Miskolczi, Pal Csaba
- Department of Forest Genetics and Plant Physiology, Swedish University of Agricultural Sciences
Research article2012Peer reviewedOpen access
Cruz-Ramírez, Alfredo; Miskolczi, Pal Csaba; Scheres, Ben
In plants, where cells cannot migrate, asymmetric cell divisions (ACDs) must be confined to the appropriate spatial context. We investigate tissue-generating asymmetric divisions in a stem cell daughter within the Arabidopsis root. Spatial restriction of these divisions requires physical binding of the stem cell regulator SCARECROW (SCR) by the RETINOBLASTOM-RELATED (RBR) protein. In the stem cell niche, SCR activity is counteracted by phosphorylation of RBR through a cyclinD6;1-CDK complex. This cyclin is itself under transcriptional control of SCR and its partner SHORT ROOT (SHR), creating a robust bistable circuit with either high or low SHR-SCR complex activity. Auxin biases this circuit by promoting CYCD6;1 transcription. Mathematical modeling shows that ACDs are only switched on after integration of radial and longitudinal information, determined by SHR and auxin distribution, respectively. Coupling of cell-cycle progression to protein degradation resets the circuit, resulting in a "flip flop" that constrains asymmetric cell division to the stem cell region.
Cell
2012, volume: 150, number: 5, pages: 1002-1015
Publisher: CELL PRESS
Cell Biology
https://res.slu.se/id/publ/42654