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Structural basis for the recognition of spliceosomal SmN/B/B’ proteins by the RBM5 OCRE domain in splicing regulation

机译：剪接调控中RBm5 OCRE结构域识别剪接体smN / B / B'蛋白的结构基础

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The multi-domain splicing factor RBM5 regulates the balance between antagonistic isoforms of the apoptosis-control genes FAS/CD95, Caspase-2 and AID. An OCRE (OCtamer REpeat of aromatic residues) domain found in RBM5 is important for alternative splicing regulation and mediates interactions with components of the U4/U6.U5 tri-snRNP. We show that the RBM5 OCRE domain adopts a unique β–sheet fold. NMR and biochemical experiments demonstrate that the OCRE domain directly binds to the proline-rich C-terminal tail of the essential snRNP core proteins SmN/B/B’. The NMR structure of an OCRE-SmN peptide complex reveals a specific recognition of poly-proline helical motifs in SmN/B/B’. Mutation of conserved aromatic residues impairs binding to the Sm proteins in vitro and compromises RBM5-mediated alternative splicing regulation of FAS/CD95. Thus, RBM5 OCRE represents a poly-proline recognition domain that mediates critical interactions with the C-terminal tail of the spliceosomal SmN/B/B’ proteins in FAS/CD95 alternative splicing regulation.

机译：多域剪接因子RBM5调节凋亡控制基因FAS / CD95，Caspase-2和AID的拮抗同工型之间的平衡。在RBM5中发现的OCRE（芳香族残基的OCtamer REpeat）结构域对于替代剪接调控非常重要，并介导与U4 / U6.U5 tri-snRNP组件的相互作用。我们显示，RBM5 OCRE域采用独特的β-折叠。核磁共振和生化实验表明，OCRE域直接与基本snRNP核心蛋白SmN / B / B'的富含脯氨酸的C末端尾部结合。 OCRE-SmN肽复合物的NMR结构揭示了SmN / B / B'中多脯氨酸螺旋基序的特异性识别。保守的芳香族残基的突变会在体外损害与Sm蛋白的结合，并损害RBM5介导的FAS / CD95的选择性剪接调控。因此，RBM5 OCRE代表一个多脯氨酸识别域，在FAS / CD95选择性剪接调控中介导与剪接SmN / B / B'蛋白的C末端尾巴的关键相互作用。

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Mourão, André; Bonnal, Sophie; Soni, Komal; Warner, Lisa; Bordonné, Rémy; Valcárcel, J. (Juan); Sattler, Michael;
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1. Structural basis for the recognition of spliceosomal SmN/B/B’ proteins by the RBM5 OCRE domain in splicing regulation [J] . André Mour?o, Sophie Bonnal, Komal Soni, eLife journal . 2016,第september期

机译：RBM5 OCRE结构域在剪接调控中识别剪接体SmN / B / B'蛋白的结构基础
2. Structural basis for dimethylarginine recognition by the Tudor domains of human SMN and SPF30 proteins [J] . Tripsianes K., Madl T., MacHyna M., Nature structural & molecular biology . 2011,第12期

机译：人SMN和SPF30蛋白的Tudor结构域识别二甲基精氨酸的结构基础
3. Structural Basis for Regulation of GPR56/ADGRG1 by Its Alternatively Spliced Extracellular Domains [J] . Salzman Gabriel S., Ackerman Sarah D., Ding Chen, Neuron . 2016,第6期

机译：GPR56 / ADGRG1通过其可变剪接的胞外域调节的结构基础。
4. Explore the domain features of co-regulation proteins, co-interaction proteins and co-regulation Co-interaction proteins [C] . Hua Lin, Liu Yongbin, Gao Lei, 2011 4th International Conference on Biomedical Engineering and Informatics . 2011

机译：探索共同调节蛋白，共同相互作用蛋白以及共同调节和共同相互作用蛋白的域特征
5. Structural and functional studies of interactions between β-1,3-glucan and the N-terminal domains of β;-1,3-glucan recognition proteins involved in insect innate immunity [D] . Dai, Huaien 2013

机译：β-1,3-葡聚糖与参与昆虫先天免疫的β; -1,3-葡聚糖识别蛋白N末端结构域相互作用的结构和功能研究
6. Structural basis for the recognition of spliceosomal SmN/B/B’ proteins by the RBM5 OCRE domain in splicing regulation [O] . André Mourão, Sophie Bonnal, Komal Soni, 2016

机译：RBM5 OCRE结构域在剪接调控中识别剪接体SmN / B / B蛋白的结构基础
7. Structural Basis for the Recognition of Spliceosomal SmN/B/Bu27 Proteins by the RBM5 OCRE Domain in Splicing Regulation [O] . Mourão André, Bonnal Sophie, Soni Komal, 2016

机译：RBM5 OCRE域在剪接调控中识别剪接体SmN / B / B u27蛋白的结构基础。

Structural basis for the recognition of spliceosomal SmN/B/B’ proteins by the RBM5 OCRE domain in splicing regulation

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