(Nanowerk Spotlight) Humanity's efforts to modify food plants is as old as farming itself, some 10,000 years. Before genetic engineering became possible, farmers have used simple selection inter- and ...

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

An artist's view of nanotubes entering plant cells. Courtesy: M Landry, UC Berkeley Carbon nanotubes can be used as tools to more easily deliver genes into plant cell nuclei and chloroplasts, say two ...

Are you a food label reader? If so, you may have noticed some of your favorite snacks bear the phrase “partially produced with genetic engineering.” This makes sense, given that the soy lectin and ...

A Stanford University team led by associate professor of chemical engineering Elizabeth Sattely is developing genetically engineered plants that can better absorb iron from the soil. By making it ...

The world population is growing rapidly, and that signals big challenges when it comes to how best to feed and fuel everyone our planet has to support. Already agriculture uses 90 percent of the world ...

Genetic engineering is poised to help biopharma realize the potential benefits of commercial-scale, plant-based protein production, according to a leading researcher. The idea of making therapeutic ...

Scientists have been tinkering with Mother Nature again. Botanical genetic engineers obviously never saw the margarine ad that cautioned, "It's not nice to fool Mother Nature." Here are just a few ...

Chloroplasts—the "light power plants" of plant cells—are increasingly the focus of synthetic biology. These organelles house ...

Gene editing techniques allow precise modifications of plant and animal genes, revolutionizing biomedical sciences. These techniques primarily involve introducing transgenes or CRISPR into plants or ...