Structural basis of RNA recognition and dimerization by the STAR proteins T-STAR and Sam68

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作者
Mikael Feracci
Jaelle N. Foot
Sushma N. Grellscheid
Marina Danilenko
Ralf Stehle
Oksana Gonchar
Hyun-Seo Kang
Caroline Dalgliesh
N. Helge Meyer
Yilei Liu
Albert Lahat
Michael Sattler
Ian C. Eperon
David J. Elliott
Cyril Dominguez
机构
[1] University of Leicester,Department of Molecular and Cell Biology
[2] Institute of Genetic Medicine,Department Chemie
[3] Newcastle University,undefined
[4] Central Parkway,undefined
[5] Center for Integrated Protein Science Munich at Biomolecular NMR Spectroscopy,undefined
[6] Technische Universität München,undefined
[7] Institute of Structural Biology,undefined
[8] Helmholtz Zentrum München,undefined
[9] School of Biological and Biomedical Sciences,undefined
[10] University of Durham,undefined
[11] Present address: School of Biological and Biomedical Sciences,undefined
[12] University of Durham,undefined
[13] Durham DH1 3LE,undefined
[14] UK,undefined
[15] Present address: Department of General and Visceral Surgery,undefined
[16] European Medical School,undefined
[17] Klinikum Oldenburg,undefined
[18] DE-26133 Oldenburg,undefined
[19] Germany,undefined
[20] Present address: Department of Microbiology,undefined
[21] Institute of Plant Biology,undefined
[22] University of Zürich,undefined
[23] Zollikerstrasse 107,undefined
[24] CH-8008 Zürich,undefined
[25] Switzerland,undefined
来源
Nature Communications | / 7卷
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摘要
Sam68 and T-STAR are members of the STAR family of proteins that directly link signal transduction with post-transcriptional gene regulation. Sam68 controls the alternative splicing of many oncogenic proteins. T-STAR is a tissue-specific paralogue that regulates the alternative splicing of neuronal pre-mRNAs. STAR proteins differ from most splicing factors, in that they contain a single RNA-binding domain. Their specificity of RNA recognition is thought to arise from their property to homodimerize, but how dimerization influences their function remains unknown. Here, we establish at atomic resolution how T-STAR and Sam68 bind to RNA, revealing an unexpected mode of dimerization different from other members of the STAR family. We further demonstrate that this unique dimerization interface is crucial for their biological activity in splicing regulation, and suggest that the increased RNA affinity through dimer formation is a crucial parameter enabling these proteins to select their functional targets within the transcriptome.
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