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)

More than half of the DNA polymerase beta in mouse ascites cell chromatin was found to be associated with monomeric nucleosomal particles (produced by micrococcal nuclease treatment of chromatin). Almost all nuclear DNA polymerase activity in lymphocytes was found to be associated with nucleosomes. The nucleosome-associated enzyme was mainly DNA polymerase beta in chromatin from resting and mainly DNA polymerase alpha in chromatin from concanavalin-A-stimulated lymphocytes.
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PMID:Association of DNA polymerase with nucleosomes from mammalian cell chromatin. 56 14

The carbocyclic analog of 2'-deoxyguanosine (CdG) is active against herpes simplex virus (HSV), human cytomegalovirus, and human hepatitis-B virus. In order to understand the mechanism of action of this compound against HSV, we have evaluated (a) the incorporation of [3H]CdG into viral and host DNA in HEp-2 cells infected with HSV and (b) the interaction of the 5'-triphosphate of CdG (CdG-TP) with the HSV DNA polymerase and human DNA polymerases alpha, beta, and gamma (EC 2.7.7.7). Incubation of HSV-1-infected HEp-2 cells with [3H]CdG resulted in the incorporation of CdG into both the HSV and the host cell DNA. These results indicated that CdG-TP was used as a substrate for HSV DNA polymerase and for at least one of the cellular DNA polymerases. Degradation of both viral and host DNA with micrococcal nuclease and spleen phosphodiesterase indicated that CdG was incorporated primarily into internal positions in both DNAs. The viral DNA containing CdG sedimented in neutral and alkaline sucrose gradients in the same way as did viral DNA labeled with [3H]thymidine, indicating that the HSV DNA containing CdG was similar in size to untreated HSV DNA. CdG-TP was a competitive inhibitor of the incorporation of dGTP into DNA by the HSV DNA polymerase (Ki of 0.35 microM) and the human DNA polymerase alpha (Ki of 1 microM). CdG-TP was not a potent inhibitor of either DNA polymerase beta or gamma. Using DNA-sequencing technology, CdG-TP was found to be an efficient substrate for HSV DNA polymerase. Incorporation of CdG monophosphate (CdG-MP) into the DNA by HSV DNA polymerase did not interfere with subsequent chain extension. These results suggested that the antiviral activity of CdG was due to its incorporation into the DNA and subsequent disruption of viral functions. In contrast, CdG-TP was not as good as dGTP as a substrate for DNA synthesis by DNA polymerase alpha, and incorporation of CdG-MP by DNA polymerase alpha inhibited further DNA chain elongation.
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PMID:Incorporation of the carbocyclic analog of 2'-deoxyguanosine into the DNA of herpes simplex virus and of HEp-2 cells infected with herpes simplex virus. 131 7

SV40 chromosomes prepared from infected CV-1 cells were replicated with the purified proteins of SV40 T antigen, HeLa DNA polymerase alpha-primase complex, single-stranded DNA-binding protein, and topoisomerases I and II, all of which have been shown to be essential for SV40 DNA replication in vitro. Replication started near the origin and proceeded bidirectionally. The maximum speed of replication fork movement was 200-300 nucleotides/min, which was similar to the rate of SV40 DNA replication with the same set of proteins. When replication products were digested with micrococcal nuclease, DNA fragments of 160-180 base pairs, which is the typical size of mononucleosomal DNA, were protected. This result indicates that replicated DNA was reconstructed into the nucleosome structure, complexed with parental histones.
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PMID:Replication of the simian virus 40 chromosome with purified proteins. 165 35

Relative to nonreplicating DNA in mature simian virus 40 (SV40) chromosomes, newly synthesized DNA in replicating SV40 chromosomes was found to be hypersensitive to the nonspecific endonucleases, micrococcal nuclease (MNase), DNase I, and DNase II. Nascent DNA, pulse labeled in either intact cells or nuclear extracts supplemented with cytosol, was digested about 5-fold faster and about 25% more extensively than uniformly labeled DNA in mature viral chromosomes. Pulse-chase experiments in vitro revealed a time-dependent chromatin maturation process that involved two distinct steps: (i) conversion of prenucleosomal DNA (PN-DNA) into immature nucleosomal oligomers and (ii) maturation of newly assembled chromatin into a structure with increased nuclease resistance. PN-DNA was hypersensitive to MNase, releasing short DNA fragments which were subsequently solubilized by the nuclease. However, when the nascent PN-DNA was specifically removed by digestion of replicating viral chromosomes with Escherichia coli exonuclease III (3'-5') and phage T7 exonuclease (5'-3'), subsequent digestion of the remaining chromatin with MNase revealed the same degree of hypersensitivity observed prior to exonuclease treatment. Furthermore, newly assembled nucleosomal oligomers, isolated after a brief MNase digestion of replicating viral chromosomes, were also hypersensitive to MNase relative to oligomers isolated from mature chromosomes. Hybridization analysis of the DNA in these immature oligomers revealed that it originated from both sides of replication forks. Inhibition of DNA polymerase alpha by aphidicolin inhibited conversion of PN-DNA into nucleosomes but did not inhibit loss of nucleosomal hypersensitivity to MNase. In contrast, components in the soluble fraction of the subcellular system ("cytosol") were required for both DNA replication and chromatin maturation. Analysis of the nucleoprotein products from a MNase digestion of replicating and mature SV40 chromosomes failed to detect a change in nucleosome structure that corresponded to the loss of nuclease hypersensitivity. However, the results presented demonstrate that both PN-DNA and newly assembled immature chromatin, present on both arms of SV40 replication forks, contribute to the commonly observed hypersensitivity of newly replicated chromatin to endonucleases.
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PMID:Structure of chromatin at deoxyribonucleic acid replication forks: nuclease hypersensitivity results from both prenucleosomal deoxyribonucleic acid and an immature chromatin structure. 631 Dec 55

