木聚糖酶在[具体内容缺失]中的改进生产及其在木聚糖生产木糖中的应用。

Improved Production of Xylanase in and Its Application in Xylose Production From Xylan.

作者信息

Miao Ting, Basit Abdul, Liu Junquan, Zheng Fengzhen, Rahim Kashif, Lou Huiqiang, Jiang Wei

机构信息

State Key Laboratory of Agro-Biotechnology, College of Biological Sciences, China Agricultural University, Beijing, China.

Department of Microbiology and Molecular Genetics, Faculty of Life Sciences, University of Okara, Okara, Pakistan.

出版信息

Front Bioeng Biotechnol. 2021 Aug 27;9:690702. doi: 10.3389/fbioe.2021.690702. eCollection 2021.

DOI:10.3389/fbioe.2021.690702

PMID:34513809

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8429496/

Abstract

Xylanases with high specific activity has been focused with great interest as a useful enzyme in biomass utilization. The production of recombinant GH11 xylanase (MYCTH_56237) from has been improved through N-terminal signal peptide engineering in . The production of newly recombinant xylanase (termed Mtxyn11C) was improved from 442.53 to 490.7 U/mL, through a replacement of α-factor signal peptide with the native xylanase signal peptide segment (MVSVKAVLLLGAAGTTLA) in . Scaling up of Mtxyn11C production in a 7.5 L fermentor was improved to the maximal production rate of 2503 U/mL. In this study, the degradation efficiency of Mtxyn11C was further examined. Analysis of the hydrolytic mode of action towards the birchwood xylan (BWX) revealed that Mtxyn11C was clearly more effective than commercial xylanase and degrades xylan into xylooligosaccharides (xylobiose, xylotriose, xylotetraose). More importantly, Mtxyn11C in combination with a single multifunctional xylanolytic enzyme, improved the hydrolysis of BWX into single xylose by 40%. Altogether, this study provided strategies for improved production of xylanase together with rapid conversion of xylose from BWX, which provides sustainable, cost-effective and environmental friendly approaches to produce xylose/XOSs for biomass energy or biofuels production.

摘要

具有高比活性的木聚糖酶作为生物质利用中的一种有用酶已引起极大关注。通过在[具体生物]中进行N端信号肽工程，提高了[具体生物]中重组GH11木聚糖酶（MYCTH_56237）的产量。通过在[具体生物]中用天然木聚糖酶信号肽片段（MVSVKAVLLLGAAGTTLA）替换α-因子信号肽，新重组木聚糖酶（称为Mtxyn11C）的产量从442.53提高到490.7 U/mL。在7.5 L发酵罐中扩大Mtxyn11C的生产，其最大生产速率提高到2503 U/mL。在本研究中，进一步检测了Mtxyn11C的降解效率。对桦木木聚糖（BWX）的水解作用模式分析表明，Mtxyn11C明显比商业木聚糖酶更有效，能将木聚糖降解为木寡糖（木二糖、木三糖、木四糖）。更重要的是，Mtxyn11C与单一多功能木聚糖分解酶联合使用，使BWX水解为单木糖的效率提高了40%。总之，本研究提供了提高木聚糖酶产量以及将BWX中的木糖快速转化的策略，为生物质能源或生物燃料生产中生产木糖/木寡糖提供了可持续、经济高效且环境友好的方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4da2/8429496/576cb6fee7d0/fbioe-09-690702-g001.jpg

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木聚糖酶在[具体内容缺失]中的改进生产及其在木聚糖生产木糖中的应用。

Improved Production of Xylanase in and Its Application in Xylose Production From Xylan.

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