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引用次数: 0
摘要
在药物化学中,化合物的优化依赖于生成用于探索结构-活性关系(SARs)的类似物系列(AS)。药效进展是推进 AS 的关键标准。在优化过程中,一个关键问题是下一步合成哪些类似物。我们介绍了一种新的计算方法,用于扩展包含核心结构和多个位点取代基修饰的强效化合物的 AS。该方法将转换化学语言模型(CLM)与 SAR 矩阵(SARM)方法相结合,可识别和组织结构相关的 AS。因此,SARM 方法被扩展到涵盖多位点 AS。从代表药效梯度的 SARM 中提取的共识系列作为 CLM 训练的输入,以扩展测试 AS 的强效类似物。对不同的模型变体进行了推导和研究。通用模型和微调模型都能正确预测基于概率的化合物排名中处于高位的已知强效类似物,并通过对生成的候选化合物进行核心结构修改和在多个位点进行取代基替换,实现了化学多样化的 AS。
Combining a Chemical Language Model and the Structure-Activity Relationship Matrix Formalism for Generative Design of Potent Compounds with Core Structure and Substituent Modifications.
In medicinal chemistry, compound optimization relies on the generation of analogue series (AS) for exploring structure-activity relationships (SARs). Potency progression is a critical criterion for advancing AS. During optimization, a key question is which analogues to synthesize next. We introduce a new computational methodology for the extension of AS with potent compounds containing both core structure and substituent modifications at multiple sites, which has been reported for the first time. The approach combines a transformer chemical language model (CLM) with a SAR matrix (SARM) methodology that identifies and organizes structurally related AS. Therefore, the SARM approach was expanded to cover multisite AS. Consensus series extracted from SARMs representing a potency gradient served as input for CLM training to extend test AS with potent analogues. Different model variants were derived and investigated. Both general and fine-tuned models correctly predicted known potent analogues at high positions in probability-based compound rankings and chemically diversified AS through core structure modifications of the generated candidate compounds and substituent replacements at multiple sites.
期刊介绍:
The Journal of Chemical Information and Modeling publishes papers reporting new methodology and/or important applications in the fields of chemical informatics and molecular modeling. Specific topics include the representation and computer-based searching of chemical databases, molecular modeling, computer-aided molecular design of new materials, catalysts, or ligands, development of new computational methods or efficient algorithms for chemical software, and biopharmaceutical chemistry including analyses of biological activity and other issues related to drug discovery.
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