Heterogeneous identity, stiffness and growth characterise the shoot apex of Arabidopsis stem cell mutants

Abstract Stem cell homeostasis in the shoot apical meristem involves a core regulatory feedback loop between the signalling peptide CLAVATA3, produced in stem cells, and the transcription factor WUSCHEL, expressed in the underlying organising centre. clavata mutants display massive meristem overgrowth, which is thought to be caused by stem cell overproliferation, although it is unknown how uncontrolled stem cell divisions lead to this altered morphology. Here we first reveal local buckling defects in mutant meristems, and use analytical models to show how mechanical properties and growth rates may contribute to the phenotype. Indeed, clavata meristems are mechanically more heterogeneous than the wild type, and also display regional growth heterogeneities. Furthermore, stereotypical wild-type meristem organisation is lost in mutants, in which cells simultaneously express distinct fate markers. Finally, cells in mutant meristems are auxin responsive, suggesting that they are functionally different from wild-type stem cells. Thus all benchmarks show that clavata meristem cells are different from wild-type stem cells, suggesting that fasciation is caused by the disruption of a more complex regulatory framework that maintains distinct genetic and functional domains at the shoot apex. Summary statement Heterogeneities in cell mechanics, growth, function and identity contribute to buckling in clavata mutant shoot apices.