GM microbes created that cant escape the lab

Posted: January 22, 2015 at 4:47 am

Mediscan/Corbis

Synthetic biologists hope to treat disease in the gut by making Lactobacillus bacteria (pictured) that are dependent on an artificial amino acid.

Critics of genetic engineering have long worried about the risk of modified organisms escaping into the environment. A biological-containment strategy described this week in Nature1, 2 has the potential to put some of those fears to rest and to pave the way for greater use of engineered organisms in areas such as agriculture, medicine and environmental clean-up.

Two US teams have produced genetically modified (GM) bacteria that depend on a protein building block an amino acid that does not occur in nature. The bacteria thrive in the laboratory, growing robustly as long as the unnatural amino acid is included in their diet. But several experiments involving 100billion or more cells and lasting up to 20days did not reveal a single microbe capable of surviving in the absence of the artificial supplement.

Our strains, to the extent that we can test them, wont escape, says Dan Mandell, a synthetic biologist at Harvard Medical School in Boston, Massachusetts, and an author on one of the two studies describing the strategy.

The microbes also do not swap their engineered DNA with natural counterparts because they no longer speak lifes shared biochemical language. Establishing safety and security from the get-go will really enable broad and open use of engineered organisms, says Farren Isaacs, a synthetic biologist at Yale University in New Haven, Connecticut, who led the other study.

Biocontainment could provide added safety in the biological production of drugs or fuels, where microbes can be kept separate from their surroundings. But the modified bacteria could also permit controlled release into the human body or the environment. Containment might no longer be of the physical kind, says Tom Ellis, a synthetic biologist at Imperial College London who was not involved in the research.

The new technique originated in the laboratory of George Church, a geneticist at Harvard Medical School. Two years ago, Church and his team (which included Isaacs) reported the synthesis of a strain of Escherichia coli that had a reprogrammed genetic code3. Instead of recognizing a particular DNA triplet known as the amber stop codon as an order to terminate protein synthesis, the recoded bacterium read the same instruction as a directive to incorporate a new kind of amino acid into its proteins.

Church and Isaacs have independently made this engineered microbe reliant on unnatural amino acids. The Isaacs team used genomic sequencing to identify sites in essential bacterial proteins where the microbes could incorporate synthetic amino acids without affecting overall function, whereas Churchs group started with the protein structures and added elements to help integrate and accommodate the artificial amino acids.

This is really the culmination of a decade of work, says Church.

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GM microbes created that cant escape the lab

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