EC:3.1.31.1 - FACTA Search

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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 phosphorylation of the proteins of heterogeneous nuclear ribonucleoprotein particles has been investigated in HeLa cells. 32Pi labeling of intact cells indicated that, of the six major particle proteins, the most heavily phosphorylated was the C1-protein (Mr = 42,000). This protein, together with C2 (Mr = 44,000), is also phosphorylated by [gamma-32P]ATP in particle extracts and in particles that are purified by sedimentation or exclusion chromatography. The C-proteins, together with their particle-associated kinase, were partially purified from isolated particles following dissociation with micrococcal nuclease. Proteins C1 and C2 co-purify on phosphocellulose chromatography, and their peak overlaps with that of a casein kinase activity. Evidence suggesting that this kinase activity is responsible for C-protein phosphorylation includes 1) the phosphorylation of C-proteins in the fractions where they overlap with the kinase, 2) the phosphorylation of added C-protein by fractions of the casein kinase which lack detectable C-protein, and 3) the similarities in catalytic properties of the casein kinase- and C-protein-phosphorylating activities. The purified kinase activity is cyclic nucleotide and Ca2+ independent. It is stimulated by polyamines, inhibited by heparin, and utilizes either GTP or ATP with high affinity. Serine residues are the major phosphate acceptors. These properties indicate that the kinase is casein kinase II or a closely related enzyme. Moreover, purified casein kinase II from rabbit liver effectively phosphorylates C-protein. These results suggest that C-proteins may be natural substrates for nuclear casein kinase II.
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PMID:Phosphorylation of the C-proteins of HeLa cell hnRNP particles. Involvement of a casein kinase II-type enzyme. 642 27

Isolated rat liver cell nuclei were incubated with the alkylating cytostatic drug cyclophosphamide (CPA) in the presence of a microsomal activation system. Digestion of the 3H-CPA-treated nuclei with DNase I and micrococcal nuclease, respectively, showed that the CPA-modified DNA apparently has become resistant against such enzymatic attack. For analysis of the DNA-CPA reaction products, the DNA was isolated under mild conditions and degraded enzymatically. In cell nuclei whose DNA had been prelabeled with 32P in vivo, a predominant binding of 3H-CPA (about 50%) to the DNA phosphate groups was observed. Terminal phosphate groups apparently play an important role in this reaction. Neutral heating of DNA from 3H-CPA-treated nuclei liberated up to 60% of the initially bound 3H-radioactivity. The results are discussed in relation to the recent data concerning the route of decomposition of activated CPA to phosphoramide mustard and acrolein.
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PMID:Interaction of cyclophosphamide with DNA in isolated rat liver cell nuclei. 671 77

Oxytricha nova is a hypotrichous ciliate containing a transcriptionally active macronucleus and a transcriptionally inactive micronucleus. Two-dimensional gel electrophoresis shows that macronuclei contain a normal complement of inner histones. However, despite extensive efforts, no classical H1-like protein has been detected. Micrococcal nuclease digestion indicates a nucleosome repeat length of approximately 220 bp for macronuclear chromatin. Thermal denaturation profiles of macronuclear chromatin in 0.2 mM EDTA display four transitions at about 46, 57, 64, and 79 degrees C. The lowest of these shifts to higher temperature as the ionic strength is raised to 3-5 mM Na phosphate. These results are consistent with the absence of H1 and a nucleosome repeat of 220-230 bp. Circular dichroism (CD) results agree with these findings. By contrast, micronuclear chromatin displays a much smaller premelt and a more suppressed DNA CD signal at 285 nm, consistent with a micronuclear chromatin repeat of 165-185 bp as determined by micrococcal nuclease digestion.
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PMID:Physical structure of gene-sized chromatin from the protozoan Oxytricha. 671 49

