EC:3.1.21.1 - FACTA Search

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Query: EC:3.1.21.1 (DNase)
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The nucleic acid fraction from cells of 6 species of bacterium and 2 kinds of vertebrate, calf and salmon, was extracted and purified by the same procedures as described previously. When the spleen cells from BALB/c mice were incubated with the nucleic acid fraction from either of the bacteria, natural killer (NK) activity of the cells was remarkably elevated and the cells produced factors to activate macrophages and to inhibit viral growth. It was shown that the factor to activate macrophages was interferon (IFN)-gamma and that to inhibit viral growth was IFN-alpha/beta. On the other hand, the nucleic acid fraction from either of the vertebrate cells did not show such activities. Pretreatment of the bacterial nucleic acid fraction with DNase, but not with RNase, abrogated completely the biological activities. The activities of the bacterial nucleic acid were not influenced by the presence of polymyxin B, an inhibitor of lipopolysaccharide (LPS), and the spleen cells from not only BALB/c mice but also LPS-insensitive C3H/HeJ mice were activated, indicating that the activities of the fraction were not ascribed to LPS contaminated possibly into the fraction, but to DNA itself. Intralesional injection with the bacterial DNA fraction caused regression of mouse IMC tumors, but the injection with the vertebrate DNA fraction did not. These findings prompted us to examine the biological activities of DNA samples from a variety of animals and plants, which were provided from other laboratories or purchased from manufacturers. All of the DNA samples from cells of 5 kinds of bacterium, 2 of virus and 4 of invertebrate augmented NK activity and induced IFN, more or less, in mouse spleen calls, while the DNA from 10 kinds of vertebrate, including 3 of fish and 5 of mammal, showed no such activities. The DNA from 2 species of plants, were also inactive. Possible mechanisms to explain the different biological activities of DNA from different cell sources were discussed based on our previous finding that the particular palindromic sequences with a G-C motif(s) are required for induction of IFNs and activation of NK cells with synthetic 30-mer oligonucleotides.
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PMID:DNA from bacteria, but not from vertebrates, induces interferons, activates natural killer cells and inhibits tumor growth. 128 Dec 60

DNA in spores of Bacillus and Clostridium species is associated with small, acid-soluble proteins (SASP) of the alpha/beta type; the presence of these proteins is a major factor in causing spore resistance to UV light, alpha/beta-type SASP did not bind to single-stranded DNA, single- or double-stranded RNA, or DNA-RNA hybrids in vitro. However, these proteins bound a variety of double-stranded DNAs and conferred protection against DNase cleavage. The binding of alpha/beta-type SASP to DNA saturated at a protein/DNA ratio (wt/wt) of 4:1 to 5:1, which is approximately 1 SASP per 4 bp. alpha/beta-type SASP-DNA interaction did not require divalent cations, was independent of pH between 6 and 8, and, for some SASP-DNA pairs, was relatively insensitive to salt up to 0.3 M. The relative affinity of alpha/beta-type SASP for different DNAs was poly(dG).poly(dC) greater than poly(dG-dC).poly(dG-dC) greater than plasmid pUC19 greater than poly(dA-dT).poly(dA-dT), with poly(dA).poly(dT) giving no detectable binding. This order in alpha/beta-type SASP-DNA affinities parallels the facility with which the DNAs adopt an A-like conformation, the conformation in alpha/beta-type SASP-DNA complexes. An oligo(dG).oligo(dC) of 12 bp was bound by alpha/beta-type SASP. While a 26-bp oligo(dG).oligo(dC) bound more tightly than the 12-mer, there was no significant increase in affinity for alpha/beta-type SASP with further increase in size of oligo(dG).oligo(dC). In contrast, binding of alpha/beta-type SASP to oligo(dA-dT).oligo(dA-dT) was minimal up to at least a 70-mer, and binding to poly(dA-dT).poly(dA-dT) was very cooperative. In addition to blocking DNase digestion, binding of alpha/beta-type SASP to DNA blocked (i) cleavage of the DNA backbone by hydroxyl radicals and orthophenanthroline-Cu2+, (ii) DNA cleavage by restriction enzymes, in particular those with specificity for GC-rich sequences; and (iii) in vitro transcription of some but not all genes. However, methylation of dG residues by dimethyl sulfate was not affected by alpha/beta-type SASP binding.
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PMID:Interaction between DNA and alpha/beta-type small, acid-soluble spore proteins: a new class of DNA-binding protein. 131 1

