High cell density attenuates reactive oxygen species: implications for in vitro assays.

In vitro cell-based assays are an essential and universally used step in elucidation of biological processes as well as in drug development. However, results obtained depend on the validity of protocols used. This statement certainly pertains to in vitro assays of oxidative stress.

Stereoselective excision of thymine glycol lesions by mammalian cell extracts.

Thymine glycols (Tg) are major pyrimidine oxidation products produced by chemical agents and ionizing radiation. Recent improvements in purification procedures gave us the opportunity to examine the incision of DNA duplexes containing a single (5S,6R)- or (5R,6S)-Tg lesion by mouse NTH1 DNA glycosylase and mammalian cell nuclear extracts. Time course experiments and steady state enzyme kinetics indicated that mNTH1 discriminates between the cis-Tg isomers.

Stereoselective excision of thymine glycol from oxidatively damaged DNA.

DNA damage created by reactive oxygen species includes the prototypic oxidized pyrimidine, thymine glycol (Tg), which exists in oxidatively damaged DNA as two diastereoisomeric pairs. In Escherichia coli, Saccharomyces cerevesiae and mice, Tg is preferentially excised by endonuclease III (Endo III) and endonuclease VIII (Endo VIII), yNTG1 and yNTG2, and mNTH and mNEIL1, respectively. We have explored the ability of these DNA glycosylases to discriminate between Tg stereoisomers.

Sorting the consequences of ionizing radiation: processing of 8-oxoguanine/abasic site lesions.

Clustered DNA damage is a hallmark of ionizing radiation. These complex lesions, composed of any combination of oxidized bases, abasic sites, or strand breaks within one helical turn, create a tremendous challenge for the base excision repair system, which must process the damage without generating cytotoxic double strand breaks (DSB). Clustered lesions affect the DNA incision activity of DNA glycosylases and AP endonucleases.