RNA剪接
细胞生物学
信使核糖核酸
核糖核酸
选择性拼接
调制(音乐)
生物
前体mRNA
计算生物学
遗传学
物理
基因
声学
作者
Alisha N Jones,Carina Graß,Isabel Meininger,Arie Geerlof,Melina Klostermann,Kathi Zarnack,Daniel Krappmann,Michael Sattler
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2022-08-03
卷期号:8 (31): eabp9153-eabp9153
被引量:35
标识
DOI:10.1126/sciadv.abp9153
摘要
Alternative splicing plays key roles for cell type–specific regulation of protein function. It is controlled by cis-regulatory RNA elements that are recognized by RNA binding proteins (RBPs). The MALT1 paracaspase is a key factor of signaling pathways that mediate innate and adaptive immune responses. Alternative splicing of MALT1 is critical for controlling optimal T cell activation. We demonstrate that MALT1 splicing depends on RNA structural elements that sequester the splice sites of the alternatively spliced exon7. The RBPs hnRNP U and hnRNP L bind competitively to stem-loop RNA structures that involve the 5′ and 3′ splice sites flanking exon7. While hnRNP U stabilizes RNA stem-loop conformations that maintain exon7 skipping, hnRNP L disrupts these RNA elements to facilitate recruitment of the essential splicing factor U2AF2, thereby promoting exon7 inclusion. Our data represent a paradigm for the control of splice site selection by differential RBP binding and modulation of pre-mRNA structure.
科研通智能强力驱动
Strongly Powered by AbleSci AI