Synthetic biology experiments suggest a “MultiFate” model for how genetically identical cells become the many different types found in complex organisms like us. The human body contains more than 200 ...

image: In new research, Alex Green, an assistant professor at ASU's Biodesign Institute and School of Molecular Sciences, demonstrates how living cells can be induced to carry out computations in the ...

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 ...

(Nanowerk News) Synthetic biology allows scientists to design genetic circuits that can be placed in cells, giving them new functions such as producing drugs or other useful molecules. However, as ...

Living cells are capable of performing complex computations on the environmental signals they encounter. These computations can be continuous, or analogue, in nature—the way eyes adjust to gradual ...

Living cells must constantly process information to keep track of the changing world around them and arrive at an appropriate response. Through billions of years of trial and error, evolution has ...

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 ...

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 ...

Scientists have demonstrated how living cells can be induced to carry out computations in the manner of tiny robots or computers. The interdisciplinary nexus of biology and engineering, known as ...

Here we explore inhibitory circuits at the thalamocortical stage of processing in layer 4 of the cat's visual cortex, focusing on the anatomy and physiology of the interneurons themselves. Our ...