Evan Macosko

We developed an imaging-free spatial genomics technology where DNA barcodes diffuse to connect locally. Using UMAP, we reconstructed the physical locations of these barcodes, transforming spatial transcriptomics into purely molecular biology. https://t.co/BIPlyibPXa

Hear us talk about Slide-tags!

@marcosanascim This is such fascinating work. LAMP5+ cells are truly intriguing, for more than one reason!

Findings "strongly imply that there is no specific link between maternal mental illness or maternal infection during pregnancy" & neurodevelopmental disabilities (including autism) in offspring https://t.co/ja8N4C0Cp7 free

We now know the locations of cell types in a full mammalian brain. Our work reveals the brainstem’s absolutely stunning cellular complexity. How and why does it arise? Visit https://t.co/vlGT8w8EO7 to plot genes, localize types, and get markers. https://t.co/VOtqEZvkSO

Slide-tags unifies the single cell + spatial genomics worlds. It solves three key problems with existing spatial methods: 1) Cell segmentation (the biggest problem) 2) robustness and scalability (well-powered case-control studies now possible) 3) Multiomics (ATAC, RNA, etc)

The sharing of data is the only way we will make collective progress on hard problems like AD. Our entire dataset and analysis are available at https://t.co/9OkNhULxKh Vahid Gazestani’s integration of 27 datasets can be easily imported to answer your own scientific questions.

Utilizing rare human brain biopsies we address: 1) Which cell types likely make amyloid? 2) How do microglia respond to amyloid and how does this compare to states in mouse models? 3) What neuronal states precede cell death in AD? Paper out today! https://t.co/KhrWb3wjPk

How does brain tissue change when amyloid first appears in the brain? In rare surgical biopsies, we find a hyperactive neuronal state preceding loss, and evidence of oligodendrocytes, as well as neurons, producing amyloid. https://t.co/R9a9lUnzNz

Example uses of https://t.co/vlGT8w9cDF: 1) label transfer your sc data to ours. Get cell type assignments and spatial positions. 2) Find genes or cell types enriched in a region. 3) Retrieve the minimal set of genes needed to define a cell type uniquely (ie for FISH).