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纤维素降解 AA9 溶菌多糖单加氧酶的功能表征及其潜在应用。

Functional characterization of cellulose-degrading AA9 lytic polysaccharide monooxygenases and their potential exploitation.

机构信息

State Key Laboratory of Microbial Technology, Shandong University, No. 72 Binhai Road, Qingdao, 266237, China.

Department of Bioengineering, Huainan Normal University, No. 278 Xueyuannan Road, Huainan, 232038, China.

出版信息

Appl Microbiol Biotechnol. 2020 Apr;104(8):3229-3243. doi: 10.1007/s00253-020-10467-5. Epub 2020 Feb 19.

DOI:10.1007/s00253-020-10467-5
PMID:32076777
Abstract

Cellulose-degrading auxiliary activity family 9 (AA9) lytic polysaccharide monooxygenases (LPMOs) are known to be widely distributed among filamentous fungi and participate in the degradation of lignocellulose via the oxidative cleavage of celluloses, cello-oligosaccharides, or hemicelluloses. AA9 LPMOs have been reported to have extensive interactions with not only cellulases but also oxidases. The addition of AA9 LPMOs can greatly reduce the amount of cellulase needed for saccharification and increase the yield of glucose. The discovery of AA9 LPMOs has greatly changed our understanding of how fungi degrade cellulose. In this review, apart from summarizing the recent discoveries related to their catalytic reaction, functional diversity, and practical applications, the stability, expression system, and protein engineering of AA9 LPMOs are reviewed for the first time. This review may provide a reference value to further broaden the substrate range of AA9 LPMOs, expand the scope of their practical applications, and realize their customization for industrial utilization.Key Points• The stability and expression system of AA9 LPMOs are reviewed for the first time.• The protein engineering of AA9 LPMOs is systematically summarized for the first time.• The latest research results on the catalytic mechanism of AA9 LPMOs are summarized.• The application of AA9 LPMOs and their relationship with other enzymes are reviewed.

摘要

纤维素降解辅助活性家族 9(AA9)裂解多糖单加氧酶(LPMOs)广泛分布于丝状真菌中,通过对纤维素、纤维寡糖或半纤维素的氧化裂解参与木质纤维素的降解。AA9 LPMOs 已被报道与不仅与纤维素酶而且与氧化酶有广泛的相互作用。添加 AA9 LPMOs 可以大大减少糖化所需的纤维素酶用量,并提高葡萄糖的产量。AA9 LPMOs 的发现极大地改变了我们对真菌如何降解纤维素的理解。在这篇综述中,除了总结它们的催化反应、功能多样性和实际应用的最新发现外,还首次对 AA9 LPMOs 的稳定性、表达系统和蛋白质工程进行了综述。这篇综述可能为进一步拓宽 AA9 LPMOs 的底物范围、扩大其实际应用范围以及实现其定制化用于工业利用提供参考价值。

关键点

• 首次综述了 AA9 LPMOs 的稳定性和表达系统。

• 首次系统总结了 AA9 LPMOs 的蛋白质工程。

• 总结了 AA9 LPMOs 催化机制的最新研究结果。

• 综述了 AA9 LPMOs 的应用及其与其他酶的关系。

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