Logo tutelle Logo tutelle


Sur ce site

Sur le Web du CNRS

Accueil du site > Équipes de recherche > Chimie Organique et Médicinale > Peptoid > Projets financés

Projets financés

Toutes les versions de cet article : English , français

ANR ArchiPep

Coordinateur du projet : Claude Taillefumier

Nouveaux édifices peptoïdes : de leur structure à leur application biologique.

Partenaires : ICCF UMR 6296 Institut de Chimie de Clermont-Ferrand
LPCNO - UMR 5215, IRSAMC Laboratoire de Physique et Chimie des Nano-Objets, INSA TOULOUSE

Communications orales :

Angelici G., Roy O., Faure S., Jolibois F., Perrin L., Poteau R., Taillefumier C., All cis α‐ and β‐ tBu peptoid foldamers. 9th Peptoid Summit, Berkeley (USA), 6‐7 août 2015.

Roy O., Angelici G., Faure S, Perrin L., Jolibois F., Taillefumier C., Peptoïdes : Du contrôle de l’isomérie cis/trans à l’hélice de type PPI, RECOB16, Aussois, 13-17 Mars 2016.


Angelici G., Roy O., Faure S., Jolibois F., Perrin L., Poteau R., Taillefumier C., All-cis α-and β-peptoid foldamers, Symposium on foldamers, Bordeaux, 26-28 juin 2015.

H2020-MSCA-IF-2014 : Pro-Membrane

Chercheur : Gaetano Angelici
Coordinateur du projet : Claude Taillefumier

“Pro-Membrane” is an extensive project which has been structured to face multiple tasks of different levels of innovation and risk. In its longest-term and most ambitious goal, Pro-Membrane, aims to face the still not solved challenge of stabilize and crystallize Membrane-Proteins (MPs). This study will use, as innovative tool, well-ordered and disordered functionalizable amphiphilic peptoids for structural determinations. Peptoids could indeed succeed where other classes of molecules previously failed, answering to the pressing need of a new method able to establish the specific interactions to stabilize and crystallize each MP. Their peculiar nature helps them to easily cross the membrane and their modular synthesis give access to an infinite combination of molecules. Despite their interest, a systematic and comparative study of their physical properties and self-assembly capacity was never done before. The multidisciplinarity of this work, between Organic Chemistry, Biophysics, and Structural Biology will be achieved through a strict collaboration between all the participants.