At least two genes encode isoenzymes of rat 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase. Alternative splicing of one of these genes generates a skeletal muscle-specific transcript from an upstream promoter and a liver-specific transcript from a downstream promoter. A potent glucocorticoid response element was identified in the first intron of the gene, i.e. between liver exon I and exon II. The element is approximately 3.5 kilobase pairs (kb) downstream of the liver isoenzyme transcription start site and 13 kb upstream of exon II of the gene and confers dexamethasone-sensitive expression of chloramphenicol acetyltransferase (CAT) activity from a heterologous thymidine kinase promoter and from both homologous 5'-flanking regions of the gene. This glucocorticoid response element also exhibits androgen- but not estrogen-sensitive expression of CAT activity in HeLa cells cotransfected with the appropriate receptor expression vector. DNase footprint and sequence analysis revealed that the element is comprised minimally of two adjacent 15-mer glucocorticoid receptor dimer binding sites situated in opposite orientations. Glucocortcoid regulation of 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase gene expression in liver and skeletal muscle is mediated by a single complex glucocorticoid response element located in the first intron of the skeletal muscle/liver gene.
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PMID:Regulation of gene expression of rat skeletal muscle/liver 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase. Isolation and characterization of a glucocorticoid response element in the first intron of the gene. 133 34

T4 endonuclease V [endodeoxyribonuclease (pyrimidine dimer); deoxyribonuclease (pyrimidine dimer), EC 3.1.25.1] initiates repair of damaged DNA by hydrolysis of the N-glycosyl bond at the 5' side of a pyrimidine photodimer in double-stranded DNA. To study one of the active sites of T4 endonuclease V, systematic site-directed mutagenesis was performed on the synthetic T4 endonuclease V gene, in parallel with three-dimensional structure analysis by x-ray crystallography. The mutant proteins were evaluated for DNA glycosylase activity using an oligonucleotide duplex (14-mer) containing a single thymidine dimer as a substrate. Replacement of either Glu-23 with glutamine or asparatic acid or Arg-3 with glutamine completely abolished DNA glycosylase activity. Mutation of Arg-3 to lysine or of Arg-26 to glutamine or lysine in a basic amino acid cluster caused serious defects in DNA glycosylase activity, which are reflected in the increases in Km and decreases in kcat of DNA glycosylase activity. On the other hand, substitutions of lysine for Arg-22 or of glutamine for Arg-117 or Lys-121 resulted in increases in the Km value. The completely inactive mutant proteins, E23Q and R3Q, in which glutamine was substituted for Glu-23 and Arg-3, respectively, were further investigated by CD spectroscopy for their ability to bind the oligonucleotide substrate. It was found that the E23Q protein retained specific substrate-binding ability, whereas the R3Q protein did not. These results indicate that Glu-23 plays an important role in catalysis of the DNA glycosylase reaction, and that Arg-3 is a crucial residue for substrate binding. In addition, Arg-22, Arg-26, Arg-117, and Lys-121 in the basic amino acid cluster also participate in substrate binding. We conclude that the basic amino acid cluster in T4 endonuclease V is an essential structure for DNA glycosylase activity.
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PMID:Role of the basic amino acid cluster and Glu-23 in pyrimidine dimer glycosylase activity of T4 endonuclease V. 140 51

