葡萄糖醛酸酯酶通过上调植物生物量降解酶的表达促进粗草神经孢子菌的生物量降解。

IF 0.8 4区 生物学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Ruijie Wang, Manabu Arioka
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引用次数: 0

摘要

葡萄糖醛酸酯酶(GE)是一种很有前途的植物生物质脱木质素剂,因为它已被证明可以在体外切断木聚糖和木质素之间的联系。在这项研究中,我们证明了NcGE(一种来自粗神经孢子虫的GE)促进了植物生物量的降解。在体外,当NcGE与纤维素酶或木聚糖酶一起添加时,可以协同增加植物生物量中还原糖的释放。在体内,NcGE在粗草中的过表达导致木聚糖分解活性增加。在NcGE过表达菌株中,编码主要植物生物量降解酶(PBDEs)的基因转录水平升高。当转录因子clr-1、clr-2或xlr-1被删除时,增加的PDBE基因的木解活性和转录基本消失。有趣的是,在培养基中加入NcGE水解的植物生物量后,一些PBDE基因的表达有所增加。我们提出NcGE通过激活关键转录因子促进多溴二苯醚的产生,这可能是由NcGE介导的植物生物量产生的假设诱导剂引起的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Glucuronoyl esterase facilitates biomass degradation in Neurospora crassa by upregulating the expression of plant biomass-degrading enzymes.

Glucuronoyl esterase (GE) is a promising agent for the delignification of plant biomass since it has been shown to cleave the linkage between xylan and lignin in vitro. In this study, we demonstrate that NcGE, a GE from Neurospora crassa, stimulates plant biomass degradation. In vitro, NcGE synergistically increased the release of reducing sugars from plant biomass when added together with cellulase or xylanase. In vivo, overexpression of NcGE in N. crassa resulted in an increase in xylanolytic activity. Consistently, elevated transcription of genes encoding the major plant biomass degrading-enzymes (PBDEs) was observed in the NcGE overexpression strain. Increased xylanolytic activity and transcription of PDBE genes were largely abolished when the transcription factors clr-1, clr-2, or xlr-1 were deleted. Interestingly, the expression of some PBDE genes was increased when the hydrolysate of plant biomass by NcGE was added to the culture medium. We propose that NcGE boosts the production of PBDEs through the activation of key transcription factors, which is presumably caused by NcGE-mediated generation of hypothetical inducer(s) from plant biomass.

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来源期刊
Journal of General and Applied Microbiology
Journal of General and Applied Microbiology 生物-生物工程与应用微生物
CiteScore
2.40
自引率
0.00%
发文量
42
审稿时长
6-12 weeks
期刊介绍: JGAM is going to publish scientific reports containing novel and significant microbiological findings, which are mainly devoted to the following categories: Antibiotics and Secondary Metabolites; Biotechnology and Metabolic Engineering; Developmental Microbiology; Environmental Microbiology and Bioremediation; Enzymology; Eukaryotic Microbiology; Evolution and Phylogenetics; Genome Integrity and Plasticity; Microalgae and Photosynthesis; Microbiology for Food; Molecular Genetics; Physiology and Cell Surface; Synthetic and Systems Microbiology.
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