Stanford Medicine researchers have developed a blood test capable of detecting cancers, the ways cancer resists treatments ...

Although the foundational concepts and methods remain the same, the technology has advanced far beyond test tubes full of blood and agar. Emerging techniques, such as 3D cell ... cells should look ...

The REM-I™ is a microscopy-based benchtop instrument from Deepcell™ that uses artificial intelligence (AI) to analyze cell morphology from high-resolution brightfield images. The instrument ...

Cardiac fibroblasts (CF) can become activated and produce excessive extracellular matrix, contributing to fibrotic remodeling ...

Researchers show that glycoRNAs, uncovered by the lab of Nobel Laureate, Carolyn Bertozzi, can be used to fight cancer.

Cell Painting is combined with optical pooled screening in PERISCOPE, which “barcodes” cells and uses CRISPR to systematically turn off genes in those cells. Cell morphology describes ... either in ...

Researchers from the Francis Crick Institute, UCL, Gustave Roussy and Memorial Sloan Kettering Cancer Center (MSK), have ...

Researchers from the Francis Crick Institute, UCL, Gustave Roussy and Memorial Sloan Kettering Cancer Center (MSK), have discovered that expansion of mutant blood cells, a phenomenon linked to aging, ...

In 2021, research led by Ryan Flynn, MD, PhD, and his mentor, Nobel laureate Carolyn Bertozzi, PhD, opened a new chapter in biology, characterizing a new kind of player on the cell surface: glycoRNAs.

The standard 2-D cell-culture systems used today, which grow PSCs as monolayers on flat, rigid plastic or glass surfaces, can't economically produce enough cells for many important therapies.