@article {Sanchez-Corrionero803973, author = {Alvaro Sanchez-Corrionero and Pablo Perez-Garcia and Javier Cabrera and Javier Silva-Navas and Juan Perianez-Rodriguez and Inmaculada Gude and Juan Carlos del Pozo and Miguel A. Moreno-Risueno}, title = {Stem Cell Activity and Regeneration In Roots Require Non-Cell Autonomous Regulation From The Ground Tissue}, elocation-id = {803973}, year = {2019}, doi = {10.1101/803973}, publisher = {Cold Spring Harbor Laboratory}, abstract = {Stem cells are central to plant development. Root stem cells organize around the quiescent center (QC) and give rise to cell lineages that generate the root radial pattern during postembryonic development. Here, through analyses of Arabidopsis thaliana mutants in the transcription factors BLUEJAY, JACKDAW and SCARECROW and chemical treatments, we have found that QC regenerative capacities maintain the stem cell niche during postembryonic development; and in addition, specification of QC cells are required to re-establish the radial pattern upon wounding. Our data shows that QC functionality in maintaining and regenerating the radial pattern requires non-cell-autonomous regulation by transcription factors BLUEJAY, JACKDAW and SCARECROW. We observe that these factors regulate auxin transport, auxin maxima formation, as well as the stem cell regulator SHORT-ROOT from the ground tissue. We tracked this non-cell-autonomous regulation to C-REPEAT BINDING FACTOR 3 (CBF3). CBF3 protein is mobile, while CBF3 gene is expressed in the ground tissue downstream of BLUEJAY, JACKDAW and SCARECROW. Targeted-expression of CBF3 to the ground tissue of blj jkd scr mutant recovers radial patterning and, upon laser ablation, stem cell niche regeneration and tissue organization in layers. CBF3 also regulates QC organization and inhibits stem cell niche differentiation. We propose CBF3 may function as a radial signal maintaining stem cell niche activity and regeneration.}, URL = {https://www.biorxiv.org/content/early/2019/10/15/803973}, eprint = {https://www.biorxiv.org/content/early/2019/10/15/803973.full.pdf}, journal = {bioRxiv} }