异源的
生物
基因
巢状曲霉
异源表达
终端(太阳能)
发起人
基因表达
报告基因
表达式向量
计算生物学
抄写(语言学)
遗传学
重组DNA
电离层
物理
哲学
突变体
语言学
天文
作者
Sandra Hoefgen,Jun Lin,Janis Fricke,María C. Stroe,Derek J. Mattern,Johann E. Kufs,Peter Hortschansky,Axel A. Brakhage,Dirk Hoffmeister,Vito Valiante
标识
DOI:10.1016/j.ymben.2018.05.014
摘要
Heterologous expression of multi-gene biosynthetic pathways in eukaryotic hosts is limited by highly regulated individual monocistrons. Dissimilar to prokaryotes, each eukaryotic gene is strictly controlled by its own regulatory elements, such as promoter and terminator. Consequently, parallel transcription can occur only when a group of genes is synchronously activated. A strategy to circumvent this limitation is the concerted expression of multiple genes as a polycistron. By exploiting the "stop-carry on" mechanism of picornaviruses, we have designed a sophisticated, yet easy-to-assemble vector system to heterologously express multiple genes under the control of a single promoter. For facile selection of correctly transformed colonies by basic fluorescence microscopy, our vector includes a split gene for a fluorescent reporter protein. This method was successfully applied to produce the psychotropic mushroom alkaloid psilocybin in high yields by heterologous expression of the entire biosynthetic gene cluster in the mould Aspergillus nidulans.
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