利用蛋白质语言模型和混合特征提取网络改进抗冻蛋白预测。

IF 3.6 3区 生物学 Q2 BIOCHEMICAL RESEARCH METHODS
Jiashun Wu, Yan Liu, Yiheng Zhu, Dong-Jun Yu
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引用次数: 0

摘要

准确鉴定防冻蛋白(AFPs)对于开发仿生合成防冰材料和低温器官保存材料至关重要。虽然已经提出了许多基于机器学习的 AFPs 预测方法,但 AFPs 的复杂性和多样性限制了现有方法的预测性能。在本研究中,我们提出了一种新的深度学习方法AFP-Deep,通过将蛋白质序列的嵌入与预训练的蛋白质语言模型和进化上下文与混合特征提取网络相结合来预测防冻蛋白质。实验结果表明,AFP-Deep 的主要优势在于它利用了预训练的蛋白质语言模型,可以从蛋白质序列中提取具有区分性的全局上下文特征。此外,为蛋白质语言模型和进化上下文特征提取设计的混合深度神经网络增强了嵌入与防冻模式之间的相关性。性能评估结果表明,AFP-Deep 在基准数据集上的性能优于最先进的模型,AUPRC 分别达到 0.724 和 0.924。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving Antifreeze Proteins Prediction with Protein Language Models and Hybrid Feature Extraction Networks.

Accurate identification of antifreeze proteins (AFPs) is crucial in developing biomimetic synthetic anti-icing materials and low-temperature organ preservation materials. Although numerous machine learning-based methods have been proposed for AFPs prediction, the complex and diverse nature of AFPs limits the prediction performance of existing methods. In this study, we propose AFP-Deep, a new deep learning method to predict antifreeze proteins by integrating embedding from protein sequences with pre-trained protein language models and evolutionary contexts with hybrid feature extraction networks. The experimental results demonstrated that the main advantage of AFP-Deep is its utilization of pre-trained protein language models, which can extract discriminative global contextual features from protein sequences. Additionally, the hybrid deep neural networks designed for protein language models and evolutionary context feature extraction enhance the correlation between embeddings and antifreeze pattern. The performance evaluation results show that AFP-Deep achieves superior performance compared to state-of-the-art models on benchmark datasets, achieving an AUPRC of 0.724 and 0.924, respectively.

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来源期刊
CiteScore
7.50
自引率
6.70%
发文量
479
审稿时长
3 months
期刊介绍: IEEE/ACM Transactions on Computational Biology and Bioinformatics emphasizes the algorithmic, mathematical, statistical and computational methods that are central in bioinformatics and computational biology; the development and testing of effective computer programs in bioinformatics; the development of biological databases; and important biological results that are obtained from the use of these methods, programs and databases; the emerging field of Systems Biology, where many forms of data are used to create a computer-based model of a complex biological system
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