Genetic engineering is moving from the lab bench into clinics, farms, and even family planning decisions, promising to change how we prevent disease, age, and define human potential. The same tools ...

Microorganisms have always been integral to natural circular processes in the environment. They serve an important role in converting complex biological molecules into central building blocks that can ...

Genetic engineering, also known as genetic modification, is a set of technologies used to change the genetic makeup of cells, including the transfer of genes within and across species boundaries to ...

Live-cell breakthrough: Munich scientists created a method to repeatedly read genetic activity from living cells, enabling long-term study without cell destruction. CRISPR reimagined: Hong Kong ...

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 ...

Sherry Gao, Tyler Daniel (pictured) and their coauthors developed a new tool that can simultaneously and independently edit multiple genes and regulate their expression. Influential inventions often ...

University of Florida researchers are addressing a critical gap in medical genetic research—ensuring it better represents and benefits people of all backgrounds. Their work, led by Kiley Graim, Ph.D., ...

University of Florida researchers are addressing a critical gap in medical genetic research — ensuring it better represents and benefits people of all backgrounds. Their work, led by Kiley Graim, Ph.D ...

Collaborative research defines a novel approach to understanding how certain proteins called transcription factors determine which genetic programs will drive cell growth and maturation. The method, ...