Without Binding ATP, Human Rad51 Does Not Form Helical Filaments on ssDNA

Schay, Gusztáv; Borka, Bálint; Kernya, Linda; Bulyáki, Éva; Kardos, József; Fekete, Melinda; Fidy, Judit

doi:10.1021/acs.jpcb.5b12220

Cited by 5 publications

(9 citation statements)

References 66 publications

(143 reference statements)

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“…Statistical analysis of RAD51 WT incubated with ATP showed an average filament length of 71 nm ( Supplementary Figure S1B ). This corresponds to the theoretical length of a 150-nt ssDNA extended by a factor of ∼1.5 compared to the length of B-form DNA ( 19 ) and is in agreement with previously published data for RAD51 filaments ( 23 ). Accordingly, the peak maximum filament length observed for RAD51 WT in the presence of AMP-PNP as well as for the KR and KA mutants lies between ∼39 and 44 nm ( Supplementary Figure S1B ), further supporting compressed ‘closed’ properties of these filaments.…”

Section: Resultssupporting

confidence: 92%

Human RAD51 rapidly forms intrinsically dynamic nucleoprotein filaments modulated by nucleotide binding state

Špı́rek

Mlčoušková

Beláň

et al. 2018

Nucleic Acids Research

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Formation of RAD51 filaments on single-stranded DNA is an essential event during homologous recombination, which is required for homology search, strand exchange and protection of replication forks. Formation of nucleoprotein filaments (NF) is required for development and genomic stability, and its failure is associated with developmental abnormalities and tumorigenesis. Here we describe the structure of the human RAD51 NFs and of its Walker box mutants using electron microscopy. Wild-type RAD51 filaments adopt an ‘open’ conformation when compared to a ‘closed’ structure formed by mutants, reflecting alterations in helical pitch. The kinetics of formation/disassembly of RAD51 filaments show rapid and high ssDNA coverage via low cooperativity binding of RAD51 units along the DNA. Subsequently, a series of isomerization or dissociation events mediated by nucleotide binding state creates intrinsically dynamic RAD51 NFs. Our findings highlight important a mechanistic divergence among recombinases from different organisms, in line with the diversity of biological mechanisms of HR initiation and quality control. These data reveal unexpected intrinsic dynamic properties of the RAD51 filament during assembly/disassembly, which may be important for the proper control of homologous recombination.

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Section: Resultssupporting

confidence: 92%

Human RAD51 rapidly forms intrinsically dynamic nucleoprotein filaments modulated by nucleotide binding state

Špı́rek

Mlčoušková

Beláň

et al. 2018

Nucleic Acids Research

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“…The RAD51 protein presents different oligomeric forms in buffer solution [35,36]. Structure resolutions of RAD51 in different organisms show that it is frequently organized in a ring with 6 to 8 monomers [37,38], and even in short filaments depending on the buffer composition [39]. The equilibrium between these different forms is also dependent on the protein concentration [35] and the presence of other molecules like peptides, salt or co-factors.…”

Section: Discussionmentioning

confidence: 99%

“…Nucleotide cofactors are also important elements to consider as they modulate the equilibrium and configuration of RAD51 oligomers. Schay et al [39] demonstrate the role of ATP in the specific conformation of RAD51. By electron microscopy, they show that the binding of ATP modifies the protein-protein interfaces and leads mainly to oligomeric structures in the form of rings or short helices.…”

Section: Discussionmentioning

confidence: 99%

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New Phosphorylation Sites of Rad51 by c-Met Modulates Presynaptic Filament Stability

Chabot

Defontaine

Marquis

et al. 2019

Cancers

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Genomic instability through deregulation of DNA repair pathways can initiate cancer and subsequently result in resistance to chemo and radiotherapy. Understanding these biological mechanisms is therefore essential to overcome cancer. RAD51 is the central protein of the Homologous Recombination (HR) DNA repair pathway, which leads to faithful DNA repair of DSBs. The recombinase activity of RAD51 requires nucleofilament formation and is regulated by post-translational modifications such as phosphorylation. In the last decade, studies have suggested the existence of a relationship between receptor tyrosine kinases (RTK) and Homologous Recombination DNA repair. Among these RTK the c-MET receptor is often overexpressed or constitutively activated in many cancer types and its inhibition induces the decrease of HR. In this study, we show for the first time that c-MET is able to phosphorylate the RAD51 protein. We demonstrate in vitro that c-MET phosphorylates four tyrosine residues localized mainly in the subunit-subunit interface of RAD51. Whereas these post-translational modifications do not affect the presynaptic filament formation, they strengthen its stability against the inhibitor effect of the BRC peptide obtained from BRCA2. Taken together, these results confirm the role of these modifications in the regulation of the BRCA2-RAD51 interaction and underline the importance of c-MET in DNA damage response.

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“…另外, 一些参与DSB修复的DNA损伤应答(DNA damage response, DDR)蛋白, 如BRCA1(breast cancer type 1 susceptibility protein), MDC1(mediator of DNA damage checkpoint protein 1)和53BP1(transformation related protein 53 binding protein 1) [51] 等也被发现在体细胞RAD51 的募集过程中有重要作用. 最近, Schay等人 [52] 用物理化学的方法证明, 人类RAD51必须与ATP结合后才能被募集到单链DNA上. 此外, 有报道称, 在体细胞中RAD51的募集受其磷酸化的影响 [53] , 但其实验结…”

Section: 新近发现了一些决定或影响Rad51募集的因unclassified

Chromosome behavior and the molecular basis of meiosis

Jiang

Fan

et al. 2017

Sci. Sin.-Vitae

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Meiosis is a distinctcell division pathway in gamete formation in sexually reproducing organisms. During meiosis, the chromosomes undergo only one round of replication, followed by two rounds of cell division to produce haploid gametes. The behaviorsof chromosomes during meiosis I,including pairing, synapsis, recombination, and segregation of homologous chromosomes, are the most distinguishing features of meiosis. These behaviors arebased on the formation and repair of programmed DNA double-strand breaks in early meiotic prophase I. In this paper, we summarize the most important chromosome behaviors during meiosis and discuss the possible molecular mechanisms underlying these behaviors.

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Without Binding ATP, Human Rad51 Does Not Form Helical Filaments on ssDNA

Cited by 5 publications

References 66 publications

Human RAD51 rapidly forms intrinsically dynamic nucleoprotein filaments modulated by nucleotide binding state

Human RAD51 rapidly forms intrinsically dynamic nucleoprotein filaments modulated by nucleotide binding state

New Phosphorylation Sites of Rad51 by c-Met Modulates Presynaptic Filament Stability

Chromosome behavior and the molecular basis of meiosis

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