EC:3.1.30.2 - FACTA Search

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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)

Aurintricarboxylic acid (ATA), an endonuclease inhibitor, has been shown to protect several cell types from an apoptotic form of cell death. We tested ATA for protective effects against glutamate excitotoxicity in 2-week-old cultured hippocampal neurons. Cell viability was determined 24 h after glutamate exposure either by trypan blue exclusion or by measurement of lactate dehydrogenase release. When ATA was added during exposure to glutamate, there was a dramatic increase in the number of viable neurons compared with cultures that did not receive ATA. If ATA was added after glutamate exposure, the rate of survival approached 100%. Several cellular processes may be the targets for ATA action. If the mechanisms of ATA protection are similar for excitotoxicity and apoptosis, then these distinct forms of cell death may share a common intracellular pathway.
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PMID:Aurintricarboxylic acid protects hippocampal neurons from glutamate excitotoxicity in vitro. 809 52

Endonuclease digestion of the 4,800-kb chromosome of Salmonella typhimurium LT2 yielded 24 XbaI fragments, 12 BlnI fragments, and 7 CeuI fragments, which were separated by pulsed-field gel electrophoresis. The 90-kb plasmid pSLT has one XbaI site and one BlnI site. The locations of the fragments around the circular chromosome and of the digestion sites of the different endonucleases with respect to each other were determined by excision of agarose blocks containing fragments from single digestion, redigestion with a second enzyme, end labelling with 32P by using T7 DNA polymerase, reelectrophoresis, and autoradiography. Forty-three cleavage sites were established on the chromosome, and the fragments and cleavage sites were designated in alphabetical order and numerical order, respectively, around the chromosome. One hundred nine independent Tn10 insertions previously mapped by genetic means were located by pulsed-field gel electrophoresis on the basis of the presence of XbaI and BlnI sites in Tn10. The genomic cleavage map was divided into 100 units called centisomes; the endonuclease cleavage sites and the genes defined by the positions of Tn10 insertions were located by centisome around the map. There is very good agreement between the genomic cleavage map, defined in centisomes, and the linkage map, defined in minutes. All seven rRNA genes were located on the map; all have the CeuI digestion site, all four with the tRNA gene for glutamate have the XbaI and the BlnI sites, but only four of the seven have the BlnI site in the 16S rRNA (rrs) gene. Their inferred orientation of transcription is the same as in Escherichia coli. A rearrangement of the rrnB and rrnD genes with respect to the arrangement in E. coli, observed earlier by others, has been confirmed. The sites for all three enzymes in the rrn genes are strongly conserved compared with those in E. coli, but the XbaI and BlnI sites outside the rrn genes show very little conservation.
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PMID:The XbaI-BlnI-CeuI genomic cleavage map of Salmonella typhimurium LT2 determined by double digestion, end labelling, and pulsed-field gel electrophoresis. 832 Feb 26

Neuronal death, secondary to endogenous agents such as glutamate, may involve changes in cytoplasmic calcium. Besides its well recognized role as a second messenger mediating cellular response, calcium is necessary for the activation of endonuclease(s), resulting in DNA fragmentation and cell death. Therefore, we investigated the relationship between changes in cytoplasmic calcium, DNA fragmentation and neuronal death, using PC12 and NCB-20 cell lines. The calcium ionophore, A23187, caused a dose-dependent increase in cytoplasmic calcium, loss of cell viability, increased lactate dehydrogenase (LDH)-release, and DNA fragmentation. DNA fragments, typical of internucleosomal digestion of genomic DNA, characteristic of endonuclease(s) activation, were consistently detected in the incubating medium. Release of DNA fragments into the medium was seen with A23187 in concentrations as low as 10 nM, and within an hour of treatment. Furthermore, calcium added to preparations of PC12 nuclei also produced DNA fragmentation, although, less pronounced than when intact cells were treated with A23187. The findings indicate that A23187-induced neuronal death involves the activation of endonuclease(s). The role of cytoplasmic calcium in this process is supported by evidence that A23187 selectively mobilizes cytoplasmic calcium, and that calcium can directly activate endonuclease(s) in nuclear preparations.
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PMID:Neuronal death, cytoplasmic calcium and internucleosomal DNA fragmentation: evidence for DNA fragments being released from cells. 838 11

