Spatial transcriptomics technologies have fundamentally transformed our ability to map gene expression within complex tissues, providing unprecedented insights into cellular heterogeneity and tissue ...

Identifying cell–cell interactions from imaging-based spatial transcriptomics suffers from limited gene panels. A new self-supervised graph transformer-based method can resolve spatial ...

Why do so many promising drugs fail? This article explores how spatial multiomics reveals hidden cell interactions, helping ...

People communicate with each other, sometimes face to face, sometimes with a text message or phone call. Cells also communicate with each other, sometimes by touching and sometimes by sending signals ...

Researchers at The University of Texas MD Anderson Cancer Center have developed a spatial map of muscle-invasive bladder ...

Initially, cells are dissociated from liver tissues into single-cell suspensions using in vivo enzymatic perfusion or ex vivo digestion methods. The cells of interest are then enriched from the ...

Over the past decade, the Human Cell Atlas community has accomplished something that will define a generation of biology.

A new study constructs the first 3D single-cell brain atlas of the lamprey, uncovering the 450-million-year-old molecular blueprint of vertebrates.

This illustration summarizes how integrated spatial transcriptomics, single-cell transcriptomics, single-cell epigenomics, and spatial epigenomics enable multi-dimensional profiling of the tumor ...

Technological development is key to improving the way hematologic cancer is diagnosed and treated. With this vision, the Josep Carreras Leukemia Research Institute is committed to the creation and ...

Researchers at The University of Texas MD Anderson Cancer Center have developed a spatial map of muscle-invasive bladder ...

Spatial analyses uncovered how different tumor regions interact with immune cells and respond to therapies, offering a new ...