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

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Authors

ŠPÍREK Mário MLČOUŠKOVÁ Jarmila BELÁŇ Ondrej GYIMESI Máté HARAMI Gábor M. MOLNÁR Eszter NOVÁČEK Jiří KOVÁCS Mihály KREJČÍ Lumír

Year of publication 2018
Type Article in Periodical
Magazine / Source Nucleic Acids Research
MU Faculty or unit

Faculty of Medicine

Citation
Doi http://dx.doi.org/10.1093/nar/gky111
Keywords RAD51
Description 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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