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Programming bacteria for multiplexed DNA detection

Biology

Programming bacteria for multiplexed DNA detection

Y. Cheng, Z. Chen, et al.

Discover how researchers Yu-Yu Cheng and team from the University of Wisconsin-Madison are pioneering cell-based DNA sensors using *Bacillus subtilis* to detect specific DNA sequences from various bacterial species, including major human pathogens. Their innovative technology allows multiplexed detection from complex samples without the need for DNA extraction, showcasing its broad applicability in diagnostic fields.... show more
Abstract
DNA is a universal and programmable signal of living organisms. Here we develop cell-based DNA sensors by engineering the naturally competent bacterium Bacillus subtilis (B. subtilis) to detect specific DNA sequences in the environment. The DNA sensor strains can identify diverse bacterial species including major human pathogens with high specificity. Multiplexed detection of genomic DNA from different species in complex samples can be achieved by coupling the sensing mechanism to orthogonal fluorescent reporters. We also demonstrate that the DNA sensors can detect the presence of species in the complex samples without requiring DNA extraction. The modularity of the living cell-based DNA-sensing mechanism and simple detection procedure could enable programmable DNA sensing for a wide range of applications.
Publisher
Nature Communications
Published On
Apr 10, 2023
Authors
Yu-Yu Cheng, Zhengyi Chen, Xinyun Cao, Tyler D. Ross, Tanya G. Falbel, Briana M. Burton, Ophelia S. Venturelli
DOI
https://doi.org/10.1038/s41467-023-37582-x
Tags
DNA sensors
Bacillus subtilis
bacterial detection
genomic DNA
multiplexed detection
pathogens
fluorescent reporters

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