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United States Department of Agriculture

Agricultural Research Service


item Hake, Sarah

Submitted to: Nature
Publication Type: Review Article
Publication Acceptance Date: 9/20/2000
Publication Date: 9/20/2001
Citation: Hake, S.C. 2001. Mobile protein signals cell fate. Nature 413:261-264.

Interpretive Summary: In plant roots, different cell types are organized in a well-defined pattern: each cell knows exactly where it is and what it should do. A molecule that tells cells where they are has now been discovered.

Technical Abstract: Positional information is pivotal for establishing developmental patterning in plants, but little is known about the underlying signalling mechanisms. The Arabidopsis root radial pattern is generated through stereotyped division of initial cells and the subsequent acquisition of cell fate. short-root (shr) mutants do not undergo the longitudinal cell division of the cortex/endodermis initial daughter cell, resulting in a single cell layer with only cortex attributes. Thus, SHR is necessary for both cell division and endodermis specification. SHR messenger RNA is found exclusively in the stele cells internal to the endodermis and cortex, indicating that it has a non-cell-autonomous mode of action. Here we show that the SHR protein, a putative transcription factor, moves from the stele to a single layer of adjacent cells, where it enters the nucleus. Ectopic expression of SHR driven by the promoter of the downstream gene SCARECROW (SCR) results in autocatalytic reinforcement of SHR signalling, producing altered cell fates and multiplication of cell layers. These results support a model in which SHR protein acts both as a signal from the stele and as an activator of endodermal cell fate and SCR-mediated cell division.

Last Modified: 06/23/2017
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