Explore CRISPR technology explained, gene editing science, DNA modification, and genetic engineering ethics—discover how ...

Scientists leveraged plants’ built-in regeneration capacity to grow modified plants in weeks instead of months, offering a ...

As Earth's climate warms and changes, sustainable agricultural practices are critical for feeding a rapidly growing population. Can we genetically ...

Vegetable oils have wide-ranging uses, playing a role in everything from food processing, to perfume production to the manufacture of biofuels. With demand only expected to increase, a team of ...

Watson’s 1953 discovery revealed the structure of DNA, the molecule that carries hereditary information, paving the way for genetic engineering, gene therapy and modern biotechnology ...

GEN editors discuss both the news and history of DNA and genetic engineering. We present a recap of the 50 th anniversary of the Asilomar conference, delving into some of the history from the 1975 ...

The return of the long-extinct wooly mammoth or dodo bird may sound like a storyline straight out of science fiction. It’s not. Several de-extinction projects all share an ambitious aim to resurrect ...

James Watson, Nobel Prize-winning American biologist who helped discover DNA's double-helix structure, has died. Once ...

Over millennia, there has been a seamless continuum of technologies for genetic modification of plants, animals, and microorganisms, with progressive improvements in precision and predictability – a ...

Genetic engineering uses enzymes to carefully alter genetic material. This line of study has led to hardier and healthier food crops, the mass production of insulin, and novel vaccines, and it’s all ...