| Literature DB >> 31956028 |
Sacha Escamez1, Domenique André1, Bernadette Sztojka1, Benjamin Bollhöner1, Hardy Hall1, Béatrice Berthet2, Ute Voß3, Amnon Lers4, Alexis Maizel2, Magnus Andersson5, Malcolm Bennett3, Hannele Tuominen6.
Abstract
Plant organ growth is widely accepted to be determined by cell division and cell expansion, but, unlike that in animals, the contribution of cell elimination has rarely been recognized. We investigated this paradigm during Arabidopsis lateral root formation, when the lateral root primordia (LRP) must traverse three overlying cell layers within the parent root. A subset of LRP-overlying cells displayed the induction of marker genes for cell types undergoing developmental cell death, and their cell death was detected by electron, confocal, and light sheet microscopy techniques. LRP growth was delayed in cell-death-deficient mutants lacking the positive cell death regulator ORESARA1/ANAC092 (ORE1). LRP growth was restored in ore1-2 knockout plants by genetically inducing cell elimination in cells overlying the LRP or by physically killing LRP-overlying cells by ablation with optical tweezers. Our results support that, in addition to previously discovered mechanisms, cell elimination contributes to regulating lateral root emergence.Entities:
Keywords: Arabidopsis; cell death; endodermis; lateral root emergence; lateral root primordia; organ growth; plant development; programmed cell death
Mesh:
Year: 2020 PMID: 31956028 DOI: 10.1016/j.cub.2019.11.078
Source DB: PubMed Journal: Curr Biol ISSN: 0960-9822 Impact factor: 10.834