A protein factor which stimulates DNA polymerase alpha activity on heat-denatured DNA has been purified from mouse FM3A cells. The final preparation had a specific activity of 43,000 units/mg protein and lacked detectable DNA polymerase, RNA polymerase, DNA-dependent- and independent ATPase, exo- and endodeoxyribonuclease and phosphatase activities. The stimulating factor sedimented at 2.9S in a glycerol gradient. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of the glycerol gradient fraction revealed the presence of a major band of 36,000 daltons, the amount of which corresponded well with the level of stimulating activity. The stimulation by the factor was specific for heat-denatured DNA, and a little or no stimulation was observed with native DNA, ribo- and deoxyribohomopolymers and single stranded circular DNA. Alkaline sucrose gradient sedimentation analysis of the reaction products revealed that newly synthesized DNA was covalently linked to the termini of heat-denatured DNA. The average chain length of the elongated span determined by the digestion with micrococcal nuclease and phosphodiesterase II, did not differ between in the presence and absence of the stimulating factor, suggesting that the stimulation by the factor was due to the increase in the initiation frequency of DNA synthesis from the 3'-hydroxyl terminus of heat-denatured DNA.
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PMID:Purification and characterization of a factor stimulating DNA polymerase alpha activity from mouse FM3A cells. 632 2

In vivo in mammalian cells, ultraviolet-induced unscheduled DNA synthesis was less sensitive to aphidicolin than was replicative DNA synthesis. Replicative DNA synthesis in HeLa, HEp-2, WI-38 VA-13 and CV-1 cells was inhibited more than 97% by aphidicolin at 10 micrograms/ml, whereas aphidicolin inhibition of DNA synthesis in ultraviolet-irradiated cells varied between 30% and 90% depending on cell types and assay conditions. Aphidicolin inhibition of unscheduled DNA synthesis (UDS) in HeLa cells increased gradually with increasing aphidicolin concentration and reached approximately 90% at 100 micrograms/ml aphidicolin. A significant fraction of UDS in ultraviolet-irradiated HEp-2 cells was resistant to aphidicolin even at 300 micrograms/ml. Considered along with related information reported previously, the present results suggest that both aphidicolin-sensitive and insensitive DNA polymerases, DNA polymerase alpha and a non-alpha DNA polymerase (possibly DNA polymerase beta), are involved in in situ UDS in these ultraviolet-irradiated cells. Comparison of staphylococcal nuclease sensitivity between DNAs repaired in the presence and in the absence of aphidicolin in HEp-2 cells suggested that the involvement of DNA polymerase alpha in UDS favored DNA synthesis in the intranucleosomal region.
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PMID:Differential sensitivity to aphidicolin of replicative DNA synthesis and ultraviolet-induced unscheduled DNA synthesis in vivo in mammalian cells. 643 54

Isolated nuclei from pregnant rabbit mammary glands were labelled with [3H]dTTP under conditions for DNA synthesis and subsequently digested with micrococcal nuclease. Replicating chromatin was found to exhibit increased susceptibility towards the nuclease. Analysis of chromatin digestion products by sucrose density gradient centrifugation demonstrated the association of in vitro replicated DNA with nucleosomes. Furthermore, the distribution of DNA polymerizing activity was studied in isolated nuclease-digested mammary gland chromatin. About 90% of all recovered nuclear DNA polymerizing activity cosedimented with nucleosomal particles, mainly with mononucleosomes. The distribution of DNA polymerases alpha and beta in chromatin isolated from the mammary glands of pregnant and lactating rabbits was compared. In these physiological states the mononucleosome-associated DNA polymerase alpha activity varied in accordance with the rate of DNA synthesis.
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PMID:In vitro rabbit mammary gland chromatin replication studied by micrococcal nuclease digestion. 654 83

