AbstractUpon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leakage. Similarly, these sugars protect membrane proteins from inactivation during dehydration. We studied the interactions between sugars and phospholipid membranes in giant unilamellar vesicles with the fluorescent lipid analog 3,3′-dioctadecyloxacarbocyanine perchlorate incorporated. Using fluorescence correlation spectroscopy, it was found that sucrose decreased the lateral mobility of phospholipids in the fully rehydrated, liquid crystalline membrane more than other sugars did, including trehalose. To describe the nature of the difference in the interaction of phospholipids with sucrose and trehalose, atomistic molecular dynamics st...
AbstractDisaccharides such as sucrose and trehalose play an important role in stabilizing cellular s...
Understanding sugar lipid interactions during desiccation and freezing is an important step in the e...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
ABSTRACT Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
AbstractDisaccharides such as sucrose and trehalose play an important role in stabilizing cellular s...
Understanding sugar lipid interactions during desiccation and freezing is an important step in the e...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
ABSTRACT Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Upon cold and drought stress, sucrose and trehalose protect membrane structures from fusion and leak...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...
AbstractDisaccharides such as sucrose and trehalose play an important role in stabilizing cellular s...
Understanding sugar lipid interactions during desiccation and freezing is an important step in the e...
Disaccharides are well known for their membrane protective ability. Interaction between sugars and m...