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)

Pulse-labeled simian virus 40 (SV40) chromatin as well as uniformly labeled viral chromatin are immunoprecipitable by an SV40-specific tumor antiserum and therefore contain bound tumor antigen (T antigen). Single-stranded calf thymus DNA, immobilized on cellulose, competes effectively for T antigen binding with uniformly labeled nonreplicating, but not with pulse-labeled replicating, chromatin. Furthermore, T antigen dissociates in 0.5 M NaCl from nonreplicating chromatin and from purified SV40 DNA, whereas most T antigen remains associated with replicating chromatin even in the presence of 1.2 to 1.5 M NaCl. We used filtration through DNA-cellulose columns and treatment with high salt to prepare pulse-labeled immunoreactive viral chromatin. The viral DNA was digested before, and in other experiments after, immunoprecipitation with the restriction endonuclease HindIII. We found that SV40 DNA sequences, most probably representing the entire genome, remain in the immunoprecipitate after HindIII digestion, indicating an association of T antigen with origin-distal sections of replicating viral DNA. The results suggest that T antigen in replicating chromatin may be bound to regions close to replicating points. We performed control experiments with in vitro-formed complexes of T antigen and SV40 DNA. When these complexes were immunoprecipitated and HindIII digested we found, in agreement with previous studies, that only the origin containing the HindIII C fragment carried bound T antigen.
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PMID:Simian virus 40 large tumor antigen on replicating viral chromatin: tight binding and localization on the viral genome. 630 82

A novel endonuclease from adult hen liver nuclei has been purified to a homogeneous state through salt extraction, ammonium sulfate fractionation, gel filtration, acetone fractionation, and successive chromatography of 1) hydroxyapatite and DNA Sepharose and 2) hydroxyapatite and isoelectric focusing. The endonuclease has a pH optimum at 9.0 and requires Mg2+ for activity. The enzyme hydrolyzes more rapidly in the order of polynucleotide: denatured DNA = rRNA greater than poly(dA) = poly(dT) greater than poly(dC) = poly(dG) greater than native DNA. This endonuclease degrades denatured DNA about 20 times more rapidly than does the native DNA. The products contain 5'-phosphoryl and 3'-hydroxyl termini and all four deoxynucleotides are present while dGMP is predominant. The enzyme cleaves the circular duplex PM2 DNA, endonucleotically, via single strand scission. The isoelectric point is 10.2 +/- 0.2 and the molecular weight is 43,000 +/- 2,000, determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and gel filtration. Pyridoxal 5'-phosphate and 2,3-butanedione inhibit the catalytic activity, respectively. The inhibition of DNA binding activity was also seen with former, but not with the latter. Purified Mg2+-dependent alkaline endonuclease was used to investigate the nature of poly(ADP-ribose) inhibition of the enzyme. In contrast to the Ca2+/Mg2+-dependent endonuclease (Yoshihara, K., Tanigawa, Y., Burzio, L., and Koide, S. S. (1975) Proc. Natl. Acad. Sci. U. S. A. 72, 289-293), ADP-ribosylation of the endonuclease protein was not observed. When 100 ng of the poly(ADP-ribose) having four to five ADP-ribose units per molecule were added to the nuclease assay system (total volume of 0.2 ml) 14% inhibition was observed, and increase in the chain length increased the inhibition. When 100 ng of poly(ADP-ribose) consisting of 20 or more units of the ADP-ribose per mol were added, the inhibition was over 95%. The possible role of the poly(ADP-ribose)-sensitive endonuclease is discussed.
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PMID:Mg2+-dependent/poly(ADP-ribose)-sensitive endonuclease. 630 95

The alkaline nucleases induced by herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2) have been purified from high salt extracts of virus-infected cells. The purification used three types of column chromatography and resulted in apparently homogeneous DNase preparations with good recovery. The enzyme from HSV-2-infected cells has been characterized. It had both exonuclease and endonuclease activity, each with an unusually high pH optimum. The enzyme had an absolute requirement for magnesium which could not be replaced by other divalent cations. Analysis of the sedimentation characteristics and electrophoretic properties of the purified enzyme indicated that it was composed of a single subunit of mol. wt. 85 000. The purified HSV-2 enzyme was used as an immunogen to prime BALB/c mice which were used to prepare monoclonal antibodies. Three monoclonal antibodies were shown by several criteria to react with the enzyme. Thus, we were able to confirm that the 85K polypeptide did indeed have nuclease activity. This polypeptide was designated ICSP 22 in earlier studies and is a major polypeptide of virus-infected cells.
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PMID:Herpes simplex virus non-structural proteins. IV. Purification of the virus-induced deoxyribonuclease and characterization of the enzyme using monoclonal antibodies. 631 54

