Researchers have developed synthetic genes that function like the genes in living cells. The artificial genes can build intracellular structures through a cascading sequence that builds ...

In a landmark feat of genetic engineering, researchers at the MRC Laboratory of Molecular Biology (LMB) in Cambridge have created a strain of Escherichia coli that functions with just 57 codons, down ...

Molecular instructions in living cells can be timed rather like the notes or chords in a piece of music. For example, a finite number of genes can be activated and expressed in different orders, for ...

Around the world, scientists are exploring an unexpected solution to the growing data crisis: storing digital information in ...

Genetic medicines such as cell and gene therapies and mRNA vaccines offer extraordinary promise for treating a variety of diseases, including genetic disorders, cancer, and autoimmune diseases. These ...

A novel approach that incorporates components from many disciplines, allowing people from many different backgrounds to access synthetic biology education. The field of synthetic biology, the science ...

Despite these advances, the synthesis of DNA nanostructures has remained a largely manual and time-consuming process. Traditional approaches often require the precise mixing of hundreds of unique DNA ...

Carolus Vitalis grew up in a small town in Chile—a town so small it doesn’t appear on any maps. Now he’s at the forefront of a large, impactful discussion: the pros and cons of artificial intelligence ...

Researchers from the UCLA Samueli School of Engineering and the University of Rome Tor Vergata in Italy have developed synthetic genes that function like the genes in living cells. The artificial ...