Synthetic Memory Circuits For Stable Cell Reprogramming In Plants
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Synthetic memory circuits for stable cell reprogramming in plants. Lloyd JPB, Ly F, Gong P, Pflueger J, Swain T, Pflueger C, Fourie E, Khan MA, Kidd BN, Lister R Nat Biotechnol. 2022
A logical way to reprogram plants
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
Synthetic memory circuits for stable cell reprogramming in plants. James Lloyd (Creator) James Lloyd (Contributor) Florence Ly (Contributor) Patrick Gong (Contributor) Jahnvi Pflüger
{„references“: [„Lloyd et al. (2022) Synthetic memory circuits for programmable cell reconfiguration in plants. bioRxiv\
- Programmable control of spatial transcriptome in live cells
- Synthetic gene circuits for precise reprogramming of plants
- Engineering crop resilience with synthetic gene circuits
Synthetic memory circuits for stable cell reprogramming in plants Lloyd, J. P. B., Ly, F., Gong, P., Pflueger, J., Swain, T., Pflueger, C., Fourie, E., Khan, M. A., Kidd, B. N. & Lister, R., Dec 2022,
Synthetic memory circuits for programmable cell reconfiguration in plants James P B Lloyd 1 , Florence Ly 1 , Patrick Gong 1 , Jahnvi Pflüger 2 , T essa Swain 2 , Christian
Synthetic gene circuits for precise reprogramming of plants
Synthetic memory circuits for stable cell reprogramming in plants Lloyd, J. P. B., Ly, F., Gong, P., Pflueger, J., Swain, T., Pflueger, C., Fourie, E., Khan, M. A., Kidd, B. N. & Lister, R., Dec 2022,
By combining modularity, scalability and precision, synthetic circuits provide unparalleled opportunities to reprogram plant pathways in a user-defined manner. These
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
Synthetic memory circuits for stable cell reprogramming in plants. James Lloyd (Creator) ARC Centre for Plant Energy Biology; School of Molecular Sciences; Dataset.
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
This preprint introduces a suite of functional recombinase-based gene circuits for use in plants. These circuits can integrate multiple input signals, produce predictable outputs,
- A logical way to reprogram plants
- Synthetic memory circuits for stable cell reprogramming in plants
- 清华大学药学院张数一团队提出植物基因线路可预测设计新框架
- CRISPRi-based circuits to control gene expression in plants
- Synthetic memory circuits for stable cell reprogramming in plants.
Request PDF | Synthetic genetic circuits enable reprogramming of plant roots | The shape of a plant’s root system influences its ability to reach essential nutrients in the soil and to
Synthetic memory circuits for stable cell reprogramming in plants. James P B Lloyd, Florence Ly, Patrick Gong, Jahnvi Pflueger, Tessa Swain, Christian Pflueger, Elliott Fourie, Muhammad Adil
Synthetic genetic circuits as a means of reprogramming plant roots. Science (2022) J.P.B. Lloyd Synthetic memory circuits for stable cell reprogramming in plants. Nat.
Thompson, A. J. et al. Ectopic expression of a tomato 9-cis-epoxycarotenoid dioxygenase gene causes over-production of abscisic acid. Plant J. 23, 363–374 (2000).
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
Synthetic memory circuits for stable cell reprogramming in plants. James Lloyd (Creator) James Lloyd (Contributor) Florence Ly (Contributor) Patrick Gong (Contributor) Jahnvi Pflüger
Lloyd, J. P. B. et al. Synthetic memory circuits for stable cell reprogramming in plants. Nat. Biotechnol. circuits as a means of reprogramming plant roots. Science 377, 747–751 (2022).
The data supporting the publication: Synthetic memory circuits for stable cell reprogramming in plants. Skip to main. Communities. My dashboard . Log in Sign up Published
Dr James Lloyd and Professor Ryan Lister, from UWA’s School of Molecular Sciences, are authors of the study Synthetic memory circuits for stable cell reprogramming in
In these preprints, the authors design synthetic gene circuits in Arabidopsis and tobacco for expressing genes fine-tuned in specific tissues and demonstrate the application in changing root architecture. Key findings: Brophy
Synthetic promoter evaluation, NOR gate construction and sgRNA processing a, Schematic of the construct used for testing the activity of synthetic promoters in plant cells. The
In this review, we first discuss the recently developed plant synthetic elements from single parts to advanced circuits, software, and hardware tools expediting the engineering
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
Synthetic memory circuits for programmable cell reconfiguration in plants. James P B Lloyd, Florence Ly, Patrick Gong, 19 December 2022 . Preprint posted on 12 February
Synthetic memory circuits for stable cell reprogramming in plants. James Lloyd (Creator) James Lloyd (Contributor) Florence Ly (Contributor) Patrick Gong (Contributor) Jahnvi Pflüger
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
Synthetic memory circuits for stable cell reprogramming in plants; Synthetic mem Previous Next; Previous; Next ; Synthetic memory circuits for stable cell reprogramming in
Recent work reprogrammed growth patterns using logic gates–based synthetic circuitry with genes involved in auxin-regulated growth [1]. This approach employs synthetic
To generate plants with predictable and programmable responses, Lloyd et al. [37] developed a synthetic memory circuit capable of performing Boolean logic operations to stably
Synthetic memory circuits for stable cell reprogramming in plants. Nat Biotechnol, 40 (2022), pp. 1862-1872. Crossref View in Scopus Google Scholar. Reprogramming of cell
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