A large body of circumstantial evidence indicates that receptors located in nuclei of T3 responsive tissues represent a site of initiation of thyroid hormone action at the cellular level. Partial characterization of T3 receptors indicates that these proteins are monomeric structures in nuclei and are chromatin-associated non-histone proteins. Treatment of rat liver nuclei with either pancreatic DNase I or micrococcal nuclease releases T3 receptors from nuclei in two forms: a predominant (95 400 Mr; 5.5-6.0S) and a minor (265 000-365 000 Mr; 12.5S) nucleoprotein complex. Similar structures are excised from rat kidney, brain, and heart nuclei and from GH1 pituitary cell nuclei by micrococcal nuclease digestion. These endonuclease-excised receptor-containing complexes are significantly larger than the salt-extracted receptor (50 000 Mr; 3.5S). The presence of DNA and other non-receptor proteins in these structures indicates that T3 receptors probably function within multimeric complexes in vivo. Although T3 receptors appear to be associated with DNA between nucleosomes, i.e. linker DNA, it is not entirely clear whether all or only a fraction of T3 receptors interact with nucleosomal components. The 12.5S receptor-containing nucleoprotein complex may represent T3 receptors in association with linker DNA and nucleosomal components. T3 receptors do not appear to be uniformly distributed to all chromatin fractions, but are associated with structures having characteristics of transcriptionally active chromatin. They are found in a region of chromatin which is enriched in RNA polymerase activity, rapidly labeled RNA and non-histone proteins, and depleted of histone Hl. This region is also highly sensitive to both micrococcal nuclease and pancreatic DNase I digestion. The association of receptors with transcriptionally active chromatin, however, must be considered provisional until additional details of the precise receptor-chromatin interaction have been established. The recent demonstration of a 20-fold increase in a specific hepatic mRNA four hours following administration of T3 to hypothyroid rats indicates that thyroid hormone potentially has very rapid effects on hepatic gene expression. However, significant changes in nuclear protein phosphorylation, nuclear protein composition, and chromatin structure have not been detected within this four-hour period. Thus, effects of T3 on hepatic gene expression are brought about by local and presumably subtle changes in nuclear function.
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PMID:Association of thyroid hormone receptors with chromatin. 631 18

The free energy of the binding reaction between EcoRI restriction endonuclease and a specific cognate dodecadeoxynucleotide (d(CGCGAATTCGCG)) has contributions from both electrostatic and nonelectrostatic components. These contributions were dissected by measuring the effects of varying salt concentration on the equilibrium binding constant and applying the thermodynamic analyses of Record et al. (Record, M. T., Jr., Lohman, T. M., and deHaseth, P. L. (1976) J. Mol. Biol. 107, 145-158). Endonuclease mutation S187 (Arg 187 to Ser) (Greene, P. J., Gupta, M., Boyer, H. W., Brown, W. E., and Rosenberg, J. M. (1981) J. Biol. Chem. 256, 2143-2153) did not significantly affect the nonelectrostatic component but did perturb the electrostatic contribution to the binding energy (we are numbering the amino acid residues according to the DNA sequence). The former was determined by extrapolating the linear portion of the salt dependence curve (0.125 to 0.25 M KCl) to 1 M ionic strength, with the same result for both wild type and S187 endonucleases at both pH 6.0 and 7.4 (-8.5 +/- 1.5 kcal/mol or greater than 50% of the total binding free energy). The slopes of these same curves yield estimates of eight ionic interactions between wild type endonuclease and the DNA at both pH values. By contrast, binding of EcoRI-S187 to dodecanucleotide involves six charge-charge interactions at pH 6.0. Only two ionic interactions are observed at pH 7.4. This was unexpected since gel permeation chromatography demonstrated that the recognition complex for both wild type and S187 proteins contains an enzyme dimer and a DNA duplex. EcoRI-S187 endonuclease retains wild type DNA sequence specificity, and the rate of the phosphodiester hydrolysis step is also unchanged. Thus, electrostatic interactions are functionally separable from sequence recognition and strand cleavage. Our results also establish that arginine 187 plays a key role in the electrostatic function and suggest that it might be located at the DNA-protein interface. The disproportionate loss of ion pairs at pH 7.4 can be rationalized by a model which suggests that six conformationally mobile ionic groups on the protein act in a coordinated manner during the interaction with DNA.
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PMID:Coordinate ion pair formation between EcoRI endonuclease and DNA. 631 32

The EcoR1 restriction fragments containing D-loops which marked the replication origin of chloroplast DNA were identified in two different species of Chlamydomonas. Each fragment was cloned in the E. coli plasmid pBR325. The cloned fragments were compared by restriction endonuclease analyses and by heteroduplex analyses in the electron microscope. The relative position of the D-loop regions and the homologous regions between the 2 fragments was determined. The D-loops were located within one short homologous region of 0. 42kb in length between the 2 cloned restriction fragments. The homologous region was subcloned in pBR322. Closed circular plasmid DNAs containing the short homologous region showed preferred denaturation in the D-loop region under physiological salt concentration which suggested that D-loop region was AT rich. Sequence divergence was detected at both ends of the D-loop region. Southern blot analyses indicated the presence of species-specific repetitive sequences within the divergent regions.
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PMID:Cloning and delimiting one chloroplast DNA replicative origin of Chlamydomonas. 632 41

