Damage sensor role of UV-DDB during base excision repair
Author:
Publisher
Springer Science and Business Media LLC
Subject
Molecular Biology,Structural Biology
Link
http://www.nature.com/articles/s41594-019-0261-7.pdf
Reference65 articles.
1. Friedberg, E. C. et al. DNA repair: from molecular mechanism to human disease. DNA Repair (Amst.) 5, 986–996 (2006).
2. Hill, J. W., Hazra, T. K., Izumi, T. & Mitra, S. Stimulation of human 8-oxoguanine-DNA glycosylase by AP-endonuclease: potential coordination of the initial steps in base excision repair. Nucleic Acids Res. 29, 430–438 (2001).
3. Rodriguez, Y. & Smerdon, M. J. The structural location of DNA lesions in nucleosome core particles determines accessibility by base excision repair enzymes. J. Biol. Chem. 288, 13863–13875 (2013).
4. Odell, I. D., Wallace, S. S. & Pederson, D. S. Rules of engagement for base excision repair in chromatin. J. Cell Physiol. 228, 258–266 (2013).
5. Odell, I. D., Newick, K., Heintz, N. H., Wallace, S. S. & Pederson, D. S. Non-specific DNA binding interferes with the efficient excision of oxidative lesions from chromatin by the human DNA glycosylase, NEIL1. DNA Repair (Amst.) 9, 134–143 (2010).
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