The properties of the interaction of 5-fluorocytosine-containing DNA with the EcoRII methyltransferase were studied. The DNA used was either a polymer synthesized in vitro, or a 20-mer containing one CCA/TGG sequence. The DNA could be methylated by the enzyme. In the process the enzyme formed a tight binding adduct with the DNA that could be identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Enzyme activity was inhibited by this interaction. The 20-mer could be used to titrate the active site of the enzyme. The DNA polymer formed a tight binding complex that could be identified following digestion of the DNA with pancreatic deoxyribonuclease or micrococcal nuclease. A peptide-DNA adduct could be isolated after digestion of the EcoRII-DNA adduct with staphylococcal protease V8 by high pressure liquid chromatography and polyacrylamide gel electrophoresis. Sequencing of the peptide indicated the DNA bound to a region of the protein that is conserved in all procaryotic DNA(cytosine-5)-methyltransferases. We have previously shown that this region contains a cysteine that can be photomethylated with adenosylmethionine. This region, in addition to forming part of, or being adjacent to, the AdoMet binding site, also forms part of the DNA binding site.
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PMID:Binding of the EcoRII methyltransferase to 5-fluorocytosine-containing DNA. Isolation of a bound peptide. 162 Jun 20

Expression of the vitellogenin genes in avian and amphibian liver is regulated by estrogens. The DNA elements mediating estrogen induction of the various vitellogenin genes of chicken and Xenopus encompass one or more copies of a 13-mer palindromic sequence called the estrogen-responsive element (ERE). Here we show that upon incubation with the purified estrogen receptor (ER) from calf uterus the Xenopus vitellogenin A2 gene yields a DNase-I footprint over the ERE between -331 and -319. This element does not mediate the response to glucocorticoids or progestins in T47D cells. The three guanine residues in each half of the palindrome are protected against methylation by dimethylsulfate after incubation with ER, but not with glucocorticoid (GR) or progesterone (PR) receptors. In contrast, the chicken vitellogenin II gene exhibits multihormonal regulation by estrogens, progestins, and glucocorticoids in T47D and MCF7 cells. Regulation is mediated by the DNA region between -721 and -591 that contains four binding sites for hormone receptors, as demonstrated by DNase-I footprints and methylation protection experiments. The two distal and most proximal binding sites are recognized by ER, GR, and PR, whereas the central binding site is only bound by ER and GR. At suboptimal concentrations, estrogens and progestins or glucocorticoids act synergistically. In experiments using a DNA fragment containing an ERE adjacent to a glucocorticoid-responsive element/progesterone-responsive element, ER and PR bind synergistically to their corresponding sites, perhaps explaining the functional synergism of both hormones. Thus, two very different regulatory elements are used to mediate estrogen induction of related genes in chickens and amphibians.
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PMID:Hormonal regulation of vitellogenin genes: an estrogen-responsive element in the Xenopus A2 gene and a multihormonal regulatory region in the chicken II gene. 189 Sep 89

A regulatory protein AlgR1, previously suggested to be a member of a two-component sensory transduction system because of its homology to OmpR and NtrC and its ability to allow activation of the algD promoter under conditions of high osmolarity, has been hyperproduced in Escherichia coli after deletion of the upstream region including part of the Shine-Dalgarno sequence of the algR1 gene and its subsequent cloning under the tac promoter. The AlgR1 protein is purified as a monomer, and the sequence of the nine N-terminal amino acids of the monomer matches with that predicted from the DNA sequence of the algR1 gene. The purified AlgR1 protein binds to two separate DNA fragments of the algD upstream region. DNase protection experiments identify these two DNA segments as 14-mer sequences centered at -382 and -458 regions, which contain a common CCGT-TCGTC sequence in them. While the presence of at least one AlgR1 binding site is important for the activation of the algD promoter, the presence of both of the binding sites in the upstream region leads to a higher level of activation.
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PMID:Purification of the regulatory protein AlgR1 and its binding in the far upstream region of the algD promoter in Pseudomonas aeruginosa. 190 Mar 66