Oligodendrocyte-like cells (OLD) derived from the rat oligodendroglial precursor line, CG-4, express Ca(2+)-permeable non-methyl-D-aspartate glutamate receptor channels (GluR). Exposure to kainate, an L-glutamate analogue, markedly elevates OLC Ca2+ influx and cytosolic [Ca2+], and results in damage to both OLC plasma membrane and OLC nuclear DNA. Two observations indicate that kainate-induced OLC internucleosomal DNA nicking is not simply a delayed consequence of cell necrosis: 1) there is no temporal lag between onset of plasma membrane injury and of DNA nicking; and 2) aurintricarboxylic acid, an endonuclease inhibitor, blocks kainate-induced damage to the plasma membrane. N-acetyl-L-cysteine also inhibits OLC kainate injury, suggesting that reactive oxygen species participate in OLC excitotoxicity. Kainate-induced OLC Ca2+ influx and excitotoxicity are blocked by alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA), indicating that these kainate effects are mediated by AMPA-GluR. AMPA and L-glutamate fail to elicit OLC damage unless cyclothiazide, an AMPA-GluR desensitization blocker, is present. OLC express both the "flip" and "flop" forms of GluR2, GluR3, and GluR4 mRNAs, but neither flip nor flop GluR1 mRNA. These data, together with the restriction of the desensitization-blocking activity of cyclothiazide to GluR containing flip-encoded GluR subunits, and the sharply diminished Ca2+ permeability of GluR containing edited GluR2, suggest OLC excitotoxicity is mediated by AMPA-GluR that contain flip GluR3 and/or flip GluR4 protein subunits, but neither flip nor flop GluR2 protein subunits. Rapid desensitization of these GluR is likely to be important in protecting cells of the oligodendroglial lineage from excitotoxicity.
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PMID:Pathophysiology of oligodendroglial excitotoxicity. 895 Jul 2

Flow cytometry, light and fluorescence microscopy, and designated biochemical techniques were used to examine the type of death which occurs in cerebral cortex cells when grown under crowded vs. sparse conditions or after brief anoxia/hypoglycemia. A 4 hr episode of anoxia combined with glucose deprivation enhanced apoptotic cell death as assessed by 4',6-diamidino-2-phenylindole (DAPI) staining and reduced neutral red eye uptake. An additional form of cell death involving exclusion of the nucleus was recorded by time lapse cinematography and DAPI stain. The presence of the endonuclease inhibitor aurintricarboxylic acid (0.1 mM) reduced cell death by 56.6%, while the protein and RNA synthesis inhibitors actinomycin D and cycloheximide (each at 5 micrograms/ml) effectively decreased cell death by 83.3% and 90.6%, respectively. In contrast, 5 mM glutamate had no effect on cell death in accord with the immature state of the cells. Growth of cells under crowded conditions improved cell survival; after 2 h or 4 days in culture, cells seeded at high density (34 microgram cellular DNA/cm2) showed a nearly 3-fold decline in the amount of cell death in comparison to cells seeded at low density (5 micrograms cellular DNA/cm2). At high cell density, anoxic episodes enhanced cell death most likely by preventing a cell density-mediated rescue. Neutral red dye uptake, an index for cell viability, was enhanced with increasing cell density and in vitro maturation, but was reduced in dense cultures exposed to anoxic/hypoglycemic conditions. The data suggest that cell density may play a critical role in brain organogenesis and that anoxic stress is more deleterious in dense than sparse cell assemblies.
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PMID:Apoptotic death in cerebral hemisphere cells is density dependent and modulated by transient oxygen and glucose deprivation. 906 56

