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Mouse tetrad analysis provides insights into recombination mechanisms and hotspot evolutionary dynamics.

Nature genetics (2014-08-26)
Francesca Cole, Frédéric Baudat, Corinne Grey, Scott Keeney, Bernard de Massy, Maria Jasin
ABSTRAKT

The ability to examine all chromatids from a single meiosis in yeast tetrads has been indispensable for defining the mechanisms of homologous recombination initiated by DNA double-strand breaks (DSBs). Using a broadly applicable strategy for the analysis of chromatids from a single meiosis at two recombination hotspots in mouse oocytes and spermatocytes, we demonstrate here the unidirectional transfer of information-gene conversion-in both crossovers and noncrossovers. Whereas gene conversion in crossovers is associated with reciprocal exchange, the unbroken chromatid is not altered in noncrossover gene conversion events, providing strong evidence that noncrossovers arise from a distinct pathway. Gene conversion frequently spares the binding site of the hotspot-specifying protein PRDM9, with the result that erosion of the hotspot is slowed. Thus, mouse tetrad analysis demonstrates how unique aspects of mammalian recombination mechanisms shape hotspot evolutionary dynamics.

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Sigma-Aldrich
Monoclonal Anti-polyHistidine antibody produced in mouse, clone HIS-1, ascites fluid
Sigma-Aldrich
Trypsin from bovine pancreas, essentially salt-free, lyophilized powder, ≥9,000 BAEE units/mg protein, BioReagent, suitable for cell culture