2020
CX3CL1 homo-oligomerization drives cell-to-cell adherence
Ostuni M, Hermand P, Saindoy E, Guillou N, Guellec J, Coens A, Hattab C, Desuzinges-Mandon E, Jawhari A, Iatmanen-Harbi S, Lequin O, Fuchs P, Lacapere J, Combadière C, Pincet F, Deterre P. CX3CL1 homo-oligomerization drives cell-to-cell adherence. Scientific Reports 2020, 10: 9069. PMID: 32494000, PMCID: PMC7271195, DOI: 10.1038/s41598-020-65988-w.Peer-Reviewed Original ResearchConceptsNumerous adhesion moleculesPhotobleaching assaysNative electrophoresisAdhesive potencyTransmembrane peptidesLipid environmentKey immune processesAdhesive functionFluorescence recoveryFunctional roleDomain peptideFluorescence kineticsOligomerizationCellular adherenceMolecular modelingAdhesion moleculesCell adherenceTransmembrane chemokineImmune processesCompact bundlePeptidesBlood leukocytesClustersElectrophoresisCX3CL1
2015
Formation of Giant Unilamellar Proteo-Liposomes by Osmotic Shock
Motta I, Gohlke A, Adrien V, Li F, Gardavot H, Rothman JE, Pincet F. Formation of Giant Unilamellar Proteo-Liposomes by Osmotic Shock. Langmuir 2015, 31: 7091-7099. PMID: 26038815, PMCID: PMC4950989, DOI: 10.1021/acs.langmuir.5b01173.Peer-Reviewed Original ResearchConceptsGiant unilamellar vesiclesLipid-anchored proteinsOsmotic shockTrans-membrane proteinsSingle giant unilamellar vesiclesProtein substratesPeripheral proteinsSpecific lipidsDifferent proteinsPhotobleaching experimentsFluorescence recoveryCell membraneProteinLarge vesiclesPhysiological conditionsModel systemUnilamellar vesiclesPhospholipid bilayersVesiclesSimple generic methodPrevious dataMembraneHigh concentrationsLipidsBilayers
2010
Recent Applications of Fluorescence Recovery after Photobleaching (FRAP) to Membrane Bio-Macromolecules
Rayan G, Guet J, Taulier N, Pincet F, Urbach W. Recent Applications of Fluorescence Recovery after Photobleaching (FRAP) to Membrane Bio-Macromolecules. Sensors 2010, 10: 5927-5948. PMID: 22219695, PMCID: PMC3247740, DOI: 10.3390/s100605927.Peer-Reviewed Original Research