Spatial biology is reshaping how researchers study cancer by revealing the architecture and complexity of tumors in extraordinary detail. Through techniques that combine protein- and gene-level ...

Researchers use multiomic spatial maps to understand complex biological processes, including neovascularization and immune cell activation for cardiac remodeling after myocardial infarction. Mapping ...

Tissues are where most biological functions, drug effects and diseases occur, and are often considered a homogenous entity where different types of cells are woven in regularly repeated patterns.

This eBook cuts through the complexity of spatial techniques, featuring a series of interviews with pioneers in the field, and peer-reviewed research from the Taylor & Francis journal portfolio. This ...

Spatial maps of various tissues and organs in aging mice have revealed new insights into the aging process. Aging is a process common to many animals; however, the complexity of aging means that there ...

Research in mice illuminates the molecular mechanisms that underlie spatial mapping in the brain. Scientists found that a gene called Fos plays a key role in helping the brain use specialized ...