Content area
Abstract
Hereditary defects in the repair of DNA damage are implicated in a variety of diseases, many of which are typified by neurological dysfunction and/or increased genetic instability and cancer. Of the different types of DNA damage that arise in cells, single-strand breaks (SSBs) are the most common, arising at a frequency of tens of thousands per cell per day from direct attack by intracellular metabolites and from spontaneous DNA decay. Here, the molecular mechanisms and organization of the DNA-repair pathways that remove SSBs are reviewed and the connection between defects in these pathways and hereditary neurodegenerative disease are discussed.
Details
Title
Single-strand break repair and genetic disease
Author
Caldecott, Keith W
Pages
619-31
Publication year
2008
Publication date
Aug 2008
ISSN
14710056
e-ISSN
14710064
Source type
Scholarly Journal
Language of publication
English
ProQuest document ID
223746762
Copyright
Copyright Nature Publishing Group Aug 2008