通过预浸泡提高废弃小麦秸秆的酶解消化率，以降低灰分对自水解的影响。

Enhancing enzymatic digestibility of waste wheat straw by presoaking to reduce the ash-influencing effect on autohydrolysis.

作者信息

Tang Wei, Wu Xinxing, Huang Chen, Huang Caoxing, Lai Chenhuan, Yong Qiang

机构信息

1Key Laboratory of Forestry Genetics & Biotechnology (Nanjing Forestry University), Ministry of Education, Nanjing, 210037 People's Republic of China.

2Jiangsu Co-Innovation Center of Efficient Processing and Utilization of Forest Resources, College of Chemical Engineering, Nanjing Forestry University, Nanjing, 210037 People's Republic of China.

出版信息

Biotechnol Biofuels. 2019 Sep 17;12:222. doi: 10.1186/s13068-019-1568-7. eCollection 2019.

DOI:10.1186/s13068-019-1568-7

PMID:31534481

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6747752/

Abstract

BACKGROUND

The acid buffering capacity of high free ash in waste wheat straw (WWS) has been revealed to be a significant hindrance on the efficiency of autohydrolysis pretreatment. Previous researches have mainly relied on washing to eliminate the influence of ash, and the underlying mechanism of the ash influencing was not extensively investigated. Presently, studies have found that cations can destroy the acid buffering capacity of ash through cation exchange. Herein, different cations were applied to presoak WWS with the aim to overcome the negative effects of ash on autohydrolysis efficiency, further improving its enzymatic digestibility.

RESULTS

Results showed that cations can be adsorbed on the surface of the material by electrostatic adsorption to change the acid buffering capacity of WWS. The acid buffering capacity of 120 mM Fe presoaked WWS is reduced from 226.3 mmol/pH-kg of original WWS to 79.3 mmol/pH-kg. This reduced the autohydrolysis pretreatment medium pH from 5.7 to 3.8 and promoted the removal of xylan from 61.7 to 83.7%. In addition, the enzymatic digestibility of WWS was enhanced from 49.7 to 86.3% by presoaking with 120 mM Fe solution. The relationship between enzymatic accessibility and hydrophobicity with enzymatic digestibility of the autohydrolyzed WWS was analyzed.

CONCLUSIONS

The results showed that the acid buffering capacity of the high free ash was detrimental for the autohydrolysis efficiency of WWS. After WWS was presoaked with different cations, the acid buffering capacity of ash was weakened by cation exchange and electrostatic adsorption, which improved the autohydrolysis efficiency. The results expound that the enzymatic digestibility of WWS can be enhanced through presoaking to reduce the ash-influencing effect on autohydrolysis.

摘要

背景

已发现废弃小麦秸秆（WWS）中高游离灰分的酸缓冲能力是对自水解预处理效率的重大阻碍。以往的研究主要依靠洗涤来消除灰分的影响，而对灰分影响的潜在机制并未进行广泛研究。目前，研究发现阳离子可通过阳离子交换破坏灰分的酸缓冲能力。在此，应用不同的阳离子对WWS进行预浸泡，以克服灰分对自水解效率的负面影响，进一步提高其酶解消化率。

结果

结果表明，阳离子可通过静电吸附作用吸附在材料表面，从而改变WWS的酸缓冲能力。经120 mM铁预浸泡的WWS的酸缓冲能力从原始WWS的226.3 mmol/pH-kg降至79.3 mmol/pH-kg。这使自水解预处理介质的pH值从5.7降至3.8，并使木聚糖的去除率从61.7%提高到83.7%。此外，用120 mM铁溶液预浸泡使WWS的酶解消化率从49.7%提高到86.3%。分析了自水解WWS的酶可及性和疏水性与酶解消化率之间的关系。

结论

结果表明，高游离灰分的酸缓冲能力对WWS的自水解效率不利。用不同阳离子对WWS进行预浸泡后，通过阳离子交换和静电吸附削弱了灰分的酸缓冲能力，提高了自水解效率。结果表明，通过预浸泡可降低灰分对自水解的影响，从而提高WWS的酶解消化率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8319/6747752/9a34e1c299cd/13068_2019_1568_Fig1_HTML.jpg

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通过预浸泡提高废弃小麦秸秆的酶解消化率，以降低灰分对自水解的影响。

Enhancing enzymatic digestibility of waste wheat straw by presoaking to reduce the ash-influencing effect on autohydrolysis.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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