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A CUC1/auxin genetic module links cell polarity to patterned tissue growth and leaf shape diversity in crucifer plants

Ziliang Hu, David Wilson‐Sánchez, Neha Bhatia, Madlen I. Rast-Somssich, Anhui Wu, Daniela Vlad, L. P. McGuire, Lachezar A. Nikolov, Patrick Laufs, Xiangchao Gan, Stefan Laurent, Adam Runions, Miltos Tsiantis

2024Proceedings of the National Academy of Sciences20 citationsDOIOpen Access PDF

Abstract

How tissue-level information encoded by fields of regulatory gene activity is translated into the patterns of cell polarity and growth that generate the diverse shapes of different species remains poorly understood. Here, we investigate this problem in the case of leaf shape differences between Arabidopsis thaliana , which has simple leaves, and its relative Cardamine hirsuta that has complex leaves divided into leaflets. We show that patterned expression of the transcription factor CUP-SHAPED COTYLEDON1 in C. hirsuta (ChCUC1) is a key determinant of leaf shape differences between the two species. Through inducible genetic perturbations, time-lapse imaging of growth, and computational modeling, we find that ChCUC1 provides instructive input into auxin-based leaf margin patterning. This input arises via transcriptional regulation of multiple auxin homeostasis components, including direct activation of WAG kinases that are known to regulate the polarity of PIN-FORMED auxin transporters. Thus, we have uncovered a mechanism that bridges biological scales by linking spatially distributed and species-specific transcription factor expression to cell-level polarity and growth, to shape diverse leaf forms.

Topics & Concepts

Polarity (international relations)CruciferAuxinBiologyDiversity (politics)Evolutionary biologyBotanyCell biologyGeneticsCellGeneAnthropologySociologyPlant Molecular Biology ResearchPlant nutrient uptake and metabolismPlant Reproductive Biology
A CUC1/auxin genetic module links cell polarity to patterned tissue growth and leaf shape diversity in crucifer plants | Litcius