Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

T7 phage was exposed to 56 mM nitrous acid at pH 4.6 causing a 90% decrease in survival for each 10 min duration of exposure. The survival of phage made by encapsulating nitrous acid treated DNA into empty phage heads was nearly the same as the survival of phage exposed to nitrous acid in vivo. In contrast to previous reports, growth of SOS-induced wild-type E.coli showed no increase in survival. The survival of nitrous acid treated phage was not lowered when grown on E.coli strains deficient in DNA polymerase I, exonuclease III, and the uvrA component of the nucleotide excision-repair endonuclease. Therefore, these enzymes are not vital for repair of nitrous acid induced damage in bacteriophage T7.
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PMID:Nitrous acid induced damage in T7 DNA and phage. 354 Jun 59

Endonuclease V (deoxyinosine 3' endonuclease), the product of the nfi gene, has a specificity that encompasses DNAs containing dIMP, abasic sites, base mismatches, uracil, and even untreated single-stranded DNA. To determine its importance in DNA repair pathways, nfi insertion mutants and overproducers (strains bearing nfi plasmids) were constructed. The mutants displayed a twofold increase in spontaneous mutations for several markers and an increased sensitivity to killing by bleomycin and nitrofurantoin. An nfi mutation increased both cellular resistance to and mutability by nitrous acid. This agent should generate potential cleavage sites for the enzyme by deaminating dAMP and dCMP in DNA to dIMP and dUMP, respectively. Relative to that of a wild-type strain, an nfi mutant displayed a 12- to 1,000-fold increase in the frequency of nitrite-induced mutations to streptomycin resistance, which are known to occur in A x T base pairs. An nfi mutation also enhanced the lethality caused by a combined deficiency of exonuclease III and dUTPase, which has been attributed to unrepaired abasic sites. However, neither the deficiency nor the overproduction of endonuclease V affected the growth of the single-stranded DNA phages M13 or phiX174 nor of Uracil-containing bacteriophage lambda. These results suggest that endonuclease V has a significant role in the repair of deaminated deoxyadenosine (deoxyinosine) and abasic sites in DNA, but there was no evidence for its cleavage in vivo of single-stranded or uracil-containing DNA.
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PMID:Endonuclease V (nfi) mutant of Escherichia coli K-12. 942 91

Endonuclease V (deoxyinosine 3'-endonuclease) of Escherichia coli K-12 is a putative DNA repair enzyme that cleaves DNA's containing hypoxanthine, uracil, or mismatched bases. An endonuclease V (nfi) mutation was tested for specific mutator effects on a battery of trp and lac mutant alleles. No marked differences were seen in frequencies of spontaneous reversion. However, when nfi mutants were treated with nitrous acid at a level that was not noticeably mutagenic for nfi(+) strains, they displayed a high frequency of A:T-->G:C, and G:C-->A:T transition mutations. Nitrous acid can deaminate guanine in DNA to xanthine, cytosine to uracil, and adenine to hypoxanthine. The nitrous acid-induced A:T-->G:C transitions were consistent with a role for endonuclease V in the repair of deaminated adenine residues. A confirmatory finding was that the mutagenesis was depressed at a locus containing N(6)-methyladenine, which is known to be relatively resistant to nitrosative deamination. An alkA mutation did not significantly enhance the frequency of A:T-->G:C mutations in an nfi mutant, even though AlkA (3-methyladenine-DNA glycosylase II) has hypoxanthine-DNA glycosylase activity. The nfi mutants also displayed high frequencies of nitrous acid-induced G:C-->A:T transitions. These mutations could not be explained by cytosine deamination because an ung (uracil-DNA N-glycosylase) mutant was not similarly affected. However, these findings are consistent with a role for endonuclease V in the removal of deaminated guanine, i.e., xanthine, from DNA. The results suggest that endonuclease V helps to protect the cell against the mutagenic effects of nitrosative deamination.
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PMID:Endonuclease V protects Escherichia coli against specific mutations caused by nitrous acid. 1060 15

Nitrosation of guanine in DNA by nitrogen oxides such as nitric oxide (NO) and nitrous acid leads to formation of xanthine (Xan) and oxanine (Oxa), potentially cytotoxic and mutagenic lesions. In the present study, we have examined the repair capacity of DNA N-glycosylases from Escherichia coli for Xan and Oxa. The nicking assay with the defined substrates containing Xan and Oxa revealed that AlkA [in combination with endonuclease (Endo) IV] and Endo VIII recognized Xan in the tested enzymes. The activity (V(max)/K(m)) of AlkA for Xan was 5-fold lower than that for 7-methylguanine, and that of Endo VIII was 50-fold lower than that for thymine glycol. The activity of AlkA and Endo VIII for Xan was further substantiated by the release of [(3)H]Xan from the substrate. The treatment of E.coli with N-methyl-N'-nitro-N-nitrosoguanidine increased the Xan-excising activity in the cell extract from alkA(+) but not alkA(-) strains. The alkA and nei (the Endo VIII gene) double mutant, but not the single mutants, exhibited increased sensitivity to nitrous acid relative to the wild type strain. AlkA and Endo VIII also exhibited excision activity for Oxa, but the activity was much lower than that for Xan.
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PMID:Novel repair activities of AlkA (3-methyladenine DNA glycosylase II) and endonuclease VIII for xanthine and oxanine, guanine lesions induced by nitric oxide and nitrous acid. 1243 2