DeepDBPI: DNA-Binding Protein Identifier Using a Deep Learning Model with Transformed Denoised Features

计算机科学 人工智能 深度学习 编码(内存) 特征(语言学) 机器学习 模式识别(心理学) 噪音(视频) 特征提取 标识符 计算模型 降噪 数据挖掘 协议(科学) 药物开发 特征选择 小波 特征学习 协方差 协方差矩阵 药物靶点 强化学习 药物发现 三元曲线
作者
Kamran Arshad,Muhammad Arif,Dong-Jun Yu
出处
期刊:Journal of Chemical Information and Modeling [American Chemical Society]
卷期号:66 (3): 1920-1932
标识
DOI:10.1021/acs.jcim.5c02637
摘要

Motivation: DNA-binding proteins (DBPs) play a significant role in the entire biological system. Many DNA-related studies actively investigate to understand whether a protein binds to DNA. Conventionally, wet-lab experiments are conducted to characterize DBP functions. However, these methods are often expensive and time-intensive. With the rapid advancement of bioinformatics, there is a growing demand for efficient computational protocols to predict DBPs. Several sequence-based computational tools have been designed to predict DBPs; however, research gaps persist for further improvement. Method: We developed a novel deep learning (DL)-based predictor, called DeepDBPI, for enhancing DBP prediction. The proposed DeepDBPI model leverages the evolutionary and graphical-based properties of protein sequences using novel descriptors, namely covariance correlation-based position-specific scoring matrix (CC-PSSM), binary-profile-based (BP-PSSM), Trigram (TRG-PSSM), and feature encoding based on graphical and statistical (FEGS) methods. Then, we applied the wavelet denoising (WD) algorithm to remove the noise from sequence-derived features. We fed the filtered features to ResNet, LSTM, BiLSTM, RNN, BiRNN, and BiGRU. Results: The DeepDBPI model achieved the best prediction performance with Bi-GRU using the denoised-based FEGS encoding method under 5-fold cross-validation, evaluated by ACC, SN, SP, and MCC. Our proposed model achieved 92.13% ACC, 93.07% SN, 91.19% SP, and 0.8427 MCC on the independent test. We believe the effectiveness of the developed bioinformatics protocol provides insights for drug discovery and other proteomic problems. All data, including the dataset, feature extraction techniques, and models, are available at: https://doi.org/10.5281/zenodo.17496063
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