Regulation of the lignocellulolytic response in filamentous fungi

Huberman Lori B.; Liu Jason; Qin Lina; Glass N. Louise

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Regulation of the lignocellulolytic response in filamentous fungi

机译：丝状真菌中木质纤维素分解反应的调节

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Lignocellulose is an abundant waste product of agricultural and processing industries that can be utilized as a renewable fuel substitute for petroleum-based fuels. Saprophytic filamentous fungi are an important source of plant cell wall degrading enzymes necessary to break down the complex carbohydrates found in plant cell walls into simple sugars. Zinc binuclear cluster transcription factors activate the transcription of plant cell wall degrading enzymes when fungal cells are exposed to plant biomass. Nutrient sensing pathways that prioritize the use of preferred carbon sources act upstream of these transcription factors to inhibit the energy intensive production of cell wall degrading enzymes when unnecessary, while downstream feedback from the fungal secretory system also acts to regulate the production of these enzymes. Understanding the regulation of the fungal lignocellulolytic response will be important as we strive to increase the efficiency of production of these enzymes. (C) 2016 British Mycological Society. Published by Elsevier Ltd. All rights reserved.

机译：木质纤维素是农业和加工业的丰富废物，可以用作石油基燃料的可再生燃料替代品。腐生丝状真菌是植物细胞壁降解酶的重要来源，该酶可将植物细胞壁中发现的复杂碳水化合物分解为单糖。当真菌细胞暴露于植物生物量时，锌双核簇转录因子激活植物细胞壁降解酶的转录。优先使用优先碳源的营养传感途径在这些转录因子的上游起作用，以在不必要时抑制细胞壁降解酶的能量密集型产生，而真菌分泌系统的下游反馈也起调节这些酶的产生的作用。随着我们努力提高这些酶的生产效率，了解真菌木质纤维素分解反应的调控将非常重要。（C）2016英国Mycological Society。由Elsevier Ltd.出版。保留所有权利。

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《Fungal Biology Reviews》 |2016年第3期|共11页
作者
Huberman Lori B.; Liu Jason; Qin Lina; Glass N. Louise;
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正文语种 eng
中图分类免疫学;
关键词
Carbon catabolite repression; Filamentous fungi; Lignocellulose degradation; Nutrient sensing; Transcriptional regulation; Unfolded protein response;

机译：碳分解代谢物阻遏;丝状真菌;木质纤维素降解;营养感测;转录调控;未折叠的蛋白质反应;

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专利

1. Regulation of the lignocellulolytic response in filamentous fungi [J] . Huberman Lori B., Liu Jason, Qin Lina, Fungal Biology Reviews . 2016,第3期

机译：丝状真菌中木质纤维素分解反应的调节
2. Coupling of transcriptional response to oxidative stress and secondary metabolism regulation in filamentous fungi [J] . Montibus Mathilde, Pinson-Gadais Laetitia, Richard-Forget Florence, Critical reviews in microbiology . 2015,第1a4期

机译：丝状真菌中转录响应对氧化应激和次级代谢调控的耦合
3. Cytokine responses and regulation of interferon-gamma release by human mononuclear cells to Aspergillus fumigatus and other filamentous fungi. [J] . Warris A, Netea MG, Verweij PE, Medical mycology: official publication of the International Society for Human and Animal Mycology . 2005,第7期

机译：人单核细胞对烟曲霉和其他丝状真菌的细胞因子反应和干扰素-γ释放的调节。
4. LIGNOCELLULOLYTIC ENZYME PRODUCTION IN LIQUID AND SOLID CULTURE OF NEW WHITE ROT FUNGI [C] . Huang Qianming, Ma Sibei, Yang Jun, International symposium on emerging technologies of pulping and papermaking;ISETPP . 2006

机译：新型白腐真菌液体和固体培养中的纤维素酶生产
5. Regulation of morphogenesis in filamentous fungi. [D] . Si, Haoyu. 2010

机译：丝状真菌形态发生的调控。
6. Comparative Transcriptome Analysis Shows Conserved Metabolic Regulation during Production of Secondary Metabolites in Filamentous Fungi [O] . Jens Christian Nielsen, Sylvain Prigent, Sietske Grijseels, 2019

机译：比较转录组分析显示丝状真菌次生代谢产物生产过程中保守的代谢调控。
7. Regulation of the lignocellulolytic response in filamentous fungi [O] . Lori B. Huberman, Jason Liu, Lina Qin, 2016

机译：对丝状真菌的木质纤维素反应调节

Regulation of the lignocellulolytic response in filamentous fungi

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