T4 RNA ligase joins a 3'-hydroxyl-terminated acceptor oligoribonucleotide to a 5'-phosphate-terminated donor oligoribonucleotide. An analogous reaction with single-strand DNA oligonucleotides would be useful for the synthesis of defined sequences of DNA because it would eliminate the need to synthesize complementary sequences to form the duplex substrates required by DNA ligase. We have studied the model reaction dA(pdA)5 + [5'-32P] (pdT)4pdCp leads to dA(pdA)5 [3' leads to 5'-32P]pdT(pdT)3pdCp and have obtained 40-60% yields at equimolar concentrations (100 microM to 1 mM) of the two substrates. Higher yields have been obtained when acceptor concentrations in excess of those of the donor are used. The use of a 5'-hydroxyl, 3'-hydroxyl terminated acceptor and a 5'-phosphate, 3'-phosphate terminated donor limits the reaction to a unique product. The 3'-phosphate-terminated donor was prepared by using RNA ligase to add a single deoxyribonucleoside 3',5'-bisphosphate donor to an oligo(deoxyribonucleotide) acceptor [Hinton, D.M., Baez, J.A., & Gumport, R.I. (1978) Biochemistry 17, 5091]. The DNA oligomer joining reaction requires low concentrations of ATP and an ATP regenerating system, Mn2+, high levels of nuclease-free RNA ligase (30 microM), and incubation for several days at 17 degrees C. The product of the reaction was characterized by its resistance to alkaline phosphatase, degradation by micrococcal nuclease to the expected product [3'-32P]dAMP, and mobility during high-pressure liquid chromatography on RPC-5. The joining of several other deoxyoligomers was also demonstrated. We anticipate that this reaction of RNA ligase will contribute to its usefulness as a reagent for the synthesis of DNA of defined sequence.
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PMID:T4 ribonucleic acid ligase joins single-strand oligo(deoxyribonucleotides). 698 3

During spermatogenesis in the winter flounder, the average repeat length of nucleosomal DNA in the testis increases from 195 +/- 2 base pairs in prespermatid nuclei to 222 +/- 3 base pairs in sperm. This increase in repeat length apparently occurs in the linker region since there is no change in the pattern of DNA fragments produced during micrococcal nuclease digestion of the nucleosome core. The timing of the increase coincides with the loss of phosphate from the high molecular weight basic nuclear proteins and histones H2A and H4. When prespermatid nuclei are digested with micrococcal nuclease to the point where 10% of the DNA is acid-soluble, mononucleosomes and higher oligomers are readily released. However, when sperm chromatin is digested to the same extent, these products are no longer soluble and only traces of H1 and small DNA fragments are released. This situation is not changed in sperm chromatin that has been depleted of H1 by extraction with 0.4 M NaCl. However, if nuclease-treated sperm chromatin is lightly digested with trypsin, mono- and oligonucleosomes are released. At this level of proteolysis, the high molecular weight basic nuclear proteins are completely broken down, but the core histones are largely intact. These data are consistent with a model in which the unphosphorylated high molecular weight basic nuclear proteins function in cross-linking nucleosomes together within the sperm nucleus.
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PMID:Chromatin reorganization during spermatogenesis in the winter flounder. 710 49

An important role in the control of gene expression has been attributed to phosphoproteins present among chromatin non-histone proteins. In a previous work we have shown that at least part of these phosphoproteins are associated with nucleosomes. In this work we wanted to establish whether this association occurs with all nucleosomes or with the nucleosomes present in fragments preferentially released by a mild micrococcal nuclease digestion, which originated essentially from active parts of chromatin. Phosphoproteins were labelled in vivo by incubating hepatoma tissue-cultured cells with [32P]phosphate and chromatin was submitted to a limited micrococcal nuclease digestion. The released fragments were fractionated by preparative gel electrophoresis. [32P]Phosphoproteins were essentialy found in the smallest released fragments: monomers and dimers of nucleosomes. The same result was obtained when the phosphoproteins were labelled in vitro by incubating each fragment obtained by the preparative electrophoresis in the presence of [gamma-32P]ATP. It indicates that part of the protein kinase activity was strongly bound to the particles. The bound phosphoproteins were analysed by sodium dodecylsulfate/polyacrylamide gel electrophoresis. Two main polypeptides were characterized: phosphopeptide a, Mr 41000, present in all small fragments; phosphopeptide b, Mr 31000, present in all small fragments, except in the fastest moving nucleosomes. Phosvitin kinase was found associated with the small released fragments, its specific activity was by far the highest in the fraction which includes the dimers of nucleosomes. It is concluded that phosphoproteins and protein kinases are associated with the nucleosomes of the active parts of chromatin, which suggests a role of these proteins in the control of gene expression.
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PMID:Localization of phosphoproteins and of protein kinases in chromatin from hepatoma tissue-cultured cells. 743 87

