Pathogen Detection Simplified With DNA Nanoballs
DNA nanoballs have been used to simplify nucleic acid testing and detect pathogens quickly and cheaply.
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Researchers at Karolinska Institute have developed a novel method using DNA Nanoballs to detect pathogens, aiming to simplify nucleic acid testing and revolutionize pathogen detection. The study's results, published in Science Advances, could pave the way for a straightforward electronic-based test capable of identifying various nucleic acids in diverse scenarios quickly and cheaply.
Principal investigator Vicent Pelechano, an associate professor at Karolinska Institute’s Department of Microbiology, Tumor and Cell Biology, is cautiously optimistic about the technology's potential to detect an array of pathogenic agents in real world settings.
“The methodology involves combining Molecular Biology (DNA Nanoball generation) and electronics (electric impedance-based quantification) to yield a pioneering detection tool”, says Vicent Pelechano.
The researchers modified an isothermal DNA amplification reaction termed LAMP to generate tiny 1-2μM DNA nanoballs if the pathogen was present in the sample. These nanoballs are then directed through minute channels and identified electrically as they traverse between two electrodes. The method has demonstrated remarkable sensitivity detecting as few as 10 target molecules and rapid results under one hour, using a compact, motionless system.
“Fast and accurate detection of genetic material is key for diagnosis, especially so in response to the emergence of novel pathogens”, says Vicent Pelechano.
The team commenced this work as an extension of their previous endeavors in LAMP (Loop-Mediated Isothermal Amplification) based detection of SARS-CoV-2 during the pandemic.
Presently, the research team is actively exploring avenues to integrate this technology into domains such as environmental monitoring, food safety, virus and antimicrobial resistance detection. The team is also exploring avenues for licensing or potentially establishing a startup to capitalize on this technology, having recently applied for a patent for the technology.
Reference: Tayyab M, Barrett D, van Riel G, et al. Digital assay for rapid electronic quantification of clinical pathogens using DNA nanoballs. Science Adv. 2023;9(36):eadi4997. doi: 10.1126/sciadv.adi4997
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