Overcoming cellulose recalcitrance in woody biomass for the lignin-first biorefinery

机译：克服木质素优先生物炼制厂木质生物质中的纤维素难降解性

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BackgroundLow-temperature swelling of cotton linter cellulose and subsequent gelatinization in trifluoroacetic acid (TFA) greatly enhance rates of enzymatic digestion or maleic acid–AlCl3 catalyzed conversion to hydroxymethylfurfural (HMF) and levulinic acid (LA). However, lignin inhibits low-temperature swelling of TFA-treated intact wood particles from hybrid poplar (Populus tremula × P. alba) and results in greatly reduced yields of glucose or catalytic conversion compared to lignin-free cellulose. Previous studies have established that wood particles from transgenic lines of hybrid poplar with high syringyl (S) lignin content give greater glucose yields following enzymatic digestion.

机译：背景棉短绒纤维素的低温溶胀和随后在三氟乙酸（TFA）中的糊化作用大大提高了酶消化率或马来酸-AlCl3催化的羟甲基糠醛（HMF）和乙酰丙酸（LA）的转化率。然而，木质素抑制了杂种杨（TFPalum tremula×P。alba）中经TFA处理的完整木材颗粒的低温膨胀，与不含木质素的纤维素相比，大大降低了葡萄糖的产量或催化转化率。先前的研究已经确定，来自高纯度丁香基（S）木质素的杂种杨的转基因品系的木材颗粒在酶消化后具有更高的葡萄糖产量。

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期刊名称 Biotechnology for Biofuels
作者
Haibing Yang; Ximing Zhang; Hao Luo; Baoyuan Liu; Tânia M. Shiga; Xu Li; Jeong Im Kim; Peter Rubinelli; Jonathan C. Overton; Varun Subramanyam; Bruce R. Cooper; Huaping Mo; Mahdi M. Abu-Omar; Clint Chapple; Bryon S. Donohoe; Lee Makowski; Nathan S. Mosier; Maureen C. McCann; Nicholas C. Carpita; Richard Meilan;
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年(卷),期 2019(12),-1
年度 2019
页码 171
总页数 18
原文格式 PDF
正文语种
中图分类应用微生物学;
关键词
Cellulose Lignin Recalcitrance Catalysis Delignification Poplar;

机译：纤维素;木质素;顽固性;催化;去木质素;白杨;

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专利

1. Dissecting Force Interactions in Cellulose Deconstruction Reveals the Required Solvent Versatility for Overcoming Biomass Recalcitrance [J] . Hyung Min Cho, Adam S. Gross, Jhih-Wei Chu Journal of the American Chemical Society . 2011,第35期

机译：解剖纤维素分解中的力相互作用揭示了克服生物量顽固性所需的溶剂多功能性
2. Overcoming biomass recalcitrance for enhancing sugar production from fast pyrolysis of biomass by microwave pretreatment in glycerol [J] . Zheng Anqing, Zhao Zengli, Huang Zhen, Green chemistry . 2015,第2期

机译：克服微波中甘油预处理对生物质的快速分解产生的糖分，提高糖分的产生
3. Understanding biomass recalcitrance in grasses for their efficient utilization as biorefinery feedstock [J] . Bichot Aurelie, Delgenes Jean-Philippe, Mechin Valerie, Reviews in Environmntal Science and Biotechnology . 2018,第4期

机译：了解草丛中的生物质顽固，以获得其有效的利用作为生物料理原料
4. CURRENT AND FUTURE BIOREFINERY SCENARIOS ADVANCED MATERIALS FROM WOODY COMPONENTS:CELLULOSE, HEMICELLULOSE,LIGNIN [C] . Thomas Rosenau, Antje Potthast, Falk Liebner, ISWFPC;International symposium on wood, fiber and pulping chemistry . 2011

机译：木质成分的当前和未来生物技术的先进材料：纤维素，半纤维素，木质素
5. Understanding the thermochemical conversion of biomass to overcome biomass recalcitrance. [D] . Kim, Kwang Ho. 2015

机译：了解生物质的热化学转化以克服生物质的顽固性。
6. Overcoming Biomass Recalcitrance by Combining Genetically Modified Switchgrass and Cellulose Solvent-Based Lignocellulose Pretreatment [O] . Noppadon Sathitsuksanoh, Bin Xu, Bingyu Zhao, -1

机译：通过结合基因改造的柳枝and和纤维素溶剂为基础的木质纤维素预处理克服生物量顽固
7. Overcoming biomass recalcitrance by combining genetically modified switchgrass and cellulose solvent-based lignocellulose pretreatment. [O] . Noppadon Sathitsuksanoh, Bin Xu, Bingyu Zhao, 2013

机译：通过结合转基因柳枝稷和基于纤维素溶剂的木质纤维素预处理来克服生物质顽固性。

Overcoming cellulose recalcitrance in woody biomass for the lignin-first biorefinery

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