p-Coumaroylation of poplar lignins impacts lignin structure and improves wood saccharification

Author:

Lapierre Catherine1ORCID,Sibout Richard2ORCID,Laurans Françoise3ORCID,Lesage-Descauses Marie-Claude3,Déjardin Annabelle3,Pilate Gilles3ORCID

Affiliation:

1. INRAE, AgroParisTech, Université Paris Saclay, IJPB, Versailles, France

2. INRAE, BIA, Nantes, France

3. INRAE, ONF, BioForA, Orléans, France

Abstract

Abstract The enzymatic hydrolysis of cellulose into glucose, referred to as saccharification, is severely hampered by lignins. Here, we analyzed transgenic poplars (Populus tremula × Populus alba) expressing the Brachypodium (Brachypodium distachyon) p-coumaroyl-Coenzyme A monolignol transferase 1 (BdPMT1) gene driven by the Arabidopsis (Arabidopsis thaliana) Cinnamate 4-Hydroxylase (AtC4H) promoter in the wild-type (WT) line and in a line overexpressing the Arabidopsis Ferulate 5-Hydroxylase (AtF5H). BdPMT1 encodes a transferase which catalyzes the acylation of monolignols by p-coumaric acid (pCA). Several BdPMT1-OE/WT and BdPMT1-OE/AtF5H-OE lines were grown in the greenhouse, and BdPMT1 expression in xylem was confirmed by RT-PCR. Analyses of poplar stem cell walls (CWs) and of the corresponding purified dioxan lignins (DLs) revealed that BdPMT1-OE lignins were as p-coumaroylated as lignins from C3 grass straws. For some transformants, pCA levels reached 11 mg·g−1 CW and 66 mg·g−1 DL, exceeding levels in Brachypodium or wheat (Triticum aestivum) samples. This unprecedentedly high lignin p-coumaroylation affected neither poplar growth nor stem lignin content. Interestingly, p-coumaroylation of poplar lignins was not favored in BdPMT1-OE/AtF5H-OE transgenic lines despite their high frequency of syringyl units. However, lignins of all BdPMT1-OE lines were structurally modified, with an increase of terminal unit with free phenolic groups. Relative to controls, this increase argues for a reduced polymerization degree of BdPMT1-OE lignins and makes them more soluble in cold NaOH solution. The p-coumaroylation of poplar samples improved the saccharification yield of alkali-pretreated CW, demonstrating that the genetically driven p-coumaroylation of lignins is a promising strategy to make wood lignins more susceptible to alkaline treatments used during the industrial processing of lignocellulosics.

Funder

European ENERGYPOPLAR project

3BCAR Carnot Institute

Publisher

Oxford University Press (OUP)

Subject

Plant Science,Genetics,Physiology

Reference56 articles.

1. Qualitative und quantitative Unterschiede der Lignine einiger Holz- und Stroharten;Beckmann;Biochem Z,1923

2. Cinnamate-4-hydroxylase expression in Arabidopsis (regulation in response to development and the environment);Bell-Lelong;Plant Physiol,1997

3. Editorial overview: plant biotechnology - lignin engineering;Boerjan;Curr Opin Biotechnol,2019

4. Assessment of alkaline pretreatment for the production of bioethanol from eucalyptus, sugarcane bagasse and sugarcane straw;Carvalho;Ind Crops Prod,2016

5. Lignin engineering in forest trees;Chanoca;Front Plant Sci,2019

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