Eloïse Dray scite author profile

Eukaryotes possess mechanisms to limit crossing over during mitotic homologous recombination, thus avoiding possible chromosomal rearrangements. We show here that budding yeast Mph1, an ortholog of human FancM helicase, utilizes its helicase activity to suppress spontaneous unequal sister chromatid exchanges and DNA double-strand break-induced chromosome crossovers. Since the efficiency and kinetics of break repair are unaffected, Mph1 appears to channel repair intermediates into a noncrossover pathway. Importantly, Mph1 works independently of two other helicases-Srs2 and Sgs1-that also attenuate crossing over. By chromatin immunoprecipitation, we find targeting of Mph1 to double-strand breaks in cells. Purified Mph1 binds D-loop structures and is particularly adept at unwinding these structures. Importantly, Mph1, but not a helicase-defective variant, dissociates Rad51-made D-loops. Overall, the results from our analyses suggest a new role of Mph1 in promoting the noncrossover repair of DNA double-strand breaks.[Keywords: Genome instability; recombination; DNA helicase; crossing over; Fanconi anemia] Supplemental material is available at http://www.genesdev.org. Received September 8, 2008; revised version accepted November 12, 2008. DNA double-strand breaks (DSBs) that arise during DNA replication or are induced by DNA damaging agents, such as ionizing radiation, are frequently repaired by homologous recombination (HR). In yeast and other eukaryotes, the RAD52 epistasis group of proteins mediate homologous recombination (for reviews, see Paques and Haber 1999;Krogh and Symington 2004). In this process, DSB ends are resected by nucleases to create 39 ssDNA that becomes coated with the recombinase protein Rad51. The Rad51-ssDNA nucleoprotein filament then carries out a search for a homologous donor DNA sequence and promotes strand invasion of the donor molecule to form a D-loop (Sung and Klein 2006). After D-loop formation, there appear to be two alternative pathways that result in DSB repair. One pathway involves the formation of a double Holliday junction (dHJ) that can be resolved by symmetrical strand cleavage into either a crossover or noncrossover gene conversion (Szostak et al. 1983). An alternative mechanism, called synthesis-dependent strand annealing (SDSA), posits formation mostly of noncrossovers, and in most cases does not involve a dHJ intermediate (for review, see Paques and Haber 1999). In support of the SDSA model of gene conversion, we showed recently that both newly synthesized strands are inherited by the broken recipient DNA molecule (Ira et al. 2006). The choice between crossover and noncrossover is tightly regulated in both mitotic and meiotic cells. In meiotic S. cerevisiae cells the correct number of crossovers are required for proper chromosome segregation; the proportion of gene conversion accompanied by crossing over varies between 25% and 50% depending on the locus (Roeder 1995). In mitotic cells, the proportion of crossovers is much lower, ranging between <1% and 7 These authors c...

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Promotion of Homologous Recombination and Genomic Stability by RAD51AP1 via RAD51 Recombinase Enhancement

Wiese

et al. 2007

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Homologous recombination (HR) repairs chromosome damage and is indispensable for tumor suppression in humans. RAD51 mediates the DNA strand-pairing step in HR. RAD51 associated protein 1 (RAD51AP1) is a RAD51-interacting protein whose function has remained elusive. Knockdown of RAD51AP1 in human cells by RNA interference engenders sensitivity to different types of genotoxic stress, and RAD51AP1 is epistatic to the HR protein XRCC3. Moreover, RAD51AP1-depleted cells are impaired for the recombinational repair of a DNA double-strand break and exhibit chromatid breaks both spontaneously and upon DNA-damaging treatment. Purified RAD51AP1 binds both dsDNA and a D loop structure and, only when able to interact with RAD51, greatly stimulates the RAD51-mediated D loop reaction. Biochemical and cytological results show that RAD51AP1 functions at a step subsequent to the assembly of the RAD51-ssDNA nucleoprotein filament. Our findings provide evidence that RAD51AP1 helps maintain genomic integrity via RAD51 recombinase enhancement.

