Dipstick Technology Could Revolutionise Pathogen Detection

New dipstick technology that enables pathogen detection and the rapid diagnosis of human, animal and plant disease in even the most remote locations has been developed by University of Queensland scientists.

School of Agriculture and Food Sciences researcher Professor Jimmy Botella said the technology could extract DNA and RNA from living organisms in as little as 30 seconds without specialised equipment or personnel.

“We have successfully used the dipsticks in remote plantations in Papua New Guinea to diagnose sick trees, and have applied it to livestock, human samples, pathogens in food, and in detecting environmental risks such as E. coli-contaminated water,” he said.

“This technology will give people in developed and developing nations a new way of tackling a range of agricultural, health and environmental problems.”

Professor Botella, who led the research team with Dr Michael Mason, said current commercial kits could isolate DNA and RNA through a long and cumbersome process requiring specialised laboratory equipment that was impractical in the field.

The UQ research team initially developed the dipstick technology for particular plants and later found it could purify DNA from many agriculturally important species.

“We found it had much broader implications as it could be used to purify either DNA or RNA from human blood, viruses, fungi and bacterial pathogens from infected plants or animals,” Professor Botella said.

UQ’s commercialisation company, UniQuest, has filed a patent application on the dipstick technology and is seeking commercial partners to help make it broadly available.

“Our technology eliminates the need for a specialised laboratory for sample preparation, and is a lot simpler, faster and cheaper than anything else available, making diagnostics accessible to everyone,” Professor Botella said.

“Our dipsticks, combined with other technologies developed by our group, mean the entire diagnostic process from sample collection to final result could be easily performed in a hospital, farm, hotel room or even a remote area such as a tropical jungle.”

This article has been republished from materials provided by the University of Queensland. Note: material may have been edited for length and content. For further information, please contact the cited source.

Reference
Yiping Zou, Michael Glenn Mason, Yuling Wang, Eugene Wee, Conny Turni, Patrick J. Blackall, Matt Trau, Jose Ramon Botella. Nucleic acid purification from plants, animals and microbes in under 30 seconds. PLOS Biology, 2017; 15 (11): e2003916 DOI: 10.1371/journal.pbio.2003916.