Enviado por Anonyme (no verificado) el Jue, 07/27/2023 - 14:42
Tags:
CHLORDECONE DETOXIFICATION
NOUVELLES DEHALOGENASES
Criblage métagénomique des déhalogénases, nouveaux outils pour la dépollution de la chlordécone
Coordinateur:
INSA LYON
Responsable INSA:
Philippe OGER
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Partenaires:
INRAE
INSA LYON - ICBMS
ISYEB MNHN
Financement:
ANR
Dates projet:
De 2022-12-01 00:00:00 hasta 2026-11-01 00:00:00
Montant global du projet:
349934
Contact:
philippe.oger@insa-lyon.fr
Chapo:
The MetHalo project aims at using a high-throughput functional screen based on flow-cytometry cell sorting to isolate and characterize novel families of dehalogenase proteins active against the persistant pollutant chlordecone
Rodent management is essential for health and economicissues. The only molecules approved by authorities and known to efficiently control rats andmice are 4-hydroxycoumarin (i.e., coumatetralyl, bromadiolone, difenacoum, brodifacoum,difethialone, flocoumafen) and 1,3-indandione (i.e., chlorophacinone) derivatives which areanticoagulant rodenticides (AR).
Enjeu:
Environnement : Milieux naturels, Industriels et Urbains
Enviado por Anonyme (no verificado) el Mar, 03/20/2018 - 08:00
Tags:
ENVIRONNEMENTS EXTREMES
ADAPTATION DES MEMBRANES
Des bicouches lipidiques stables au-delà du point d'ébullition de l'eau
Coordinateur:
INSA LYON - MAP
Responsable INSA:
Philippe OGER
Two major structural adaptations have been linked with the adaptation of the membrane to extreme pH and temperature environments: the synthesis of membrane-spanning, bipolar lipids and the binding of the glycerol moiety and the hydrocarbon chains by an ether bound. Bipolar lipids can form lipid monolayers, in which each polar headgroup points out on one side of the membrane. Monolayers are more rigid, less permeable and thermally more resistant than lipid bilayers.
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