A Syringe‐Based DNAzyme Sensor for Bacterial Detection Journal Articles

abstract

• AbstractWe present a simple approach for bacterial detection that uses a bead‐bound RNA‐cleaving DNAzyme (RcD) and a syringe. The RcD used in this study, F‐EC1, is fluorescently labelled and can be specifically activated by a protein target released specifically by E. coli. Upon immobilization on agarose beads, the kinetic behaviour of F‐EC1 remains similar to that in solution. The F‐EC1‐agarose system was able to detect as few as 1,000 CFUs of E. coli and retained high recognition specificity. A syringe‐based biosensor was subsequently designed, where F‐EC1‐bearing agarose beads were loaded onto a filter‐containing column. Upon incubation with an E. coli containing reaction mixture, the cleavage fragment released from the beads was filtered onto a nitrocellulose paper to be detected. The sensor was used to achieve the detection of E. coli in water, milk, and apple juice. This method is cost‐effective, simple to use, and can be adapted to other ligand‐responsive RNA‐cleaving DNAzymes.

authors

• Esmaeili Samani, Sahar
• McConnell, Erin M
• Chang, Dingran
• Rothenbroker, Meghan
• Filipe, Carlos
• Li, Yingfu

status

• published 

publication date

• April 2021

published in

• Analysis & Sensing  Journal

keywords

• Bacteria
• Chemistry
• Chemistry, Analytical
• DNAzymes
• Nanoscience & Nanotechnology
• Physical Sciences
• RNA cleavage
• Science & Technology
• Science & Technology - Other Topics
• biosensors
• fluorescent labeling

Digital Object Identifier (DOI)

• 10.1002/anse.202100006

start page

• 95

end page

• 100

volume

• 1

issue

• 2