New technology developed by Josh Hihath and colleagues from the ECE department at UC Davis uses atomically fine electrodes to suspend a DNA probe that binds target RNA. The device is able to detect as little as a one-base change in RNA, enough to detect toxic strains of E. coli. His team focused on E. coli since it is a common pathogen that could easily be found in the food supply, but might not cause illness in a benign form. The worst strain of E. coli, called E.coli O157:H7, produces a toxic substance called Shiga toxin that causes bloody diarrhea, kidney failure and even death.
“The reliable, efficient and inexpensive detection and identification of specific strains of microorganisms such as E. coli is a grand challenge in biology and the health sciences. Our technique could pave the way for rapid, straightforward detection of pathogens, antimicrobial resistant bacterial strains and bio markers for cancer.”says professor Hihath.
This work was recently published online in the Journal Nature Nanotechnology on November 5th, 2018.