2019
Quantification of Biomolecular Dynamics Inside Real and Synthetic Nuclear Pore Complexes Using Time-Resolved Atomic Force Microscopy
Stanley GJ, Akpinar B, Shen Q, Fisher PDE, Lusk CP, Lin C, Hoogenboom BW. Quantification of Biomolecular Dynamics Inside Real and Synthetic Nuclear Pore Complexes Using Time-Resolved Atomic Force Microscopy. ACS Nano 2019, 13: 7949-7956. PMID: 31241896, PMCID: PMC6660115, DOI: 10.1021/acsnano.9b02424.Peer-Reviewed Original ResearchConceptsNuclear pore complexAtomic force microscopyTransport barrierForce microscopyBiomolecular dynamicsPore complexNative nuclear pore complexesDynamics of biomoleculesNanometer length scaleDNA origami scaffoldMs temporal resolutionCollective transitionsMacromolecular trafficSelective gatewaySuch proteinsBiomolecular systemsOrigami scaffoldCohesive interactionsObserved dynamicsSuch experimentsTime scalesProteinBiological systemsLength scalesDrift correction
2009
Designer DNA Nanoarchitectures
Lin C, Liu Y, Yan H. Designer DNA Nanoarchitectures. Biochemistry 2009, 48: 1663-1674. PMID: 19199428, PMCID: PMC2765550, DOI: 10.1021/bi802324w.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsStructural DNA nanotechnologyDNA nanotechnologyDNA nanoarchitecturesSelf-assembled architecturesWatson-Crick base pairing rulesProtein-protein interactionsBase pairing rulesDNA nanostructuresMulticomponent nanomachinesPrinciples of DNAArtificial nanostructuresNanometer precisionHelical DNA structureUnicellular diatomsFunctional groupsDNA structureNanotechnologyNanostructuresMolecular speciesNanoarchitecturesSuch eleganceExciting progressHigh yieldsBiological systemsDNA