Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.26.9 (ribonuclease)
6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat Zn-15 is a transcription factor activating GH gene expression by synergistic interactions with Pit-1, named for 15 DNA-binding zinc fingers, including fingers IX, X, and XI that are responsible for GH promoter binding. In this study, a mouse cDNA for Zn-15 was characterized. The predicted 2192-amino acid mouse protein is 89% identical to rat (r) Zn-15 overall, and is 97% similar in the C-terminal domain necessary for binding the GH promoter. However, the mouse cDNA encodes 16 zinc fingers, and sequences of rZn-15 pituitary cDNAs were the same as the mouse (m) Zn-16; the rat sequence in GenBank has a one nucleotide offset of a 17-bp segment in the finger V region. The mouse and corrected rat sequences contain four tandemly repeated fingers in the N-terminus, each separated by seven amino acids, typical of zinc finger proteins of the transcription factor IIIA-type. Analysis of mZn-16 expression by RT-PCR showed that the mRNA is, produced at similar levels in normal and GH-deficient Ames dwarf (Prop-1 <df-/->) mouse pituitaries at postnatal day 1. Mouse Zn-16 mRNA also was detected by ribonuclease protection assay in the pre-somatotrophic mouse cell line GHFT1-5. The Zn-16 protein is bipartite in that the N-terminal half displays tandem spacing typical of most zinc finger proteins, while the C-terminal portion contains long linkers between fingers that cooperatively bind to a DNA response element. Expression in early postnatal pituitary and in pre-somatotrophic cells suggests that Zn-16 could play a role in pituitary development prior to somatotroph differentiation.
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PMID:Mouse growth hormone transcription factor Zn-16: unique bipartite structure containing tandemly repeated zinc finger domains not reported in rat Zn-15. 1068 55

We introduce a new simple methodology allowing the measurement of (1)H-(15)N residual dipolar couplings, dipolar shifts, and unpaired electron-amide proton distances. This method utilizes a zinc finger tag fused at either the N- or the C-terminus of a protein. We have demonstrated this fusion strategy by incorporating the zinc finger of the retroviral gag protein onto the C-terminus of barnase, a ribonuclease produced by Bacillus amiloliquifaciance. We show that this tag can be substituted with cobalt and manganese. Binding of cobalt to the gag zinc finger-barnase fusion protein introduced sufficient anisotropic paramagnetic susceptibility for orientation of the molecule in the magnetic field. Partial alignment permitted measurement of (1)J(HN) scalar couplings along with dipolar couplings. Replacement of bound cobalt with diamagnetic zinc removes the paramagnetic-induced orientation of barnase, permitting the measurement of only (1)J(HN) scalar couplings. Dipolar couplings, ranging from -0.9 to 0.6 Hz, were easily measured from the difference in splitting frequencies in the presence of cobalt and zinc. The observed paramagnetic anisotropy induced by cobalt binding to the metal binding tag also permitted measurement of dipolar shifts. Substitution of manganese into the metal binding tag permitted the measurement of unpaired electron-amide proton distances using paramagnetic relaxation enhancement methodology. The availability of both amide proton dipolar shifts and unpaired electron to amide proton distances permitted the direct calculation of z-coordinates for individual amide protons. This approach is robust and will prove powerful for global fold determination of proteins identified in genome initiatives.
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PMID:Calculation of z-coordinates and orientational restraints using a metal binding tag. 1110 1

Zinc-alpha(2)-glycoprotein (Znalpha(2)gp) is widely distributed in body fluids and epithelia. Its expression in stratified epithelia increases with differentiation. We previously showed that Zn alpha(2)gp has ribonuclease activity, and that squamous tumor cells grown on a matrix of Znalpha(2)gp were growth-inhibited. Here we demonstrate, both by adding Znalpha(2)gp to the culture medium and, more unequivocally, by stably transfecting SiHa cells with Znalpha(2)gp cDNA, that the introduction of Znalpha(2)gp into SiHa tumor cells reduces proliferation. In response to Znalpha(2)gp, we find an accumulation of the cell population in G(2)/M by flow cytometry, paralleling the reduction of proliferation. In order to distinguish growth inhibition by cell cycle arrest from that produced by apoptosis or differentiation, we examine by RT-PCR how Znalpha(2)gp affects the expression of genes commonly used as markers of these properties. No changes are observed for PCNA, p53, c-myc, or bcl-2. Only cdc2 expression responds to Znalpha(2)gp, with a reduction of up to over a factor of two. Cdc2 is the only cyclin-dependent kinase regulating the G(2)/M transition without redundancy and is required as a rate-limiting step in the cell cycle. Its increased expression has been directly linked to increased proliferation and decreased differentiation of advanced tumors; conversely, its downregulation by Znalpha(2)gp might hinder tumor progression. J. Cell. Biochem. Suppl. 36: 162-169, 2001.
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PMID:Zinc-alpha(2)-glycoprotein hinders cell proliferation and reduces cdc2 expression. 1145 81

