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  • Tian-Ying Chen
    Beijing Forestry University
  • Bing Wang
    Beijing Forestry University
  • Xiao-Jun Shen
    Beijing Forestry University
  • Han-Yin Li
    Beijing Forestry University
  • Yu-Ying Wu
    Beijing Forestry University
  • Jia-Long Wen
    Beijing Forestry University
  • Qiuyun Liu
  • Run-Cang Sun
    Beijing Forestry University
The structural characteristics of native lignin are essential for the further deconstruction of plant cell walls for value-added application of lignocellulosic biomass. An improved protocol of cellulolytic enzyme lignin named regenerated cellulolytic enzyme lignin (RCEL) was developed in the present study. The dissolution process of poplar wood in the DMSO/[Emim]OAc dissolution system was dynamically monitored by microscopes and Confocal Raman Microscopy (CRM). The yield of RCEL (43.0–85.3%) was significantly higher than that of control CEL (30.6%). The isolated lignins were elaborately characterized by associated carbohydrates, 2D-HSQC NMR, 31P-NMR, and GPC techniques. NMR results showed that RCELs had similar structural features as compared to CELs. The relative abundances of the major lignin linkages (β-O-4′, β–β′, β-5′, and β-1′) and linked molecules (p-hydroxybenzoate) were quantitatively compared. Subsequent CP/MAS 13C-NMR spectra of the regenerated substrates demonstrated that the structural changes of the cellulose in the substrates occurred during the dissolution and regeneration process, resulting in efficient enzymatic hydrolysis (63.2–88.7% vs. 49.5%), thus obtaining a high yield of extracted lignin (RCEL). In short, the understanding of native lignin in fast-growing poplar will contribute to the diversification of the biomass feedstock supply for designing effective deconstruction strategies for lignocellulosic biomass.
Original languageEnglish
Pages (from-to)3376-3387
JournalRSC Advances
Volume7
Issue number6
Early online date13 Jan 2017
DOIs
Publication statusPublished - 2017

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