Predicting T-Cell Receptor Specificity

Tengyao Tu, Wei Zeng, Kun Zhao, Zhenyu Zhang
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Abstract

Researching the specificity of TCR contributes to the development of immunotherapy and provides new opportunities and strategies for personalized cancer immunotherapy. Therefore, we established a TCR generative specificity detection framework consisting of an antigen selector and a TCR classifier based on the Random Forest algorithm, aiming to efficiently screen out TCRs and target antigens and achieve TCR specificity prediction. Furthermore, we used the k-fold validation method to compare the performance of our model with ordinary deep learning methods. The result proves that adding a classifier to the model based on the random forest algorithm is very effective, and our model generally outperforms ordinary deep learning methods. Moreover, we put forward feasible optimization suggestions for the shortcomings and challenges of our model found during model implementation.
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预测 T 细胞受体的特异性
研究TCR的特异性有助于免疫疗法的发展,并为个性化癌症免疫疗法提供新的机遇和策略。因此,我们建立了一个由抗原选择器和基于随机森林算法的TCR分类器组成的TCR生成特异性检测框架,旨在有效筛选出TCR和目标抗原,实现TCR特异性预测。此外,我们还使用 k-fold 验证法比较了我们的模型与普通深度学习方法的性能。结果证明,在基于随机森林算法的模型中加入分类器是非常有效的,我们的模型总体上优于普通的深度学习方法。此外,我们还针对模型实现过程中发现的不足和面临的挑战提出了可行的优化建议。
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