Genome-wide Analysis Reveals SR Protein Cooperation and Competition in Regulated Splicing

Shatakshi Pandit; Yu Zhou; Lily Shiue; Gabriela Coutinho-Mansfield; Hairi Li; Jinsong Qiu; Jie Huang; Gene W. Yeo; Manuel Ares; Xiang Dong Fu

doi:10.1016/j.molcel.2013.03.001

Genome-wide Analysis Reveals SR Protein Cooperation and Competition in Regulated Splicing

Shatakshi Pandit
, Yu Zhou
, Lily Shiue
, Gabriela Coutinho-Mansfield
, Hairi Li
, Jinsong Qiu
, Jie Huang
, Gene W. Yeo
, Manuel Ares
, Xiang Dong Fu

University of California
University of California at Santa Cruz
Wuhan University

科研成果: 期刊稿件 › 文章 › 同行评审

255 引用（Scopus）

摘要

SR proteins are well-characterized RNA binding proteins that promote exon inclusion by binding to exonic splicing enhancers (ESEs). However, it has been unclear whether regulatory rules deduced on model genes apply generally to activities of SR proteins in the cell. Here, we report global analyses of two prototypical SR proteins, SRSF1 (SF2/ASF) and SRSF2 (SC35), using splicing-sensitive arrays and CLIP-seq on mouse embryo fibroblasts (MEFs). Unexpectedly, we find that these SR proteins promote both inclusion and skipping of exons in vivo, but their binding patterns do not explain such opposite responses. Further analyses reveal that loss of one SR protein is accompanied by coordinated loss or compensatory gain in the interaction of other SR proteins at the affected exons. Therefore, specific effects on regulated splicing by one SR protein actually depend on a complex set of relationships with multiple other SR proteins in mammalian genomes.

源语言	英语
页（从-至）	223-235
页数	13
期刊	Molecular Cell
卷	50
期	2
DOI	https://doi.org/10.1016/j.molcel.2013.03.001
出版状态	已出版 - 25 4月 2013
已对外发布	是

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abstract = "SR proteins are well-characterized RNA binding proteins that promote exon inclusion by binding to exonic splicing enhancers (ESEs). However, it has been unclear whether regulatory rules deduced on model genes apply generally to activities of SR proteins in the cell. Here, we report global analyses of two prototypical SR proteins, SRSF1 (SF2/ASF) and SRSF2 (SC35), using splicing-sensitive arrays and CLIP-seq on mouse embryo fibroblasts (MEFs). Unexpectedly, we find that these SR proteins promote both inclusion and skipping of exons in vivo, but their binding patterns do not explain such opposite responses. Further analyses reveal that loss of one SR protein is accompanied by coordinated loss or compensatory gain in the interaction of other SR proteins at the affected exons. Therefore, specific effects on regulated splicing by one SR protein actually depend on a complex set of relationships with multiple other SR proteins in mammalian genomes.",

author = "Shatakshi Pandit and Yu Zhou and Lily Shiue and Gabriela Coutinho-Mansfield and Hairi Li and Jinsong Qiu and Jie Huang and Yeo, \{Gene W.\} and Manuel Ares and Fu, \{Xiang Dong\}",

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AU - Pandit, Shatakshi

AU - Zhou, Yu

AU - Shiue, Lily

AU - Coutinho-Mansfield, Gabriela

AU - Li, Hairi

AU - Qiu, Jinsong

AU - Huang, Jie

AU - Yeo, Gene W.

AU - Ares, Manuel

AU - Fu, Xiang Dong

PY - 2013/4/25

Y1 - 2013/4/25

N2 - SR proteins are well-characterized RNA binding proteins that promote exon inclusion by binding to exonic splicing enhancers (ESEs). However, it has been unclear whether regulatory rules deduced on model genes apply generally to activities of SR proteins in the cell. Here, we report global analyses of two prototypical SR proteins, SRSF1 (SF2/ASF) and SRSF2 (SC35), using splicing-sensitive arrays and CLIP-seq on mouse embryo fibroblasts (MEFs). Unexpectedly, we find that these SR proteins promote both inclusion and skipping of exons in vivo, but their binding patterns do not explain such opposite responses. Further analyses reveal that loss of one SR protein is accompanied by coordinated loss or compensatory gain in the interaction of other SR proteins at the affected exons. Therefore, specific effects on regulated splicing by one SR protein actually depend on a complex set of relationships with multiple other SR proteins in mammalian genomes.

AB - SR proteins are well-characterized RNA binding proteins that promote exon inclusion by binding to exonic splicing enhancers (ESEs). However, it has been unclear whether regulatory rules deduced on model genes apply generally to activities of SR proteins in the cell. Here, we report global analyses of two prototypical SR proteins, SRSF1 (SF2/ASF) and SRSF2 (SC35), using splicing-sensitive arrays and CLIP-seq on mouse embryo fibroblasts (MEFs). Unexpectedly, we find that these SR proteins promote both inclusion and skipping of exons in vivo, but their binding patterns do not explain such opposite responses. Further analyses reveal that loss of one SR protein is accompanied by coordinated loss or compensatory gain in the interaction of other SR proteins at the affected exons. Therefore, specific effects on regulated splicing by one SR protein actually depend on a complex set of relationships with multiple other SR proteins in mammalian genomes.

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Genome-wide Analysis Reveals SR Protein Cooperation and Competition in Regulated Splicing

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