Recent advances in the biosynthesis of isoprenoids in engineered Saccharomyces cerevisiae.

2区 生物学 Q1 Immunology and Microbiology Advances in applied microbiology Pub Date : 2021-01-01 Epub Date: 2020-12-09 DOI:10.1016/bs.aambs.2020.11.001
Zhaobao Wang, Rubing Zhang, Qun Yang, Jintian Zhang, Youxi Zhao, Yanning Zheng, Jianming Yang
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引用次数: 9

Abstract

Isoprenoids, as the largest group of chemicals in the domains of life, constitute more than 50,000 members. These compounds consist of different numbers of isoprene units (C5H8), by which they are typically classified into hemiterpenoids (C5), monoterpenoids (C10), sesquiterpenoids (C15), diterpenoids (C20), triterpenoids (C30), and tetraterpenoids (C40). In recent years, isoprenoids have been employed as food additives, in the pharmaceutical industry, as advanced biofuels, and so on. To realize the sufficient and efficient production of valuable isoprenoids on an industrial scale, fermentation using engineered microorganisms is a promising strategy compared to traditional plant extraction and chemical synthesis. Due to the advantages of mature genetic manipulation, robustness and applicability to industrial bioprocesses, Saccharomyces cerevisiae has become an attractive microbial host for biochemical production, including that of various isoprenoids. In this review, we summarized the advances in the biosynthesis of isoprenoids in engineered S. cerevisiae over several decades, including synthetic pathway engineering, microbial host engineering, and central carbon pathway engineering. Furthermore, the challenges and corresponding strategies towards improving isoprenoid production in engineered S. cerevisiae were also summarized. Finally, suggestions and directions for isoprenoid production in engineered S. cerevisiae in the future are discussed.

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工程酿酒酵母类异戊二烯生物合成研究进展。
类异戊二烯是生命领域中最大的一类化学物质,有5万多个成员。这些化合物由不同数目的异戊二烯单位(C5H8)组成,根据它们通常分为半萜(C5)、单萜(C10)、倍半萜(C15)、二萜(C20)、三萜(C30)和四萜(C40)。近年来,类异戊二烯已被用作食品添加剂、制药工业、先进生物燃料等。与传统的植物提取和化学合成相比,利用工程微生物进行发酵是一种很有前途的方法,可以在工业规模上充分高效地生产有价值的类异戊二烯。由于成熟的遗传操作、稳健性和适用于工业生物过程的优势,酿酒酵母已成为生物化学生产(包括各种类异戊二烯)的有吸引力的微生物宿主。本文综述了近几十年来酿酒酵母生物合成类异戊二烯的研究进展,包括合成途径工程、微生物宿主工程和中心碳途径工程。此外,还总结了改良酿酒酵母生产类异戊二烯所面临的挑战和相应的对策。最后,对今后工程酿酒葡萄生产类异戊二烯的建议和方向进行了讨论。
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来源期刊
Advances in applied microbiology
Advances in applied microbiology 生物-生物工程与应用微生物
CiteScore
8.20
自引率
0.00%
发文量
16
审稿时长
>12 weeks
期刊介绍: Advances in Applied Microbiology offers intensive reviews of the latest techniques and discoveries in this rapidly moving field. The editors are recognized experts and the format is comprehensive and instructive. Published since 1959, Advances in Applied Microbiology continues to be one of the most widely read and authoritative review sources in microbiology. Recent areas covered include bacterial diversity in the human gut, protozoan grazing of freshwater biofilms, metals in yeast fermentation processes and the interpretation of host-pathogen dialogue through microarrays.
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