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)

The addition of paraquat (methyl viologen) to a growing culture of Escherichia coli K-12 led within 1 hr to a 10- to 20-fold increase in the level of endonuclease IV, a DNase for apurinic/apyrimidinic sites. The induction was blocked by chloramphenicol. Increases of 3-fold or more were also seen with plumbagin, menadione, and phenazine methosulfate. H2O2 produced no more than a 2-fold increase in endonuclease IV activity. The following agents had no significant effect: streptonigrin, nitrofurantoin, tert-butyl hydroperoxide, gamma rays, 260-nm UV radiation, methyl methanesulfonate, mitomycin C, and ascorbate. Paraquat, plumbagin, menadione, and phenazine methosulfate are known to generate superoxide radical anions via redox cycling in vivo. A mutant lacking superoxide dismutase was unusually sensitive to induction by paraquat. In addition, endonuclease IV could be induced by merely growing the mutant in pure O2. The levels of endonuclease IV in uninduced or paraquat-treated cells were unaffected by mutations of oxyR, a H2O2-inducible gene that governs an oxidative-stress regulon. The results indicate that endonuclease IV is an inducible DNA-repair enzyme and that its induction can be mediated via the production of superoxide radicals.
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PMID:Endonuclease IV of Escherichia coli is induced by paraquat. 243 76

The formation of apurinic/apyrimidinic sites (AP-sites) and single strand breaks (SSB) by chromate and ascorbate (AsA) in isolated DNA was investigated using a number of agents that cleave DNA at AP-sites (putrescine, exonuclease III, the tripeptide Lys-Trp-Lys, and an AP-endonuclease containing fraction isolated from human fibroblasts). Relative to the number of SSB caused by chromate and AsA alone, all these agents induced additional nicking, indicating the induction of AP-sites. Chromate/AsA-induced AP-sites contain aldehyde groups, as cleavage by putrescine could be prevented by treatment with borohydride which reduced the aldehyde. The time course for the formation of both DNA lesions was very similar, and there was a 1:1 ratio of the number of SSB to the number of AP-sites. The addition of catalase to incubation mixtures containing chromate/AsA led to an almost complete suppression of AP-sites and SSB. In systems containing lower concentrations of chromate/AsA, the exclusion of oxygen inhibited the formation of both lesions. It is suggested that AP-sites and SSB arise from attack by reactive species deriving from chromate/AsA on one single site at DNA, probably the sugar moiety. In view of the known mutagenicity of AP-sites, these results could aid an understanding of the mechanisms underlying chromium(VI) carcinogenicity.
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PMID:The reductive conversion of chromium (VI) by ascorbate gives rise to apurinic/apyrimidinic sites in isolated DNA. 749 38

Chinese hamster fibroblasts (line V79) withstand well exposure for 30 min to hypotonic medium, corresponding to 25% physiological phosphate-buffered saline (PBS). Under these conditions, the cells become resistant to two effects of H2O2: DNA damage and inhibition of cell clone formation. The normal sensitivity to the DNA-damaging action of H2O2 is restored if, after exposure to hypotonic PBS, the cells are incubated in isotonic cell-culture medium. However, restoration of sensitivity is not observed on incubation in isotonic PBS. The normal sensitivity to H2O2 is also restored if one of the following reducing agents is added to hypotonic PBS: ascorbate, NADH and NADPH, in this order of decreasing efficiency. The recovery of sensitivity to H2O2 by ascorbate is completely inhibited by 1,10-phenanthroline, indicating that ascorbate is mediating the reduction of Fe(III). The decrease in the sensitivity to the DNA-damaging action of H2O2 is not a peculiarity of hypotonic PBS, since it appears to be caused by hypo-osmolarity in general: it is also observed in culture medium of 25% the isotonic concentration, and in 0.07 M sucrose. One explanation for this phenomenon is that hypotonic stress leads to a depletion of reducing species, in particular ascorbate. Under these conditions Fe(II) tends to be oxidized to Fe(III) and the Fenton chemistry is mitigated. However, other possibilities are that hypotonicity brings about structural modifications in the chromatin, rendering it less accessible to H2O2, or that it attenuates the Ca(2+)-activation of endonuclease, induced by oxidative stress.
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PMID:Cellular DNA damage by hydrogen peroxide is attenuated by hypotonicity. 816 31

