Featured Publications
Whole-cell organelle segmentation in volume electron microscopy
Heinrich L, Bennett D, Ackerman D, Park W, Bogovic J, Eckstein N, Petruncio A, Clements J, Pang S, Xu CS, Funke J, Korff W, Hess HF, Lippincott-Schwartz J, Saalfeld S, Weigel AV. Whole-cell organelle segmentation in volume electron microscopy. Nature 2021, 599: 141-146. PMID: 34616042, DOI: 10.1038/s41586-021-03977-3.Peer-Reviewed Original ResearchConceptsAutomatic reconstructionDeep learning architectureLearning architectureWeb repositoriesOpen dataAutomatic methodThree-dimensional reconstructionSuch methodsVolume electron microscopyQueriesSegmentationRepositoryArchitectureComputer codeSpatial interactionsDatasetReconstructionImagesMetricsCodeSuch reconstructions
2020
Correlative three-dimensional super-resolution and block-face electron microscopy of whole vitreously frozen cells
Hoffman DP, Shtengel G, Xu CS, Campbell KR, Freeman M, Wang L, Milkie DE, Pasolli HA, Iyer N, Bogovic JA, Stabley DR, Shirinifard A, Pang S, Peale D, Schaefer K, Pomp W, Chang CL, Lippincott-Schwartz J, Kirchhausen T, Solecki DJ, Betzig E, Hess HF. Correlative three-dimensional super-resolution and block-face electron microscopy of whole vitreously frozen cells. Science 2020, 367 PMID: 31949053, PMCID: PMC7339343, DOI: 10.1126/science.aaz5357.Peer-Reviewed Original ResearchConceptsCorrelative super-resolution fluorescenceEndoplasmic reticulum-associated proteinSuper-resolution fluorescenceChromatin domainsMammalian cellsBlock-face electron microscopyDistinct proteinsTranscriptional activityBiochemical needsSpatial compartmentalizationIntranuclear vesiclesUltrastructural variabilityFrozen cellsWhole cellsFluorescence retentionCultured neuronsProteinCellsElectron microscopyCompartmentalizationVesiclesUltrastructureAdhesionDomainFluorescence