A microbiologist working on the 100K Genome Project, designed to have outbreaks under control. (Photo: news.ucdavis.edu)
Govt launches genome project for foodborne pathogens
Wednesday, July 18, 2012, 17:20 (GMT + 9)
The Food and Drug Administration (FDA) is embarking on a five-year collaboration with public and private partners to create a public database of the gene sequences of 100,000 bacteria that have been responsible for outbreaks of foodborne illnesses around the world. Gene sequences are the ordered chemical building blocks that make up the bacteria's DNA.
The goal of this effort, called The 100K Genome Project is to give public health officials the tools they need to more rapidly identify the source of the contamination and bring these outbreaks under control, says Steven Musser, PhD, director of the Office of Regulatory Science in FDA's Centre for Food Safety and Applied Nutrition (CFSAN).
The tiny organisms that cause foodborne illnesses—bacteria, viruses and others—are formidable foes. Despite efforts to reduce outbreaks, bacteria like Salmonella, Campylobacter, E. coli and Listeria are pervasive in the environment. Like masters of disguise, they evolve into different strains to adapt to changing surroundings.
These microorganisms are collectively referred to as food pathogens. And they do a lot of harm. Every year an estimated 48 million Americans get sick from a foodborne disease, 128,000 are hospitalized, and 3,000 die, according to the Centres for Disease Control and Prevention (CDC).
Despite progress in our understanding of these pathogens, there is a lot that scientists do not yet understand, including where these harmful organisms live, how they survive or multiply in the environment, and whether some geographic locations affect them in unique ways.
The Practical Applications
Musser explains that the new database containing the genetic codes of food pathogens will:
- Enable scientists in both the public and private sectors to develop tests that can identify the bacteria present in a sample within days or even hours.
- Help investigators discover the likely source of an outbreak. For example, a cluster of Salmonella illnesses is detected using current testing procedures but the contaminated food is not easily identified. A test would reveal what bacteria is present in the person's body and the genome database could indicate where that strain or one like it came from the last time it was detected. That would point investigators in the direction of a specific food or region.
- Greatly expand the pool of researchers able to develop software for the diagnosis and analysis of potential hazards that could lead to new methods of preventing and controlling outbreaks. Making this information available to the public means that researchers throughout the world can use it.
"If we keep this information to ourselves at FDA, we're limited to just what we can think of doing with it," says Musser.