文献库 文献相关信息
- 题目:
- Alternative splicing modulated by genetic variants demonstrates accelerated evolution regulated by highly conserved proteins.
- 作者:
- Hsiao(Yun-Hua Esther),Bahn(Jae Hoon),Lin(Xianzhi),Chan(Tak-Ming),Wang(Rena),Xiao(Xinshu)
- 状态:
- 发布时间2016-04-02 , 更新时间 2016-12-02
- 期刊:
- Genome Res
- 摘要:
- Identification of functional genetic variants and elucidation of their regulatory mechanisms represent significant challenges of the post-genomic era. A poorly understood topic is the involvement of genetic variants in mediating post-transcriptional RNA processing, including alternative splicing. Thus far, little is known about the genomic, evolutionary, and regulatory features of genetically modulated alternative splicing (GMAS). Here, we systematically identified intronic tag variants for genetic modulation of alternative splicing using RNA-seq data specific to cellular compartments. Combined with our previous method that identifies exonic tags for GMAS, this study yielded 622 GMAS exons. We observed that GMAS events are highly cell type independent, indicating that splicing-altering genetic variants could have widespread function across cell types. Interestingly, GMAS genes, exons, and single-nucleotide variants (SNVs) all demonstrated positive selection or accelerated evolution in primates. We predicted that GMAS SNVs often alter binding of splicing factors, with SRSF1 affecting the most GMAS events and demonstrating global allelic binding bias. However, in contrast to their GMAS targets, the predicted splicing factors are more conserved than expected, suggesting that cis-regulatory variation is the major driving force of splicing evolution. Moreover, GMAS-related splicing factors had stronger consensus motifs than expected, consistent with their susceptibility to SNV disruption. Intriguingly, GMAS SNVs in general do not alter the strongest consensus position of the splicing factor motif, except the more than 100 GMAS SNVs in linkage disequilibrium with polymorphisms reported by genome-wide association studies. Our study reports many GMAS events and enables a better understanding of the evolutionary and regulatory features of this phenomenon.
- 语言:
- eng
- DOI:
DataTable pData
微信公众号
关注微信订阅号,实时查看信息,关注医学生物学动态。
版权所有 © 2025.Genelibs 济南弘晖生物技术有限公司 鲁ICP备13024435号-2
