PLANT-Dx: A Molecular Diagnostic for Point-of-Use Detection of Plant Pathogens

M. Verosloff; J. Chappell; K. L. Perry; J. R. Thompson; J. B. Lucks

doi:10.1021/acssynbio.8b00526

PLANT-Dx: A Molecular Diagnostic for Point-of-Use Detection of Plant Pathogens

M. Verosloff, J. Chappell, K. L. Perry, J. R. Thompson, J. B. Lucks^*

^*Corresponding author for this work

Chemical and Biological Engineering

Research output: Contribution to journal › Article › peer-review

45 Scopus citations

Abstract

Synthetic biology based diagnostic technologies have improved upon gold standard diagnostic methodologies by decreasing cost, increasing accuracy, and enhancing portability. However, there has been little effort in adapting these technologies toward applications related to point-of-use monitoring of plant and crop health. Here, we take a step toward this vision by developing an approach that couples isothermal amplification of specific plant pathogen genomic sequences with customizable synthetic RNA regulators that are designed to trigger the production of a colorimetric output in cell-free gene expression reactions. We demonstrate our system can sense viral derived sequences with high sensitivity and specificity, and can be utilized to directly detect viruses from infected plant material. Furthermore, we demonstrate that the entire system can operate using only body heat and naked-eye visual analysis of outputs. We anticipate these strategies to be important components of user-friendly and deployable diagnostic systems that can be configured to detect a range of important plant pathogens.

Original language	English (US)
Pages (from-to)	902-905
Number of pages	4
Journal	ACS synthetic biology
Volume	8
Issue number	4
DOIs	https://doi.org/10.1021/acssynbio.8b00526
State	Published - Apr 19 2019

Funding

We wish to acknowledge the contributions of Dr. Khalid Alam for help in ensuring reproducibility and proofreading of this manuscript, and Dr. Melissa Takahashi for inspiring the combination of RPA and STARs for pathogen detection. This work was supported by an NSF CAREER Award (1452441 to J.B.L.), Searle Funds at the Chicago Community Trust (to J.B.L.), and a Grand Challenges Explorations Grant from the Bill & Melinda Gates Foundation (OPP1199439 to J.B.L.).

Keywords

RNA synthetic biology
cell free synthetic biology
crop pathogens
isothermal amplification
plant viruses
point-of-use diagnostics

ASJC Scopus subject areas

Biomedical Engineering
Biochemistry, Genetics and Molecular Biology (miscellaneous)

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10.1021/acssynbio.8b00526

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title = "PLANT-Dx: A Molecular Diagnostic for Point-of-Use Detection of Plant Pathogens",

abstract = "Synthetic biology based diagnostic technologies have improved upon gold standard diagnostic methodologies by decreasing cost, increasing accuracy, and enhancing portability. However, there has been little effort in adapting these technologies toward applications related to point-of-use monitoring of plant and crop health. Here, we take a step toward this vision by developing an approach that couples isothermal amplification of specific plant pathogen genomic sequences with customizable synthetic RNA regulators that are designed to trigger the production of a colorimetric output in cell-free gene expression reactions. We demonstrate our system can sense viral derived sequences with high sensitivity and specificity, and can be utilized to directly detect viruses from infected plant material. Furthermore, we demonstrate that the entire system can operate using only body heat and naked-eye visual analysis of outputs. We anticipate these strategies to be important components of user-friendly and deployable diagnostic systems that can be configured to detect a range of important plant pathogens.",

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AU - Thompson, J. R.

AU - Lucks, J. B.

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AB - Synthetic biology based diagnostic technologies have improved upon gold standard diagnostic methodologies by decreasing cost, increasing accuracy, and enhancing portability. However, there has been little effort in adapting these technologies toward applications related to point-of-use monitoring of plant and crop health. Here, we take a step toward this vision by developing an approach that couples isothermal amplification of specific plant pathogen genomic sequences with customizable synthetic RNA regulators that are designed to trigger the production of a colorimetric output in cell-free gene expression reactions. We demonstrate our system can sense viral derived sequences with high sensitivity and specificity, and can be utilized to directly detect viruses from infected plant material. Furthermore, we demonstrate that the entire system can operate using only body heat and naked-eye visual analysis of outputs. We anticipate these strategies to be important components of user-friendly and deployable diagnostic systems that can be configured to detect a range of important plant pathogens.

KW - RNA synthetic biology

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PLANT-Dx: A Molecular Diagnostic for Point-of-Use Detection of Plant Pathogens

Abstract

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Keywords

ASJC Scopus subject areas

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