Mouse L929 cells were incubated with antibody-targeted liposomes containing oligodeoxyribonucleotides (oligomers). When the oligomer was a 15-mer complementary to the 5'-end region of the mRNA encoding the N protein of vesicular stomatitis virus, the cells became less permissive for multiplication of that virus; greater than 95% reduction of viral multiplication was achieved. Protection was not seen for "empty" liposomes, liposomes containing a random oligomer sequence, or liposomes containing a sequence complementary to the 5' end of c-myc protooncogene mRNA targeted by the same antibody, nor was it seen when the liposomes containing the N-protein antisense oligomer were targeted by an antibody that does not bind to L929 cells. Antibody-bearing liposomes containing antisense oligomers thus have a double specificity: a particular cell selected by the targeting antibody on the liposome and a particular mRNA in the cell selected by sequence complementarity with the liposome-encapsulated oligomer. Nonencapsulated oligomers are sensitive to nucleases and usually must be administered to cells at high concentrations. Oligomers encapsulated in liposomes resist DNase and are active in amounts 1-2 orders of magnitude lower than for those reported for unencapsulated oligomer sequences.
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PMID:Antibody-targeted liposomes containing oligodeoxyribonucleotides complementary to viral RNA selectively inhibit viral replication. 215

We report experiments designed to elucidate the mechanism by which RNA polymerase advances from the open complex to synthesis of a stably bound RNA chain during transcription initiation. Techniques used include deoxyribonuclease I footprinting, methylation protection, and exonuclease III digestion through upstream domains, each applied to the open, abortive and productive transcription complexes of Escherichia coli RNA polymerase with the lac promoter. The results show a slight loss of upstream open complex contacts during abortive transcription of a 6-mer and 8-mer, but a large loss of these contacts upon escape from abortive cycling into productive transcription at the 11-mer. We propose a model for early initiation in which competition between open complex polymerase-DNA contacts on one hand and initiated complex polymerase-DNA-RNA interactions on the other produces a "stressed intermediate" during formation of a short RNA-DNA duplex. The strain energy is relieved either by ejecting the short RNA, resulting in aborted initiation, or by eliminating the sigma subunit and breaking the open complex contacts, thereby escaping abortive cycling into productive transcription. Further evidence for this model is based on the observation that destabilization of interactions specific for either open complex or initiated complex has the predicted effect on the amount of abortive cycling. The model predicts a complicated relationship between overall promoter strength and DNA sequence changes that alter polymerase-DNA interactions.
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PMID:A stressed intermediate in the formation of stably initiated RNA chains at the Escherichia coli lac UV5 promoter. 243 94

The cutting rates of bovine pancreatic deoxyribonuclease I (DNase I) vary along a given DNA sequence, indicating that the enzyme recognizes sequence-dependent structural variations of the DNA double-helix. In an attempt to define the helical parameters determining this sequence-dependence, we have co-crystallized a complex of DNase I with a self-complementary octanucleotide and refined the crystal structure at 2 A resolution. This structure confirms the basic features of an early model, namely that an exposed loop of DNase I binds in the minor groove of B-type DNA and that interactions do occur with the backbone of both strands. Nicked octamer duplexes that have lost a dinucleotide from the 3'-end of one strand are hydrogen-bonded across a two-fold axis in the crystal to form a quasi-continuous double helix of 14 base pairs. The DNA 14-mer has a B-type conformation and shows substantial distortion of both local and overall helix parameters, induced mainly by the tight interaction of Y73 and R38 in the unusually wide minor groove. Directly coupled to the widening of the groove by approximately 3A is a 21.5 degree bend of the DNA away from the bound enzyme towards the major groove, suggesting that both DNA stiffness and groove width are important in determining the sequence-dependence of the enzyme cutting rate. A second cut of the DNA which is induced by diffusion of Mn2+ into the co-crystals suggests that there are two active sites in DNase I separated by more than 15A.
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PMID:Structure refined to 2A of a nicked DNA octanucleotide complex with DNase I. 335 48

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