Deep-learning augmented RNA-seq analysis of transcript splicing

深度学习增强的RNA测序转录本剪接分析

阅读:1
作者:Zhang,Zijun,Pan,Zhicheng,Ying,Yi,Xie,Zhijie,Adhikari,Samir,Phillips,John,Carstens,Russ P,Black,Douglas L,Wu,Yingnian,Xing,Yi
期刊:Nature Methods影响因子:32.100
时间:2019起止号:2019 Apr;16(4):307-310
doi:10.1038/s41592-019-0351-9

Abstract

A major limitation of RNA sequencing (RNA-seq) analysis of alternative splicing is its reliance on high sequencing coverage. We report DARTS (https://github.com/Xinglab/DARTS), a computational framework that integrates deep-learning-based predictions with empirical RNA-seq evidence to infer differential alternative splicing between biological samples. DARTS leverages public RNA-seq big data to provide a knowledge base of splicing regulation via deep learning, thereby helping researchers better characterize alternative splicing using RNA-seq datasets even with modest coverage.

特别声明

1、本页面内容包含部分的内容是基于公开信息的合理引用;引用内容仅为补充信息,不代表本站立场。

2、若认为本页面引用内容涉及侵权,请及时与本站联系,我们将第一时间处理。

3、其他媒体/个人如需使用本页面原创内容,需注明“来源:[生知库]”并获得授权;使用引用内容的,需自行联系原作者获得许可。

4、投稿及合作请联系:info@biocloudy.com。