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A genetic framework for proximal secondary vein branching in the Arabidopsis thaliana embryo.

Authors :
Kastanaki, Elizabeth
Blanco-Touriñán, Noel
Sarazin, Alexis
Sturchler, Alessandra
Gujas, Bojan
Vera-Sirera, Francisco
Agustí, Javier
Rodriguez-Villalon, Antia
Source :
Development (09501991). Jun2022, Vol. 149 Issue 12, p1-15. 15p.
Publication Year :
2022

Abstract

Over time, plants have evolved flexible self-organizing patterning mechanisms to adapt tissue functionality for continuous organ growth. An example of this process is the multicellular organization of cells into a vascular network in foliar organs. An important, yet poorly understood component of this process is secondary vein branching, a mechanism employed to extend vascular tissues throughout the cotyledon surface. Here, we uncover two distinct branching mechanisms during embryogenesis by analyzing the discontinuous vein network of the double mutant cotyledon vascular pattern 2 (cvp2) cvp2-like 1 (cvl1). Similar to wild-type embryos, distal veins in cvp2 cvl1 embryos arise from the bifurcation of cell files contained in the midvein, whereas proximal branching is absent in this mutant. Restoration of this process can be achieved by increasing OCTOPUS dosage as well as by silencing RECEPTOR-LIKE PROTEIN KINASE 2 (RPK2) expression. Although RPK2-dependent rescue of cvp2 cvl1 is auxin- and CLE peptide-independent, distal branching involves polar auxin transport and follows a distinct regulatory mechanism. Our work defines a genetic network that confers plasticity to Arabidopsis embryos to spatially adapt vascular tissues to organ growth. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09501991
Volume :
149
Issue :
12
Database :
Academic Search Index
Journal :
Development (09501991)
Publication Type :
Academic Journal
Accession number :
157781471
Full Text :
https://doi.org/10.1242/dev.200403