PredcircRNA: computational classification of circular RNA from other long non-coding RNA using hybrid features

判别式 开放式参考框架 随机森林 计算生物学 计算机科学 多核学习 环状RNA 核糖核酸 人工智能 生物 打开阅读框 支持向量机 基因 核方法 遗传学 肽序列
作者
Xiaoyong Pan,Kai Xiong
出处
期刊:Molecular BioSystems [Royal Society of Chemistry]
卷期号:11 (8): 2219-2226 被引量:72
标识
DOI:10.1039/c5mb00214a
摘要

Recently circular RNA (circularRNA) has been discovered as an increasingly important type of long non-coding RNA (lncRNA), playing an important role in gene regulation, such as functioning as miRNA sponges. So it is very promising to identify circularRNA transcripts from de novo assembled transcripts obtained by high-throughput sequencing, such as RNA-seq data. In this study, we presented a machine learning approach, named as PredcircRNA, focused on distinguishing circularRNA from other lncRNAs using multiple kernel learning. Firstly we extracted different sources of discriminative features, including graph features, conservation information and sequence compositions, ALU and tandem repeats, SNP densities and open reading frames (ORFs) from transcripts. Secondly, to better integrate features from different sources, we proposed a computational approach based on a multiple kernel learning framework to fuse those heterogeneous features. Our preliminary 5-fold cross-validation result showed that our proposed method can classify circularRNA from other types of lncRNAs with an accuracy of 0.778, sensitivity of 0.781, specificity of 0.770, precision of 0.784 and MCC of 0.554 in our constructed gold-standard dataset, respectively. Our feature importance analysis based on Random Forest illustrated some discriminative features, such as conservation features and a GTAG sequence motif. Our PredcircRNA tool is available for download at .

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