In new research, Alex Green, an assistant professor at ASU’s Biodesign Institute, demonstrates how living cells can be induced to carry out computations in the manner of tiny robots or computers. The ...

Cells in nature have to respond to environmental stimuli with a complex repertoire of responses. In effect, they make computations that require processing that is both analog, like adjusting to a ...

Synthetic biology researchers have demonstrated a new method for digital information processing in living cells, analogous to the logic gates used in electric circuits. The circuits are the largest ...

Encapsulating molecular components in artificial membranes offers more flexibility in designing circuits, report researchers. Synthetic biology allows scientists to design genetic circuits that can be ...

A fundamental goal of synthetic biology is to predictably and efficiently reprogram cells to perform computations and carry out specific biological tasks 1. Cells genetically engineered with ...

A new cancer-detecting tool uses tiny circuits made of DNA to identify cancer cells by the molecular signatures on their surface. Duke University researchers fashioned the simple circuits from ...

Complex brain circuits in rodents can organize themselves with genetics playing only a secondary role, according to a new computer modelling study published today in eLife. The findings help answer a ...

Looking at some anecdotal stories as well as some reasonably valid survey data, it seems that STEM-related subjects are getting serious interest from students at all age levels; STEM stands for ...

"We discovered that by forming tiny droplets called transcriptional condensates around genes, we can protect genetic programs and keep them stable even as cells grow," Zheng says. "It's a simple ...

DURHAM, N.C. -- As scientists work toward making genetically altered bacteria create living "circuits" to produce a myriad of useful proteins and chemicals, they have logically assumed that the single ...