Abstract
Dr. Haber begins his online talk by explaining that broken chromosomes frequently arise during the process of DNA replication. In healthy cells, these double strand breaks (DSBs) are repaired by homologous recombination, an orderly process that preserves the genome. If the homologous recombination machinery is impaired, DNA truncations, translocations, and deletions often occur, resulting in genome instability and cancer. All mechanisms of homologous recombination have one common principal; the broken ends of the DNA are repaired by base pairing with a sequence that is identical or nearly identical and acts as a template for repair enzymes. Haber explains the general principles of homologous recombination and its critical role in maintaining genome stability.