2020
Torsin ATPase deficiency leads to defects in nuclear pore biogenesis and sequestration of MLF2
Rampello AJ, Laudermilch E, Vishnoi N, Prophet SM, Shao L, Zhao C, Lusk CP, Schlieker C. Torsin ATPase deficiency leads to defects in nuclear pore biogenesis and sequestration of MLF2. Journal Of Cell Biology 2020, 219: e201910185. PMID: 32342107, PMCID: PMC7265317, DOI: 10.1083/jcb.201910185.Peer-Reviewed Original ResearchConceptsNuclear pore biogenesisMyeloid leukemia factor 2FG nucleoporinsNuclear pore complex biogenesisNuclear envelope herniationsNuclear envelope reformationLive cell imaging platformProteomics-based approachNuclear envelope blebbingComplex biogenesisBleb formationUbiquitin conjugationNuclear envelopeATPase deficiencyBiogenesisHallmark phenotypePhenotypic hallmarksPOM121Factor 2Late markersLuminal componentsNup358CellsUbiquitinBlebbing
2011
Nonlinear structured-illumination microscopy with a photoswitchable protein reveals cellular structures at 50-nm resolution
Rego EH, Shao L, Macklin JJ, Winoto L, Johansson GA, Kamps-Hughes N, Davidson MW, Gustafsson MG. Nonlinear structured-illumination microscopy with a photoswitchable protein reveals cellular structures at 50-nm resolution. Proceedings Of The National Academy Of Sciences Of The United States Of America 2011, 109: e135-e143. PMID: 22160683, PMCID: PMC3271870, DOI: 10.1073/pnas.1107547108.Peer-Reviewed Original ResearchConceptsStructured-illumination microscopyUltralow light intensitiesSuperresolution imaging methodExcited statesFluorophore excited stateStructured illumination microscopyLight intensityRequired nonlinearityResolution extensionHigh light intensityActin cytoskeletonCellular structureReversible photoswitchingNuclear poresNonlinear responseIllumination intensitySuch nonlinear responsesPhotoswitchable proteinsSpatial resolutionFluorescent proteinBiological samplesSix-orderImaging methodMicroscopyPolystyrene beads