 Spatial transcriptomics is a rapidly growing field in biomedical research. It allows scientists to gain insights into the spatial distribution of gene expression within tissues, providing valuable information about cellular processes such as migration, proliferation, and differentiation. Commercial platforms have been developed to enable spatially resolved analysis of gene expression at the single cell level, allowing researchers to investigate the spatial organization of cells in tissues. These platforms offer a range of advantages over traditional bulk RNA sequencing, including increased sensitivity, improved spatial resolution, and the ability to capture dynamic changes in gene expression over time. Additionally, spatial transcriptomics provides a unique opportunity to explore the relationship between cellular structure and function, enabling researchers to identify potential mechanisms underlying disease pathogenesis. This article was authored by Cameron G. Williams, Heung Jae Lee, Tokahiro Asatsuma, and others. We are article.tv, links in the description below.