Journal article
Transcriptional control of ROS homeostasis by KUODA1 regulates cell expansion during leaf development
D Lu, T Wang, S Persson, B Mueller-Roeber, JHM Schippers
Nature Communications | Published : 2014
DOI: 10.1038/ncomms4767
Open access
Abstract
The final size of an organism, or of single organs within an organism, depends on an intricate coordination of cell proliferation and cell expansion. Although organism size is of fundamental importance, the molecular and genetic mechanisms that control it remain far from understood. Here we identify a transcription factor, KUODA1 (KUA1), which specifically controls cell expansion during leaf development in Arabidopsis thaliana. We show that KUA1 expression is circadian regulated and depends on an intact clock. Furthermore, KUA1 directly represses the expression of a set of genes encoding for peroxidases that control reactive oxygen species (ROS) homeostasis in the apoplast. Disruption of KUA..
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Funding Acknowledgements
T.W., S.P. and B.M.-R. thank the Max Planck Society and the International Max Planck Research School 'Plant Growth and Primary Metabolism' for funding. D.L. thanks the China Scholarship Council for financial support. We thank Alvina Lai for support with circadian experiments and Professor Dr Graham Noctor for useful advice regarding apoplastic redox pools. We are also very grateful to Norma Funke, Ines Fehrle and Alexander Erban, as well as Dr Joachim Kopka for assistance during cell wall analyses.