Abstract
A lot of research studies have shown that many complex human diseases are associated not only with microRNAs (miRNAs) but also with long noncoding RNAs (lncRNAs). However, most of the current existing studies focus on the prediction of disease-related miRNAs or lncRNAs, and to our knowledge, until now, there are few literature studies reported to pay attention to the study of impact of miRNA-lncRNA pairs on diseases, although more and more studies have shown that both lncRNAs and miRNAs play important roles in cell proliferation and differentiation during the recent years. The identification of disease-related genes provides great insight into the underlying pathogenesis of diseases at a system level. In this study, a novel model called PADLMHOOI was proposed to predict potential associations between diseases and lncRNA-miRNA pairs based on the higher-order orthogonal iteration, and in order to evaluate its prediction performance, the global and local LOOCV were implemented, respectively, and simulation results demonstrated that PADLMHOOI could achieve reliable AUCs of 0.9545 and 0.8874 in global and local LOOCV separately. Moreover, case studies further demonstrated the effectiveness of PADLMHOOI to infer unknown disease-related lncRNA-miRNA pairs.
Highlights
Noncoding RNA, according to its size, can be divided into small and long noncoding RNAs approximately
In order to further estimate the prediction performance of PADLMHOOI, we implemented it under the framework of local Leave-One-Out Cross-Validation (LOOCV), and the simulation results of 50 predicted related diseases were illustrated in Supplementary Table 4
To our knowledge, there are many researches having demonstrated that long noncoding RNAs (lncRNAs)-miRNA interactions are associated with the development of complex diseases, up to now, there are few models having been proposed for large-scale forecasting potential associations between diseases and lncRNA-miRNA pairs
Summary
Noncoding RNA, according to its size, can be divided into small and long noncoding RNAs approximately. Compared to small-molecule ncRNA, lncRNA has a longer nucleotide chain with more than 200 nucleotides and has a specific and complex secondary space structure inside the molecule and can provide multiple sites for protein binding [11]. Both lncRNAs and miRNAs are key members of noncoding RNAs and play important roles in coding and regulation of many complex human diseases [12,13,14,15,16].
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