The effects of proteolytic enzymes, ribonuclease, and deoxyribonuclease upon a fibrous component of chick embryo mitochondria, which was previously shown to have many fixation and staining properties characteristic of the bacterial nucleoplasm, are reported. Pepsin digestion of formaldehyde-fixed tissues removed the membranes and matrices of mitochondria, but a pepsin-resistant fibrous material remained which was heavily stained by uranyl and lead ions. Experiments on a DNA "model system" showed that DNA treated with osmium tetroxide can be depolymerized by deoxyribonuclease. Zinc ions strongly inhibited the depolymerization of DNA. Digestion of osmium tetroxide-fixed tissues (fixed only briefly) with deoxyribonuclease for 1 hour greatly reduced the Feulgen staining of the nuclei, and after 4 hours the Feulgen reaction was completely abolished. The reduction and the disappearance of the Feulgen reaction in nuclei was paralleled by partial to complete digestion of the mitochondrial fibers in the regions studied (after 1 and 4 hours, respectively), without any other obvious changes in cellular structures. When deoxyribonuclease was inhibited by the addition of zinc ions, the nuclear Feulgen reaction was not diminished, nor were the mitochondrial fibers removed. Buffer control incubations for deoxyribonuclease and ribonuclease did not alter the structure or staining properties of the mitochondrial fibers, nor did incubation with ribonuclease. The latter reaction digested the cytoplasmic and nucleolar ribosomes after a 4-hour incubation period, in parallel with the abolishment of toluidine blue staining. The results contribute further evidence that these mitochondria contain deoxyribonucleic acid.
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PMID:INTRAMITOCHONDRIAL FIBERS WITH DNA CHARACTERISTICS. II. ENZYMATIC AND OTHER HYDROLYTIC TREATMENTS. 1408 39

Ribonuclease Sa (RNase Sa) is a secretory ribonuclease from Streptomyces aureofaciens. Herein, 3'-N-hydroxyurea-3'-deoxythymidine 5'-phosphate is shown to be a competitive inhibitor of catalysis by RNase Sa. Inhibition is enhanced by nearly 10-fold in the presence of Zn(2+), which could coordinate to the N-hydroxyurea group along with enzymic residues. The carboxylate of Glu54 is the putative base that abstracts a proton from the 2' hydroxyl group during catalysis of RNA cleavage by RNase Sa. Replacing Glu54 with a glutamine residue has no effect on the affinity of N-hydroxyurea 1 for the enzyme, but eliminates the zinc(II)-dependence of that affinity. These data indicate that an N-hydroxyurea nucleotide can recruit Zn(2+) to inhibit the enzymatic activity of RNase Sa, and suggest that the carboxylate of Glu54 is a ligand for that Zn(2+). These findings further the development of a new class of ribonuclease inhibitors based on the complex of an N-hydroxyurea nucleotide and zinc(II).
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PMID:Zinc(II)-mediated inhibition of ribonuclease Sa by an N-hydroxyurea nucleotide and its basis. 1515 54

Poly(A)-specific ribonuclease (PARN) is a highly poly(A)-specific 3'-exoribonuclease that efficiently degrades mRNA poly(A) tails. PARN belongs to the DEDD family of nucleases, and four conserved residues are essential for PARN activity, i.e. Asp-28, Glu-30, Asp-292, and Asp-382. Here we have investigated how catalytically important divalent metal ions are coordinated in the active site of PARN. Each of the conserved amino acid residues was substituted with cysteines, and it was found that all four mutants were inactive in the presence of Mg2+. However, in the presence of Mn2+, Zn2+, Co2+, or Cd2+, PARN activity was rescued from the PARN(D28C), PARN(D292C), and PARN(D382C) variants, suggesting that these three amino acids interact with catalytically essential metal ions. It was found that the shortest sufficient substrate for PARN activity was adenosine trinucleotide (A3) in the presence of Mg2+ or Cd2+. Interestingly, adenosine dinucleotide (A) was efficiently hydrolyzed in the presence of Mn2+, Zn2+, or Co2+, suggesting that the substrate length requirement for PARN can be modulated by the identity of the divalent metal ion. Finally, introduction of phosphorothioate modifications into the A substrate demonstrated that the scissile bond non-bridging phosphate oxygen in the pro-R position plays an important role during cleavage, most likely by coordinating a catalytically important divalent metal ion. Based on our data we discuss binding and coordination of divalent metal ions in the active site of PARN.
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PMID:Coordination of divalent metal ions in the active site of poly(A)-specific ribonuclease. 1535 88