In this paper we present the structural analysis of the 1-aminocyclopropane-1-carboxylate (ACC) oxidase gene family from Petunia hybrida. Southern blot analysis and restriction endonuclease mapping showed that two cloned regions of the petunia genome contained sequences highly homologous to a previously isolated ACC oxidase cDNA clone. Nucleotide sequencing of these two regions of the genome showed that each contained two tandemly arranged genes designated ACO1, ACO2, ACO3 and ACO4. Comparison of the nucleotide sequences of the cloned genomic regions with the cDNA clone pPHEFE indicated that ACO1 encoded the transcript in 4 exons interrupted by 3 introns. The other three members of the petunia ACC oxidase gene family shared identical intron numbers and positions with ACO1 and their exons were greater than 80% homologous. Nucleotide substitutions and deletions in the ACO2 gene indicate that it likely represents a pseudogene. Overall homology between ACO1 and ACO2 indicates that this gene cluster arose by a more recent duplication event than the gene duplication giving rise to the ACO3 and ACO4 cluster. The 5-flanking sequences share little overall homology between members of this gene family. However, sequences which likely make up the core promoter of these genes including the TATA box are highly homologous. RNA-based PCR amplification of ACC oxidase cDNAs from ethylene-treated corollas and wounded leaves revealed transcripts for ACO1, ACO3 and ACO4 indicating that a least three of these genes are transcriptionally active. The proteins encoded by ACO1, ACO3 and ACO4 share more than 90% identity with one another and more than 70% identity with ACC oxidases from other species. The ACC oxidase proteins share significant sequence homology with other enzymes that require Fe(II) and ascorbate for catalytic activity.
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PMID:Organization and structure of the 1-aminocyclopropane-1-carboxylate oxidase gene family from Petunia hybrida. 829 80

Terminally differentiated PC12 cells are a useful neuron-like model for studying programmed cell death in response to nerve growth factor (NGF) deprivation. This in vitro model was used to investigate the mechanism by which cyanide-induced histotoxic hypoxia produces neuronal degeneration. Treatment of undifferentiated PC12 cells with 0.1 mM KCN for 24 h did not produce cell death. In contrast, treatment of differentiated PC12 cell cultures with 0.1 mM KCN for 24 h increased cell death by 43% when compared with control cultures, as measured by trypan blue dye exclusion and lactate dehydrogenase release assays. The Ca2+/Mg(2+)-dependent endonuclease inhibitor aurintricarboxylic acid and the transcriptional inhibitor actinomycin D partially attenuated hypoxic toxicity, suggesting roles for endonuclease activation and transcription in this model of neuronal death. Extracted DNA from cyanide-treated neurons demonstrated cleavage into oligonucleosomal fragments on gel electrophoresis. Transmission electron microscopic analysis showed morphological changes consistent with apoptotic cell death, including membrane blebbing and convolution, as well as chromatin condensation and margination to the nuclear membrane. Addition of either ascorbate or catalase to the cultures partially attenuated the loss of cell viability induced by cyanide, and decreased the incidence of apoptotic cells after treatment, based on the in situ detection of DNA strand breaks. The ability of cyanide to elevate intracellular oxidant species was determined by microfluorescence in differentiated PC12 cells loaded with the oxidant-sensitive dye 2',7'-dichlorofluorescin. Exposure of cells to 0.1 mM KCN produced a rapid generation of oxidants that was blocked approximately 50% by ascorbate or catalase. These observations indicate that cyanide induces apoptosis in terminally differentiated, and not undifferentiated, PC12 cells, and that antioxidants significantly reduce the incidence of cyanide-induced apoptosis.
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PMID:Cyanide-induced apoptosis and oxidative stress in differentiated PC12 cells. 875 10