侯成凤,贺星星,杨立远,等.表观遗传修饰应用于真菌次级代谢调控研究的最新进展[J].中国海洋药物,2021,40(3):51-65.
表观遗传修饰应用于真菌次级代谢调控研究的最新进展
The application of epigenetic modification in the research of secondary motabolites from fungi
投稿时间:2020-05-08  修订日期:2020-11-24
DOI:
中文关键词:  真菌  分子表观遗传修饰  化学表观遗传修饰  沉默基因簇  次级代谢产物
English Keywords:fungi  molecular epigenetic modification  chemical epigenetic modification  silent gene cluster  secondary metabolites
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作者单位E-mail
侯成凤 中国海洋大学 2384265807@qq.com 
贺星星 中国海洋大学 医药学院  
杨立远 中国海洋大学 医药学院  
王雨晴 中国海洋大学 医药学院  
朱伟明 中国海洋大学 医药学院  
王乂* 中国海洋大学 医药学院 wangyi0213@ouc.edu.cn 
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中文摘要:
      真菌次级代谢产物的生物合成与其基因簇所在染色体的表观遗传状态密切相关,通过表观遗传修饰能够调控真菌的次级代谢过程。分子表观遗传修饰方法主要通过敲除或过表达表观遗传相关酶类的编码基因,而化学表观遗传修饰方法则是外源加入化学表观遗传修饰酶抑制剂。二者都能促进基因的转录,进而激活沉默的生物合成基因簇,提高真菌次级代谢产物的化学多样性。本文综述了2015年至今的表观遗传修饰应用于真菌次级代谢调控研究的最新进展,就分子表观遗传修饰和化学表观遗传修饰两方面进行阐述,并对两种方法的进行总结与展望。
English Summary:
      The biosynthesis of secondary metabolites of fungi is closely related to the epigenetic state of the chromosomes where their gene clusters are located, and the process of secondary metabolism of fungi can be regulated by epigenetic modification. Molecular epigenetic modification methods are mainly through knockout or overexpression of coding genes of epigenetic related enzymes, while chemical epigenetic modification methods are exogenous addition of chemical epigenetic modification enzyme inhibitors. Both of them can promote gene transcription, then activate silent biosynthetic gene clusters, and improve the chemical diversity of secondary metabolites of fungi. In this paper, the latest progress in the application of epigenetic modification to the regulation of secondary metabolism in fungi from 2015 to now was reviewed, and the molecular epigenetic modification and chemical epigenetic modification were described. The combined use of the two methods and the development of epigenetic modification were summarized and prospected.
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