AbstractMembrane incorporation and aggregation of the peptide alamethicin have been investigated as a function of lipid type. Head group and acyl chain regions both contribute to modulate alamethicin incorporation. Specifically, the peptide prefers thin membranes and saturated chains; incorporation is reduced by the presence of cholesterol. Aggregation of the peptide in the bilayer is virtually insensitive to changes in lipid composition. These findings show some analogies to results obtained with intrinsic membrane proteins and cast doubt on the use of global membrane parameters for interpreting lipid-peptide interactions
A variety of amphiphilic helical peptides have been shown to exhibit a transition from adsorbing par...
ABSTRACT Some membrane peptides, such as Alamethicin, form barrel-stave aggregates with a broad prob...
AbstractWe review the fundamental strategies used by small peptides to associate with lipid membrane...
AbstractMembrane incorporation and aggregation of the peptide alamethicin have been investigated as ...
Alamethicin is a transmembrane ion channel at low concentration, and a lytic agent of cell membrane ...
Alamethicin is a well-studied channel-forming peptide that has a prototypical amphipathic helix stru...
Alamethicin and several related microbial polypeptides, which contain a high proportion of α-am...
Cell membranes are complex mixtures of lipids, proteins, and other molecules that serve as active, s...
The interactions of the membrane-active peptides alamethicin and protegrin with lipid bilayers are s...
AbstractThe transition of the state of alamethicin from its inactive state to its active state of po...
The main focus of this thesis is on the effects caused by α-helical peptides on liposome structure, ...
AbstractSome membrane peptides, such as Alamethicin, form barrel-stave aggregates with a broad proba...
The interactions between peptides and lipids are of fundamental importance in the functioning of num...
The involvement of membrane-bound peptides and the influence of protein conformations in several ne...
Alamethicin (Alm) is one of the most extensively studied membrane-active antibiotic peptides, but se...
A variety of amphiphilic helical peptides have been shown to exhibit a transition from adsorbing par...
ABSTRACT Some membrane peptides, such as Alamethicin, form barrel-stave aggregates with a broad prob...
AbstractWe review the fundamental strategies used by small peptides to associate with lipid membrane...
AbstractMembrane incorporation and aggregation of the peptide alamethicin have been investigated as ...
Alamethicin is a transmembrane ion channel at low concentration, and a lytic agent of cell membrane ...
Alamethicin is a well-studied channel-forming peptide that has a prototypical amphipathic helix stru...
Alamethicin and several related microbial polypeptides, which contain a high proportion of α-am...
Cell membranes are complex mixtures of lipids, proteins, and other molecules that serve as active, s...
The interactions of the membrane-active peptides alamethicin and protegrin with lipid bilayers are s...
AbstractThe transition of the state of alamethicin from its inactive state to its active state of po...
The main focus of this thesis is on the effects caused by α-helical peptides on liposome structure, ...
AbstractSome membrane peptides, such as Alamethicin, form barrel-stave aggregates with a broad proba...
The interactions between peptides and lipids are of fundamental importance in the functioning of num...
The involvement of membrane-bound peptides and the influence of protein conformations in several ne...
Alamethicin (Alm) is one of the most extensively studied membrane-active antibiotic peptides, but se...
A variety of amphiphilic helical peptides have been shown to exhibit a transition from adsorbing par...
ABSTRACT Some membrane peptides, such as Alamethicin, form barrel-stave aggregates with a broad prob...
AbstractWe review the fundamental strategies used by small peptides to associate with lipid membrane...