DNA binding and RAD51 engagement by the BRCA2 C-terminus orchestrate DNA repair and replication fork preservation

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作者
Youngho Kwon
Heike Rösner
Weixing Zhao
Platon Selemenakis
Zhuoling He
Ajinkya S. Kawale
Jeffrey N. Katz
Cody M. Rogers
Francisco E. Neal
Aida Badamchi Shabestari
Valdemaras Petrosius
Akhilesh K. Singh
Marina Z. Joel
Lucy Lu
Stephen P. Holloway
Sandeep Burma
Bipasha Mukherjee
Robert Hromas
Alexander Mazin
Claudia Wiese
Claus S. Sørensen
Patrick Sung
机构
[1] University of Texas Health Science Center at San Antonio,Department of Biochemistry and Structural Biology and Greehey Children’s Cancer Research Institute
[2] University of Copenhagen,Biotech Research and Innovation Centre, Faculty of Health and Medical Sciences
[3] Colorado State University,Department of Environmental and Radiological Health Sciences
[4] Yale University School of Medicine,Department of Molecular Biophysics and Biochemistry
[5] University of Texas Health Science Center at San Antonio,Department of Neurosurgery
[6] University of Texas Health at San Antonio,Department of Medicine
[7] University of Texas MD Anderson Cancer Center,Department of Cancer Biology
[8] Harvard Medical School,Massachusetts General Hospital Cancer Center
[9] GentiBio Inc.,undefined
[10] Johns Hopkins University School of Medicine,undefined
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Nature Communications | / 14卷
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摘要
The tumor suppressor BRCA2 participates in DNA double-strand break repair by RAD51-dependent homologous recombination and protects stressed DNA replication forks from nucleolytic attack. We demonstrate that the C-terminal Recombinase Binding (CTRB) region of BRCA2, encoded by gene exon 27, harbors a DNA binding activity. CTRB alone stimulates the DNA strand exchange activity of RAD51 and permits the utilization of RPA-coated ssDNA by RAD51 for strand exchange. Moreover, CTRB functionally synergizes with the Oligonucleotide Binding fold containing DNA binding domain and BRC4 repeat of BRCA2 in RPA-RAD51 exchange on ssDNA. Importantly, we show that the DNA binding and RAD51 interaction attributes of the CTRB are crucial for homologous recombination and protection of replication forks against MRE11-mediated attrition. Our findings shed light on the role of the CTRB region in genome repair, reveal remarkable functional plasticity of BRCA2, and help explain why deletion of Brca2 exon 27 impacts upon embryonic lethality.
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