New diagnosis of beef disease by metagenomics

A Canadian university research team uses metagenomics in a new approach to identify diseases caused by bacteria. For example, pathogens and viruses.

Work on genomics has been underway for some time in other sectors of the agricultural industry. Nevertheless, but it is only recently that they have been applied to butcher’s cattle.

The study of genetic material from environmental samples has changed the way in which crops are selected. Consequently, whose diseases are treated and whose genetic composition of animals is included.

This is interesting since metagenomics can test many types of pathogens at the same time and requires only one sample.

Search on butcher cattle – New diagnosis beef disease metagenomics new

In butcher’s cattle. Therefore, genomic research has started in the field of disease diagnosis and understanding diseases, bacteria and viruses.

Cheryl Waldner. Consequently. Meanwhile, professor and researcher at the Western College of Veterinary Medicine, is one of the researchers working on metagenomic research in butcher’s cattle and is more particularly interested in Bovin respiratory diseases.

His work is underway at the Center of Excellence in Breeding. Meanwhile. Similarly, Foding (CEEF) as part of the Vache-Vaux surveillance network and constitutes a pioneer in the work which will be possible thanks to the new facilities of new diagnosis beef disease metagenomics new the University of Saskatchewan and CEEF.

With current methods for diagnosing diseases. a sample is taken and subject to a targeted test new diagnosis beef disease metagenomics for suspected disease. Consequently. The most common test is PCR, which detects specific genetic equipment, such as DNA or RNA, to determine the disease. However, this test detects only one disease at a time, by sample.

“In the end. Consequently. with current tests, I cannot find a bug if I do not know what I am looking for most of the time,” said Cheryl Waldner during the CEEF 2025 field in June 2025.

“I could come across it by chance, but unless you have a plan … they will probably miss it,” she added.

Thanks to the metagenomic sequencing, it is not necessary to determine a specific bacteria beforehand. This type of test makes it possible to simultaneously identify the known. unknown species, new diagnosis beef disease metagenomics new then to provide data allowing a more in -depth analysis at any time.

This also means that a single sample is necessary for the test.. that new diagnosis beef disease metagenomics it is not necessary to keep it permanently for subsequent analyzes or to take a new sample. This reduces the storage requirements and costs of these samples, as their conservation over long periods can be expensive.

“It’s as if I had a book. I was looking for specific words in a book. I could perhaps find these specific words (with the old tests),” she explained.

“It is rather like opening the book. really reading the lines of history. reading everything that is there and trying to determine whether it is relevant or not and whether there is something useful or not. »»

From a single sample subject to metagenomic sequencing. Cheryl Waldner is able to obtain information on respiratory new diagnosis beef disease metagenomics new diseases, conjunctivitis bacteria and antimicrobial resistance.

Cheryl Waldner notably applied his research by studying the nose of calves. which contains a large quantity of bacteria because of their constant presence at new diagnosis beef disease metagenomics the. end of the legs of their herd companions.

Metagonomic sequencing helped her learn more about pathogens of respiratory diseases. as the process can provide new information on pathogens that were previously difficult to identify or get to know better.

The bacteria on the nose of a calf are linked to the animal’s excrement. which can be relevant to the health of the herd, public health and surveillance. However, for Cheryl Waldner’s research, they offer an unprecedented overview of the functioning of genetic resistance to antimicrobials.

“It is not only a gene present in a sample,” she said. It is a gene present in a sample, linked to a bacteria and a whole set new diagnosis beef disease metagenomics new of other resistance genes. And. by the way. it is attached to a suitcase, a cassette or a mobile genetic element that wraps it all elegantly and makes it extremely contagious. And we also see it new diagnosis beef disease metagenomics when it is present. »»

In her research on respiratory diseases. she was able to easily identify Mycoplasma bovis As well as other mycoplasmes known to cause problems. but for which there are no commercial diagnostic tests.

New diagnosis beef disease metagenomics new

New diagnosis beef disease metagenomics

Larger range

Thanks to this research. metagenomic sequencing. Cheryl Waldner also studied how to vaccinate calves against coronavirus as a respiratory disease, rather than only against diarrhea. She indicated that one of her studies provides extremely solid evidence of the link between the coronavirus. respiratory diseases in calves.

She indicated that a large part of the virus is present in the calves. new diagnosis beef disease metagenomics new but that in the herds of cow-seats. there is practically no gene of antimicrobial resistance when you examine the respiratory pathogens by genomic sequencing or by traditional measurement methods. This means that the chances of vaccination and effective treatment are high.

“We really have an idea new diagnosis beef disease metagenomics of a universal test. ” she said, “and it worked very well. We can detect expected viruses: Bovine infectious rhinotracheitis (IBR), bovine viral diarrhea (BVD) and the syncytial bovine respiratory virus (BRSV). We can detect them, but also a whole bunch of other viruses that we do not test so often. »»

*Article by Janelle Rudoph published in Farmtariotranslated and adapted by Marie-Josée Parent.

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