A computational method called scSurv, developed by researchers at Institute of Science Tokyo, links individual cells to patient outcomes using widely available bulk RNA sequencing data. The approach ...

A new sequencing-based method uses molecular barcodes to trace synaptic connections among neurons. The approach enables large ...

A rock measuring 900 meters is on a journey through our solar system, providing what is arguably one of the strongest pieces ...

Human genes are written in long strings of three-letter units composed of four different nucleotides. These units—or ...

With AI, it's now possible for researchers to predict the three-dimensional structures of proteins directly from their ...

A team at UT Southwestern Medical Center has identified a structural trick that lets viruses translate their genetic code inside human cells, even when that code is riddled with “bad” codons the host ...

Platform combines proprietary AI sequence optimization, novel genetic parts, and lab validation in application-relevant cell models to improve expression and half-life, delivering top candidates in ...

To understand the human genome, scientists focused on protein-coding genes and their functions for decades. This has given us ...

A metabolic enzyme studied for over seven decades has a hidden second function—it can unwind RNA and promote cell cycle progression, an additional function beyond its role in energy production, ...

One dog, one vaccine, one data point. The story of Rosie is fascinating – but it is not yet evidence that AI can beat cancer.

Discover how CRISPR genome editing is revolutionizing medicine. Learn the science of Cas9, current clinical trials, and the future of gene editing.