He Jiankui plans gene editing for Alzheimer’s after prison term

Health economics specialist Martin Morgenstern stated in an interview that genetic editing will transform medical treatments in the coming decades. According to him, technologies like CRISPR will allow altering specific genes to combat conditions like high cholesterol. This approach promises to be more precise than traditional medications, though it carries inherent risks.

February 12, 2026 Reported by AI

After 30 years in the United States, world-leading computational biologist Bao Zhirong has taken up a full-time position at the Southern University of Science and Technology in Shenzhen. Renowned for his cancer genomics research, he will study brain circuits for insights into autism at his new lab. The move underscores the appeal of China's research environment.

Researchers at UNSW Sydney and St. Jude Children’s Research Hospital report a CRISPR-derived “epigenome editing” approach that turns genes on by removing DNA methylation marks rather than cutting DNA. In cell-based experiments, they show that promoter methylation can directly—and reversibly—silence fetal globin genes, a finding they say helps settle a long-running debate about whether methylation is causal or merely correlated with gene shutdown. The work points to a potential path toward safer therapies for sickle cell disease by reactivating fetal hemoglobin without creating DNA breaks.

February 28, 2026 Reported by AI

Researchers at Texas A&M University have developed a chemogenetic system that uses caffeine to activate CRISPR gene editing in cells, potentially aiding treatments for cancer and diabetes. The method allows precise control over gene modifications by consuming small amounts of caffeine from everyday sources like coffee or chocolate. This approach aims to enhance immune responses and insulin production with reversible activation.

A new book by bioethicist Daphne O. Martschenko and sociologist Sam Trejo explores the implications of polygenic scores in genetic testing, highlighting potential inequalities and myths surrounding genetics. Through their 'adversarial collaboration,' the authors debate whether such research can promote equity or entrench social divides. They call for stricter regulation to ensure responsible use.

January 29, 2026 Reported by AI

Rising talent in micron-precision 3D printing, Xu Zhenpeng, announced on social media his move from a California startup to an academic position in Shanghai, China. Previously, he led a team developing 3D printing techniques to make chip production faster and cheaper than conventional multimillion-dollar machines.