Jun 26, 2023
New disease detector sensor developed

A new sensor chip advances rapid, cost-effective disease diagnostics. The integrated sensor chip detects late blight disease pathogen in potatoes and tomatoes as well as many other diseases.

Texas A&M AgriLife Research scientists and collaborators at Iowa State University developed the sensor chip that can detect many disease pathogens with 10 times the sensitivity of currently available methods.

An abstract diagram showing configuration of the LAMP reaction chamber and nanopore film sensor. The new sensor chip advances rapid, cost-effective disease diagnostics.

The chip also eliminates the need for chemical dye reagents typically used in the diagnostic process. The new technology shows promise for rapid, low-cost point-of-care diagnostic capabilities in plants, foods, animals and humans, including detecting foodborne pathogens, bird flu and COVID-19, according to a news release.

Results from the new sensor are available in about 30 minutes.

In their research, published in ASC Sensors, scientists used the new sensor to detect Phytophthora infestans. The pathogen causes globally devastating late blight disease — a particular threat to potato and tomato crops.

“This research advances technologies that have emerged as some of our greatest opportunities for improving agriculture, food safety and human health,” Junqi Song, an associate professor and plant immunity research lead with Texas A&M AgriLife Research in Dallas, said in the release. “Our publication represents a step toward realizing these powerful tools against diseases.”

The sensor builds on existing technologies. The new sensor improves upon a technique known as loop-mediated isothermal amplification, or LAMP, which is widely used to detect pathogens by amplifying their DNA.

Texas A&M AgriLife Extension Detection of LAMP products amplified from templates, such as pathogen DNA, often requires that the products be “labeled” by using fluorescence dyes — a costly process with low sensitivity. The new sensor diagnoses pathogens without such reagents and at high sensitivity. It also eliminates a lengthy DNA purification process that creates challenges for point-of-care use, according to the release.

The new chip consists of a nanopore thin-film sensor inside a special reaction chamber. Primers are uniquely designed to be immobilized on the nanofilm, causing amplified LAMP products to become bound to the sensor, which produces signals that can be directly and easily measured with a portable spectrometer.

Future applications
The LAMP chip offers a new portable platform to detect pathogens using label-free sensors with ultra sensitivity. The research team will now work to further enhance sensitivity to a subattomolar (a measure of the concentration of a chemical species) or even lower level.

The researchers plan to offset current challenges to detecting and distinguishing pathogen species and strains with high-sequence similarities. They will also work to improve the specificity of detections and establish quantitative detection by integrating artificial intelligence and CRISPR gene-editing technologies, according to the release.

Their goal is to achieve a viable product for broad adoption in plant, animal and human health point-of-care applications.

The research was co-led by Jinping Zhao, a Texas A&M AgriLife Research postdoctoral research scientist in Dallas, and Subin Mao, a Ph.D. candidate in electrical and computer engineering at Iowa State University. Serving as corresponding authors were collaborators Long Que, a professor of electrical engineering at Iowa State University, and Song. Seed grants from each university funded the research.

 




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