DNA-Origami NanoTrap for Studying the Selective Barriers Formed by Phenylalanine-Glycine-Rich Nucleoporins
Shen Q, Tian T, Xiong Q, Fisher P, Xiong Y, Melia TJ, Lusk CP, Lin C. DNA-Origami NanoTrap for Studying the Selective Barriers Formed by Phenylalanine-Glycine-Rich Nucleoporins. Journal Of The American Chemical Society 2021, 143: 12294-12303. PMID: 34324340, PMCID: PMC8363578, DOI: 10.1021/jacs.1c05550.Peer-Reviewed Original ResearchMeSH KeywordsActive Transport, Cell NucleusBiomimetic MaterialsDNAGlycineHumansNanotechnologyNucleocytoplasmic Transport ProteinsPhenylalaninePregnancy ProteinsConceptsNuclear pore complexFundamental biological activitiesRich nucleoporinsNuclear transport receptorsSelective barrierPhenylalanine-GlycineStructure-function relationshipsPore complexNuclear transportTransport receptorsProtein assembliesFG-NupsMolecular trafficFG interactionsFG networkBiomolecular machinesNucleoporinsCritical determinantDNA nanotechnologyBiomimetic constructsBiological activityDiffusion barrierModel cargoNanotrapsSpatial arrangement