Your search keyword '"Chen, Yi"' showing total 2 results

1. Benchmarking of computational methods for predicting circRNA-disease associations.

Author

Lan, Wei, Dong, Yi, Zhang, Hongyu, Li, Chunling, Chen, Qingfeng, Liu, Jin, Wang, Jianxin, and Chen, Yi-Ping Phoebe

Subjects

DEEP learning, CIRCULAR RNA, MACHINE learning, DIAGNOSIS, FORECASTING

Abstract

Accumulating evidences demonstrate that circular RNA (circRNA) plays an important role in human diseases. Identification of circRNA-disease associations can help for the diagnosis of human diseases, while the traditional method based on biological experiments is time-consuming. In order to address the limitation, a series of computational methods have been proposed in recent years. However, few works have summarized these methods or compared the performance of them. In this paper, we divided the existing methods into three categories: information propagation, traditional machine learning and deep learning. Then, the baseline methods in each category are introduced in detail. Further, 5 different datasets are collected, and 14 representative methods of each category are selected and compared in the 5-fold, 10-fold cross-validation and the de novo experiment. In order to further evaluate the effectiveness of these methods, six common cancers are selected to compare the number of correctly identified circRNA-disease associations in the top-10, top-20, top-50, top-100 and top-200. In addition, according to the results, the observation about the robustness and the character of these methods are concluded. Finally, the future directions and challenges are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

2. KGANCDA: predicting circRNA-disease associations based on knowledge graph attention network.

Author

Lan, Wei, Dong, Yi, Chen, Qingfeng, Zheng, Ruiqing, Liu, Jin, Pan, Yi, and Chen, Yi-Ping Phoebe

Subjects

KNOWLEDGE graphs, CIRCULAR RNA, LINCRNA, FORECASTING, POLYMER networks

Abstract

Increasing evidences have proved that circRNA plays a significant role in the development of many diseases. In addition, many researches have shown that circRNA can be considered as the potential biomarker for clinical diagnosis and treatment of disease. Some computational methods have been proposed to predict circRNA-disease associations. However, the performance of these methods is limited as the sparsity of low-order interaction information. In this paper, we propose a new computational method (KGANCDA) to predict circRNA-disease associations based on knowledge graph attention network. The circRNA-disease knowledge graphs are constructed by collecting multiple relationship data among circRNA, disease, miRNA and lncRNA. Then, the knowledge graph attention network is designed to obtain embeddings of each entity by distinguishing the importance of information from neighbors. Besides the low-order neighbor information, it can also capture high-order neighbor information from multisource associations, which alleviates the problem of data sparsity. Finally, the multilayer perceptron is applied to predict the affinity score of circRNA-disease associations based on the embeddings of circRNA and disease. The experiment results show that KGANCDA outperforms than other state-of-the-art methods in 5-fold cross validation. Furthermore, the case study demonstrates that KGANCDA is an effective tool to predict potential circRNA-disease associations. [ABSTRACT FROM AUTHOR]

Published

2022