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Brca2 is involved in meiosis in Arabidopsis thaliana as suggested by its interaction with Dmc1

Siaud¹,

Dray²,

Gy³

et al. 2004

EMBO J

159

193

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Two BRCA2-like sequences are present in the Arabidopsis genome. Both genes are expressed in flower buds and encode nearly identical proteins, which contain four BRC motifs. In a yeast two-hybrid assay, the Arabidopsis Brca2 proteins interact with Rad51 and Dmc1. RNAi constructs aimed at silencing the BRCA2 genes at meiosis triggered a reproducible sterility phenotype, which was associated with dramatic meiosis alterations. We obtained the same phenotype upon introduction of RNAi constructs aimed at silencing the RAD51 gene at meiosis in dmc1 mutant plants. The meiotic figures we observed strongly suggest that homologous recombination is highly disturbed in these meiotic cells, leaving aberrant recombination events to repair the meiotic double-strand breaks. The ‘brca2' meiotic phenotype was eliminated in spo11 mutant plants. Our experiments point to an essential role of Brca2 at meiosis in Arabidopsis. We also propose a role for Rad51 in the dmc1 context

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Enhancement of RAD51 recombinase activity by the tumor suppressor PALB2

Dray

Etchin

Wiese

et al. 2010

Nat Struct Mol Biol

144

146

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Homologous recombination mediated by the RAD51 recombinase helps eliminate chromosomal lesions, such as DNA double-stranded breaks induced by radiation or arising from injured DNA replication forks. The tumor suppressors BRCA2 and PALB2 act together to deliver RAD51 to chromosomal lesions to initiate repair. Here we document a new function of PALB2 in the enhancement of RAD51's ability to form the D-loop. We show that PALB2 binds DNA and physically interacts with RAD51. Importantly, while PALB2 alone stimulates D-loop formation, a co-operative effect is seen with RAD51AP1, an enhancer of RAD51. This stimulation stems from PALB2's ability to function with RAD51 and RAD51AP1 to assemble the synaptic complex. Our results help unveil a multi-faceted role of PALB2 in chromosome damage repair. Since PALB2 mutations can cause breast and other tumors or lead to Fanconi anemia, our findings are important for understanding the mechanism of tumor suppression in humans.

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NUCKS1 is a novel RAD51AP1 paralog important for homologous recombination and genome stability

et al. 2015

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NUCKS1 (nuclear casein kinase and cyclin-dependent kinase substrate 1) is a 27 kD chromosomal, vertebrate-specific protein, for which limited functional data exist. Here, we demonstrate that NUCKS1 shares extensive sequence homology with RAD51AP1 (RAD51 associated protein 1), suggesting that these two proteins are paralogs. Similar to the phenotypic effects of RAD51AP1 knockdown, we find that depletion of NUCKS1 in human cells impairs DNA repair by homologous recombination (HR) and chromosome stability. Depletion of NUCKS1 also results in greatly increased cellular sensitivity to mitomycin C (MMC), and in increased levels of spontaneous and MMC-induced chromatid breaks. NUCKS1 is critical to maintaining wild type HR capacity, and, as observed for a number of proteins involved in the HR pathway, functional loss of NUCKS1 leads to a slow down in DNA replication fork progression with a concomitant increase in the utilization of new replication origins. Interestingly, recombinant NUCKS1 shares the same DNA binding preference as RAD51AP1, but binds to DNA with reduced affinity when compared to RAD51AP1. Our results show that NUCKS1 is a chromatin-associated protein with a role in the DNA damage response and in HR, a DNA repair pathway critical for tumor suppression.

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Eloïse Dray

Yeast Mph1 helicase dissociates Rad51-made D-loops: implications for crossover control in mitotic recombination

Promotion of Homologous Recombination and Genomic Stability by RAD51AP1 via RAD51 Recombinase Enhancement

Brca2 is involved in meiosis in Arabidopsis thaliana as suggested by its interaction with Dmc1

Enhancement of RAD51 recombinase activity by the tumor suppressor PALB2

NUCKS1 is a novel RAD51AP1 paralog important for homologous recombination and genome stability

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