MRAS: Master Regulator Analysis of Alternative Splicing

Lei Zhou; Yue Huang; Yang Zhao; Dan Guo; Xiao Wen; Ruihong Xu; Xuan Lv; Song Wu; Sicheng Jing; Zhaoqi Liu

doi:10.1002/advs.202414493

Advanced Science (Jun 2025)

MRAS: Master Regulator Analysis of Alternative Splicing

Lei Zhou,
Yue Huang,
Yang Zhao,
Dan Guo,
Xiao Wen,
Ruihong Xu,
Xuan Lv,
Song Wu,
Sicheng Jing,
Zhaoqi Liu

Affiliations

Lei Zhou: China National Center for Bioinformation Beijing 100101 China
Yue Huang: China National Center for Bioinformation Beijing 100101 China
Yang Zhao: China National Center for Bioinformation Beijing 100101 China
Dan Guo: China National Center for Bioinformation Beijing 100101 China
Xiao Wen: China National Center for Bioinformation Beijing 100101 China
Ruihong Xu: China National Center for Bioinformation Beijing 100101 China
Xuan Lv: China National Center for Bioinformation Beijing 100101 China
Song Wu: Beijing Institute of Genomics Chinese Academy of Sciences Beijing 100101 China
Sicheng Jing: Department of Biology University of California San Diego San Diego CA 92122 USA
Zhaoqi Liu: China National Center for Bioinformation Beijing 100101 China

DOI: https://doi.org/10.1002/advs.202414493
Journal volume & issue: Vol. 12, no. 21
pp. n/a – n/a

Abstract

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Abstract As a molecular feature that characterizes most tumor types, cancer‐associated splicing dysregulation largely arises from recurrent genetic mutations and altered expression of trans‐acting splicing factors. Although splicing factor mutations occur less frequently in solid tumors, splicing disorders are pervasive and proven to promote tumorigenesis. However, it still lacks an efficient way to identify the key splicing factors at the top regulatory hierarchy whose abnormal expressions induce such splicing disorders and drive phenotypic variability. Here, MRAS (Master Regulator analysis of Alternative Splicing) is introduced, a computational method designed to pinpoint the pivotal splicing factors that play a central role in shaping splicing regulatory networks and influencing cellular processes. MRAS is demonstrated its power by identifying master splicing regulators associated with various disease phenotypes, including tumor initiation, progression, metastasis, and treatment resistance. Moreover, by applying MRAS to single‐cell RNA‐seq data, crucial regulatory relationships that govern cell‐type specific splicing programs have been uncovered. Overall, MRAS presented as an accurate and versatile approach to unraveling the underlying mechanism of splicing regulation.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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