Author
Listed:
- Rania Ghouil
(CEA, CNRS, Uni Paris-Sud, Uni Paris-Saclay)
- Simona Miron
(CEA, CNRS, Uni Paris-Sud, Uni Paris-Saclay)
- Lieke Koornneef
(Erasmus University Medical Center)
- Jasper Veerman
(Erasmus University Medical Center)
- Maarten W. Paul
(Erasmus University Medical Center)
- Marie-Hélène Du
(CEA, CNRS, Uni Paris-Sud, Uni Paris-Saclay)
- Esther Sleddens-Linkels
(Erasmus University Medical Center)
- Sari E. Rossum-Fikkert
(Erasmus University Medical Center
Erasmus University Medical Center)
- Yvette Loon
(Erasmus University Medical Center)
- Natalia Felipe-Medina
(Centro de Investigación del Cáncer and Instituto de Biología Molecular y Celular del Cáncer (CSIC-Universidad de Salamanca))
- Alberto M. Pendas
(Centro de Investigación del Cáncer and Instituto de Biología Molecular y Celular del Cáncer (CSIC-Universidad de Salamanca))
- Alex Maas
(Erasmus University Medical Center)
- Jeroen Essers
(Erasmus University Medical Center
Erasmus University Medical Center
Erasmus University Medical Center)
- Pierre Legrand
(Synchrotron SOLEIL, L’Orme des Merisiers)
- Willy M. Baarends
(Erasmus University Medical Center)
- Roland Kanaar
(Erasmus University Medical Center)
- Sophie Zinn-Justin
(CEA, CNRS, Uni Paris-Sud, Uni Paris-Saclay)
- Alex N. Zelensky
(Erasmus University Medical Center)
Abstract
BRCA2 and its interactors are required for meiotic homologous recombination (HR) and fertility. Loss of HSF2BP, a BRCA2 interactor, disrupts HR during spermatogenesis. We test the model postulating that HSF2BP localizes BRCA2 to meiotic HR sites, by solving the crystal structure of the BRCA2 fragment in complex with dimeric armadillo domain (ARM) of HSF2BP and disrupting this interaction in a mouse model. This reveals a repeated 23 amino acid motif in BRCA2, each binding the same conserved surface of one ARM domain. In the complex, two BRCA2 fragments hold together two ARM dimers, through a large interface responsible for the nanomolar affinity — the strongest interaction involving BRCA2 measured so far. Deleting exon 12, encoding the first repeat, from mBrca2 disrupts BRCA2 binding to HSF2BP, but does not phenocopy HSF2BP loss. Thus, results herein suggest that the high-affinity oligomerization-inducing BRCA2-HSF2BP interaction is not required for RAD51 and DMC1 recombinase localization in meiotic HR.
Suggested Citation
Rania Ghouil & Simona Miron & Lieke Koornneef & Jasper Veerman & Maarten W. Paul & Marie-Hélène Du & Esther Sleddens-Linkels & Sari E. Rossum-Fikkert & Yvette Loon & Natalia Felipe-Medina & Alberto M., 2021.
"BRCA2 binding through a cryptic repeated motif to HSF2BP oligomers does not impact meiotic recombination,"
Nature Communications, Nature, vol. 12(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24871-6
DOI: 10.1038/s41467-021-24871-6
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Citations
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Cited by:
- James M. Dunce & Owen R. Davies, 2024.
"BRCA2 stabilises RAD51 and DMC1 nucleoprotein filaments through a conserved interaction mode,"
Nature Communications, Nature, vol. 15(1), pages 1-11, December.
- Manickam Gurusaran & Jingjing Zhang & Kexin Zhang & Hiroki Shibuya & Owen R. Davies, 2024.
"MEILB2-BRME1 forms a V-shaped DNA clamp upon BRCA2-binding in meiotic recombination,"
Nature Communications, Nature, vol. 15(1), pages 1-16, December.
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