7 research outputs found
Rad52 multimerization is important for its nuclear localization in Saccharomyces cerevisiae
Rad52 is essential for all homologous recombination and DNA double strand break repair events in S. cerevisiae. This protein is multifunctional and contains several domains that allow it to interact with DNA as well as with different repair proteins. However, it has been unclear how Rad52 enters the nucleus. In the present study, we have used a combination of mutagenesis and sequence analysis to show that Rad52 from S. cerevisiae contains a single functional pat7 type NLS essential for its nuclear localization. The region containing the NLS seems only to be involved in nuclear transport as it plays no role in repair of MMS induced DNA damage. The NLS in Rad52 is weak, as monomeric protein species that harbor this NLS are mainly located in the cytosol. In contrast, multimeric protein complexes wherein each subunit contains a single NLS(Rad52) sort efficiently to the nucleus. Based on the results we propose a model where the additive effect of multiple NLS(Rad52) sequences in a Rad52 ring-structure ensures efficient nuclear localization of Rad52
Molecular Anatomy of the Recombination Mediator Function of Saccharomyces cerevisiae Rad52*Sâ
A helical filament of Rad51 on single-strand DNA (ssDNA), called the
presynaptic filament, catalyzes DNA joint formation during homologous
recombination. Rad52 facilitates presynaptic filament assembly, and this
recombination mediator activity is thought to rely on the interactions of
Rad52 with Rad51, the ssDNA-binding protein RPA, and ssDNA. The N-terminal
region of Rad52, which has DNA binding activity and an oligomeric structure,
is thought to be crucial for mediator activity and recombination.
Unexpectedly, we find that the C-terminal region of Rad52 also harbors a DNA
binding function. Importantly, the Rad52 C-terminal portion alone can promote
Rad51 presynaptic filament assembly. The middle portion of Rad52 associates
with DNA-bound RPA and contributes to the recombination mediator activity.
Accordingly, expression of a protein species that harbors the middle and
C-terminal regions of Rad52 in the rad52 Î327
background enhances the association of Rad51 protein with a HO-made DNA
double-strand break and partially complements the methylmethane sulfonate
sensitivity of the mutant cells. Our results provide a mechanistic framework
for rationalizing the multi-faceted role of Rad52 in recombination and DNA
repair