Jennifer Doudna cofounds startup for tailored gene-editing treatments

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.

December 16, 2025 An Ruwaito ta hanyar AI An Binciki Gaskiya

Researchers have developed a genomic mapping technique that reveals how thousands of genes work together to influence disease risk, helping to bridge gaps left by traditional genetic studies. The approach, described in a Nature paper led by Gladstone Institutes and Stanford University scientists, combines large-scale cell experiments with population genetics data to highlight promising targets for future therapies and deepen understanding of conditions such as blood disorders and immune-mediated diseases.

Researchers at Washington University School of Medicine in St. Louis, working with scientists at Northwestern University, have developed a noninvasive nasal nanotherapy that activates the immune system to attack aggressive brain tumors in mice. By delivering spherical nucleic acids that trigger the STING immune pathway directly from the nose to the brain, the approach eliminated glioblastoma tumors in mouse models when combined with drugs that boost T-cell activity, according to a study in the Proceedings of the National Academy of Sciences.

December 05, 2025 An Ruwaito ta hanyar AI An Binciki Gaskiya

Scientists at Cedars-Sinai Medical Center have developed an experimental synthetic RNA drug called TY1 that strengthens the body’s ability to clear damaged DNA and promote tissue healing. Described in a paper in Science Translational Medicine, the treatment could improve recovery from heart attacks and certain inflammatory or autoimmune conditions by enhancing the activity of a key DNA-processing gene in immune cells.

Scientists at Virginia Tech report that tuning specific molecular pathways with CRISPR-based tools improved memory in older rats across two peer‑reviewed studies, pointing to possible routes for tackling age‑related cognitive decline.

January 10, 2026 An Ruwaito ta hanyar AI An Binciki Gaskiya

Researchers at Cold Spring Harbor Laboratory report they have identified a three-part molecular circuit involving SRSF1, Aurora kinase A (AURKA) and MYC that helps drive aggressive pancreatic ductal adenocarcinoma. In laboratory models, a splice-switching antisense oligonucleotide designed to alter AURKA splicing disrupted the circuit, reducing tumor-cell viability and triggering programmed cell death.