Biomass digestibility is predominantly affected by three factors of wall polymer features distinctive in wheat accessions and rice mutants

Wu, Zhilin; Zhang, Mingliang; Wang, Lingqiang; Tu, Yuanyuan; Zhang, Jing; Xie, Guosheng; Zou, Weihua; Li, Fengcheng; Guo, Kai; Li, Qing; Gao, Chunbao; Peng, Liangcai

doi:10.1186/1754-6834-6-183

Cited by 116 publications

(143 citation statements)

References 44 publications

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“…Notably, a similar increase in hexoses yields was also observed in the sequential dilute alkali (NaOH) pretreatments (Fig. 1B), which was different from previous observations that alkali pretreatments can lead to much higher hexoses yields than those of acid pretreatments with raw biomass in many plant species (Xu et al 2012;Wu et al 2013;Li et al 2014a;Jia et al 2014). As steam explosion is somewhat like the acid pretreatment, which could predominately remove hemicelluloses (Jørgensen et al 2007;Alvira et al 2010), the present findings may imply that the sequential dilute acid and alkali pretreatments could lead to a similar enhancement on biomass saccharification in the three fiber crops.…”

Section: Steam Explosion Enhancements On Biomass Saccharificationcontrasting

confidence: 87%

“…Ramie showed a relatively high cellulose level (41.5% dry matter) and low lignin (22.5%), whereas jute had relatively high hemicelluloses content (26.0%; Table A.1), and kenaf had low cellulose content (34.8%; Table A.1). However, all three fiber crops exhibited much higher cellulose levels than that reported for most grass plants (Xu et al 2012;Wu et al 2013;Li et al 2013;Jia et al 2014). Hence, the three fiber crops could provide cellulose-rich biomass in the core stalks.…”

Section: Extraction Of Wall Polymers With Steam Explosionmentioning

confidence: 72%

“…Total lignin content was measured by the two-step acid hydrolysis method as described by Wu et al (2013). All experiments were carried out in triplicate.…”

Section: Total Lignin and Monolignol Detection By Hplcmentioning

confidence: 99%

“…The biomass enzymatic saccharification (or digestibility) was measured by calculating the hexoses yield (% cellulose) of enzymatic hydrolysis of biomass after pretreatment (Wu et al 2013). To test steam explosion enhancement on biomass saccharification, two-step pretreatments (steam explosion followed with acid/alkali) were performed in the three fiber crops.…”

Section: Steam Explosion Enhancements On Biomass Saccharificationmentioning

confidence: 99%

“…Cellulose crystallinity and degree of polymerization (DP) have been characterized as negative factors affecting biomass digestibility (Chang and Holtzapple 2000;Klemm et al 2005;Pan et al 2008;Xu et al 2012;Zhang et al 2013). Furthermore, the hemicellulose content is negatively correlated with the degree of cellulose crystallinity for high biomass saccharification under H2SO4 and NaOH pretreatments in many plant species examined (Xu et al 2012;Zhang et al 2013;Wu et al 2013;Jia et al 2014). In particular, arabinose substitution degree of xylans (reverse Xyl/Ara) has been discovered as a positive factor relative to biomass digestibility upon various chemical pretreatments (Wu et al 2013;Li et al 2013).…”

Section: Introductionmentioning

confidence: 99%

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Three Fiber Crops Show Distinctive Biomass Saccharification under Physical and Chemical Pretreatments by Altered Wall Polymer Features

Wei¹,

Zhou²,

Huang³

et al. 2016

BioResources

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Jute, kenaf, and ramie are important fiber crops in the textile industry, but their core stalks have not been well used. In this study, three fiber crops were examined with enhanced hexoses yields (% cellulose) up to 4.8-, 3.6-, and 1.9-fold from enzymatic hydrolysis of the steam-exploded stalks. Sequential dilute acid/alkali pretreatments achieved the increased hexoses yields up to 7.6-, 4.8-, and 2.8-fold. Without steam explosion, the three crops could increase hexoses yields under extremely high concentrations of NaOH (12% to 16%). While kenaf and ramie mainly showed hemicelluloses removal with steam explosion, jute exhibited an effective co-extraction of hemicelluloses and lignin, which greatly reduced its cellulose DP, hemicellulosic Xyl/Ara, and G-monomer. These findings explain why jute had the highest hexoses yield among the three crops and also suggest that G-monomer and Xyl may interact in a way that mainly determines wall polymers co-extraction with steam explosion.

