New DNA test will improve tracking of Salmonella food-poisoning outbreaks

Philadelphia, April 28, 2020 – Researchers report the development of a sensitive and specific assay to detect different serotypes of

Salmonella

, paving the way for rapid serotyping directly from specimens. This improvement upon current testing methods can play a critical role in quickly tracing the origin of the infection. The

report

appears in The


Journal of Molecular Diagnostics


, published by Elsevier.

Recent data from the Centers for Disease Control and Prevention (CDC) indicate that food poisoning caused by

Salmonella

bacteria leads to 1.35 million infections, 26,500 hospitalizations, and 420 deaths in the United States per year. During an outbreak, the speed and simplicity of a test to detect specific types of bacteria are important for public health investigators to track down the source.

”

Salmonella

in a clinical or food sample may be present in very small amounts and thus requires very sensitive methods to detect them. Multiple cross-displacement amplification (MCDA) is a method that can detect very small amounts of DNA rapidly and is also performed at a single constant temperature, in contrast to the cycling of temperatures required in other methods such as PCR. This makes it a good fit for a simple, rapid, and sensitive bacterial detection test. Although an MCDA test for any

Salmonella

already exists, it does not distinguish between different serotypes,” explained Professor Ruiting Lan, PhD, of the School of Biotechnology and Biomolecular Sciences at the University of New South Wales, Sydney, NSW, Australia.

The investigators developed an MCDA assay for each of the seven serovar (subtype)-specific targets of

Salmonella

. All of these assays accurately detect as few as 10 copies of DNA and can produce results in approximately eight minutes. Importantly, these assays do not require specialized detection equipment, simplifying any future application in clinical or industrial settings. By combining these seven serovar-specific assays with the existing species assay,

Salmonella

detection can be simplified and accelerated.

“The assays developed in this study are unique because the gene markers used were selected based on analyzing thousands of genomes. Thus, these markers future proof

Salmonella

serotyping in the era of culture-independent diagnostic testing,” commented Professor Lan.

Traditional methods to distinguish

Salmonella

serotypes involve growing the bacteria from samples and then testing them to assign them to a serovar. The MCDA test is faster because it does not require first growing the bacteria in culture. Rather, it can detect very small amounts of

Salmonella

DNA.

Although there are hundreds of

Salmonella

serovars, the authors chose the five most commonly occurring in Australia, which cause more than 85 percent of

Salmonella

infections in that country. However, at least two of these serovars are also the top

Salmonella

serovars throughout the world, therefore the researchers believe the results are applicable to other geographic regions.

Salmonella

bacteria typically live in animal and human intestines and are shed through feces. Humans may become infected by ingesting contaminated water or food such as raw or undercooked meat, poultry, eggs, or egg products. Possible signs and symptoms of

Salmonella

poisoning include nausea, vomiting, abdominal cramps, diarrhea, fever, and headache.

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