"In my field, we have worked for years to analyze proteins within cells. Only recently has technological progress enabled us to do so at the single-cell level." Thanks to this innovation, scientists ...

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

In in situ capturing-based spatial transcriptomics, spots of the same size and printed at fixed locations cannot precisely capture the randomly-located single cells, therefore inherently failing to ...

A research team led by Professor Takuya Yamamoto (Department of Life Science Frontiers) and Professor Yasuhiro Yamada at the University of Tokyo has developed a novel in vivo system that reveals how ...

A study uncovers intricate details about protein function at the molecular level. The discovery could transform disease diagnostics and treatment. Proteins play a central role in virtually every ...