Project description:Current spatial transcriptomics methods provide molecular and spatial information but no morphological readout. Here, we present STEM - a method that correlates multiplexed error-robust FISH with electron microscopy from neighboring tissue sections of the same sample. STEM links transcriptional and spatial organization of single cells with ultrastructural morphology of the tissue in vivo. Using STEM to characterize demyelinated white-matter lesions allowed us to link morphology of myelin-laden foamy microglia to transcriptional signature. Moreover, we revealed that interferon-response microglia have unique morphology and are enriched near CD8 T-cells.

Project description:Spatial Transcriptomics correlated Electron Microscopy

Project description:Spatial Transcriptomics correlated Electron Microscopy [MERFISH]

Project description:Spatial Transcriptomics correlated Electron Microscopy [scRNA-Seq]

Project description:This paper shows detailed information of prestreak stage chick embryos at the morphological level by using scanning electron microscopy, and at the molecular level by RNAseq and expression analysis.

Project description:Primary ciliary dyskinesia without obvious electron microscopy defects

Project description:Primary ciliary dyskinesia without obvious electron microscopy defects

Project description:Proper regulation of genome architecture and activity is essential for the development and function of multicellular organisms. Histone modifications, acting in combination, specify these activity states at individual genomic loci. However, the methods used to study these modifications often require either a large number of cells or are limited to targeting one histone mark at a time. Here, we developed a new method called Single Cell Evaluation of Post-TRanslational Epigenetic Encoding (SCEPTRE) that uses Expansion Microscopy (ExM) to visualize and quantify multiple histone modifications at non-repetitive genomic regions in single cells at a spatial resolution of ∼75 nm. Using SCEPTRE, we distinguished multiple histone modifications at a single housekeeping gene, quantified histone modification levels at multiple developmentally-regulated genes in individual cells, and evaluated the relationship between histone modifications and RNA polymerase II loading at individual loci. We find extensive variability in epigenetic states between individual gene loci hidden from current population-averaged measurements. These findings establish SCEPTRE as a new technique for multiplexed detection of combinatorial chromatin states at single genomic loci in single cells.

Project description:Using laser capture microscopy, white (WM) and grey matter (GM) demyelinated areas and normal appearing matter was collected from histologically verified leukocortical lesions from snap-frozen human post mortem tissuederived from Multiple Sclerosis patients. Our data shows large differences in gene expression in WM and GM demyelinated areas (compared to their respective normal appearing matter) even when the demyelinated areas are spatially connected such as in leukocortical lesions. Thus, we show that WM demyelinated areas and GM demyelinated areas are distinct entities with distinct pathology. Therefore findings observed in WM demyelinated areas cannot be generalized to GM demyelinated areas.

Project description:Primary outcome(s): Measure auto-lysosome function in the cytoplasm by electron microscopy to examine the changes in the number of autophagy.