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A structured understanding of cellobiohydrolase I binding to poplar lignin fractions after dilute acid pretreatment.

Identifieur interne : 001070 ( Main/Exploration ); précédent : 001069; suivant : 001071

A structured understanding of cellobiohydrolase I binding to poplar lignin fractions after dilute acid pretreatment.

Auteurs : Lan Yao [République populaire de Chine, États-Unis] ; Chang Geun Yoo [États-Unis] ; Xianzhi Meng [États-Unis] ; Mi Li [États-Unis] ; Yunqiao Pu [États-Unis] ; Arthur J. Ragauskas [États-Unis] ; Haitao Yang [République populaire de Chine]

Source :

RBID : pubmed:29632555

Abstract

Background

Cellulase adsorption to lignin is considered a cost barrier for bioethanol production; however, its detailed association mechanism is still not fully understood. In this study, two natural poplar variants with high and low sugar release performance were selected as the low and high recalcitrant raw materials (named

Results

Each lignin fraction had different physicochemical properties. Ethanol-extracted lignin had the lowest weight average molecular weight, while the molecular weights for the other two lignin fractions were similar.

Conclusions

Overall, adsorption ability of lignin was correlated with the sugar release of poplar. Structural features of lignin were associated with its binding to CBH. For natural poplar variants, lignin fractions with lower molecular weight and polydispersity index (PDI) exhibited more CBH adsorption ability. Lignins with more phenolic hydroxyl groups had higher CBH binding strength. It was also found that lignin fractions with more condensed aromatics adsorbed more CBH likely attributed to stronger hydrophobic interactions.


DOI: 10.1186/s13068-018-1087-y
PubMed: 29632555
PubMed Central: PMC5883885


Affiliations:

Links toward previous steps (curation, corpus...)

Le document en format XML

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<b>Background</b>
</p>
<p>Cellulase adsorption to lignin is considered a cost barrier for bioethanol production; however, its detailed association mechanism is still not fully understood. In this study, two natural poplar variants with high and low sugar release performance were selected as the low and high recalcitrant raw materials (named </p>
</div>
<div type="abstract" xml:lang="en">
<p>
<b>Results</b>
</p>
<p>Each lignin fraction had different physicochemical properties. Ethanol-extracted lignin had the lowest weight average molecular weight, while the molecular weights for the other two lignin fractions were similar. </p>
</div>
<div type="abstract" xml:lang="en">
<p>
<b>Conclusions</b>
</p>
<p>Overall, adsorption ability of lignin was correlated with the sugar release of poplar. Structural features of lignin were associated with its binding to CBH. For natural poplar variants, lignin fractions with lower molecular weight and polydispersity index (PDI) exhibited more CBH adsorption ability. Lignins with more phenolic hydroxyl groups had higher CBH binding strength. It was also found that lignin fractions with more condensed aromatics adsorbed more CBH likely attributed to stronger hydrophobic interactions.</p>
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<Day>29</Day>
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<Abstract>
<AbstractText Label="Background" NlmCategory="UNASSIGNED">Cellulase adsorption to lignin is considered a cost barrier for bioethanol production; however, its detailed association mechanism is still not fully understood. In this study, two natural poplar variants with high and low sugar release performance were selected as the low and high recalcitrant raw materials (named
<i>L</i>
and
<i>H</i>
, respectively). Three different lignin fractions were extracted using ethanol, followed by
<i>p</i>
-dioxane and then cellulase treatment from the dilute acid pretreated poplar solids (fraction 1, 2, and 3, respectively).</AbstractText>
<AbstractText Label="Results" NlmCategory="UNASSIGNED">Each lignin fraction had different physicochemical properties. Ethanol-extracted lignin had the lowest weight average molecular weight, while the molecular weights for the other two lignin fractions were similar.
<sup>31</sup>
P NMR analysis revealed that lignin fraction with higher molecular weight contained more aliphatic hydroxyl groups and less phenolic hydroxyl groups. Semi-quantitative analysis by 2D HSQC NMR indicated that the lignin fractions isolated from the natural variants had different contents of syringyl (S), guaiacyl (G) and interunit linkages. Lignin extracted by ethanol contained the largest amount of S units, the smallest amounts of G and
<i>p</i>
-hydroxybenzoate (PB) subunits, while the contents of these lignin subunits in the other two lignin fractions were similar. The lignin fraction obtained after cellulase treatment was primarily comprised of β-
<i>O</i>
-4 linkages with small amounts of β-5 and β-β linkages. The binding strength of these three lignin fractions obtained by Langmuir equations were in the order of
<i>L</i>
<sub>1</sub>
 > 
<i>L</i>
<sub>3</sub>
 > 
<i>L</i>
<sub>2</sub>
for the low recalcitrance poplar and
<i>H</i>
<sub>1</sub>
 > 
<i>H</i>
<sub>2</sub>
 > 
<i>H</i>
<sub>3</sub>
for the high recalcitrance poplar.</AbstractText>
<AbstractText Label="Conclusions" NlmCategory="UNASSIGNED">Overall, adsorption ability of lignin was correlated with the sugar release of poplar. Structural features of lignin were associated with its binding to CBH. For natural poplar variants, lignin fractions with lower molecular weight and polydispersity index (PDI) exhibited more CBH adsorption ability. Lignins with more phenolic hydroxyl groups had higher CBH binding strength. It was also found that lignin fractions with more condensed aromatics adsorbed more CBH likely attributed to stronger hydrophobic interactions.</AbstractText>
</Abstract>
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