The field of cancer genomics is rapidly evolving, driven by advanced technologies that enable detailed characterization of cancer initiation, progression, ...
High-resolution spatial transcriptomics and imaging-based technologies are now generating large-scale, multi-dimensional datasets that are beginning to reshape how we understand tissue organisation, ...
A new study generated one of the most comprehensive spatially resolved transcriptomic maps of cellular communication between ...
Recent advances in subcellular imaging transcriptomics platforms have enabled spatial mapping of the expression of hundreds of genes at subcellular resolution and provide topographic context to the ...
The Monash Genomics & Bioinformatics Platform offers comprehensive 10x Genomics technologies for single cell and spatial analysis. Our capabilities include the Chromium X for high-throughput single ...
Spatial clustering (or spatial domain identification) determines cellular niches characterized by specific admixing of these populations. It assigns cells to clusters based on both their intrinsic ...
Among the assorted communities of brain cells contained within an 8 millimeter punch of cortex, scientists have captured what might reflect two pivotal microglial moments along the decades-long ...