Ectopic Production of 3,4-Dihydroxybenzoate <i>in Planta</i> Affects Cellulose Structure and Organization

Senanayake, Manjula; Lin, Chien-Yuan; Mansfield, Shawn D.; Eudes, Aymerick; Davison, Brian H.; Pingali, Sai Venkatesh; O’Neill, Hugh

doi:10.1021/acs.biomac.4c00187

Biomacromolecules

2024

DOI: 10.1021/acs.biomac.4c00187

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Ectopic Production of 3,4-Dihydroxybenzoate in Planta Affects Cellulose Structure and Organization

Manjula Senanayake,

Chien-Yuan Lin,

Shawn D. Mansfield

et al.

Abstract: Lignocellulosic biomass is a highly sustainable and largely carbon dioxide neutral feedstock for the production of biofuels and advanced biomaterials. Although thermochemical pretreatment is typically used to increase the efficiency of cell wall deconstruction, genetic engineering of the major plant cell wall polymers, especially lignin, has shown promise as an alternative approach to reduce biomass recalcitrance. Poplar trees with reduced lignin content and altered composition were previously developed by ove… Show more

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Cited by 3 publications

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Expression of dehydroshikimate dehydratase in poplar induces transcriptional and metabolic changes in the phenylpropanoid pathway

Akyuz Turumtay,

Turumtay,

Tian

et al. 2024

Journal of Experimental Botany

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Modification of lignin in feedstocks via genetic engineering aims to reduce biomass recalcitrance to facilitate efficient conversion processes. These improvements can be achieved by expressing exogenous enzymes that interfere with native biosynthetic pathways responsible for the production of the lignin precursors. In-planta expression of a 3-dehydroshikimate dehydratase (QsuB) in poplar trees reduced lignin content and altered their monomer composition, which enabled higher yields of sugars after cell wall polysaccharide hydrolysis. Understanding how plants respond to such genetic modifications at the transcriptional and metabolic levels is needed to facilitate further improvement and field deployment. In this work, we amassed fundamental knowledge on lignin-modified QsuB poplar using RNA-seq and metabolomics. The data clearly demonstrate that changes in gene expression and metabolite abundance can occur in a strict spatiotemporal fashion, revealing tissue-specific responses in the xylem, phloem, or periderm. In the poplar line that exhibits the strongest reduction in lignin, we found that 3% of the transcripts had altered expression levels and ~19% of the detected metabolites had differential abundance in the xylem from older stems. Changes affect predominantly the shikimate and phenylpropanoid pathways as wells as secondary cell wall metabolism, and result in significant accumulation of hydroxybenzoates derived from protocatechuate and salicylate.

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Ectopic Production of 3,4-Dihydroxybenzoate in Planta Affects Cellulose Structure and Organization

Cited by 3 publications

References 81 publications

Investigation of Cyrene organosolv fractionation of softwood biomass and alkaline post-incubation

Investigation of Cyrene organosolv fractionation of softwood biomass and alkaline post-incubation

Exploring the potential of polysaccharides-based injectable self-healing hydrogels for wound healing applications: A review

Expression of dehydroshikimate dehydratase in poplar induces transcriptional and metabolic changes in the phenylpropanoid pathway

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