A Novel Aux/IAA28 Signaling Cascade Activates GATA23-Dependent Specification of Lateral Root Founder Cell Identity

Lateral roots are formed at regular intervals along the main root by recurrent specification of founder cells. To date, the mechanism by which branching of the root system is controlled and founder cells become specified remains unknown. Our study reports the identification of the auxin regulatory c...

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Published inCurrent biology Vol. 20; no. 19; pp. 1697 - 1706
Main Authors De Rybel, Bert, Vassileva, Valya, Parizot, Boris, Demeulenaere, Marlies, Grunewald, Wim, Audenaert, Dominique, Van Campenhout, Jelle, Overvoorde, Paul, Jansen, Leentje, Vanneste, Steffen, Möller, Barbara, Wilson, Michael, Holman, Tara, Van Isterdael, Gert, Brunoud, Géraldine, Vuylsteke, Marnik, Vernoux, Teva, De Veylder, Lieven, Inzé, Dirk, Weijers, Dolf, Bennett, Malcolm J., Beeckman, Tom
Format Journal Article
LanguageEnglish
Published England Elsevier Inc 12.10.2010
Subjects
arabidopsis-thaliana
auxin transport
differentiation
divisions
expression
fate
GATA Transcription Factors - genetics
GATA Transcription Factors - metabolism
gene
Gene Expression Regulation, Plant
Indoleacetic Acids - metabolism
initiation
Molecular Sequence Data
of-function mutation
pericycle
Plant Development
Plant Proteins - genetics
Plant Proteins - metabolism
Plant Roots - cytology
Plant Roots - growth & development
Plants - anatomy & histology
Plants - genetics
Signal Transduction
Two-Hybrid System Techniques
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Summary:Lateral roots are formed at regular intervals along the main root by recurrent specification of founder cells. To date, the mechanism by which branching of the root system is controlled and founder cells become specified remains unknown. Our study reports the identification of the auxin regulatory components and their target gene, GATA23, which control lateral root founder cell specification. Initially, a meta-analysis of lateral root-related transcriptomic data identified the GATA23 transcription factor. GATA23 is expressed specifically in xylem pole pericycle cells before the first asymmetric division and is correlated with oscillating auxin signaling maxima in the basal meristem. Also, functional studies revealed that GATA23 controls lateral root founder cell identity. Finally, we show that an Aux/IAA28-dependent auxin signaling mechanism in the basal meristem controls GATA23 expression. We have identified the first molecular components that control lateral root founder cell identity in the Arabidopsis root. These include an IAA28-dependent auxin signaling module in the basal meristem region that regulates GATA23 expression and thereby lateral root founder cell specification and root branching patterns. [Display omitted] ► GATA23 is involved in lateral root founder cell specification ► A coordinated migration of pericycle nuclei precedes the first asymmetric division ► An Aux/IAA28-dependent auxin signaling cascade controls GATA23 expression
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ISSN:0960-9822
1879-0445
DOI:10.1016/j.cub.2010.09.007