A gene regulatory network critical for axillary bud dormancy directly controlled by Arabidopsis BRANCHED1

A gene regulatory network critical for axillary bud dormancy directly controlled by Arabidopsis BRANCHED1

The Arabidopsis thaliana transcription factor BRANCHED1 (BRC1) plays a pivotal role in the control of shoot branching as it integrates environmental and endogenous signals that influence axillary bud growth. Despite its remarkable activity as a growth inhibitor, the mechanisms by which BRC1 promotes bud dormancy are largely unknown. We determined the genome-wide BRC1 binding sites in vivo and combined these with transcriptomic data and gene co-expression analyses to identify bona fide BRC1 direct targets. Next, we integrated multi-omics data to infer the BRC1 gene regulatory network (GRN) and used graph theory techniques to find network motifs that control the GRN dynamics. We generated an open online tool to interrogate this network. A group of BRC1 target genes encoding transcription factors (BTFs) orchestrate this intricate transcriptional network enriched in abscisic acid-related components. Promoter::β-GLUCURONIDASE transgenic lines confirmed that BTFs are expressed in axillary buds. Transient co-expression assays and studies in planta using mutant lines validated the role of BTFs in modulating the GRN and promoting bud dormancy. This knowledge provides access to the developmental mechanisms that regulate shoot branching and helps identify candidate genes to use as tools to adapt plant architecture and crop production to ever-changing environmental conditions.

