Brooks, P J Cheng, Tsu-Fan Cooper, Lori
Published in
DNA repair
The classic model for neurodegeneration due to mutations in DNA repair genes holds that DNA damage accumulates in the absence of repair, resulting in the death of neurons. This model was originally put forth to explain the dramatic loss of neurons observed in patients with xeroderma pigmentosum neurologic disease, and is likely to be valid for othe...
Beukers, Rob Eker, André P M Lohman, Paul H M
Published in
DNA repair
Fifty years ago thymine dimer was discovered in the Biochemical and Biophysical Laboratory of Delft Technological University, The Netherlands, by one of the authors of this review (Beukers) as the first environmentally induced DNA lesion. It is one of the photoproducts formed between adjacent pyrimidine bases in DNA by UV irradiation, currently kno...
Lawrence, Nicola J Sacco, Joseph J Brownstein, David G Gillingwater, Thomas H Melton, David W
Published in
DNA repair
Transcription-coupled repair of endogenous DNA damage appears crucial for the maintenance of the central and peripheral nervous systems. Ercc1 is essential for nucleotide excision repair and is also involved in recombination repair and the repair of interstrand cross-links. We have investigated the neurological phenotype of Ercc1-deficient mice whe...
Tsolou, Avgi Lydall, David
Published in
DNA repair
Mrc1 (Mediator of Replication Checkpoint 1) is a component of the DNA replication fork machinery and is necessary for checkpoint activation after replication stress. In this study, we addressed the role of Mrc1 at uncapped telomeres. Our experiments show that Mrc1 contributes to the vitality of both cdc13-1 and yku70Delta telomere capping mutants. ...
Jensen, Rb Ozes, A Taeho Kim Estep, A Stephen Charles Kowalczykowski
Published in
DNA Repair
Homologous recombination plays an important role in the high-fidelity repair of DNA double-strand breaks. A central player in this process, RAD51, polymerizes onto single-stranded DNA and searches for homology in a duplex donor DNA molecule, usually the sister chromatid. Homologous recombination is a highly regulated event in mammalian cells: some ...
Johnson, Sa You, Z Tony Hunter
Published in
DNA Repair
DNA double strand breaks (DSB) in mammalian cells result in the activation of the ATM protein kinase. This leads to phosphorylation of numerous downstream transducer and effector proteins that coordinate a cellular response including DNA repair, cell cycle arrest or apoptosis. We have developed a reporter protein that allows the measurement of ATM ...
