1. MVNN-HNHC:A multi-view neural network for identification of human non-histone crotonylation sites.
- Author
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Gao, Jun, Zhao, Yaomiao, Chen, Chen, and Ning, Qiao
- Subjects
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DEEP learning , *HISTONES , *LONG-term memory , *CONVOLUTIONAL neural networks , *FEATURE extraction - Abstract
Crotonylation on lysine sites in human non-histone proteins plays a crucial role in biology activities. However, because traditional experimental methods for crotonylation site identification are time-consuming and labor-intensive, computational prediction methods have become increasingly popular in recent years. Despite its significance, crotonylation site prediction has received less attention in non-histone proteins than in histones. In this study, we proposed a Multi-View Neural Network for identification of Human Non-Histone Crotonylation sites, named MVNN-HNHC. MVNN-HNHC integrated multi-view encoding features and adaptive encoding features through multi-channel neural network to deeply learn about attribute differences between crotonylation sites and non-crotonylation sites from various aspects. In MVNN-HNHC, convolutional neural networks can obtain local information from these features, and bidirectional long short term memory networks were utilized to extract sequence information. Then, we employ the attention mechanism to fuse the outputs of various feature extraction modules. Finally, the fully connection network acted as the classifier to predict whether a lysine site was crotonylation site or non-crotonylation site. Performance metrics on independent test set, including sensitivity, specificity, accuracy, Matthews correlation coefficient, and area under the curve (AUC) values reach 80.06 %, 75.77 %, 77.06 %, 0.5203, and 0.7792, respectively. To verify the effectiveness of this method, we carry out a series of experiments and the results show that MVNN-HNHC is an effective tool for predicting crotonylation sites in non-histone proteins. The data and code are available on https://github.com/xbbxhbc/junjun0612.git. [Display omitted] • In this study, we proposed a deep learning framework to identify non-histone crotonylation sites, integrating multi-view encoding features. • MVNN-HNHC applied multi-channel neural network for various types of features to deeply learn about discriminative attributes. • CNN, BLSTM are used to extract features and reduce dimensions, so as to obtain more valuable information. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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