生物经济时代的微生物细胞工厂:从发现到创造。

Q2 Agricultural and Biological Sciences 生物设计研究(英文) Pub Date : 2024-10-21 eCollection Date: 2024-01-01 DOI:10.34133/bdr.0052
Xiongying Yan, Qiaoning He, Binan Geng, Shihui Yang
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引用次数: 0

摘要

微生物细胞工厂(MCF)被广泛用于生产各种生物产品,如生物能源、生物化学、食品、营养品和药品,并被视为生物制造的 "芯片",将为新兴的生物经济时代提供动力。随着生物技术的进步,越来越多的微生物被筛选、研究和工程化,成为多种多样的 MCF,它们是生物制造的主力军,有助于发展生物经济。本综述简要总结了为实现可持续和经济的生物制造而开发稳健高效的 MCFs 的进展和策略。首先,需要全面了解微生物底盘细胞,包括准确的基因组序列和相应的注释;管理物质、能量、生理和信息的代谢和调控网络;以及与其他微生物相比的相似性和独特性。此外,开发和应用有效和高效的工具对于将模式和非模式微生物底盘细胞工程化为高效 MCF 至关重要,包括生物部分的鉴定和表征,以及基因、回路和通路的设计、合成、组装、编辑和调控。本综述还强调了将自动化和人工智能(AI)与生物技术相结合的必要性,以促进未来定制化人工合成 MCF 的发展,加快生物制造和生物经济的产业化进程。
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Microbial Cell Factories in the Bioeconomy Era: From Discovery to Creation.

Microbial cell factories (MCFs) are extensively used to produce a wide array of bioproducts, such as bioenergy, biochemical, food, nutrients, and pharmaceuticals, and have been regarded as the "chips" of biomanufacturing that will fuel the emerging bioeconomy era. Biotechnology advances have led to the screening, investigation, and engineering of an increasing number of microorganisms as diverse MCFs, which are the workhorses of biomanufacturing and help develop the bioeconomy. This review briefly summarizes the progress and strategies in the development of robust and efficient MCFs for sustainable and economic biomanufacturing. First, a comprehensive understanding of microbial chassis cells, including accurate genome sequences and corresponding annotations; metabolic and regulatory networks governing substances, energy, physiology, and information; and their similarity and uniqueness compared with those of other microorganisms, is needed. Moreover, the development and application of effective and efficient tools is crucial for engineering both model and nonmodel microbial chassis cells into efficient MCFs, including the identification and characterization of biological parts, as well as the design, synthesis, assembly, editing, and regulation of genes, circuits, and pathways. This review also highlights the necessity of integrating automation and artificial intelligence (AI) with biotechnology to facilitate the development of future customized artificial synthetic MCFs to expedite the industrialization process of biomanufacturing and the bioeconomy.

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来源期刊
CiteScore
3.90
自引率
0.00%
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审稿时长
12 weeks
期刊最新文献
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