The EcoRV endonuclease contacts the minor groove of DNA through a peptide loop encompassing residues 67-72. This loop adapts to distorted DNA in the specific complex and to regular DNA in the nonspecific complex. Random mutagenesis had previously identified glutamine 69 as the key component of the loop and this study reports on mutants with glutamate (Q69E), lysine (Q69K), or leucine (Q69L) at this position. The mutants bound DNA specifically at the EcoRV recognition site in the presence of Ca2+, in the same manner as wild-type EcoRV. In the absence of divalent metals, Q69K and Q69L showed the same nonspecific binding as native EcoRV while Q69E failed to bind DNA. Glutamate at position 69 presumably repels nonspecific DNA whilst allowing the adaptations to specific DNA. Both Q69E and Q69K had severely impaired DNA cleavage activities, while Q69L had a steady-state k(cat) within an order of magnitude of wild-type EcoRV though its primary product was nicked DNA, in contrast to double strand breaks by wild-type EcoRV. The activity of Q69L required higher concentrations of Mg2+ than the wild-type and showed a sigmoidal dependence upon the Mg2+ concentration, indicating two metal ions per strand scission. Transient kinetics on Q69L gave lower rate constants for phosphodiester hydrolysis than wild-type EcoRV and its reaction also involved a slow conformational change preceding DNA cleavage that had no equivalent with the wild-type. Gln69 in EcoRV thus plays key roles in the adjustments of the protein to varied DNA structures and in the alignment of the catalytic functions for DNA cleavage.
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PMID:Kinetic analysis of a mutational hot spot in the EcoRV restriction endonuclease. 920 Jul 9

Vaccinia topoisomerase forms a covalent protein-DNA intermediate at 5'-CCCTT downward arrow sites in duplex DNA. The T downward arrow nucleotide is linked via a 3'-phosphodiester bond to Tyr-274 of the enzyme. Here, we report that mutant enzymes containing glutamate, cysteine or histidine in lieu of Tyr-274 catalyze endonucleolytic cleavage of a 60 bp duplex DNA at the CCCTT downward arrow site to yield a 3' phosphate-terminated product. The Cys-274 mutant forms trace levels of a covalent protein-DNA complex, suggesting that the DNA cleavage reaction may proceed through a cysteinyl-phosphate intermediate. However, the His-274 and Glu-274 mutants evince no detectable accumulation of a covalent protein-DNA adduct. Glu-274 is the most active of the mutants tested. The pH dependence of the endonuclease activity of Glu-274 (optimum pH = 6.5) is distinct from that of the wild-type enzyme in hydrolysis of the covalent adduct (optimum pH = 9.5). At pH 6.5, the Glu-274 endonuclease reaction is slower by 5-6 orders of magnitude than the rate of covalent adduct formation by the wild-type topoisomerase, but is approximately 20 times faster than the rate of hydrolysis by the wild-type covalent adduct. We discuss two potential mechanisms to account for the apparent conversion of a topoisomerase into an endonuclease.
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PMID:Replacement of the active site tyrosine of vaccinia DNA topoisomerase by glutamate, cysteine or histidine converts the enzyme into a site-specific endonuclease. 942 5

Aurintricarboxylic acid (ATA), an inhibitor of endonuclease activity and other protein-nucleic acid interactions, blocks apoptosis in several cell types and prevents delayed death of hippocampal pyramidal CA1 neurons induced by transient global ischemia. Global ischemia in rats and gerbils induces down-regulation of GluR2 mRNA and increased alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA)-induced Ca2+ influx in CA1 before neurodegeneration. This result and neuroprotection by antagonists of AMPA receptors suggests that formation of AMPA receptors lacking GluR2, and therefore Ca2+ permeable, leads to excessive Ca2+ influx in response to endogenous glutamate; the resulting delayed neuronal death in CA1 exhibits many characteristics of apoptosis. In this study, we examined the effects of ATA on expression of mRNAs encoding glutamate receptor subunits in gerbil hippocampus after global ischemia. Administration of ATA by injection into the right cerebral ventricle 1 h before (but not 6 h after) bilateral carotid occlusion prevented the ischemia-induced decrease in GluR2 mRNA expression and the delayed neurodegeneration. These findings suggest that ATA is neuroprotective in ischemia by blocking the transcriptional changes leading to down-regulation of GluR2, rather than by simply blocking endonucleases, which presumably act later after Ca2+ influx initiates apoptosis. Maintaining formation of Ca2+ impermeable, GluR2 containing AMPA receptors could prevent delayed death of CA1 neurons after transient global ischemia, and block of GluR2 down-regulation may provide a further strategy for neuroprotection.
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PMID:Aurintricarboxylic acid prevents GLUR2 mRNA down-regulation and delayed neurodegeneration in hippocampal CA1 neurons of gerbil after global ischemia. 961 48

