<p>Intercellular signaling through trafficking of regulatory proteins is a widespread phenomenon in plants and can deliver positional information for the determination of cell fate. In the Arabidopsis root meristem, the cell fate determinant SHORT-ROOT (SHR), a GRAS domain transcription factor, acts as a signaling molecule from the stele to the adjacent layer to specify endodermal cell fate. Upon exiting the stele, SHR activates another GRAS domain transcription factor, SCARCROW (SCR), which, together with several BIRD/INDETERMINATE DOMAIN proteins, restricts movement of SHR to define a single cell layer of endodermis. Here we report that endodermal cell fate also requires the joint activity of both SCR and its closest homologue SCARECROW-L...
AbstractSignaling centers within developing organs regulate morphogenesis in both plants and animals...
AbstractThe radial pattern of the plant root is determined by the action of two transcription factor...
In the Arabidopsis root, the SHORT-ROOT transcription factor moves outward to the ground tissue from...
Intercellular signaling through trafficking of regulatory proteins is a widespread phenomenon in pla...
Cell-cell communication is key to coordinated cellular functions in multicellular organisms. In addi...
AbstractAsymmetric cell divisions play an important role in the establishment and propagation of the...
Main conclusion: SCARECROW controls Arabidopsis root meristem size from the root endodermis tissue b...
SummaryPlant cells can communicate through the direct transport of transcription factors [1–7]. One ...
In the Arabidopsis root meristem, ground tissue stem cell daughters perform an asymmetric division t...
Formation of specialized cells and tissues at defined times and in specific positions is essential f...
Plants produce new organs post-embryonically throughout their entire life cycle. This is due to stem...
In plants, cell fate specification depends primarily on position rather than lineage. Recent results...
AbstractIn the Arabidopsis root meristem, initial cells undergo asymmetric divisions to generate the...
Positional information is pivotal for establishing developmental patterning in plants1,2,3, but litt...
Stem cells self-renew and produce daughter cells that differentiate. How stem cells are specified an...
AbstractSignaling centers within developing organs regulate morphogenesis in both plants and animals...
AbstractThe radial pattern of the plant root is determined by the action of two transcription factor...
In the Arabidopsis root, the SHORT-ROOT transcription factor moves outward to the ground tissue from...
Intercellular signaling through trafficking of regulatory proteins is a widespread phenomenon in pla...
Cell-cell communication is key to coordinated cellular functions in multicellular organisms. In addi...
AbstractAsymmetric cell divisions play an important role in the establishment and propagation of the...
Main conclusion: SCARECROW controls Arabidopsis root meristem size from the root endodermis tissue b...
SummaryPlant cells can communicate through the direct transport of transcription factors [1–7]. One ...
In the Arabidopsis root meristem, ground tissue stem cell daughters perform an asymmetric division t...
Formation of specialized cells and tissues at defined times and in specific positions is essential f...
Plants produce new organs post-embryonically throughout their entire life cycle. This is due to stem...
In plants, cell fate specification depends primarily on position rather than lineage. Recent results...
AbstractIn the Arabidopsis root meristem, initial cells undergo asymmetric divisions to generate the...
Positional information is pivotal for establishing developmental patterning in plants1,2,3, but litt...
Stem cells self-renew and produce daughter cells that differentiate. How stem cells are specified an...
AbstractSignaling centers within developing organs regulate morphogenesis in both plants and animals...
AbstractThe radial pattern of the plant root is determined by the action of two transcription factor...
In the Arabidopsis root, the SHORT-ROOT transcription factor moves outward to the ground tissue from...