DNA-based Rapid Testing ​Procedure Finds True Sources of Fecal Contamination

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DNA-based Rapid Testing ​Procedure Finds True Sources of Fecal Contamination

When bodies of water become polluted, it is important to find the cause as quickly and as economically as possible. To this end, TU Wien has now developed a new, DNA-based rapid testing procedure.

Water contamination is one of the world’s major health risks. In order to swiftly resolve the problem in the event of fecal contamination, it is vital that the cause is identified as quickly as possible: is it contamination from agriculture? Or wastewater from sewage?

Researchers at TU Wien have developed a simple method for detecting water contamination from ruminants directly at the source, using a simple DNA test. Information on the underlying technology was recently published in the specialist journal ‘Nature – Scientific Reports’.

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Test results: Two red stripes show that there is a contamination. Credit: Vienna University of Technology

DNA Tests

Methods for detecting the source of fecal water contamination using DNA have existed for some time. However, these methods were complicated, expensive and time-consuming, requiring samples to be taken and then sent to a laboratory for genetic analysis. “Certain bacteria are only found in the feces of very specific species of animal. When analyzing DNA samples of these bacteria, you can pinpoint exactly which creatures are the source of the contamination,” explains Georg Reischer from the Institute of Chemical Engineering at TU Wien. “There are, for example, bacteria which are commonly found in the intestinal microbiome of ruminants. If this type of DNA is found in a water sample, it is highly likely that the contamination originated from grazing cattle.”

The idea of developing a simple testing procedure based on this method was developed at TU Wien a number of years ago. However, adapting the detection method so that it would work and could be carried out quickly and reliably was not so easy, particularly without specialized biotechnological knowledge.

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Synthetic gold nanoparticles (left) with DNA-detector (right). Credit: Vienna University of Technology

Now, however, the technology has been perfected and published in a scientific journal and is set for market launch in the form of a simple testing device. “The bacteria are destroyed, the DNA is amplified in a targeted manner and then detected using a simple strip, much like a pregnancy test,” says Georg Reischer. “Fundamentally, this technology is applicable to many different bacteria and viruses, but for now we are concentrating on the detection of dangerous microbes in water, this being a particularly widespread problem.”

The technology was developed by TU Wien in partnership with the Department of Agrobiotechnology, IFA-Tulln at the University of Natural Resources and Life Sciences, Vienna and within the framework of the Inter-University Cooperation Centre Water and Health. The next step in this process will be to develop a prototype; we are currently still searching for a suitable industry partner to collaborate with. The measurement device is expected to cost a few hundred euros. 

Reference: 

Claudia Kolm, Roland Martzy, Manuela Führer, Robert L. Mach, Rudolf Krska, Sabine Baumgartner, Andreas H. Farnleitner, Georg H. Reischer, "Detection of a microbial source tracking marker by isothermal helicase-dependent amplification and a nucleic acid lateral-flow strip test", Scientific Reportsvolume 9, Article number: 393 (January 2019), DOI: 10.1038/s41598-018-36749-7

Source: Technical University in Vienna

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