Spatiotemporal dynamics of homologous recombination repair at single collapsed replication forks

Abstract: Homologous recombination (HR) is a crucial pathway for the repair of DNA double-strand breaks. BRCA1/2 breast cancer proteins are key players in HR via their mediation of RAD51 nucleofilament formation and function; however, their individual roles and crosstalk in vivo are unknown. Here we use super-resolution (SR) imaging to map the spatiotemporal kinetics of HR proteins, revealing the interdependent relationships that govern the dynamic interplay and progression of repair events. We show that initial single-… Show more

“…RAD52 acts as mediator of ssDNA/RAD51 filaments during seDSB repair by HR in human cells, a role where it can be replaced by BRCA2 [14]. The severe TMZ sensitivity induced by loss of RAD52 and its strong ability to rescue the defective phenotypes associated with XAB2 depletion suggest that RAD52 also exerts a function independently of RAD51, in line with a previous report [15].…”

“…8). As XAB2 is present at seDSBs, we propose that XAB2 acts 14 via a direct mechanism to promote Ku eviction from resected seDSBs. The molecular details of this novel pathway and its interplay with the ATM-dependent pathway in counteracting Ku accumulation merit further exploration.…”

“…These filaments mediate homology search and strand invasion into the homologous sister chromatid, generating a displacement loop (Dloop) [13]. The single-strand annealing (SSA) factor RAD52 facilitates the assembly of ssDNA/RAD51 nucleoprotein filaments during HR-mediated seDSB repair in human cells [14]. Similar to yeast RAD52 [13], human RAD52 can also promote BIR mechanisms 5 without RAD51.…”

XAB2 prevents abortive recombinational repair of replication-associated DNA double-strand breaks and its loss is synthetic lethal with RAD52 inhibition

“…RAD52 acts as mediator of ssDNA/RAD51 filaments during seDSB repair by HR in human cells, a role where it can be replaced by BRCA2 [14]. The severe TMZ sensitivity induced by loss of RAD52 and its strong ability to rescue the defective phenotypes associated with XAB2 depletion suggest that RAD52 also exerts a function independently of RAD51, in line with a previous report [15].…”

“…8). As XAB2 is present at seDSBs, we propose that XAB2 acts 14 via a direct mechanism to promote Ku eviction from resected seDSBs. The molecular details of this novel pathway and its interplay with the ATM-dependent pathway in counteracting Ku accumulation merit further exploration.…”

“…These filaments mediate homology search and strand invasion into the homologous sister chromatid, generating a displacement loop (Dloop) [13]. The single-strand annealing (SSA) factor RAD52 facilitates the assembly of ssDNA/RAD51 nucleoprotein filaments during HR-mediated seDSB repair in human cells [14]. Similar to yeast RAD52 [13], human RAD52 can also promote BIR mechanisms 5 without RAD51.…”

XAB2 prevents abortive recombinational repair of replication-associated DNA double-strand breaks and its loss is synthetic lethal with RAD52 inhibition

“…Validating U-DNA-Seq data, we found that U-DNA staining shows significant colocalization with staining for both chromatin markers; H3K36me3 and H3K27me3, based on cross-pair correlation analysis of the super-resolution images as shown in Figure 7C-D. The rate of colocalization, as determined by the interaction factor (IF) value (Bermudez-Hernandez et al, 2017; Whelan et al, 2018), was statistically significant between the uracil signal and both chromatin markers in each case of drug treatment, when compared to the non-treated sample as well as to a generated set of random distribution patterns of these chromatin markers.…”

“…The interaction factor (IF) quantifies the colocalization of red and green foci within a cell nucleus by measuring the area of overlap between the two sets of foci (Bermudez-Hernandez et al, 2017; Whelan et al, 2018). The positions of the green foci are then randomized and the overlap between the two colours is measured again.…”

Genome-wide alterations of uracil distribution patterns in human DNA upon chemotherapeutic treatments

Super-Resolution Imaging of Homologous Recombination Repair at Collapsed Replication Forks