ABSTRACT: Determination of the topology of peptides in membranes is important for characterizing and understanding the interactions of peptides with membranes. We describe a method that uses fluorescence quenching arising from resonance energy transfer (“FRET”) for determining the topology of the tryptophan residues of peptides partitioned into phospholipid bilayer vesicles. This is accomplished through the use of a novel lyso-phospholipid quencher (lysoMC), N-(7-hydroxyl-4-methylcoumarin-3-acetyl)-1-palmitoyl-2-hydroxy-sn-glycero-3-phosphoethanolamine. The design principle was to anchor the methylcoumarin quencher in the membrane interface by attaching it to the headgroup of lyso-phosphoethanolamine. We show that lysoMC can be incorporated...
International audienceDystrophin is assumed to act via the central rod domain as a flexible linker b...
AbstractThe amphipathic helix plays a key role in many membrane-associating peptides and proteins. T...
The presence of tryptophan residues as intrinsic fluorophores in most proteins makes them an obvious...
The fluorescence of a membrane-bound tryptophan derivative (tryptophan octyl ester, TOE) has been ex...
Rich structure of cell membranes raises broad number of questions regarding the mechanisms driving a...
This work reports on the binding and conformation of a series of CPPs in the bilayer membranes of la...
Interactions between a membrane protein and the lipid molecules that surround it in the membrane are...
When polypeptides bind to the membrane surface, they become confined to a restricted quasi-two-dimen...
The fluorescence from tryptophan contains valuable information about the environment local to the in...
Amphiphilic peptides are capable of finding their way to, and occasionally through, cellular membran...
© 2010 Elsevier B.V. All rights reserved.Peptide–membrane interactions have been gaining increased r...
AbstractPeptide–membrane interactions have been gaining increased relevance, mainly in biomedical in...
AbstractThe fluorescence decay of tryptophan is a sensitive indicator of its local environment withi...
AbstractResonance energy transfer (RET) between the tryptophan residues of lysozyme as donors and an...
ABSTRACT The presence of tryptophan residues as intrinsic fluorophores in most proteins makes them a...
International audienceDystrophin is assumed to act via the central rod domain as a flexible linker b...
AbstractThe amphipathic helix plays a key role in many membrane-associating peptides and proteins. T...
The presence of tryptophan residues as intrinsic fluorophores in most proteins makes them an obvious...
The fluorescence of a membrane-bound tryptophan derivative (tryptophan octyl ester, TOE) has been ex...
Rich structure of cell membranes raises broad number of questions regarding the mechanisms driving a...
This work reports on the binding and conformation of a series of CPPs in the bilayer membranes of la...
Interactions between a membrane protein and the lipid molecules that surround it in the membrane are...
When polypeptides bind to the membrane surface, they become confined to a restricted quasi-two-dimen...
The fluorescence from tryptophan contains valuable information about the environment local to the in...
Amphiphilic peptides are capable of finding their way to, and occasionally through, cellular membran...
© 2010 Elsevier B.V. All rights reserved.Peptide–membrane interactions have been gaining increased r...
AbstractPeptide–membrane interactions have been gaining increased relevance, mainly in biomedical in...
AbstractThe fluorescence decay of tryptophan is a sensitive indicator of its local environment withi...
AbstractResonance energy transfer (RET) between the tryptophan residues of lysozyme as donors and an...
ABSTRACT The presence of tryptophan residues as intrinsic fluorophores in most proteins makes them a...
International audienceDystrophin is assumed to act via the central rod domain as a flexible linker b...
AbstractThe amphipathic helix plays a key role in many membrane-associating peptides and proteins. T...
The presence of tryptophan residues as intrinsic fluorophores in most proteins makes them an obvious...