We have isolated homogeneous trp aporepressor from an overproducing strain of Escherichia coli carrying a plasmid containing trpR preceded by tandem trp operon promoters. Dye-affinity and ion-exchange chromatography were used in conjunction with a gel electrophoresis assay in which the repressor, when bound to the trp operator, protects an Rsa I restriction site from endonuclease cleavage. Crystals suitable for x-ray diffraction studies were grown from a variety of concentrated salt solutions. Hydrodynamic properties and electrophoretic analysis of unmodified and covalently crosslinked aporepressor show that the free aporepressor has an isoelectric point of 5.9 and is a dimer containing two identical 12.5-kilodalton subunits in the presence or absence of L-tryptophan. The repressor . operator complex binds poorly to nitrocellulose filters, but restriction-site protection studies indicate that, in the presence of tryptophan, one dimer is bound to the operator site with an apparent dissociation constant less than 2 X 10(-9) M. Preliminary equilibrium dialysis experiments suggest that tryptophan binds to the aporepressor with a dissociation constant of 1.6 X 10(-5) M.
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PMID:Purification and characterization of trp aporepressor. 633 93

Some characteristics of the postirradiation degradation of chromatin in the thymuses of mice were studied. The results proved that the main wave of chromatin degradation becomes evident between 2 and 4 h postirradiation, when considerable amounts of degradation products leach from nuclei during their isolation and are solubilized by lysis of nuclei. Similarly the degradation is manifested in the increase of salt-soluble chromatin fraction as well as of the fractions released from chromatin by various solutions (EDTA, heparin, deoxycholate, alkaline buffer). Later on, within 24 h after irradiation, only little changes in the relative amounts of the degradation products take place. Evidently only a certain thymocyte population is involved. Electrophoretic analyses of DNA fragments from various fractions in native and denatured state demonstrated that chromatin was degraded into nucleosomes and their oligomers by an endonuclease activity. The DNA bears, however, no signs of intranucleosomal regular single-strand fragmentation. This fact makes improbable the participation in this process of DNase I, DNase II and Ca,Mg-dependent endonuclease. No appreciable amount of smaller DNA fragments (products of further degradation of nucleosomes) were found even at 24 h postirradiation interval. Thus the nucleosomes and their oligomers must be considered as the only "long-lived" chromatin fragments in damaged lymphoid cells.
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PMID:On the degradation of chromatin to nucleosomes in the thymocytes of X-irradiated mice. 637 91

Five chromatographically distinct apurinic endonucleases (D1, D2, D3, D4, and E) were purified from Saccharomyces cerevisiae 234, 122, 1,000, 4,550, and 5,490-fold, respectively. All appeared to be class II apurinic endonucleases and were not contaminated with exonuclease or nonspecific endonuclease activities under the reaction conditions used. All had similar pH optima, but endonucleases D4 and E showed higher salt requirements and endonuclease D4 had a lower Mg2+ requirement for optimal activity than the other endonucleases. Endonuclease D4 also nicked OsO4-treated DNA. The molecular weights of the apurinic endonucleases as determined by glycerol gradient sedimentation analysis were 37,000, 49,000, and 10,000, for endonucleases E, D4, and D2, respectively. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of samples of radioiodinated endonuclease E showed the presence of two proteins.
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PMID:DNA repair in Saccharomyces cerevisiae: purification and characterization of apurinic endonucleases. 638 17

DNase VIII is an exonuclease purified from human placenta trophoblast nuclei. The enzyme has a pH optimum of 9.5 and requires a divalent cation. It is inhibited by salt and stimulated by Triton X-100. Glycerol gradient analysis of the activity indicates a sedimentation coefficient of 2.8 S (31,000 daltons if globular). This enzyme initiates hydrolysis from 5'-phosphorylated termini of single-stranded DNA and acts at internal phosphodiester bonds liberating 5'-phosphorylated oligonucleotides. It degrades polynucleotides of repeating base sequence as well as single-stranded DNA, yielding oligonucleotides of even number, in which the main reaction products are dinucleotides. The activity on denatured DNA is not inhibited by the presence of ultraviolet-induced photoproducts. DNase VIII can also initiate hydrolysis at those distorted termini produced by the action of Micrococcus luteus dimer specific endonuclease on duplex DNA, which contains cyclobutane dimers.
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PMID:Purification and characterization of DNase VIII. A 5'-3' directed exonuclease from human placental nuclei. 682 22


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