1. Nuclei isolated from regenerating rat liver were digested with micrococcal nuclease and fractionated on glycerol gradients into soluble chromatin fragments and chromatin associated with the nuclear skeleton. 2. Distributions of DNA polymerases alpha and beta in these fractions were different. While beta polymerase followed closely the distribution of the chromatin fragments, alpha polymerase associated preferentially with the skeleton-chromatin complex. 3. At least 20% of total alpha polymerase in the nuclei was shown to be bound to the skeleton. In nuclei extracted with isotonic sucrose buffer containing 50 or 100 mM Tris-Cl the portion of the skeleton associated enzyme was increased to 40-50%. 4. These data show that the skeleton bound alpha polymerase was preferentially retained in the nuclei during salt extraction. 5. Contrary to the replicational DNA polymerase alpha, DNA polymerase beta did not show any affinity to the skeleton.
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PMID:Intranuclear localization of DNA polymerases alpha and beta in regenerating rat liver. 686 93

We have extended our permeable cell system for measuring DNA excision repair [Roberts, J. D., & Lieberman, M. W. (1979) Biochemistry 18, 4499-4505] so that steps of the repair process, beginning with incision and extending at least through the "rearrangement" of repaired nucleosomes which follows repair synthesis, all take place in permeable cells. In the revised protocol, human fibroblasts are made permeable, damaged with UV or chemicals in suspension, and incubated with a reaction mix containing ATP and the four deoxyribonucleoside triphosphates, one of which is labeled with 32P. By reducing the exogenous dNTP concentration to 3 microM and including 15 mM KCl in the reaction mixture, we have greatly reduced background incorporation in undamaged cells without significantly reducing repair synthesis. This permits us to measure repair synthesis without separating it from replicative synthesis by isopycnic centrifugation. Repair synthesis in this system is very similar to that occurring in intact cells: in response to DNA damage, nucleotides are incorporated into DNA of parental density (when analyzed by the BrdUrd density shift technique), incorporation increases with increasing DNA damage, synthesis is dependent on the presence of all four dNTPs, and the system accurately reflects the genetic UV repair deficiency of xeroderma pigmentosum (XP) cells. Furthermore, as has been observed in intact cells, repair-incorporated nucleotides in these permeable cells are initially overrepresented in staphylococcal nuclease sensitive regions of chromatin and are subsequently redistributed to give a nearly uniform distribution between nuclease-sensitive and -resistant regions. The UV dose curve of permeable cells differs somewhat from that of intact cells; however, the dose differs somewhat from that of intact cells; however, the dose curve for permeable cells treated with N-methyl-N-nitrosourea is very similar to that of intact cells. Repair synthesis in UV-damaged, permeable normal and XP cells is stimulated by addition of Micrococcus luteus UV endonuclease, indicating that the damaged DNA is accessible to exogenous repair enzymes and suggesting that incision, or an obligatory preincision step, is rate limiting for excision repair in these permeable cells. Repair synthesis in this system is inhibited by aphidicolin, but not by high levels of dideoxy-TTP, suggesting involvement of DNA polymerase alpha in excision repair. Novobiocin is also inhibitory alpha and the HeLa cell type II DNA topoisomerase.
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PMID:Characterization of deoxyribonucleic acid repair synthesis in permeable human fibroblasts. 709 2

The chromatin of human cells undergoes structural rearrangements during excision repair of ultraviolet damage in DNA that were detected by transient relaxation of DNA supercoiling and increased staphylococcal nuclease digestibility of repaired sites. Inhibition of polymerization and/or ligation of repaired regions with inhibitors of DNA polymerase alpha (cytosine arabinoside and aphidicolin) resulted in the accumulation of single-strand breaks, delayed reconstruction of DNA supercoiling, and maintenance of the staphylococcal nuclease digestibility. These observations suggest that reconstruction of the native chromatin state requires completion of repaired regions with covalent ligation into the DNA strands. Although previous claims have been made that a late stage associated with ligation of repaired regions may be defective in cells from patients with Cockayne syndrome, complete reconstruction of the native chromatin occurred in cells from three unrelated patients after ultraviolet irradiation. No abnormality in repair was therefore detected in Cockayne syndrome cells. The hypersensitivity of cell survival and semiconservative DNA replication to damage by ultraviolet light in this human disorder must therefore be regarded as features of a primary defect in DNA metabolism unrelated to DNA repair.
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PMID:Normal reconstruction of DNA supercoiling and chromatin structure in cockayne syndrome cells during repair of damage from ultraviolet light. 710 74


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