中新网北京1月12日电 (记者 孙自法)施普林格旗下专业学术期刊新刊《自然-化学工程》创刊号发表一篇化学论文称,研究人员开发出一个能对蛋白质进行工程改造的人工智能(AI)驱动的全自动机器人,这项研究结果是对无需人类干预的蛋白质设计和构建的一次概念验证。
该人工智能机器人平台能显著提高蛋白质改造的速度,超过人类工程师的工作效率。研究团队利用深度学习技术和自动化控制系统,实现了对蛋白质结构的快速设计和优化。这一突破性技术有望为生物制药、生物材料等领域带来革命性的变革。
据悉,该全自动机器人平台在无需人类干预的情况下,可以对蛋白质进行高效改造,大大缩短了研究周期,降低了实验成本。此外,人工智能的介入还能减少实验失误,提高科研成果的可靠性。
Title: AI-powered robot accelerates protein engineering
Keywords: Artificial intelligence, protein engineering, automated robot
News content:
A team of researchers has developed an AI-driven automated robot that can engineer proteins at a speed surpassing human capabilities. The groundbreaking study, published in the inaugural issue of Springer Nature’s journal Nature Chemical Engineering, represents a major breakthrough in protein design and construction without human intervention.
The AI-powered robot platform significantly improves the speed of protein modification, outperforming human engineers. By utilizing deep learning techniques and automated control systems, the research team was able to rapidly design and optimize protein structures. This innovative technology is expected to bring revolutionary changes to fields such as biopharmaceuticals and biomaterials.
It is understood that the automated robot platform can efficiently engineer proteins without human intervention, significantly reducing the research cycle and experimental costs. Furthermore, the involvement of artificial intelligence can minimize errors and enhance the reliability of research achievements.
【来源】http://www.chinanews.com/gj/2024/01-12/10145119.shtml
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