Unlocking comprehensive molecular design across all scenarios with large language model and unordered chemical language
Jie Yue, Bingxin Peng, Yu Chen, Jieyu Jin, Xinda Zhao, Chao Shen, Xiangyang Ji, Chang‐Yu Hsieh, Jianfei Song, Tingjun Hou, Yafeng Deng, Jike Wang
Abstract
molecule design, linker design, R-group exploration, scaffold hopping, and side chain optimization. Furthermore, we integrate conditional generation and reinforcement learning (RL) methodologies to ensure that the generated molecules possess multiple desired biological and physicochemical properties. Experimental results across diverse scenarios validate FragGPT's superiority in generating molecules with enhanced properties and novel structures, outperforming existing state-of-the-art models. Moreover, its robust drug design capability is further corroborated through real-world drug design cases.
Topics & Concepts
Computer scienceNatural language processingComputational Drug Discovery MethodsMachine Learning in Materials ScienceChemical Synthesis and Analysis