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Section: Steam Explosion Enhancements On Biomass Saccharificationcontrasting

confidence: 87%

Section: Extraction Of Wall Polymers With Steam Explosionmentioning

confidence: 72%

“…Total lignin content was measured by the two-step acid hydrolysis method as described by Wu et al (2013). All experiments were carried out in triplicate.…”

Section: Total Lignin and Monolignol Detection By Hplcmentioning

confidence: 99%

Section: Steam Explosion Enhancements On Biomass Saccharificationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Three Fiber Crops Show Distinctive Biomass Saccharification under Physical and Chemical Pretreatments by Altered Wall Polymer Features

Wei¹,

Zhou²,

Huang³

et al. 2016

BioResources

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Comparison of the effects of different pretreatments on the structure and enzymatic hydrolysis of Miscanthus

Dai

Yang

et al. 2021

Biotech and App Biochem

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Miscanthus is regarded as a desired bioenergy crop with enormous lignocellulose residues for biofuels and other chemical products. In this study, the effect of different pretreatments (including microwave, NaOH, CaO, and microwave + NaOH/CaO) on sugar yields was investigated, leading to largely varied hexose yields at 4.0–73.4% (% cellulose) released from enzymatic hydrolysis of pretreated Miscanthus residues. Among them, the highest yield of 73.4% for hexoses was obtained from 12% NaOH (w/v) solution pretreatment, whereas 1% CaO (w/w) and microwave pretreatment resulted in a lower hexose yield than the control (without pretreatment). The sugar yield from microwave followed with 1% NaOH pretreatment was 4.3 times higher than that of microwave followed with 1% CaO. However, the enzymatic hydrolysis efficiencies of the sample were 15.2% and 58.5% under microwave pretreatment followed by 12% NaOH or 12.5% CaO, respectively, which were lower than those of the same concentration of alkali (NaOH and CaO) pretreatments. To investigate the mechanism of varied enzymatic saccharification under different pretreatments, the changes in the surface structure and porosity of the Miscanthus‐pretreated lignocelluses were studied by means of Fourier transform infrared, Congo red staining, and scanning electron microscopy analysis. The results show that the different pretreatments destroy the cell wall cladding structure and reduce the bonding force between cellulose, hemicellulose, and lignin to different degrees, therefore increasing the accessibility of cellulose and enhancing cellulose digestion.

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Rice straw as a feedstock for biofuels: Availability, recalcitrance, and chemical properties

Satlewal

Agrawal

Bhagia

et al. 2017

Biofuels Bioprod Bioref

141

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The surplus availability of rice straw, its limited usage, and environmental pollution caused by its ineffi cient burning has fostered research for its valorization to biofuels. This review elucidates the current status of rice straw potential around the globe along with recent advances in revealing the critical factors responsible for its recalcitrance and chemical properties. The role and accumulation of high silica content in rice straw has been elucidated with its impact on enzymatic hydrolysis in a biorefi nery environment. The correlation of different pre-treatment approaches in modifying the physiochemical properties of rice straw and improving the enzymatic accessibility has also been discussed. This study highlights new challenges, resolutions, and opportunities for rice straw based biorefi neries.

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Biomass digestibility is predominantly affected by three factors of wall polymer features distinctive in wheat accessions and rice mutants

Cited by 116 publications

References 44 publications

Three Fiber Crops Show Distinctive Biomass Saccharification under Physical and Chemical Pretreatments by Altered Wall Polymer Features

Three Fiber Crops Show Distinctive Biomass Saccharification under Physical and Chemical Pretreatments by Altered Wall Polymer Features

Comparison of the effects of different pretreatments on the structure and enzymatic hydrolysis of Miscanthus

Rice straw as a feedstock for biofuels: Availability, recalcitrance, and chemical properties

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