A network of transcriptional repressors modulates auxin responses

Truskina, Jekaterina; Han, Jingyi; Chrysanthou, Elina; Galvan-Ampudia, Carlos S.; Lain�, St�phanie; Brunoud, G�raldine; Mac�, Julien; Bellows, Simon; Legrand, Jonathan; B�gman, Anne Maarit; Smit, Margot E.; Smetana, Ond?ej; Stigliani, Arnaud; Porco, Silvana; Bennett, Malcolm J.; M�h�nen, Ari Pekka; Parcy, Fran�ois; Farcot, Etienne; Roudier, Francois; Brady, Siobhan M.; Bishopp, Anthony; Vernoux, Teva

doi:10.1038/s41586-020-2940-2

A network of transcriptional repressors modulates auxin responses

Truskina, Jekaterina; Han, Jingyi; Chrysanthou, Elina; Galvan-Ampudia, Carlos S.; Lain�, St�phanie; Brunoud, G�raldine; Mac�, Julien; Bellows, Simon; Legrand, Jonathan; B�gman, Anne Maarit; Smit, Margot E.; Smetana, Ond?ej; Stigliani, Arnaud; Porco, Silvana; Bennett, Malcolm J.; M�h�nen, Ari Pekka; Parcy, Fran�ois; Farcot, Etienne; Roudier, Francois; Brady, Siobhan M.; Bishopp, Anthony; Vernoux, Teva

Authors

Jekaterina Truskina

Jingyi Han

Elina Chrysanthou

Carlos S. Galvan-Ampudia

St�phanie Lain�

G�raldine Brunoud

Julien Mac�

Simon Bellows

Jonathan Legrand

Anne Maarit B�gman

Margot E. Smit

Ond?ej Smetana

Arnaud Stigliani

Silvana Porco

MALCOLM BENNETT malcolm.bennett@nottingham.ac.uk
Professor of Plant Science

Ari Pekka M�h�nen

Fran�ois Parcy

ETIENNE FARCOT Etienne.Farcot@nottingham.ac.uk
Associate Professor

Francois Roudier

Siobhan M. Brady

ANTHONY BISHOPP Anthony.Bishopp@nottingham.ac.uk
Professor of Plant Development Biology

Teva Vernoux

Abstract

The regulation of signalling capacity, combined with the spatiotemporal distribution of developmental signals themselves, is pivotal in setting developmental responses in both plants and animals. The hormone auxin is a key signal for plant growth and development that acts through the AUXIN RESPONSE FACTOR (ARF) transcription factors. A subset of these, the conserved class A ARFs, are transcriptional activators of auxin-responsive target genes that are essential for regulating auxin signalling throughout the plant lifecycle. Although class A ARFs have tissue-specific expression patterns, how their expression is regulated is unknown. Here we show, by investigating chromatin modifications and accessibility, that loci encoding these proteins are constitutively open for transcription. Through yeast one-hybrid screening, we identify the transcriptional regulators of the genes encoding class A ARFs from Arabidopsis thaliana and demonstrate that each gene is controlled by specific sets of transcriptional regulators. Transient transformation assays and expression analyses in mutants reveal that, in planta, the majority of these regulators repress the transcription of genes encoding class A ARFs. These observations support a scenario in which the default configuration of open chromatin enables a network of transcriptional repressors to regulate expression levels of class A ARF proteins and modulate auxin signalling output throughout development.

Citation

Truskina, J., Han, J., Chrysanthou, E., Galvan-Ampudia, C. S., Lainé, S., Brunoud, G., …Vernoux, T. (2020). A network of transcriptional repressors modulates auxin responses. Nature, 589, 116–119. https://doi.org/10.1038/s41586-020-2940-2

Journal Article Type	Article
Acceptance Date	Sep 4, 2020
Online Publication Date	Nov 18, 2020
Publication Date	Nov 18, 2020
Deposit Date	Dec 4, 2020
Publicly Available Date	May 19, 2021
Journal	Nature
Print ISSN	0028-0836
Electronic ISSN	1476-4687
Publisher	Nature Publishing Group
Peer Reviewed	Peer Reviewed
Volume	589
Pages	116–119
DOI	https://doi.org/10.1038/s41586-020-2940-2
Keywords	Multidisciplinary
Public URL	https://nottingham-repository.worktribe.com/output/5064509
Publisher URL	https://www.nature.com/articles/s41586-020-2940-2
Additional Information	Truskina, J., Han, J., Chrysanthou, E. et al. A network of transcriptional repressors modulates auxin responses. Nature (2020). https://doi.org/10.1038/s41586-020-2940-2