MVSF-AB: Accurate antibody-antigen binding affinity prediction via multi-view sequence feature learning.

Bioinformatics (Oxford, England) Pub Date : 2024-10-03 DOI:10.1093/bioinformatics/btae579

Minghui Li, Yao Shi, Shengqing Hu, Shengshan Hu, Peijin Guo, Wei Wan, Leo Yu Zhang, Shirui Pan, Jizhou Li, Lichao Sun, Xiaoli Lan

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Abstract

Motivation: Predicting the binding affinity between antigens and antibodies accurately is crucial for assessing therapeutic antibody effectiveness and enhancing antibody engineering and vaccine design. Traditional machine learning methods have been widely used for this purpose, relying on interfacial amino acids' structural information. Nevertheless, due to technological limitations and high costs of acquiring structural data, the structures of most antigens and antibodies are unknown, and sequence-based methods have gained attention. Existing sequence-based approaches designed for protein-protein affinity prediction exhibit a significant drop in performance when applied directly to antibody-antigen affinity prediction due to imbalanced training data and lacking design in the model framework specifically for antibody-antigen, hindering the learning of key features of antibodies and antigens. Therefore, we propose MVSF-AB, a Multi-View Sequence Feature learning for accurate Antibody-antigen Binding affinity prediction.

Results: MVSF-AB designs a multi-view method that fuses semantic features and residue features to fully utilize the sequence information of antibody-antigen and predicts the binding affinity. Experimental results demonstrate that MVSF-AB outperforms existing approaches in predicting unobserved natural antibody-antigen affinity and maintains its effectiveness when faced with mutant strains of antibodies.

Availability and implementation: Datasets we used and source code are available on our public GitHub repository https://github.com/TAI-Medical-Lab/MVSF-AB.

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MVSF-AB：通过多视角序列特征学习准确预测抗体-抗原结合亲和力。

动机：准确预测抗原与抗体之间的结合亲和力对于评估治疗性抗体的有效性以及提高抗体工程和疫苗设计至关重要。传统的机器学习方法依赖于界面氨基酸的结构信息，在这方面得到了广泛应用。然而，由于技术限制和获取结构数据的高成本，大多数抗原和抗体的结构都是未知的，因此基于序列的方法受到了关注。现有的基于序列的蛋白质-蛋白质亲和力预测方法由于训练数据不平衡、缺乏专门针对抗体-抗原的模型框架设计等原因，在直接应用于抗体-抗原亲和力预测时表现出明显的性能下降，阻碍了抗体和抗原关键特征的学习。因此，我们提出了 MVSF-AB--一种多视图序列特征学习方法，用于准确预测抗体-抗原结合亲和力：MVSF-AB设计了一种多视图方法，融合语义特征和残基特征，充分利用抗体-抗原的序列信息预测结合亲和力。实验结果表明，MVSF-AB 在预测未观察到的天然抗体-抗原亲和力方面优于现有方法，并且在面对突变株抗体时仍能保持其有效性：我们使用的数据集和源代码可在我们的公共 GitHub 存储库 https://github.com/TAI-Medical-Lab/MVSF-AB 上获取。

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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Bioinformatics (Oxford, England)

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