利用非冗余序列的理化特征改进致敏蛋白预测

Sher Singh, Jr-Rou Chiu, Kuei-Ling Sun, E. C. Su
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引用次数: 0

摘要

尽管在过敏原预测方面进行了广泛的研究,但目前的方法仍然存在性能改进的空间,并且存在缺乏可解释的生物学特征的问题。因此,基于序列的过敏原预测方法的发展对于促进硅疫苗的设计变得非常重要。在这项研究中,我们提出了一种系统的方法,通过在机器学习算法中结合序列和物理化学性质来预测致敏蛋白。此外,由于数据集的高冗余,以往研究的预测性能可能被高估。因此,我们减少了数据集中的序列冗余,实验结果表明,与其他方法相比,我们取得了更好的预测性能。这项研究有助于发现新的预防和治疗疾病的疫苗。此外,我们分析了免疫学特征,可以为转化生物信息学中过敏和自身免疫性疾病的免疫治疗提供有价值的见解。
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Improving Allergenic Protein Prediction Using Physicochemical Features on Non-Redundant Sequences
Despite extensive studies in allergen prediction, current approaches still have room for performance improvement and suffer from the problem of lack of interpretable biological features. Thus, developments of allergen prediction method from sequences have become highly important to facilitate in silico vaccine design. In this study, we propose a systematic approach to predict allergenic proteins by incorporating sequence and physicochemical properties in machine learning algorithms. In addition, predictive performance of previous studies could be overestimated due to high redundancy in the data sets. Therefore, we reduce sequence redundancy in the data set and experiment results show that we achieve better predictive performance when compared with other approaches. This study can help discover new prophylactic and therapeutic vaccines for diseases. Moreover, we analyze immunological features that can provide valuable insights into immunotherapies of allergy and autoimmune diseases in translational bioinformatics.
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