A Programmable DNA Origami Platform to Organize SNAREs for Membrane Fusion
Xu W, Nathwani B, Lin C, Wang J, Karatekin E, Pincet F, Shih W, Rothman JE. A Programmable DNA Origami Platform to Organize SNAREs for Membrane Fusion. Journal Of The American Chemical Society 2016, 138: 4439-4447. PMID: 26938705, PMCID: PMC4950518, DOI: 10.1021/jacs.5b13107.Peer-Reviewed Original ResearchConceptsMembrane fusionSoluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) complexCore molecular machineryMembrane fusion eventsProtein receptor complexMembrane fusion processMolecular machineryDNA origami platformTarget membraneAuxiliary proteinsIntracellular communicationDocking stepSingle-event levelReceptor complexLipid mixingSmall unilamellar vesiclesLipid bilayersSnareFundamental processesVesiclesUnilamellar vesiclesTraffickingMachineryProteinFusionSelf-assembly of size-controlled liposomes on DNA nanotemplates
Yang Y, Wang J, Shigematsu H, Xu W, Shih WM, Rothman JE, Lin C. Self-assembly of size-controlled liposomes on DNA nanotemplates. Nature Chemistry 2016, 8: 476-483. PMID: 27102682, PMCID: PMC5021307, DOI: 10.1038/nchem.2472.Peer-Reviewed Original ResearchConceptsDNA nanotemplatesArtificial lipid bilayer membranesLipid bilayer formationLipid bilayer membranesSelf-AssemblyTemplating methodKey intermediateBilayer formationDrug deliveryArtificial vesiclesLipid compositionNanoscale precisionNanotemplatesHomogeneous liposomesUnilamellar vesiclesLiposome formationVesicular transportProtein structureMembrane structureVesicle sizeLiposomesIntermediatesFormationVesiclesStructure