Homologous recombination deficiency leads to profound genetic instability in cells derived from Xrcc2-knockout mice.

DNA damage such as double-strand breaks presents severe difficulties for the cell to repair, especially if genetic stability is to be preserved. Recombination of the damaged DNA molecule with an undamaged homologous sequence provides a potential mechanism for the high-fidelity repair of such damage, and genes encoding homologous recombination (HR) proteins have been identified in mammalian cells. Xrcc2 is a protein with homology to Rad51, the core component of HR, but with a nonredundant role in damage repair.

Transmissible and nontransmissible complex chromosome aberrations characterized by three-color and mFISH define a biomarker of exposure to high-LET alpha particles.

Insertions have been proposed as potential stable biomarkers of chronic high-LET radiation exposure. To examine this in vitro, we irradiated human peripheral blood lymphocytes in G(0) with either 50 cGy (238)Pu alpha particles (LET 121.4 keV/microm) or 3 Gy 250 kV X rays and stimulated their long-term culture up to approximately 22 population doublings postirradiation.

Clustered DNA damage leads to complex genetic changes in irradiated human cells.

Densely ionizing radiations interact with DNA to cause heavily clustered sites of damage that are difficult to repair correctly. We have been able to determine for the first time the breakpoints of several very large deletions induced by densely ionizing radiation in diploid human cells and show that damage clustering is reflected in the complexity of mutations. Intra- and interchromosomal insertions and inversions occur at the sites of some large deletions.

Aneuploidy, centrosome activity and chromosome instability in cells deficient in homologous recombination repair.

Chromosome instability and loss or gain of chromosomes are changes characteristic of many tumour cells and human disorders. However, the mechanism of these changes has not yet been fully determined. We have recently shown that hamster cell lines deficient in homologous recombination repair (HRR) genes XRCC2 and XRCC3 have an elevated frequency of aneuploidy compared with wild-type cells and mutant cells transfected with the appropriate human gene.

Role of mammalian RAD51L2 (RAD51C) in recombination and genetic stability.

The highly conserved RAD51 protein has a central role in homologous recombination. Five novel RAD51-like genes have been identified in mammalian cells, but little is known about their functions. A DNA damage-sensitive hamster cell line, irs3, was found to have a mutation in the RAD51L2 gene and an undetectable level of RAD51L2 protein.