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High-order mutants reveal an essential requirement for peroxidases but not laccases in Casparian strip lignification

Nelson Rojas-Murcia, Kian Hématy, Yuree Lee, Aurélia Emonet, Robertas Ursache, Satoshi Fujita, Damien De Bellis, Niko Geldner

2020Proceedings of the National Academy of Sciences115 citationsDOIOpen Access PDF

Abstract

Significance Lignin is a defining polymer of vascular plants and of great physiological, ecological, and economical importance. Yet, its polymerization in the cell wall is still not understood. Lignin polymerizing enzymes, laccases and peroxidases, exist in vast numbers in plant genomes. By focusing on a specific lignin structure, the ring-like Casparian strips (CSs), we reduced candidate numbers and abolished essentially all laccases with detectable endodermal expression. Yet, not even slight defects in CS formation were detected. By contrast, a quintuple peroxidase mutant displayed a complete absence of CS. Our findings suggest that cells lignify differently depending on whether lignin is localized or ubiquitous and whether cells stay alive during and after lignification, as well as the composition of the cell wall.

Topics & Concepts

LigninPeroxidaseLaccaseMutantCell wallChemistryBiochemistryEnzymeSecondary cell wallPolymerizationBiologyBotanyGenePolymerOrganic chemistryPlant Gene Expression AnalysisHorticultural and Viticultural ResearchLignin and Wood Chemistry
High-order mutants reveal an essential requirement for peroxidases but not laccases in Casparian strip lignification | Litcius