Bamboo saccharification through cellulose solvent-based biomass pretreatment followed by enzymatic hydrolysis at ultra-low cellulase loadings

Sathitsuksanoh N; Zhu ZG; Ho TJ; Bai MD; Zhang YHP

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Bamboo saccharification through cellulose solvent-based biomass pretreatment followed by enzymatic hydrolysis at ultra-low cellulase loadings

机译：通过基于纤维素溶剂的生物质预处理进行竹糖化，然后在超低纤维素酶负载下进行酶水解

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The modified cellulose solvent- (concentrated phosphoric acid) and organic solvent- (95% ethanol) based lignocellulose fractionation (COSLIF) was applied to a naturally-dry moso bamboo sample. The biomass dissolution conditions were 50 degrees C, 1 atm for 60 min. Glucan digestibility was 88.2% at an ultra-low cellulase loading of one filter paper unit per gram of glucan. The overall glucose and xylose yields were 86.0% and 82.6%, respectively. COSLIF efficiently destructed bamboo's fibril structure, resulting in a 33-fold increase in cellulose accessibility to cellulase (CAC) from 0.27 to 9.14 m(2) per gram of biomass. Cost analysis indicated that a 15-fold decrease in use of costly cellulase would be of importance to decrease overall costs of biomass saccharification when cellulase costs are higher than

机译：将改性纤维素溶剂（浓磷酸）和有机溶剂（95％乙醇）基木质纤维素分馏物（COSLIF）应用于天然干燥的毛竹样品。生物质溶解条件为50℃，1个大气压下60分钟。在每克葡聚糖一个滤纸单位的超低纤维素酶负载下，葡聚糖的消化率为88.2％。葡萄糖和木糖的总产率分别为86.0％和82.6％。 COSLIF有效地破坏了竹纤维结构，从而使纤维素酶（CAC）的纤维素可及性从每克生物量0.27增至9.14 m（2）33倍。成本分析表明，当纤维素酶的成本高于10倍时，使用昂贵的纤维素酶的成本降低15倍对于降低生物质糖化的总成本至关重要。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies 》 |2010年第13期| 共4页
作者
Sathitsuksanoh N; Zhu ZG; Ho TJ; Bai MD; Zhang YHP;
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正文语种 eng
中图分类生物科学 ;
关键词
Bamboo; Biomass saccharification; Cellulose accessibility to cellulase; Cellulose solvent- and organic solvent-based lignocellulose fractionation (COSLIF); Enzymatic cellulose hydrolysis;

机译：竹;生物质糖化;纤维素酶的纤维素可及性;基于纤维素溶剂和有机溶剂的木质纤维素分级分离（COSLIF）;酶促纤维素水解;

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1. Bamboo saccharification through cellulose solvent-based biomass pretreatment followed by enzymatic hydrolysis at ultra-low cellulase loadings [J] . Sathitsuksanoh N, Zhu ZG, Ho TJ, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2010 ,第13期

机译：通过基于纤维素溶剂的生物质预处理进行竹糖化，然后在超低纤维素酶负载下进行酶水解
2. CELLULASE ADSORPTION-DESORPTION AND CELLULOSE SACCHARIFICATION DURING ENZYMATIC HYDROLYSIS OF CELLULASE MATERIALS [J] . Vanwyk JPH. Biotechnology Letters . 1997 ,第8期

机译：纤维素酶材料酶解过程中的纤维素酶吸附解吸和纤维素糖化
3. Alkaline incubation improves the saccharification of poplar after sodium chlorite pretreatment with ultra-low cellulase loading [J] . Wen Peiyao, Xu Yong, Zhang Junhua Renewable energy . 2021 ,第Juna期

机译：碱性孵育改善了氯酸钠预处理杨树杨树的糖化，用超低纤维素酶负载
4. Green methods for improving enzymatic saccharification of plant based biomass for cellulosic ethanol by using oxalic acid pretreatments [C] . D Berke-Schlessel, S Das, R Wexler American Chemical Society National Meeting Exposition . 2010

机译：采用草酸预处理改善纤维素乙醇植物生物质酶糖化的绿色方法
5. The effects of surfactant pretreatment and xylooligomers on enzymatic hydrolysis of cellulose and pretreated biomass. [D] . Qing, Qing. 2010

机译：表面活性剂预处理和低聚木二聚体对纤维素和预处理生物质的酶促水解的影响。
6. A sequential pretreatment of lignocelluloses in bamboo biomass to fermentable sugars by acid/enzymatic hydrolysis [O] . Praveenkumar Jagannathan, Chandrasekaran Muthukumaran, Krishnamurthi Tamilarasan 2017

机译：通过酸/酶水解将竹生物量中的木质纤维素顺序预处理为可发酵糖
7. A Cation Study on Rice Husk Biomass Pretreatment with Aqueous Hydroxides:Cellulose Solubility Does Not Correlate with Improved Enzymatic Hydrolysis [O] . Lau, Benjamin B.Y., Yeung, Tracey, Patterson, Robert J., 2018

机译：氢氧化物预处理稻壳生物质的阳离子研究：纤维素的溶解度与改善的酶水解作用不相关
8. Evaluation of Pretreatments of Biomass for Enzymatic Hydrolysis of Cellulose [R] . Chum, H. L., Douglas, L. J., Feinberg, D. A., 1985

机译：生物质预处理对纤维素酶水解的评价

Bamboo saccharification through cellulose solvent-based biomass pretreatment followed by enzymatic hydrolysis at ultra-low cellulase loadings

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