An Evolutionarily Conserved Mechanism Delimiting SHR Movement Defines a Single Layer of Endodermis in Plants

Hongchang Cui; Mitchell P. Levesque; Teva Vernoux; Jee Jung; Alice J. Paquette; Kimberly L. Gallagher; Jean Y. Wang; Ikram Blilou; Ben Scheres; Philip N. Benfey

doi:10.1126/science.1139531

An Evolutionarily Conserved Mechanism Delimiting SHR Movement Defines a Single Layer of Endodermis in Plants

Hongchang Cui(Duke University), Mitchell P. Levesque(Duke University), Teva Vernoux(Duke University), Jee Jung(Duke University), Alice J. Paquette(Duke University), Kimberly L. Gallagher(Duke University), Jean Y. Wang(Duke University), Ikram Blilou(Duke University), Ben Scheres(Duke University), Philip N. Benfey(Duke University)

Science

April 19, 2007

10.1126/science.1139531

Cited by 600

Abstract

Intercellular protein movement plays a critical role in animal and plant development. SHORTROOT (SHR) is a moving transcription factor essential for endodermis specification in the Arabidopsis root. Unlike diffusible animal morphogens, which form a gradient across multiple cell layers, SHR movement is limited to essentially one cell layer. However, the molecular mechanism is unknown. We show that SCARECROW (SCR) blocks SHR movement by sequestering it into the nucleus through protein-protein interaction and a safeguard mechanism that relies on a SHR/SCR-dependent positive feedback loop for SCR transcription. Our studies with SHR and SCR homologs from rice suggest that this mechanism is evolutionarily conserved, providing a plausible explanation why nearly all plants have a single layer of endodermis.

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