Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.31.1 (micrococcal nuclease)
 2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The direct measurement and partial characterization of circulating immune complexes has been performed in a longitudinal study of a patient with Staphylococcus albus-induced shunt nephritis. The high levels of immune complexes were associated with cryoglobulinaemia and hypocomplementaemia. The activation of complement was found to be via the classical pathway, but the functioning of the alternative pathway may have been impaired in vivo due to very low levels of C3. The host response to the infection was also characterized by the production of a marked macroglobulinaemia, high titres of rheumatoid factor and a typical acute phase increase in the C-reactive protein level. Immune complex levels were persistently elevated many months after the removal of the focus of the infection. A possible explanation for this surprising finding may lie in the nature of the antigens in the immune complexes. It was found that the immune complexes contained both antibodies to and antigens from Staphlococcus albus. In particular, glycerol teichoic acid and staphylococcal nuclease were identified as components of the immune complexes present during the acute phase. Glycerol teichoic acid was also identified in the immune complexes found later although other Staphylococcus albus antigens as yet unidentified were also present and persisted in the circulation for several months.
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PMID:Longitudinal study of circulating immune complexes in a patient with Staphylococcus albus-induced shunt nephritis. 11 26

The distribution of a chromatin-bound, nuclear protein modifying enzyme, poly (adenosine diphosphate-ribose) polymerase, and its product, poly(ADP-ribose), among various fractions of sheared and nuclease-digested HeLa cell chromatin has been examined. Epichlorohydrin-tris(hydroxymethyl)aminomethane-cellulose and glycerol gradient fractionation of solubilized chromatin indicated that poly(ADP-ribose)polymerase activity was associated primarily with the template active regions (euchromatin), whereas the transcriptionally inert chromatin fractions were found to contain relatively low levels of ADP-ribosylating activity. When isolated HeLa cell nuclei were digested in situ with micrococcal nuclease and the resultant chromatin was fractionated into nucleosome monomers (v bodies) and oligomers by sucrose gradient centrifugation, only material sedimenting faster than the 11S monomers was found to contain appreciable poly(ADP-ribose) polymerase activity. If, on the other hand, isolated HeLa cell nuclei were first incubated with labeled NAD, the substrate for poly(ADP-ribose) polymerase, prior to the preparation and fractionation of nuclease-digested chromatin, it was found that those chromatin fractions which possess significant poly(ADP-ribose) polymerase activity (nucleosome oligomers) are relatively deficient in the labeled product of this enzyme, and that a considerable portion of the homopolymeric product is ultimately associated with the 11S v bodies. Additional evidence is presented which indicates that the absence of nucleosome monomer-associated poly(ADP-ribose) polymerase activity is not due to the absence of a suitable acceptor on these structures, and that the activity of this enzyme within the chromatin is most probably dependent upon the physical integrity of the oligomeric structures themselves.
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PMID:Poly(adenosine diphosphate-ribose) polymerase: the distribution of a chromosome-associated enzyme within the chromatin substructure. 18 3

The action of micrococcal nuclease, DNase I and DNase II on mouse TLT hepatoma chromatin revealing the periodicity of its structure as visualized by denaturing and non-denaturing gel electrophoresis, was consistent with the action of these enzymes on other chromatins. Micrococcal nuclease showed a complex subnucleosome fragment pattern based on multiples of 10 base pairs with a prominant couplet at 140/160 base pairs and the absence of the 80 base pair fragment. This couplet of the core and minimal nucleosome fragments was conspicuously present in the mononucleosomes found in the 11S fractions of a glycerol gradient centrifugation. DNase I and II produced a fairly even distribution of a 10 base pair increasing series of fragments to about 180 base pairs, a pattern also repeated in the DNA of nucleosome glycerol-gradient fractions. In limited digestions by these nucleases multinucleosomic DNA fragments are pronounced. These fragment lengths are multiples of an estimated average repeat length of nucleosome DNA of 180 base pairs. The action of the endogenous Mg/Ca-stimulated endonuclease produced only limited cuts in the hepatoma chromatin resulting primarily in multi-nucleosomic DNA fragment lengths and only upon lengthy digestion limited subnucleosomic, 10-base-pair multiple fragments are produced. The putative euchromatin-enriched fractions (50-75S) of the glycerol gradient centrifugation of autodigested chromatin, similarly, contained primarily the multinucleosomic DNA fragment lengths. These results are consistent with our previous electron microscopic demonstration that autodigested chromatin as well as the putative euchromatin-enriched fractions were composed of multi-nucleosomic chromatin segments containing a full complement of histones.
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PMID:Periodicity and fragment size of DNA from mouse TLT hepatoma chromatin and chromatin fractions using endogenous and exogenous nucleases. 20 20

