Cell Culture – News and Features

The innovation, he says, could transform the way scientists measure and address genomic breaks in gene-editing systems.

The most complex engineering of human cell lines ever has been achieved by scientists, revealing that our genomes are more resilient to significant structural changes than was previously thought.

New tools enable researchers to remotely and non-invasively guide engineered cells around the body to kill cancer or repair damaged tissue.

Associate Professor Qing Zhong shared insights on AI breakthroughs in proteomics and multiomics, challenges in data sharing and his vision for a high-resolution lens on biology that could redefine science and healthcare.

Researchers can test the effects of more than 1,500 compounds on cell metabolism in parallel. Their analysis also led to the discovery of previously unknown mechanisms for known drugs.

Mary Kay Bates, senior global cell culture scientist at Thermo Fisher Scientific, explores best practices for implementing GMP regulations in the lab.

A new study describes a molecular mechanism that could drive the design of strategies to eliminate senescent cells in cancer patients.

Researchers have created a novel treatment that eliminated small breast tumors and significantly shrank large tumors in mice in a single dose, without problematic side effects.

A study by DKFZ researchers shows that inhibiting the enzyme aldolase A in glycolysis traps energy in liver cancer cells, stopping their growth. This "energy trap" disrupts cancer metabolism, reducing tumor growth in mice.

Researchers revealed that the rotavirus NSP4 protein drives disease severity by disrupting calcium signaling in infected and nearby cells. These disruptions worsen symptoms and trigger immune responses.