Mechanisms of DNA Recombination and Genome Rearrangements: Intersection Between Homologous Recombination, DNA Replication and DNA Repair

<p>1. Using the Flp recombinase to induce site-specific nicks<br>Lotte Bjergbaek<br>2. Synthesis from D-loops<br>Wolf-Dietrich Heyer<br>3. Bacteriophage T4 system as a model for recombination/replication interface<br>Scott Morrical<br>4. Inducing and detecting mitotic DNA synthesis at difficult-to-replicate loci<br>Ian Hickson<br>5. Reporter system to study the RNA-DNA recombination<br>Francesca Storici<br>6. Assaying recombination and mutagenesis at DNA nicks<br>Nancy Maizels<br>7. Recovery of alternative end-joining repair products from Drosophila embryos<br>Mitch McVey<br>8. High-throughput analysis of DNA break-induced chromosome rearrangements by amplicon sequencing<br>Steven Roberts<br>9. Analysis of mutagenesis associated with recombination<br>Jim Haber<br>10. Investigation of break-induced replication in yeast<br>Anna Malkova<br>11. Dissecting the dual endo- and exonuclease activity of MRE11 (MRN) with small molecules<br>John Tainer and Davide Moiani <br>12. RAD52 inhibition<br>Ashley Spies<br>13. Structure-guided, fragment-based drug discovery against RAD51 recombinase: targeting a protein-peptide interface<br>Thomas Blundell<br>14. Molecular intermediates of recombination in meiosis (methods, like 2D, and others)<br>Neil Hunter<br>15. S1-seq method for mapping DSB resection endpoints<br>Scott Keney<br>16. Methods for studying the roles of the Sgs1-Top3-Rmi1 helicase/decatenase complex in meiotic recombination intermediate metabolism<br>Michael Lichten<br>17. Live cell imaging of heterochromatin repair in Drosophila cells<br>Irene Chiolo<br>18. Analysis of meiotic double-strand break initiation in mammals <br>Galina Petukhova and Dan Camerini-Otero</p>