We have isolated and partially purified a DNA endonuclease from nuclei of the yeast Saccharomyces cerevisiae. Although purified on the basis of its ability to degrade denatured DNA, the enzyme can also attack native DNA. Denatured oligonucleotide products of the enzyme are sensitive to venom phosphodiesterase (EC3.1.4.1.) but not to bovine spleen phosphodiesterase (EC3.1.4.18). The enzyme has an estimated molecular weight of 6.6--7.5 X 10(4), more than twice as large as the endonucleases involved in DNA repair in Escherichia coli. When analyzed on glycerol gradients, the endonuclease sedimented as a single activity against both denatured DNA and closed circular DNA duplexes. The enzyme showed a 10-fold preference for denatured over native T7 DNA substrate, and appears to produce random nicks in a supercoiled replicative form of phiX174 DNA (RFI) with no discernable preference for the unpaired bases in the supercoiled duplex. The endonuclease appears to be distinct from the yeast endonucleases previously described.
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PMID:A DNA endonuclease isolated from yeast nuclear extract. 34 80

Receptor-chromatin complexes were recovered from prostatic chromatin digested with micrococcal nuclease. The fragments of chromatin were separated on linear 7.6 to 76% (v/v) glycerol density gradients. With extensive digestion of DNA, receptor labeled with [1,2-3H]dihydrotestosterone was released from the chromatin. After 5% digestion of DNA to acid-soluble products, only a trace amount of labeled receptor was detected in the unbound form. In the latter instance, most of the labeled receptor was recovered from the gradients in association with five A260 peaks representing oligomeric and monomeric nucleosomes with a repeat length of 182 +/- 14 (mean +/- S.D.) base pairs. The concentration of receptors was highest in the A260 peaks, which contained large oligomers of nucleosomes, and lowest in fractions containing primarily monomer structures. Hence, the extent to which receptors remained bound to chromatin was dependent on the relative amount of intact, linker DNA present.
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PMID:Binding of androgen receptor to prostatic chromatin requires intact linker DNA. 43 69

The in vivo binding of radioactive N-2-acetylaminofluorene (AAF) and N-hydroxy-2-acetylaminofluorene (N-OH-AAF) to the DNA of rat liver chromatin was examined. The chromatin was fractionated into putative transcriptionally active and inactive fractions by hydrodynamic shearing and subsequent glycerol gradient centrifugation, DNAase II digestion followed by MgCl2 aggregation of transcriptionally inactive chromatin, or mild digestion with micrococcal nuclease. Carcinogens were administered for various times prior to sacrifice. Irrespective of the duration of exposure, no preferential binding of either carcinogen to DNA was detected in any of the fractions prepared by hydrodynamic shearing of DNAase II digestion. When micrococcal nuclease was utilized, a 2-fold increase in carcinogen bound to the DNA of that chromatin fraction containing the smallest molecular weight fragments was detected. These small molecular weight fragments produced by micrococcal nuclease have been postulated to be derived from in vivo transcriptional units. Additionally, when DNAase II was used to probe chromatin from rat livers which had been exposed to a carcinogenic regimen of AAF, no preferential binding of radioactive N-OH-AAF to the DNA of any chromatin fraction was detected.
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PMID:In vivo binding of N-2-acetylaminofluorene and its N-hydroxy derivative to the DNA of fractionated rat liver chromatin. 49 53

We have mapped a gene in the mitochondrial DNA of Candida (Torulopsis) glabrata and shown that it is required for 5' end maturation of mitochondrial tRNAs. It is located between the tRNAfMet and tRNAPro genes, the same tRNA genes that flank the mitochondrial RNase P RNA gene in the yeast Saccharomyces cerevisiae. The gene is extremely AT rich and codes for AU-rich RNAs that display some sequence homology with the mitochondrial RNase P RNA from S. cerevisiae, including two regions of striking sequence homology between the mitochondrial RNAs and the bacterial RNase P RNAs. RNase P activity that is sensitive to micrococcal nuclease has been detected in mitochondrial extracts of C. glabrata. An RNA of 227 nucleotides that is one of the RNAs encoded by the gene that we mapped cofractionated with this mitochondrial RNase P activity on glycerol gradients. The nuclease sensitivity of the activity, the cofractionation of the RNA with activity, and the homology of the RNA with known RNase P RNAs lead us to propose that the 227-nucleotide RNA is the RNA subunit of the C. glabrata mitochondrial RNase P enzyme.
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PMID:A gene required for RNase P activity in Candida (Torulopsis) glabrata mitochondria codes for a 227-nucleotide RNA with homology to bacterial RNase P RNA. 170 11

