Biochemist Yingfu Li and his research team have developed a simple test that can swiftly and accurately identify specific pathogens using a system that will 'hunt' for bacteria, identifying their harmful presence before they have a chance to contaminate our food and water.
Like any living thing, bacteria have their own spoor, leaving behind molecular trails of bacterial 'droppings'. Li tracks these metabolic by-products with molecular beacons - little lighthouses on a molecular scale that actually light up when they detect one of the by-products left behind.
Li created a DNAzyme sensor that will be able to identify any bacteria, utilizing a method that doesn't require the steps and specialized equipment typically used to identify whether or not harmful bacteria are present.
"Current methods of food-borne bacterial detection take time. The five days it takes to detect listeria, for example, can translate into an outbreak that costs lives. We have developed a universal test that uses less complex procedures but still generates precise and accurate results," said Li, a Canada Research Chair in Directed Evolution of Nucleic Acids.
Li's fluorescent test system was highlighted in Angewandte Chemie International Edition, a prestigious weekly chemistry journal that ranks among the best for the original research it publishes. Li's paper, co-authored with lab members Monsur Ali, Sergio Aguirre and Hadeer Lazim, was designated a 'hot paper' by Angewandte's editors for "its importance in a rapidly evolving field of current interest".
"McMaster researchers are known for their ability to provide solutions to problems that impact the public's well-being, said Mo Elbestawi, vice-president, research and international affairs at McMaster. "The test that Professor Li has developed will help safeguard the health of Canadians, and supply industry with a reliable means to bring safe food products to consumers and reduce their time to market."
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