Findings has implications for understanding the evolution of what makes Listeria monocytogenes pathogenic, and also for developing faster and more specific testing methods.
Researchers at Cornell University have discovered five new species of Listeria – including one named for Cornell. The discovery is expected to provide new insights that could lead to better ways to detect soil bacteria in food.
To date, of the 10 previously known species of Listeria, only two are pathogenic to humans: Listeria monocytogenes is the main cause of Listeriosis, which causes illness in hundreds – and death in nearly 250 – people each year in the United States through infected deli meats, seafood and produce.
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A microscopy image of individual cells of
Listeria cornellensis - (Emily Wright)
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The new study, published online March 5 in the International Journal of Systematic and Evolutionary Microbiology, suggests that all five new species are benign.
The research was part of a larger study led by researchers at Colorado State University and Cornell to examine the distribution of such foodborne pathogens as Listeria, E. coli and Salmonellain agricultural and natural environments. Samples were taken from fields, soil, ponds and streams in New York, Colorado and Florida.
“Doing studies on natural diversity in produce fields helps us develop better and more precise tests to make food safer,” said Martin Wiedmann, Cornell professor of food science and the paper’s senior author.
To identify the five new species, the researchers applied molecular biology methods, including full genome sequencing. The findings have implications for understanding the evolution of what makes Listeria monocytogenes pathogenic.
The study has economic implications, since tests to identify Listeria cost about $25 each, and large food and produce plants run thousands of tests, spending up to half a million per year.
To identify L. monocytogenes, food producers and researchers first look for the presence of more common Listeria species. But tests may only work to identify Listeria species that are very similar to L. monocytogenes.
“If you find a species that grows at different temperatures, or feeds on different sugars, then running the same test is not a good idea,” said Wiedmann. “This helps us to develop better rational tests that makes our food supply safer,” he added.
Source: Cornell University
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