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Main Authors: van Es, Sam W., Muñoz-Gasca, Aitor, Romero-Campero, Francisco J., González-Grandío, Eduardo, de los Reyes, Pedro, Tarancón, Carlos, van Dijk, Aalt D.J., van Esse, Wilma, Pascual-García, Alberto, Angenent, Gerco C., Immink, Richard G.H., Cubas, Pilar
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Arabidopsis, BRANCHED1, TCP, axillary bud dormancy, gene regulatory network, shoot branching, systems biology, transcription factors,
Online Access:https://research.wur.nl/en/publications/a-gene-regulatory-network-critical-for-axillary-bud-dormancy-dire
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spelling dig-wur-nl-wurpubs-6248932024-10-02 van Es, Sam W. Muñoz-Gasca, Aitor Romero-Campero, Francisco J. González-Grandío, Eduardo de los Reyes, Pedro Tarancón, Carlos van Dijk, Aalt D.J. van Esse, Wilma Pascual-García, Alberto Angenent, Gerco C. Immink, Richard G.H. Cubas, Pilar Article/Letter to editor New Phytologist 241 (2024) 3 ISSN: 0028-646X A gene regulatory network critical for axillary bud dormancy directly controlled by Arabidopsis BRANCHED1 2024 The Arabidopsis thaliana transcription factor BRANCHED1 (BRC1) plays a pivotal role in the control of shoot branching as it integrates environmental and endogenous signals that influence axillary bud growth. Despite its remarkable activity as a growth inhibitor, the mechanisms by which BRC1 promotes bud dormancy are largely unknown. We determined the genome-wide BRC1 binding sites in vivo and combined these with transcriptomic data and gene co-expression analyses to identify bona fide BRC1 direct targets. Next, we integrated multi-omics data to infer the BRC1 gene regulatory network (GRN) and used graph theory techniques to find network motifs that control the GRN dynamics. We generated an open online tool to interrogate this network. A group of BRC1 target genes encoding transcription factors (BTFs) orchestrate this intricate transcriptional network enriched in abscisic acid-related components. Promoter::β-GLUCURONIDASE transgenic lines confirmed that BTFs are expressed in axillary buds. Transient co-expression assays and studies in planta using mutant lines validated the role of BTFs in modulating the GRN and promoting bud dormancy. This knowledge provides access to the developmental mechanisms that regulate shoot branching and helps identify candidate genes to use as tools to adapt plant architecture and crop production to ever-changing environmental conditions. en application/pdf https://research.wur.nl/en/publications/a-gene-regulatory-network-critical-for-axillary-bud-dormancy-dire 10.1111/nph.19420 https://edepot.wur.nl/646677 Arabidopsis BRANCHED1 TCP axillary bud dormancy gene regulatory network shoot branching systems biology transcription factors https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Arabidopsis
BRANCHED1
TCP
axillary bud dormancy
gene regulatory network
shoot branching
systems biology
transcription factors
Arabidopsis
BRANCHED1
TCP
axillary bud dormancy
gene regulatory network
shoot branching
systems biology
transcription factors
spellingShingle Arabidopsis
BRANCHED1
TCP
axillary bud dormancy
gene regulatory network
shoot branching
systems biology
transcription factors
Arabidopsis
BRANCHED1
TCP
axillary bud dormancy
gene regulatory network
shoot branching
systems biology
transcription factors
van Es, Sam W.
Muñoz-Gasca, Aitor
Romero-Campero, Francisco J.
González-Grandío, Eduardo
de los Reyes, Pedro
Tarancón, Carlos
van Dijk, Aalt D.J.
van Esse, Wilma
Pascual-García, Alberto
Angenent, Gerco C.
Immink, Richard G.H.
Cubas, Pilar
A gene regulatory network critical for axillary bud dormancy directly controlled by Arabidopsis BRANCHED1
description The Arabidopsis thaliana transcription factor BRANCHED1 (BRC1) plays a pivotal role in the control of shoot branching as it integrates environmental and endogenous signals that influence axillary bud growth. Despite its remarkable activity as a growth inhibitor, the mechanisms by which BRC1 promotes bud dormancy are largely unknown. We determined the genome-wide BRC1 binding sites in vivo and combined these with transcriptomic data and gene co-expression analyses to identify bona fide BRC1 direct targets. Next, we integrated multi-omics data to infer the BRC1 gene regulatory network (GRN) and used graph theory techniques to find network motifs that control the GRN dynamics. We generated an open online tool to interrogate this network. A group of BRC1 target genes encoding transcription factors (BTFs) orchestrate this intricate transcriptional network enriched in abscisic acid-related components. Promoter::β-GLUCURONIDASE transgenic lines confirmed that BTFs are expressed in axillary buds. Transient co-expression assays and studies in planta using mutant lines validated the role of BTFs in modulating the GRN and promoting bud dormancy. This knowledge provides access to the developmental mechanisms that regulate shoot branching and helps identify candidate genes to use as tools to adapt plant architecture and crop production to ever-changing environmental conditions.
format Article/Letter to editor
topic_facet Arabidopsis
BRANCHED1
TCP
axillary bud dormancy
gene regulatory network
shoot branching
systems biology
transcription factors
author van Es, Sam W.
Muñoz-Gasca, Aitor
Romero-Campero, Francisco J.
González-Grandío, Eduardo
de los Reyes, Pedro
Tarancón, Carlos
van Dijk, Aalt D.J.
van Esse, Wilma
Pascual-García, Alberto
Angenent, Gerco C.
Immink, Richard G.H.
Cubas, Pilar
author_facet van Es, Sam W.
Muñoz-Gasca, Aitor
Romero-Campero, Francisco J.
González-Grandío, Eduardo
de los Reyes, Pedro
Tarancón, Carlos
van Dijk, Aalt D.J.
van Esse, Wilma
Pascual-García, Alberto
Angenent, Gerco C.
Immink, Richard G.H.
Cubas, Pilar
author_sort van Es, Sam W.
title A gene regulatory network critical for axillary bud dormancy directly controlled by Arabidopsis BRANCHED1
title_short A gene regulatory network critical for axillary bud dormancy directly controlled by Arabidopsis BRANCHED1
title_full A gene regulatory network critical for axillary bud dormancy directly controlled by Arabidopsis BRANCHED1
title_fullStr A gene regulatory network critical for axillary bud dormancy directly controlled by Arabidopsis BRANCHED1
title_full_unstemmed A gene regulatory network critical for axillary bud dormancy directly controlled by Arabidopsis BRANCHED1
title_sort gene regulatory network critical for axillary bud dormancy directly controlled by arabidopsis branched1
url https://research.wur.nl/en/publications/a-gene-regulatory-network-critical-for-axillary-bud-dormancy-dire
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