Graham Johnson, a computational biologist and scientific illustrator at the Allen Institute for Cell Science, recalls ...

To model bacterial life, Thornburg and his colleagues turned to one of its simplest examples: a bacterial cell with a ...

Proteins are the infinitely varied chemicals that make cells work, and science has a pretty good idea how they are made. But a critical aspect underlying the machinery of protein manufacture has long ...

Hydrogel micromachines recreate the push and pull of living cells, helping scientists study how mechanical forces shape tissues in the lab.

By simulating the life cycle of a minimal bacterial cell—from DNA replication to protein translation to metabolism and cell ...

One of the most enduring goals in regenerative medicine is deceptively simple: replace a person's damaged or dying cells with healthy new ones grown in the laboratory. Researchers at Harvard Medical ...

Advanced 3D cell models recreate the complexity of human tissues, enabling researchers to examine tumor progression, probe neurological disorders, and assess therapeutic candidates. By capturing the ...

Mor than 800 million people worldwide are living with diabetes, according to World Health Organization (WHO) estimates, with numbers steadily increasing. Diabetic patients experience abnormally high ...

A cell model that replicates the structure and function of the human intestine has been developed, creating an evaluation ...

Adherent cell assays have lagged behind in automation, slowing drug discovery. Semarion’s SemaCyte® microcarrier platform streamlines these workflows by making adherent cells assay-ready, improving ...