According to the crystal structure of Cfr10I restriction endonuclease the acidic residues D134, E71 and E204 are clustered together and presumably chelate metal ion(s) at the active site. Indeed, investigation of the DNA cleavage properties of substitutional mutants of Cfr10I D134A, E71Q, E71A and E204Q reveals that D134, E71 and E204 residues are essential for cleavage activity, supporting their active site function. Structural comparison indicates that the D134 residue of Cfr10I spatially overlaps with aspartate residues D91 and D74, from the invariant active site motifs 90PDX19EAK and 73PDX15DIK of EcoRI and EcoRV, respectively. However, structural studies in conjunction with mutational analyses suggest that the sequence motif 133PDX55KX13E corresponds to the active site of Cfr10I, but differs from canonical active site motifs of EcoRI and EcoRV. According to the crystal structure of Cfr10I the serine S188 residue from the 188SVK sequence motif is a spatial equivalent of the acidic residue from the (E/D)XK-part of the active site motif, which is conserved between EcoRI and EcoRV. Site-directed mutagenesis experiments of Cfr10I, however, revealed that the S188 was not so important for catalysis while the E204 residue located 2.8 A away indeed was essential for cleavage, suggesting that the glutamate E204 rather than the S188 residue contributes to the metal binding site in Cfr10I. In addition, model-building studies suggest that mutual interchange of the E204 and S188 residues should lead only to minor positional differences of the carboxylate residues of glutamate side-chains. The double mutant S188E/E204S was therefore prepared by site-directed mutagenesis where the active site motif 133PDX55KX13E of Cfr10I was changed to a canonical motif 133PDX53EVK, which is similar to that of EcoRI and EcoRV. Interestingly, the double mutant S188E/E204S of Cfr10I with redesigned active site structure, exhibited 10% of Wt cleavage activity in a gamma DNA cleavage assay. Thus, structure guided redesign of the catalytic/metal binding site of Cfr10I, provides novel experimental evidence to suggest that spatial rather than sequence conservation plays the dominant role in the formation of restriction enzyme active sites.
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PMID:Structure-based redesign of the catalytic/metal binding site of Cfr10I restriction endonuclease reveals importance of spatial rather than sequence conservation of active centre residues. 964 51

To characterise the pH dependence of phosphodiester hydrolysis by the EcoRV endonuclease in the presence of Mn2+, single turnover reactions on a 12 bp DNA substrate were examined by stopped-flow and quench-flow methods between pH 6.0 and 8.5. At each pH value, the apparent rate constants for phosphodiester hydrolysis increased hyperbolically with the concentration of MnCl2, thus allowing values to be determined for the intrinsic rate constant at saturation with Mn2+ and the equilibrium dissociation constant for Mn2+. The equilibrium constants showed no systematic variation across the pH range tested, while the rate constants increased steeply with increasing pH up to an asymptote above pH 7.5. At low pH conditions, the gradient of a plot of log (rate constant) against pH approached a value of 2. DNA cleavage by EcoRV thus requires the de-protonation of two acidic groups. To determine whether aspartate 36 is one of the groups, mutants of EcoRV were made with other amino acid residues at position 36. Glutamate caused a partial loss of activity, while all other replacements gave near-zero activities. In contrast to wild-type EcoRV, the mutant with glutamate required the de-protonation of only one acidic group for DNA cleavage. A mechanism for EcoRV is proposed in which the water molecule that hydrolyses the phosphodiester bond is de-protonated by two Bronsted bases, probably the ionised forms of aspartate 36 and glutamate 45.
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PMID:DNA cleavage by the EcoRV restriction endonuclease: pH dependence and proton transfers in catalysis. 1032 29

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