The tissue in our body can only hold together if the cells adhere not only to each other, but also to extracellular structures, such as collagen fibers of the connective tissue and the skin. How ...

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 ...

Sensome, the pioneer of microsensing technology for real-time, in situ tissue analysis, today announced the publication of a study in Science Advances unveiling an innovative methodology using its ...

Gene editing techniques may eventually allow trisomy to be treated at the cellular level, according to an in vitro proof-of-concept study. Down syndrome is caused by the presence of a third copy of ...

This breakthrough allows researchers to visualize where individual genes are active at the cellular level—information that has long been missing due to technical limitations in tea biology. By ...

Exposure to fire smoke-which can be composed of particulate matter, gases, materials from buildings such as perfluoroalkyl and polyfluoroalkyl substances (PFAS), toxic metals, and carcinogenic ...

Research teams are analyzing how proteins work together to enable our cells to both stick and move. The marker protein paxillin is at the center of their interest. The tissue in our body can only hold ...