XMOL: Explainable Multi-property Optimization of Molecules

Aye Phyu Phyu Aung, Jay Chaudhary, Ji Wei Yoon, Senthilnath Jayavelu
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Abstract

Molecular optimization is a key challenge in drug discovery and material science domain, involving the design of molecules with desired properties. Existing methods focus predominantly on single-property optimization, necessitating repetitive runs to target multiple properties, which is inefficient and computationally expensive. Moreover, these methods often lack transparency, making it difficult for researchers to understand and control the optimization process. To address these issues, we propose a novel framework, Explainable Multi-property Optimization of Molecules (XMOL), to optimize multiple molecular properties simultaneously while incorporating explainability. Our approach builds on state-of-the-art geometric diffusion models, extending them to multi-property optimization through the introduction of spectral normalization and enhanced molecular constraints for stabilized training. Additionally, we integrate interpretive and explainable techniques throughout the optimization process. We evaluated XMOL on the real-world molecular datasets i.e., QM9, demonstrating its effectiveness in both single property and multiple properties optimization while offering interpretable results, paving the way for more efficient and reliable molecular design.
XMOL:可解释的分子多性能优化
分子优化是药物发现和材料科学领域的一项关键挑战,涉及设计具有所需性质的分子。现有方法主要侧重于单一性质的优化,需要针对多种性质重复运行,效率低且计算成本高。此外,这些方法往往缺乏透明度,使研究人员难以理解和控制优化过程。为了解决这些问题,我们提出了一个新颖的框架--可解释的分子多特性优化(XMOL),在结合可解释性的同时优化多种分子特性。我们的方法以最先进的几何扩散模型为基础,通过引入光谱归一化和增强的稳定训练分子约束,将其扩展到多属性优化。此外,我们还在整个优化过程中整合了解释性和可解释性技术。我们在真实世界的分子数据集(如 QM9)上对 XMOL 进行了评估,证明了它在单属性和多属性优化中的有效性,同时提供了可解释的结果,为更高效、更可靠的分子设计铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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