Litcius/Paper detail

Monolignol Benzoates Incorporate into the Lignin of Transgenic <i>Populus trichocarpa</i> Depleted in C3H and C4H

Hoon Kim, Quanzi Li, Steven D. Karlen, Rebecca A. Smith, Rui Shi, Jie Liu, Chenmin Yang, Sermsawat Tunlaya‐Anukit, Jack Wang, Hou‐min Chang, Ronald R. Sederoff, John Ralph, Vincent L. Chiang

2020ACS Sustainable Chemistry & Engineering56 citationsDOIOpen Access PDF

Abstract

Lignin, an abundant renewable aromatic biopolymer, is an essential macromolecule in terrestrial vascular plants. Genetic modifications affecting monolignol biosynthesis, which produces lignin monomers, alter the metabolic flux through the pathway and are becoming increasingly explored for improving the lignin and biomass quality and for producing high-value commodity chemical feedstocks. Benzoate (BA) conjugates are important metabolites in plants that have not been adequately characterized as components of the lignin structure. In addition to finding trace levels of BA conjugates in wild-type (WT) Populus trichocarpa, these become significantly augmented in strategic triple transgenics. Genes for three key cytochrome P450 enzymes, two 4-hydroxylases (PtrC4H1 and PtrC4H2), and one 3-hydroxylase (PtrC3H3), were downregulated to produce the transgenic plants in which monolignol benzoate (ML-BA) conjugates were incorporated into their lignin at a level some 16-fold higher than in WT. The co-downregulation of PtrC4H1/PtrC4H2/PtrC3H3 genes may cause a rerouting or modification of the pathway due to the interaction of the benzoate biosynthetic pathway with the conventional pathway for monolignol biosynthesis. The total lignin content in the transgenics was decreased by 50%, and the lignin H-unit level was elevated some 70-fold. The wood from the transgenic trees showed reduced recalcitrance toward enzymatic saccharification, which has value for the conversion of plant biomass to bioenergy.

Topics & Concepts

MonolignolLigninPopulus trichocarpaLignocellulosic biomassChemistryBiochemistryBotanyGenetically modified cropsMetabolic engineeringBiologyTransgeneEnzymeBiosynthesisGeneGenomePlant Gene Expression AnalysisBiochemical and biochemical processesLignin and Wood Chemistry