Researchers at Cornell University have developed a safer and more precise way to study how genes function in living tissues by refining a recently developed CRISPR-based genetic technique in fruit ...

The latest update to the ESM protein language model series supports binder design and protein function mapping for therapeutic discovery.

A new study combines RNA origami and glass nanopores to achieve a 18-nucleotide resolution for diagnosing repeat expansion disorders like ALS.

A new @HopkinsMedicine study of mice reveals that epigenetic marks can be inherited in ways that break the century-long ...

The new CRISPR platform, called ΨDNA, reprograms Cas12 nucleases to recognize and act on RNA using a DNA-based guide scaffold ...

Dyno Therapeutics, Inc., a genetic technologies company applying artificial intelligence (AI) to solve the grand challenge of in vivo gene delivery, today announced significant updates to two ...

Researchers describe minimal versatile genetic perturbation technology (mvGPT). Capable of precisely editing genes, activating gene expression and repressing genes all at the same time, the technology ...

Researchers at Washington University School of Medicine in St. Louis have identified a previously unknown biological process that helps explain why only a subset of patients with alpha1-antitrypsin ...

Most hypotheses suggest that earlier forms of life had partial genetic codes and used fewer than 20 amino acids. To test ...

Somewhere in Michigan, 10,000 silkworms are spinning the future of supermaterials. They labor in the thick air of a warm, humid warehouse, pulling a sticky white strand from a gland in their face and ...

Changing an organism’s genome is a profound act, and the tools you use to make the changes don’t alleviate the need for responsible regulation. Unlike “traditional” genetically modified organisms (GMO ...