Macronuclear telomeres in Oxytricha exist as DNA-protein complexes in which the termini of the G-rich strands are bound by a 97-kDa telomere protein. During telomeric DNA replication, the replication machinery must have access to the G-rich strand. However, given the stability of telomere protein binding, it has been unclear how this is accomplished. In this study we investigated the ability of several different DNA polymerases to access telomeric DNA in Oxytricha telomere protein-DNA complexes. Although DNA bound by the telomere protein is not degraded by micrococcal nuclease or labeled by terminal deoxynucleotidyltransferase, this DNA serves as an efficient primer for the addition of telomeric repeats by telomerase, a specialized RNA-dependent DNA polymerase (ribonucleoprotein reverse transcriptase), EC 2.7.7.49. Moreover, in the presence of a suitable complementary C-rich DNA template, AMV reverse transcriptase and the E. coli Klenow fragment will also elongate DNA bound by the telomere protein. These findings indicate that the 3' terminus and the Watson-Crick base pairing positions are exposed in the protein complex. We propose that the telomere protein can serve a dual role at the telomere by protecting the DNA phosphate backbone from degradation while simultaneously exposing the DNA bases for replication.
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PMID:DNA bound by the Oxytricha telomere protein is accessible to telomerase and other DNA polymerases. 750 21

Drosophila Rrp1 includes a carboxy-terminal region homologous to Escherichia coli exonuclease III which is sufficient to repair both oxidative and alkylation damage to DNA. An apurinic/apyrimidinic endonuclease activity intrinsic to Rrp1 was characterized previously. In this work, the 3'-phosphodiesterase and 3'-phosphatase activities of Rrp1 are demonstrated and characterized. Phosphoglycolate- and phosphate-modified DNA 3'-termini are formed by oxygen radical induced DNA cleavage. To demonstrate the 3'-phosphodiesterase activity of Rrp1, a 3'-phosphoglycolate-terminated oligonucleotide substrate was generated by site-specific cleavage of a unique GpC dinucleotide by iron(II) bleomycin. Removal of the terminal phosphoglycolate is detected by mobility shift on a DNA sequencing gel. Rrp1 cleaves the phosphoglycolate and releases a product with a 3'-hydroxyl terminus. Phosphoglycolate is removed more readily than the 3'-terminal dGMP residue. Rrp1 phosphodiesterase activity is not inhibited by 120 mM NaCl, while the 3'-exonuclease is reduced 25-fold. Using a 3'-phosphate-terminated oligonucleotide, the phosphatase activity of Rrp1 is at least 25-fold lower than its phosphodiesterase or apurinic endonuclease, and 56-fold lower than exonuclease III activity on the identical substrate. Rrp1 3'-phosphatase is reduced 25-fold by 80 mM NaCl. These results were confirmed using an assay that measures the ability of Rrp1 to stimulate DNA synthesis on circular DNA substrates nicked by various DNA damage treatments. In that assay, Rrp1 poorly repairs 3'-phosphate-terminated nicks introduced by micrococcal nuclease. The significance of these enzymatic properties for the biological of Rrp1 is discussed.
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PMID:Characterization of the nuclease activity of Drosophila Rrp1 on phosphoglycolate- and phosphate-modified DNA 3'-termini. 753 50

