2019
Highly Reproducible Physiological Asymmetric Membrane with Freely Diffusing Embedded Proteins in a 3D‐Printed Microfluidic Setup
Heo P, Ramakrishnan S, Coleman J, Rothman JE, Fleury J, Pincet F. Highly Reproducible Physiological Asymmetric Membrane with Freely Diffusing Embedded Proteins in a 3D‐Printed Microfluidic Setup. Small 2019, 15: e1900725. PMID: 30977975, DOI: 10.1002/smll.201900725.Peer-Reviewed Original ResearchConceptsMost biological processesLipid leafletAreas of biologyEmbedded proteinsBiological processesRelevant lipidsProteinAsymmetric bilayersPhysiological conditionsModel membranesPlanar bilayersBilayer formation processInvaluable insightsBilayersConfocal microscopeMembraneLipidsTransmembraneBiologyLeafletsMicrofluidic setupRecapitulation
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