Two recently published studies led by Brazilian scientists reveal the key roles of multifunctional proteins, STIP1 and Maspin ...

Neural tissue engineering aims to mimic the brain's complex environment, the extracellular matrix, which supports nerve cell ...

Cells have an internal skeleton that maintains their structure and also drives their movement. Known as the cytoskeleton, ...

Biomedical researchers at Texas A&M University may have discovered a way to stop or even reverse the decline of cellular ...

A soft microrobot uses light driven motion, temperature sensing, and localized heating to control single cells inside 3D ...

There are many kinds of T cells, and they play different parts in defending the body. Some T cells kill infected cells, ...

Bioprinting relies on bioinks, which are mixtures of living cells and hydrogels that provide a temporary structural ...

Researchers have created functional brain-like tissue without relying on any animal-derived materials, marking a major step toward more ethical and reproducible neurological research.

Scientists have uncovered an unexpected function for a crucial protein involved in cell division. Reported in two consecutive publications, the finding challenges long-accepted models and standard ...

This important study describes a deep learning framework that analyzes single-cell RNA data to identify a tumor-agnostic gene signature associated with brain metastases. The identified signature ...

Chromosome compartment analysis of a cancer cell line cohort reveals different subsets of compartment changes where some track epithelial to mesenchymal transition while others reflect secondary ...

Three research scientist entrepreneurs with roots in university labs and life sciences startup companies have announced ...