The bis[(pivaloyloxy)methyl] [PIV2] derivative of 2'-deoxy-5- fluorouridine 5'-monophosphate (FdUMP) was synthesized as a potential membrane-permeable prodrug of FdUMP. The compound was designed to enter cells by passive diffusion and to revert to FdUMP after removal of the PIV groups by hydrolytic enzymes. The most convenient preparation of PIV2FdUMP was by condensation of 2'-deoxy-5-fluorouridine (FUdR) with PIV2 phosphate in the presence of triphenylphosphine and diethyl azodicarboxylate (the Mitsunobo reagent). PIV2FdUMP was stable in the pH range 1.0-4.0 (t1/2 > 100 h). It was also fairly stable at pH 7.4 (t1/2 = 40.2 h). In 0.05 M NaOH solution, however, it was rapidly degraded (t1/2 < 2 min). In the presence of hog liver carboxylate esterases, PIV2FdUMP was converted quantitatively to the mono-[(pivaloyloxy)methyl] [PIV1] analogue PIV1FdUMP. After a 24 h incubation, only trace amounts of FdUMP (1-3%) were observed, indicating that PIV1FdUMP is a poor substrate for carboxylate esterases. In mouse plasma, PIV2FdUMP was rapidly metabolized, first to PIV1FdUMP and then to FdUMP. With continued incubation, FUdR was formed, presumably due to further catabolism of FdUMP by plasma phosphatases or 5'-nucleotidases. Since PIV1FdUMP is a poor substrate for carboxylate esterase, the cleavage of the second PIV group is most likely mediated by plasma phosphodiesterases. The rate of degradation of PIV2FdUMP in the presence of acid and alkaline phosphatase, 5'-nucleotidase, or spleen phosphodiesterase was the same as that in buffer controls, indicating that the compound is not a substrate for these nucleotide catabolizing enzymes. The concentration of PIV2FdUMP and its 3'-O-acetyl ester (PIV2 3'-O-Ac-FdUMP) required to inhibit the growth of Chinese hamster ovary (CHO) cells in vitro to less than 50 cells per colony was 5 x 10(-6) M, the same as that required for 5-fluorouracil (FU). Both nucleotide prodrugs showed the same growth-inhibitory potency against a mutant CHO cell line that was 20-fold resistant to FU (CHO/FU). Administered intraperitoneally at optimal dosage for 5 consecutive days, PIV2FdUMP and PIV2 3'-O-Ac-FdUMP were as effective as FU at prolonging the life spans of mice bearing intraperitoneally implanted P388 leukemia. Both prodrugs retained full therapeutic activity against a P388 subline resistant to FU. Collectively, these data indicate that PIV2FdUMP and PIV2 3'-O-Ac-FdUMP are effective membrane-permeable prodrugs of FdUMP.
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PMID:Synthesis and antitumor evaluation of bis[(pivaloyloxy)methyl] 2'-deoxy-5-fluorouridine 5'-monophosphate (FdUMP): a strategy to introduce nucleotides into cells. 796 51

To understand the structural basis of the 1500-fold decrease in catalytic activity of the D21E mutant of staphylococcal nuclease in which an aspartate ligand of the essential Ca2+ has been enlarged to glutamate, the conformation of the enzyme-bound substrate dTdA has been determined by NMR methods and has been docked into the X-ray structure of the D21E mutant (Libson, A. M., Gittis, A.G., & Lattman, E. E. Biochemistry, preceding paper in this issue) based on distances from the bound metal ion to dTdA and on intermolecular nuclear Overhauser effects from assigned aromatic proton resonances of Tyr-85, Tyr-113, and Tyr-115 to proton resonances of dTdA, using energy minimization to relieve small overlaps. Like the wild-type enzyme, the D21E mutant forms binary E-M and E-S and ternary E-M-S complexes with Ca2+, Mn2+, Co2+, and La3+. D21E enhances the paramagnetic effects of Co2+ on 1/T1 and 1/T2 of the phosphorus and on 1/T1 of four proton resonances of dTdA, and these effects are abolished by the binding of the competitive inhibitor 3',5'-pdTp. From the paramagnetic effects of enzyme-bound Co2+ on 1/T1 of phosphorus and protons, with the use of a correlation time of 1.1 ps based on 1/T1 values at 250 and 600 MHz, five metal-nucleus distances and 11 lower limit metal-nucleus distances have been calculated. The Co2+ to 31P distance of 4.1 +/- 0.9 A agrees with that found on the wild-type enzyme (Weber, D. J., Mullen, G. P., & Mildvan, A. S. (1991) Biochemistry 30, 7425-7437) and indicates at least 18% inner sphere phosphate coordination. Fourteen interproton distances and 109 lower limit interproton distances in dTdA in the ternary D21E-La(3+)-dTdA complex were determined by NOESY spectra at 50-, 100-, and 200-ms mixing times. Both the metal-nucleus and interproton distances were necessary to compute a narrow range of conformations for enzyme-bound dTdA. As on the wild-type enzyme, the conformation of dTdA on the D21E mutant is highly extended, with high-anti C-2' endo conformations for the individual nucleosides. However, significant conformational differences are found in the torsional angles chi of dA (delta chi = 49 +/- 3 degrees), in gamma of dT (delta gamma = 108 +/- 30 degrees) and in zeta of dT (delta zeta = 124 +/- 38 degrees).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:NMR docking of a substrate into the X-ray structure of the Asp-21-->Glu mutant of staphylococcal nuclease. 802 6

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