Deep Eutectic Solvent Pretreatment of Transgenic Biomass With Increased C6C1 Lignin Monomers

Authors
Kim, Kwang HoWang, YunxuanTakada, MasatsuguEudes, AymerickYoo, Chang GeunKim, Chang SooSaddler, Jack
Issue Date
2020-01
Publisher
Frontiers Media S.A.
Citation
Frontiers in Plant Science, v.10
Abstract
The complex and heterogeneous polyphenolic structure of lignin confers recalcitrance to plant cell walls and challenges biomass processing for agroindustrial applications. Recently, significant efforts have been made to alter lignin composition to overcome its inherent intractability. In this work, to overcome technical difficulties related to biomass recalcitrance, we report an integrated strategy combining biomass genetic engineering with a pretreatment using a bio-derived deep eutectic solvent (DES). In particular, we employed biomass from an Arabidopsis line that expressed a bacterial hydroxycinnamoyl-CoA hydratase-lyase (HCHL) in lignifying tissues, which results in the accumulation of unusual C6C1 lignin monomers and a slight decrease in lignin molecular weight. The transgenic biomass was pretreated with renewable DES that can be synthesized from lignin-derived phenols. Biomass from the HCHL plant line containing C6C1 monomers showed increased pretreatment efficiency and released more fermentable sugars up to 34% compared to WT biomass. The enhanced biomass saccharification of the HCHL line is likely due to a reduction of lignin recalcitrance caused by the overproduction of C6C1 aromatics that act as degree of polymerization (DP) reducers and higher chemical reactivity of lignin structures with such C6C1 aromatics. Overall, our findings demonstrate that strategic plant genetic engineering, along with renewable DES pretreatment, could enable the development of sustainable biorefinery.
Keywords
FERMENTABLE SUGAR YIELDS; OPPORTUNITIES; CHALLENGES; lignocellulosic biomass; lignin engineering; hydroxycinnamoyl-CoA hydratase-lyase; bioenergy; saccharification
ISSN
1664-462X
URI
https://pubs.kist.re.kr/handle/201004/119067
DOI
10.3389/fpls.2019.01774
Appears in Collections:
KIST Article > 2020
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