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Developmental changes in lignin composition are driven by both monolignol supply and laccase specificity

Chunliu Zhuo, Xin Wang, Maite L. Docampo Palacios, Brian Sanders, Nancy L. Engle, Timothy J. Tschaplinski, John I. Hendry, Costas D. Maranas, Fang Chen, Richard A. Dixon

2022Science Advances53 citationsDOIOpen Access PDF

Abstract

The factors controlling lignin composition remain unclear. Catechyl (C)–lignin is a homopolymer of caffeyl alcohol with unique properties as a biomaterial and precursor of industrial chemicals. The lignin synthesized in the seed coat of Cleome hassleriana switches from guaiacyl (G)– to C-lignin at around 12 to 14 days after pollination (DAP), associated with a rerouting of the monolignol pathway. Lack of synthesis of caffeyl alcohol limits C-lignin formation before around 12 DAP, but coniferyl alcohol is still synthesized and highly accumulated after 14 DAP. We propose a model in which, during C-lignin biosynthesis, caffeyl alcohol noncompetitively inhibits oxidation of coniferyl alcohol by cell wall laccases, a process that might limit movement of coniferyl alcohol to the apoplast. Developmental changes in both substrate availability and laccase specificity together account for the metabolic fates of G- and C-monolignols in the Cleome seed coat.

Topics & Concepts

MonolignolConiferyl alcoholLigninLaccaseChemistryAlcoholApoplastCell wallBiochemistryBotanyBiosynthesisOrganic chemistryBiologyEnzymeBiochemical and biochemical processesHorticultural and Viticultural ResearchEnzyme-mediated dye degradation