The transcriptional factor Clr-5 is involved in cellulose degradation through regulation of amino acid metabolism in Neurospora crassa.

IF 3.5 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY BMC Biotechnology Pub Date : 2023-11-29 DOI:10.1186/s12896-023-00823-4
Fanglei Xue, Zhen Zhao, Shuying Gu, Meixin Chen, Jing Xu, Xuegang Luo, Jingen Li, Chaoguang Tian
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Abstract

Background: Filamentous fungi are efficient degraders of plant biomass and the primary producers of commercial cellulolytic enzymes. While the transcriptional regulation mechanisms of cellulases have been continuously explored in lignocellulolytic fungi, the induction of cellulase production remains a complex multifactorial system, with several aspects still largely elusive.

Results: In this study, we identified a Zn2Cys6 transcription factor, designated as Clr-5, which regulates the expression of cellulase genes by influencing amino acid metabolism in Neurospora crassa during growth on cellulose. The deletion of clr-5 caused a significant decrease in secreted protein and cellulolytic enzyme activity of N. crassa, which was partially alleviated by supplementing with yeast extract. Transcriptomic profiling revealed downregulation of not only the genes encoding main cellulases but also those related to nitrogen metabolism after disruption of Clr-5 under Avicel condition. Clr-5 played a crucial role in the utilization of multiple amino acids, especially leucine and histidine. When using leucine or histidine as the sole nitrogen source, the Δclr-5 mutant showed significant growth defects on both glucose and Avicel media. Comparative transcriptomic analysis revealed that the transcript levels of most genes encoding carbohydrate-active enzymes and those involved in the catabolism and uptake of histidine, branched-chain amino acids, and aromatic amino acids, were remarkably reduced in strain Δclr-5, compared with the wild-type N. crassa when grown in Avicel medium with leucine or histidine as the sole nitrogen source. These findings underscore the important role of amino acid metabolism in the regulation of cellulase production in N. crassa. Furthermore, the function of Clr-5 in regulating cellulose degradation is conserved among ascomycete fungi.

Conclusions: These findings regarding the novel transcription factor Clr-5 enhance our comprehension of the regulatory connections between amino acid metabolism and cellulase production, offering fresh prospects for the development of fungal cell factories dedicated to cellulolytic enzyme production in bio-refineries.

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转录因子Clr-5通过调节粗神经孢子虫的氨基酸代谢参与纤维素降解。
背景:丝状真菌是植物生物量的高效降解者,也是商业纤维素水解酶的主要生产者。虽然纤维素酶的转录调控机制在木质纤维素水解真菌中不断被探索,但诱导纤维素酶产生仍然是一个复杂的多因子系统,有几个方面仍然难以捉摸。结果:本研究鉴定出Zn2Cys6转录因子Clr-5,该转录因子通过影响粗神经孢子虫在纤维素上生长过程中氨基酸代谢,调控纤维素酶基因的表达。clr-5缺失导致粗草N. crassa分泌蛋白和纤维素酶活性显著降低,添加酵母浸膏可部分缓解这一影响。转录组学分析显示,在Avicel条件下,Clr-5被破坏后,不仅编码主要纤维素酶的基因下调,而且与氮代谢相关的基因也下调。Clr-5在多种氨基酸的利用中起着至关重要的作用,尤其是亮氨酸和组氨酸。当以亮氨酸或组氨酸作为唯一氮源时,Δclr-5突变体在葡萄糖和Avicel培养基上均表现出显著的生长缺陷。比较转录组学分析表明,与野生型相比,菌株Δclr-5在以亮氨酸或组氨酸为唯一氮源的Avicel培养基中生长时,大部分编码糖活性酶的基因以及与组氨酸、支链氨基酸和芳香氨基酸的分解代谢和摄取有关的基因的转录水平显著降低。这些发现强调了氨基酸代谢在粗草纤维素酶生产调控中的重要作用。此外,Clr-5调控纤维素降解的功能在子囊菌真菌中是保守的。结论:这些关于新型转录因子Clr-5的发现增强了我们对氨基酸代谢与纤维素酶生产之间的调控关系的理解,为生物精炼厂生产纤维素酶的真菌细胞工厂的开发提供了新的前景。
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来源期刊
BMC Biotechnology
BMC Biotechnology 工程技术-生物工程与应用微生物
CiteScore
6.60
自引率
0.00%
发文量
34
审稿时长
2 months
期刊介绍: BMC Biotechnology is an open access, peer-reviewed journal that considers articles on the manipulation of biological macromolecules or organisms for use in experimental procedures, cellular and tissue engineering or in the pharmaceutical, agricultural biotechnology and allied industries.
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