Add to ORKGX-ray crystallography has played a major role in the advancement of foldamer research, however, obtaining well-formed single crystals of suitable quality for structure determination by X-ray diffraction methods is often rather challenging. Towards this end, we report here the ability of common surfactants to promote the crystallisation of a series of water-soluble oligourea foldamers which had previously proven highly resistant to crystallisation. Four high-resolution crystal structures are reported, suggesting certain surfactants could be potentially useful tools for the crystallisation of intractable water-soluble foldamers (or peptides)
A major limitation in the development of crystallization conditions for integral membrane proteins i...
International audienceMixed protein-surfactant micelles are used for in vitro studies and 3D crystal...
International audienceWe report herein the synthesis of a series of fluorinated surfactants with a g...
We report here an oligourea foldamer able to self-assemble in aqueous conditions into helix bundles ...
International audienceThe growth of crystals of aromatic compounds from water much depends on the na...
Foldamer chemistry is a rapidly expanding research field where chemists explore the construction of ...
This research project explores theoretical and practical aspects of X-ray crystallography in the con...
Non-natural synthetic oligomers that adopt well-defined secondary structures (i.e., foldamers) repre...
ABSTRACT: Surfactants are used as additives in some protein separations and crystallization procedur...
Selective crystallization of polymorphs is highly sought after in industrial practice. Yet, state-of...
33 crystal structures (11 unsolvated and 22 solvates) of a series of seven oligoamide foldamers were...
Foldamers provide an attractive medium to test the mechanisms by which biological macromolecules fol...
La chimie des foldamères est un domaine de recherche en pleine expansion où les chimistes explorent ...
Protein crystals are generally fragile and sensitive to subtle changes such as pH, ionic strength, a...
Two pseudopeptide foldamers with similar backbones, one containing a d-4-carboxy-5-methyl-oxazolidin...
A major limitation in the development of crystallization conditions for integral membrane proteins i...
International audienceMixed protein-surfactant micelles are used for in vitro studies and 3D crystal...
International audienceWe report herein the synthesis of a series of fluorinated surfactants with a g...
We report here an oligourea foldamer able to self-assemble in aqueous conditions into helix bundles ...
International audienceThe growth of crystals of aromatic compounds from water much depends on the na...
Foldamer chemistry is a rapidly expanding research field where chemists explore the construction of ...
This research project explores theoretical and practical aspects of X-ray crystallography in the con...
Non-natural synthetic oligomers that adopt well-defined secondary structures (i.e., foldamers) repre...
ABSTRACT: Surfactants are used as additives in some protein separations and crystallization procedur...
Selective crystallization of polymorphs is highly sought after in industrial practice. Yet, state-of...
33 crystal structures (11 unsolvated and 22 solvates) of a series of seven oligoamide foldamers were...
Foldamers provide an attractive medium to test the mechanisms by which biological macromolecules fol...
La chimie des foldamères est un domaine de recherche en pleine expansion où les chimistes explorent ...
Protein crystals are generally fragile and sensitive to subtle changes such as pH, ionic strength, a...
Two pseudopeptide foldamers with similar backbones, one containing a d-4-carboxy-5-methyl-oxazolidin...
A major limitation in the development of crystallization conditions for integral membrane proteins i...
International audienceMixed protein-surfactant micelles are used for in vitro studies and 3D crystal...
International audienceWe report herein the synthesis of a series of fluorinated surfactants with a g...