Auxin-Mediated Cell Cycle Activation during Early Lateral Root Initiation

doi:10.1105/tpc.004960

Hybrigenics The Protein Interactions Experts

Auxin-Mediated Cell Cycle Activation during Early Lateral Root Initiation

Kristiina Himanen, Elodie Boucheron¹, Steffen Vanneste, Janice de Almeida Engler, Dirk Inzé² and Tom Beeckman

Department of Plant Systems Biology, Flanders Interuniversity Institute for Biotechnology, Ghent University, K.L. Ledeganckstraat 35, B-9000 Gent, Belgium

² To whom correspondence should be addressed. E-mail dirk.inze{at}gengenp.rug.ac.be; fax 32-9-2645349

Lateral root formation can be divided into two major phases:pericycle activation and meristem establishment. In Arabidopsis,the first lateral root initiation event is spatially and temporallyasynchronous and involves a limited number of cells in the xylempericycle. To study the molecular regulation during pericycleactivation, we developed a lateral root–inducible system.Successive treatments with an auxin transport inhibitor andexogenous auxin were used to prevent the first formative divisionsand then to activate the entire pericycle. Our morphologicaland molecular data show that, in this inducible system, xylempericycle activation was synchronized and enhanced to coverthe entire length of the root. The results also indicate thatthe inducible system can be considered a novel in planta systemfor the study of synchronized cell cycle reactivation. In addition,the expression patterns of Kip-Related Protein2 (KRP2) in thepericycle and its ectopic expression data revealed that thecyclin-dependent kinase inhibitor plays a significant role inthe regulation of lateral root initiation. KRP2 appears to regulateearly lateral root initiation by blocking the G1-to-S transitionand to be regulated transcriptionally by auxin.

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