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Synthetic Biology—The Synthesis of Biology

合成生物学 生命系统 计算生物学 生物医学 生物 人工细胞 计算机科学 构造(python库) 生化工程 利用 纳米技术 人工智能 工程类 生物信息学 材料科学 遗传学 程序设计语言 计算机安全
作者
Simon Ausländer,David M. Auslander,Martin Fussenegger
出处
期刊:Angewandte Chemie [Wiley]
卷期号:56 (23): 6396-6419 被引量:197
标识
DOI:10.1002/anie.201609229
摘要

Synthetic biology concerns the engineering of man-made living biomachines from standardized components that can perform predefined functions in a (self-)controlled manner. Different research strategies and interdisciplinary efforts are pursued to implement engineering principles to biology. The "top-down" strategy exploits nature's incredible diversity of existing, natural parts to construct synthetic compositions of genetic, metabolic, or signaling networks with predictable and controllable properties. This mainly application-driven approach results in living factories that produce drugs, biofuels, biomaterials, and fine chemicals, and results in living pills that are based on engineered cells with the capacity to autonomously detect and treat disease states in vivo. In contrast, the "bottom-up" strategy seeks to be independent of existing living systems by designing biological systems from scratch and synthesizing artificial biological entities not found in nature. This more knowledge-driven approach investigates the reconstruction of minimal biological systems that are capable of performing basic biological phenomena, such as self-organization, self-replication, and self-sustainability. Moreover, the syntheses of artificial biological units, such as synthetic nucleotides or amino acids, and their implementation into polymers inside living cells currently set the boundaries between natural and artificial biological systems. In particular, the in vitro design, synthesis, and transfer of complete genomes into host cells point to the future of synthetic biology: the creation of designer cells with tailored desirable properties for biomedicine and biotechnology.
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