The Basic Cleft of RPA70N Binds Multiple Checkpoint Proteins, Including RAD9, To Regulate ATR Signaling

Xin Xu; Sivaraja Vaithiyalingam; Gloria G. Glick; Daniel A. Mordes; Walter J. Chazin; David Cortez

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The Basic Cleft of RPA70N Binds Multiple Checkpoint Proteins, Including RAD9, To Regulate ATR Signaling

机译：RPA70N的基本裂口结合包括RAD9在内的多个检查点蛋白来调节ATR信号传导

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ATR kinase activation requires the recruitment of the ATR-ATRIP and RAD9-HUS1-RAD1 (9-1-1) checkpoint complexes to sites of DNA damage or replication stress. Replication protein A (RPA) bound to single-stranded DNA is at least part of the molecular recognition element that recruits these checkpoint complexes. We have found that the basic cleft of the RPA70 N-terminal oligonucleotide-oligosaccharide fold (OB-fold) domain is a key determinant of checkpoint activation. This protein-protein interaction surface is able to bind several checkpoint proteins, including ATRIP, RAD9, and MRE11. RAD9 binding to RPA is mediated by an acidic peptide within the C-terminal RAD9 tail that has sequence similarity to the primary RPA-binding surface in the checkpoint recruitment domain (CRD) of ATRIP. Mutation of the RAD9 CRD impairs its localization to sites of DNA damage or replication stress without perturbing its ability to form the 9-1-1 complex or bind the ATR activator TopBP1. Disruption of the RAD9-RPA interaction also impairs ATR signaling to CHK1 and causes hypersensitivity to both DNA damage and replication stress. Thus, the basic cleft of the RPA70 N-terminal OB-fold domain binds multiple checkpoint proteins, including RAD9, to promote ATR signaling.

机译：ATR激酶激活需要将ATR-ATRIP和RAD9-HUS1-RAD1（9-1-1）检查点复合物募集到DNA损伤或复制压力位点。绑定到单链DNA的复制蛋白A（RPA）至少是募集这些检查点复合物的分子识别元件的一部分。我们已经发现，RPA70 N端寡核苷酸-寡糖折叠（OB折叠）域的基本裂缝是关卡激活的关键决定因素。这种蛋白质-蛋白质相互作用表面能够结合多种检查点蛋白质，包括ATRIP，RAD9和MRE11。 RAD9与RPA的结合是由C末端RAD9尾部的酸性肽介导的，该酸性肽与 c heckpoint r crediting d omain（CRD）。 RAD9 CRD的突变会损害其定位于DNA损伤或复制压力的位点，而不会干扰其形成9-1-1复合物或结合ATR激活剂TopBP1的能力。 RAD9-RPA相互作用的中断也损害了CHR1的ATR信号传导，并导致对DNA损伤和复制压力的超敏反应。因此，RPA70 N端OB折叠结构域的基本裂口结合包括RAD9在内的多个检查点蛋白，从而促进ATR信号传导。 展开▼

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《Molecular and Cellular Biology》 |2008年第24期|共9页

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Xin Xu; Sivaraja Vaithiyalingam; Gloria G. Glick; Daniel A. Mordes; Walter J. Chazin; David Cortez;
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中图分类细胞生物学;

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1. Correction: Dynamics of Rad9 Chromatin Binding and Checkpoint Function Are Mediated by Its Dimerization and Are Cell Cycle–Regulated by CDK1 Activity [J] . The PLOS Genetics Staff PLoS Genetics . 2014,第6期

机译：校正：Rad9染色质结合和检查点功能的动力学由其二聚化调节，并且受CDK1活性调节的细胞周期

2. Correction: Dynamics of Rad9 Chromatin Binding and Checkpoint Function Are Mediated by Its Dimerization and Are Cell Cycle–Regulated by CDK1 Activity [J] . PLoS Genetics . 2014,第6期

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3. Dynamics of Rad9 Chromatin Binding and Checkpoint Function Are Mediated by Its Dimerization and Are Cell Cycle–Regulated by CDK1 Activity [J] . Magda Granata, Federico Lazzaro, Daniele Novarina, PLoS Genetics . 2010,第8期

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6. The Basic Cleft of RPA70N Binds Multiple Checkpoint Proteins Including RAD9 To Regulate ATR Signaling [O] . Xin Xu, Sivaraja Vaithiyalingam, Gloria G. Glick, 2008

机译：RPA70N的基本裂口结合包括RAD9在内的多个检查点蛋白来调节ATR信号传导

7. The Basic Cleft of RPA70N Binds Multiple Checkpoint Proteins, Including RAD9, To Regulate ATR Signaling▿ [O] . Xu, Xin, Vaithiyalingam, Sivaraja, Glick, Gloria G., 2008

机译：RPA70N的基本裂口结合包括RAD9在内的多个检查点蛋白来调节ATR信号传导▿

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The Basic Cleft of RPA70N Binds Multiple Checkpoint Proteins, Including RAD9, To Regulate ATR Signaling

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