractThe distribution of the two photosystems, PSI and PSII, in grana and stroma lamellae of the ...
AbstractThe aggregation and segregation of photosystems in higher plant thylakoid membranes as strom...
Thylakoid membranes are energy-converting membranes with a unique lipid composition. Though the memb...
Carbohydrate molecules are essential parts of living cells. They are used as energy storage and sign...