The Q-System as a Synthetic Transcriptional Regulator in Plants

The Q-System as a Synthetic Transcriptional Regulator in Plants

A primary focus of the rapidly growing field of plant synthetic biology is to develop technologies to precisely regulate gene expression and engineer complex genetic circuits into plant chassis. At present, there are few orthogonal tools available for effectively controlling gene expression in plant...

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Published in:Frontiers in plant science Vol. 11; p. 245
Main Authors: Persad, Ramona, Reuter, D Nikki, Dice, Lezlee T, Nguyen, Mary-Anne, Rigoulot, Stephen B, Layton, Jessica S, Schmid, Manuel J, Poindexter, Magen R, Occhialini, Alessandro, Stewart, Jr, C Neal, Lenaghan, Scott C
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 11-03-2020
Subjects:
gene expression
genetic circuits
metabolic engineering
Plant Science
plant synthetic biology
Q-system
metabolic engineering
genetic circuits
plant synthetic biology
gene expression
Q-system
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Summary:A primary focus of the rapidly growing field of plant synthetic biology is to develop technologies to precisely regulate gene expression and engineer complex genetic circuits into plant chassis. At present, there are few orthogonal tools available for effectively controlling gene expression in plants, with most researchers instead using a limited set of viral elements or truncated native promoters. A powerful repressible-and engineerable-binary system that has been repurposed in a variety of eukaryotic systems is the Q-system from . Here, we demonstrate the functionality of the Q-system in plants through transient expression in soybean ( ) protoplasts and agroinfiltration in leaves. Further, using functional variants of the QF transcriptional activator, it was possible to modulate the expression of reporter genes and to fully suppress the system through expression of the QS repressor. As a potential application for plant-based biosensors (phytosensors), we demonstrated the ability of the Q-system to amplify the signal from a weak promoter, enabling remote detection of a fluorescent reporter that was previously undetectable. In addition, we demonstrated that it was possible to coordinate the expression of multiple genes through the expression of a single QF activator. Based on the results from this study, the Q-system represents a powerful orthogonal tool for precise control of gene expression in plants, with envisioned applications in metabolic engineering, phytosensors, and biotic and abiotic stress tolerance.
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Reviewed by: Daolong Dou, Nanjing Agricultural University, China; Carmen Ruger-Herreros, Heidelberg University, Germany
This article was submitted to Plant Biotechnology, a section of the journal Frontiers in Plant Science
Edited by: Poul Erik Jensen, University of Copenhagen, Denmark
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2020.00245