A redundant transcription factor network steers spatiotemporal Arabidopsis triterpene synthesis

Plant specialized metabolites modulate developmental and ecological functions and comprise many therapeutic and other high-value compounds. However, the mechanisms determining their cell-specific expression remain unknown. Here we describe the transcriptional regulatory network that underlies cell-s...

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Veröffentlicht in:	Nature plants 2023-06, Vol.9 (6), p.926-937
Hauptverfasser:	Nguyen, Trang Hieu, Thiers, Louis, Van Moerkercke, Alex, Bai, Yuechen, Fernández-Calvo, Patricia, Minne, Max, Depuydt, Thomas, Colinas, Maite, Verstaen, Kevin, Van Isterdael, Gert, Nützmann, Hans-Wilhelm, Osbourn, Anne, Saeys, Yvan, De Rybel, Bert, Vandepoele, Klaas, Ritter, Andrés, Goossens, Alain
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Schlagworte:	14/19 14/35 38/39 38/77 38/91 631/449/1741 631/449/2667 631/449/2675 Arabidopsis Arabidopsis - genetics Arabidopsis - metabolism Arabidopsis Proteins - genetics Arabidopsis Proteins - metabolism Basic Helix-Loop-Helix Transcription Factors - metabolism Biomedical and Life Sciences Biosynthesis Ecological function Gene expression Gene Expression Regulation, Plant Genes Homeobox Jasmonic acid Life Sciences Metabolites Pharmacology Plant hormones Plant Sciences Redundancy Repressors Robustness Tips Transcription factors Transcription Factors - genetics Transcription Factors - metabolism Triterpenes Triterpenes - metabolism
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creator	Nguyen, Trang Hieu Thiers, Louis Van Moerkercke, Alex Bai, Yuechen Fernández-Calvo, Patricia Minne, Max Depuydt, Thomas Colinas, Maite Verstaen, Kevin Van Isterdael, Gert Nützmann, Hans-Wilhelm Osbourn, Anne Saeys, Yvan De Rybel, Bert Vandepoele, Klaas Ritter, Andrés Goossens, Alain
description	Plant specialized metabolites modulate developmental and ecological functions and comprise many therapeutic and other high-value compounds. However, the mechanisms determining their cell-specific expression remain unknown. Here we describe the transcriptional regulatory network that underlies cell-specific biosynthesis of triterpenes in Arabidopsis thaliana root tips. Expression of thalianol and marneral biosynthesis pathway genes depends on the phytohormone jasmonate and is limited to outer tissues. We show that this is promoted by the activity of redundant bHLH-type transcription factors from two distinct clades and coactivated by homeodomain factors. Conversely, the DOF-type transcription factor DAG1 and other regulators prevent expression of the triterpene pathway genes in inner tissues. We thus show how precise expression of triterpene biosynthesis genes is determined by a robust network of transactivators, coactivators and counteracting repressors. Plant specialized metabolite biosynthesis is strictly regulated in time and space. The authors describe a robust and redundant transcriptional network that steers cell-specific and jasmonate-inducible triterpene biosynthesis in Arabidopsis root tips.
doi_str_mv	10.1038/s41477-023-01419-8
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title	A redundant transcription factor network steers spatiotemporal Arabidopsis triterpene synthesis
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