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. 2022 Dec;40(12):1862-1872.
doi: 10.1038/s41587-022-01383-2. Epub 2022 Jul 4.

Synthetic memory circuits for stable cell reprogramming in plants

James P B Lloyd  1 Florence Ly  1 Patrick Gong  1 Jahnvi Pflueger  2 Tessa Swain  2 Christian Pflueger  1   2 Elliott Fourie  1 Muhammad Adil Khan  1 Brendan N Kidd  1 Ryan Lister  3   4
Affiliations

Synthetic memory circuits for stable cell reprogramming in plants

James P B Lloyd et al. Nat Biotechnol. 2022 Dec.

Abstract

Plant biotechnology predominantly relies on a restricted set of genetic parts with limited capability to customize spatiotemporal and conditional expression patterns. Synthetic gene circuits have the potential to integrate multiple customizable input signals through a processing unit constructed from biological parts to produce a predictable and programmable output. Here we present a suite of functional recombinase-based gene circuits for use in plants. We first established a range of key gene circuit components compatible with plant cell functionality. We then used these to develop a range of operational logic gates using the identify function (activation) and negation function (repression) in Arabidopsis protoplasts and in vivo, demonstrating their utility for programmable manipulation of transcriptional activity in a complex multicellular organism. Specifically, using recombinases and plant control elements, we activated transgenes in YES, OR and AND gates and repressed them in NOT, NOR and NAND gates; we also implemented the A NIMPLY B gate that combines activation and repression. Through use of genetic recombination, these circuits create stable long-term changes in expression and recording of past stimuli. This highly compact programmable gene circuit platform provides new capabilities for engineering sophisticated transcriptional programs and previously unrealized traits into plants.

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