利用大语言模型优化小分子结构

arXiv - QuanBio - Quantitative Methods Pub Date : 2024-07-26 DOI:arxiv-2407.18897

Philipp Guevorguian, Menua Bedrosian, Tigran Fahradyan, Gayane Chilingaryan, Hrant Khachatrian, Armen Aghajanyan

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引用次数: 0

摘要

大型语言模型的最新进展为生成式分子药物设计提供了新的可能性。我们介绍了 Chemlactica 和 Chemma 这两个语言模型，它们是在由 1.1 亿个分子组成的新语料库上进行微调的，该语料库具有计算出的特性，总计 4000 亿个词条。这些模型在生成具有指定性质的分子和从有限样本中预测新分子特征方面表现出了强大的性能。我们介绍了一种新颖的优化算法，该算法利用我们的语言模型，在有限的黑盒子神谕访问权限下优化分子的任意属性。我们的方法融合了遗传算法、拒绝采样和及时优化的思想。它在多个分子优化基准上取得了最先进的性能，包括在实用分子优化上比以前的方法提高了 8%。我们公开发布了训练语料库、语言模型和优化算法。

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Small Molecule Optimization with Large Language Models

Recent advancements in large language models have opened new possibilities for generative molecular drug design. We present Chemlactica and Chemma, two language models fine-tuned on a novel corpus of 110M molecules with computed properties, totaling 40B tokens. These models demonstrate strong performance in generating molecules with specified properties and predicting new molecular characteristics from limited samples. We introduce a novel optimization algorithm that leverages our language models to optimize molecules for arbitrary properties given limited access to a black box oracle. Our approach combines ideas from genetic algorithms, rejection sampling, and prompt optimization. It achieves state-of-the-art performance on multiple molecular optimization benchmarks, including an 8% improvement on Practical Molecular Optimization compared to previous methods. We publicly release the training corpus, the language models and the optimization algorithm.

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arXiv - QuanBio - Quantitative Methods

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