Gene/Protein
Disease
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Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: UNIPROT:P47989 (
xanthine oxidase
)
8,633
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
DNA damage caused indirectly via reactive oxygen species generated during reductive activation of mitomycin C was evaluated. This oxidative DNA damage was measured by determining the formation of 8-hydroxyguanine in DNA exposed to chemically or enzymatically activated mitomycin C. The level of 8-hydroxyguanine was measured indirectly by determining
formamidopyrimidine-DNA glycosylase
-sensitive sites induced in plasmid DNA exposed to mitomycin C and directly by a 32P-postlabeling assay for the modified base. Activation of mitomycin C by sodium borohydride in air, by H2/Pt, or
xanthine oxidase
in N2 caused increases in the level of 8-hydroxyguanine. The extent of the increase varied according to the incubation conditions with the greatest increase being observed in DNA exposed to mitomycin C activated under hypoxic conditions. These results support a possible indirect mechanism for DNA damage caused by mitomycin C that is mediated by reactive oxygen species.
...
PMID:Formation of 8-hydroxyguanine in DNA during mitomycin C activation. 772 39
This study was designed to investigate the repair of oxidative damage in nuclear DNA sequences with different transcriptional activities. Chinese hamster ovary (CHO) cells were treated with the oxygen radical generator hypoxanthine/
xanthine oxidase
(Hyp/XO). Damage and repair were evaluated in 14-kb restriction fragments containing either the DHFR gene, a 3'-non-transcribed flanking region, or the c-fos gene using a quantitative Southern blot technique. Damage to the sugar-phosphate backbone and abasic sites were detected by measuring their lability in alkali conditions. Lesions in DNA bases were identified using the bacterial repair enzyme endonuclease III, which predominantly recognizes damage to thymines and cytosines, and
formamidopyrimidine-DNA glycosylase
, which recognizes 8-oxoguanine and purines with fractured imidazole rings. The results showed that similar amounts of all types of oxidative damage were produced in both the transcribed and non-transcribed sequences following a 1-h exposure to the radical generator. Repair in all sequences was rapid, with approximately 60% removal of lesions observed by 1 h. Therefore, within these sequences, the repair of oxidative lesions is much faster than that of other types of damage, such as those induced by alkylating toxins and UV irradiation, and the repair is not affected appreciably by transcriptional status.
...
PMID:Repair of oxidative damage in nuclear DNA sequences with different transcriptional activities. 929 16
