生物生产
计算机科学
模块化设计
人工智能
可扩展性
机器人学
实验室自动化
预处理器
可靠性(半导体)
自动化
机器学习
生化工程
生物技术
生物
工程类
机器人
数据库
机械工程
操作系统
物理
量子力学
功率(物理)
作者
Keiji Fushimi,Yusuke Nakai,Akiko Nishi,Ryō Suzuki,Masahiro Ikegami,Risa Nimura,Taichi Tomono,Ryota Hidese,Hisashi Yasueda,Yusuke Tagawa,Tomohisa Hasunuma
标识
DOI:10.1038/s41598-025-89069-y
摘要
In this study, we developed the autonomous lab (ANL), which is a system based on robotics and artificial intelligence (AI) to conduct biotechnology experiments and formulate scientific hypotheses. This system was designed with modular devices and Bayesian optimization algorithms, allowing it to effectively run a closed loop from culturing to preprocessing, measurement, analysis, and hypothesis formulation. As a case study, we used the ANL to optimize medium conditions for a recombinant Escherichia coli strain, which overproduces glutamic acid. The results demonstrated that our autonomous system successfully replicated the experimental techniques, such as sample preparation and data measurement, and improved both the cell growth rate and the maximum cell growth. The ANL offers a versatile and scalable solution for various applications in the field of bioproduction, with the potential to improve efficiency and reliability of experimental processes in the future.
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