We have established an in vitro complementation system that has allowed us to investigate the role of individual purified snRNPs in the splicing of pre-mRNA molecules. For the preparation of snRNP-depleted nuclear extracts we have first removed the majority of endogenous snRNPs from the nuclear extracts by one passage over an anti-m3G column and then degraded the remaining snRNPs with micrococcal nuclease. The mixture of snRNPs U1, U2, U4/U6 and U5, obtained by anti-m3G immuno-affinity chromatography, was functionally active and able to restore the splicing of snRNP-depleted nuclear extracts. Mono-Q chromatography was used for further fractionation of the snRNPs U1-U6. This produced three fractions that were highly enriched in snRNPs U1 and U2, U5 and U4/U6 respectively. Conditions were found where addition of the [U1, U2] and the U4/U6 snRNP fractions to the snRNP-depleted nuclear extracts gave rise to the formation of splice intermediates in the absence of any 3' cleavage/exon 1-exon 2 product formation. Only when purified 20S U5 snRNPs were added did both steps of the splicing reaction occur efficiently. Our data suggest that U5 snRNP is absolutely required for the second step of splicing and is needed further for efficient initiation of the splicing reaction. The requirement for U5 snRNPs for splicing was corroborated by glycerol gradient sedimentation analysis of the respective reconstituted pre-mRNP complexes. Stable and efficient formation of 50-60S spliceosomes was observed only in the presence of all snRNPs.
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PMID:Evidence from complementation assays in vitro that U5 snRNP is required for both steps of mRNA splicing. 253 Oct 74

Three very unstable mutant forms of staphylococcal nuclease were used to quantitate the change in the apparent equilibrium constant for reversible denaturation (Kapp) as a function of denaturant concentration for a variety of different denaturing solutes. The value of this equilibrium constant in the absence of denaturant (Kapp,0) was determined by renaturation of the mutant proteins with a combination of glycerol and calcium ion, the latter of which binds at the active site in the native conformation. Because Kapp,0 fell in the easily measurable range between 0.1 and 1, the change in Kapp, and thus the change in free energy (delta Gapp), at very low concentrations of denaturants could be accurately measured. With guanidine hydrochloride (GuHCl), the rate of change of the apparent free energy of denaturation with respect to denaturant concentration (d(delta Gapp)/dCGuHCl or mGuHCl) was found to be remarkably constant down to zero denaturant concentration, even though this value was different for each of the three proteins. Unlike GuHCl, urea exhibited a slightly reduced value of d delta Gapp/dCurea at low concentrations. Results with a number of thiocyanate, perchlorate, and iodide salts confirmed that the Hofmeister series holds for concentrations below 0.1 M; that is, with regard to efficacy as a denaturant SCN- greater than ClO4- greater than I- and Li+,NH4+ greater than Na+,K+. However, all of the chaotropic salts analyzed exhibited markedly increased values of d(delta Gapp)/dCsalt at concentrations below 0.2 M. One possible explanation for these large deviations from a linear relationship between delta Gapp and salt concentration is that weak binding or adsorption of chaotropic anions is occurring at a saturable number of sites in hydrophobic regions of the denatured state.
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PMID:Effects of denaturants at low concentrations on the reversible denaturation of staphylococcal nuclease. 254 38

To understand the role of viral proteins in the replication of rotavirus RNA, we have characterized the structure of subviral particles (SVPs) that synthesize double-stranded RNA (DS RNA). Pulse-labeling of newly made RNA in infected cells showed that rotavirus DS RNA was synthesized either in single-shell (SS)-like particles or in precursor particles that rapidly mature into SS particles. Experiments using a cell-free system demonstrated that most replicase particles containing newly made DS RNA were of greater density in CsCl than single-shelled (SS) particles. However, this was partly due to the presence of single-stranded RNAs as the treatment of replicase particles with micrococcal nuclease reduced their density to between core particles and SS particles. Electrophoretic analysis indicated that replicase particles, purified by centrifugation on CsCl and glycerol gradients, were similar to SS particles, containing the structural proteins VP1, VP2, and VP6. Rotavirus replicase particles were also found to contain the nonstructural proteins NS34 and NS35 and possible host components. The presence of VP6 in enzymatically active replicase particles suggests that, like transcription, this protein may be required for rotavirus RNA replication.
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PMID:Structure and protein composition of the rotavirus replicase particle. 284 49


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