TY - JOUR T1 - The <em>expa1-1</em> mutant reveals a new biophysical lateral root organogenesis checkpoint JF - bioRxiv DO - 10.1101/249961 SP - 249961 AU - Priya Ramakrishna AU - Graham A Rance AU - Lam Dai Vu AU - Evan Murphy AU - Kamal Swarup AU - Kamaljit Moirangthem AU - Bodil Jørgensen AU - Brigitte van de Cotte AU - Tatsuaki Goh AU - Zhefeng Lin AU - Ute Voβ AU - Tom Beeckman AU - Malcolm J Bennett AU - Kris Gevaert AU - Ive De Smet Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/01/18/249961.abstract N2 - In plants, post-embryonic formation of new organs helps shape the adult organism. This requires the tight regulation of when and where a new organ is formed, and a coordination of the underlying cell divisions. To build a root system, new lateral roots are continuously developing, and this process requires asymmetric cell division in adjacent pericycle cells. Characterization of an expansin a1 (expa1) mutant has revealed a novel checkpoint during lateral root formation. Specifically, a minimal pericycle width was found to be necessary and sufficient to trigger asymmetric pericycle cell divisions during auxin-driven lateral root formation. We conclude that a localized radial expansion of adjacent pericycle cells is required to position the asymmetric cell divisions and generate a core of small daughter cells, which is a prerequisite for lateral root organogenesis.SIGNFICANCE STATEMENT Organ formation is an essential process in plants and animals, driven by cell division and cell identity establishment. Root branching, where lateral roots form along the primary root axis, increases the root system and aids capture of water and nutrients. We have discovered that tight control of cell width is necessary to co-ordinate asymmetric cell divisions in cells that give rise to a new lateral root organ. While biomechanical processes have been shown to play a role in plant organogenesis, including lateral root formation, our data give new mechanistic insights into the cell size checkpoint during lateral root initiation. ER -