An international team of researchers has used genetic engineering to create the first ever “product-ready” antivenom for ...

James D. Watson, the brilliant but controversial American biologist whose 1953 discovery of the structure of DNA, the ...

Genetic engineers can design and assemble sophisticated gene circuits to program cells with new functions, but important ...

Vgenomics offers RgenX, an AI-powered cloud platform that diagnoses rare genetic diseases and accelerates drug discovery by ...

Researchers at Texas Tech University, led by Gunvant Patil, have developed a synthetic regeneration system that allows plants to regrow shoots directly from wounded tissue, eliminating the need for ...

The cell therapy field has long held a transformative ambition: to create "off-the-shelf" treatments that can reach not just ...

An international research team, led by Shinghua Ding at the University of Missouri, has identified a previously unknown ...

DNA isn't just a long string of genetic code, but an intricate 3D structure folded inside each cell. That means the tools ...

We are now in the second great wave of the genetic revolution, not defined by reading the human code of life, but by rewriting it.

Approach that uses cell’s own strategy of liquid-liquid phase separation protects synthetic modifications from being washed away by the tide of cell growth.

Graduate student Arjun Ojha Kshetry and colleagues combined two key genes: WIND1, which reprograms cells near a wound, and ...