Neonatal mouse skin is useful for studying changes in gene expression during development of hair follicles, as the mitotic activity of skin cells changes shortly after birth. Using ribonucleic acid (RNA) differential display, a 261-nt message has been identified in the skin, specifically on d 3-5 but not on d 2 after birth. Confirmation of its expression by ribonuclease protection assay showed that stronger expression is seen on d 3-5 compared with d 1-2. Using RNA ligase-mediated rapid amplification of 5' complementary deoxyribonucleic acid ends, we have successfully isolated a 3046-bp gene, which has 93% sequence homology to a mouse teashirt1 gene. Amino acid analysis showed that it has 74% identity to the mouse teashirt1 protein and possesses zinc-finger motifs 1, 2, and 3. In situ hybridization data revealed that it is mainly expressed in the follicle bulb, including dermal papilla and matrix cells. As the proliferation of bulb cells is important to follicle development during this period, the finding of its strong expression on d 3-5 suggests that the identified gene is a potential candidate for follicle growth.
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PMID:A novel gene homologous to teashirt is differentially expressed in neonatal mouse skin during development of hair follicles. 1545 59

A ribonuclease, with a molecular mass of 9 kDa and an N-terminal sequence resembling the sequence of a fragment of tRNA/rRNA cytosine-C5-methylase and a fragment of a alanyl-tRNA synthetase, was isolated from fresh fruiting bodies of the brown oyster mushroom Pleurotus ostreatus. The ribonuclease was purified using a very simple protocol that comprised ion-exchange chromatography on carboxymethyl (CM)-cellulose and affinity chromatography on Affi-gel blue gel. Subsequent gel filtration by fast protein liquid chromatography on Superdex 75 and sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis revealed that the ribonuclease was purified after the first two chromatographic steps. The ribonuclease was adsorbed on CM-cellulose and Affi-gel blue gel. The ribonuclease exhibited the highest activity toward poly A, lower activity toward poly C, slight activity toward poly G, and indiscernible activity toward poly U. The enzyme was stimulated upon exposure to 1 microm Mg2+ and 10 microm Zn2+, but was inhibited by the following ions at 10 mm: Ca2+, Mg2+, Zn2+, Cu2+, Fe2+, Mn2+, and Fe3+. The ribonuclease required a pH of 8.0 and a temperature of 50-70 degrees C to express maximal activity. It had a Km of 60 microm toward yeast tRNA. It lacked mitogenic and HIV-1 reverse transcriptase inhibiting activities, but exerted antiproliferative activity toward leukemia L1210 cells.
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PMID:A low-molecular mass ribonuclease from the brown oyster mushroom. 1594 90

Mitochondrial aconitase (mACON) contains a [4Fe-4S] cluster as the key enzyme for citrate oxidation in the human prostatic epithelial cell. Although there is accumulating evidence indicating that accumulation of high levels of zinc in prostate epithelial cells causes reduced efficiency of citrate oxidation, zinc regulation on the mACON is still not well understood. From in vitro studies, zinc chloride treatment has been developed using humic acid as the carrier (Zn-HA) in human prostatic carcinoma cells, PC-3. Zn-HA treatment (0.1-10 microM) restricts mACON enzymatic activity, which attenuates citrate utility and decreases intracellular ATP levels in PC-3 cells, whereas the effect is blocked by adding the zinc chelator, diethylenetriaminepentaacetic acid (DTPA). Immunoblot, ribonuclease-protection and transient gene-expression assays indicate that Zn-HA treatments inhibit mACON gene expression. Mutation of the putative metal response element (MRE) from CTCGCCTTCA to TGATCCTTCA abolishes Zn-HA inhibition of mACON promoter activity. Our results have demonstrated that zinc possesses a specific regulatory mechanism on the mACON gene, and a biologic function of the putative metal regulatory system in mACON gene transcription has been identified.
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PMID:Zinc blocks gene expression of mitochondrial aconitase in human prostatic carcinoma cells. 1609 33

At pH 6.5, a ribonuclease(s) is associated with ribosomes isolated from corn (Zea mays L.) and cannot be removed by repeated differential centrifugation or by sedimenting through the sucrose gradient. The enzyme is active under conditions favoring the maintenance of integrity of the ribosomes. Little or no latent ribonuclease appears to be present. The activity of the enzyme at pH 5.8 is stimulated by KCl and inhibited by polyvinyl sulfate, zinc, and bentonite. Deoxyribonuclease is also found on the particles.The enzyme can be removed from ribosomes by adsorption onto bentonite. Ribosomes are also adsorbed but to a much lesser extent at low bentonite concentrations. The enzyme is easily dissociated from ribosomes by raising the pH to 8.5, and readsorbed when the pH is lowered.The ribonuclease activity on ribosomes shows a sharp increase with cell age that parallels closely the increase in total activity in the homogenate. The ratio of activities of deoxyribonuclease to ribonuclease on ribosomes also changes with cell age and again the changes appear to reflect changes in the homogenate. It is suggested that most of the association of ribonuclease with corn ribosomes may not be meaningful in vivo and occurs only after the cells are ruptured.
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PMID:Ribonuclease Activity Associated With Ribosomes of Zea mays. 1665 19


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