Reinforcement learning optimizes genetic circuit design under uncertainty

作者 PulseAugur 编辑部 · [2 个来源] · 2026-05-07 16:49

研究人员开发了一个新的顺序框架，利用强化学习来优化基因电路的设计，以应对生物系统中固有的不确定性。该方法采用模拟器模型和一个预先训练好的摊销方法，以适应未知的实验室条件和分子噪声，从而避免了在每个实验步骤后进行计算密集型推理的需要。该框架已在基因表达和阻遏子电路模型上得到验证，显示出在处理随机性和跨实验室变异性方面的效率。 AI

影响引入了一种新颖的基于RL的优化生物系统设计的方法，有可能加速合成生物学领域的研究。

排序理由这是一篇发表在arXiv上的研究论文，详细介绍了一种设计基因电路的新方法。

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报道来源 [2]

arXiv cs.LG TIER_1 English(EN) · Michal Kobiela, Diego A. Oyarz\'un, Michael U. Gutmann · 2026-05-08 04:00

Sequential Design of Genetic Circuits Under Uncertainty With Reinforcement Learning

arXiv:2605.06552v1 Announce Type: new Abstract: The design of biological systems is hindered by uncertainty arising from both intrinsic stochasticity of biomolecular reactions and variability across laboratory or experimental conditions. In this work, we present a sequential fram…
arXiv cs.LG TIER_1 English(EN) · Michael U. Gutmann · 2026-05-07 16:49

Sequential Design of Genetic Circuits Under Uncertainty With Reinforcement Learning

The design of biological systems is hindered by uncertainty arising from both intrinsic stochasticity of biomolecular reactions and variability across laboratory or experimental conditions. In this work, we present a sequential framework to optimize genetic circuits under both fo…

报道来源 [2]

Sequential Design of Genetic Circuits Under Uncertainty With Reinforcement Learning

Sequential Design of Genetic Circuits Under Uncertainty With Reinforcement Learning

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