In the latest synthetic biology project, research groups from Princeton and Caltech have programmed living E.coli bacteria with genetically engineered plasmids to perform a certain set of intra- and extracellular functions. From the press release:
In a step toward making living cells function as if they were tiny computers, engineers at Princeton have programmed bacteria to communicate with each other and produce color-coded patterns.
The feat, accomplished in a biology lab within the Department of Electrical Engineering, represents an important proof-of-principle in an emerging field known as “synthetic biology,” which aims to harness living cells as workhorses that detect hazards, build structures or repair tissues and organs within the body.
“We are really moving beyond the ability to program individual cells to programming a large collection — millions or billions — of cells to do interesting things,” said Ron Weiss, an assistant professor of electrical engineering and molecular biology.
Collaborating with researchers at the California Institute of Technology, Weiss and graduate student Subhayu Basu programmed E. coli bacteria to emit red or green fluorescent light in response to a signal emitted from another set of E. coli. In one experiment, the cells glowed green when they sensed a higher concentration of the signal chemical and red when they sensed a lower concentration. In a Petri dish, they formed a bull’s-eye pattern — a green circle inside a red one — surrounding the sender cells.
In addition to demonstrating that the genetic programming techniques work, this sensing system could be useful for the detection of chemicals or organisms in laboratory tests. “The bull’s-eye could tell you: This is where the anthrax is,” said Weiss.