EC:3.1.27.1 - FACTA Search

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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The synthetic polyribonucleotides adenylic acid (poly A), uridylic acid (poly U), cytidylic acid (poly C), and inosinic acid (poly I), whether single- or double-stranded (poly A:U, poly I:C), cannot replace mycobacterial ribonucleic acid (RNA) in the production of a high immune response in CF-1 mice against tuberculous disease. These conclusions are based on the results of several types of experiments. (i) Poly A and poly U, used either singly or in combination, did not increase the immunogenicity of mycobacterial RNA preparations whether emulsified in Freund's incomplete adjuvant (FIA) or not emulsified. (ii) Mycobacterial ribosomal protein, extracted with 2-chloroethanol, was not immunogenic; the addition of poly A:U to the protein did not produce an immune response and FIA did not affect these results. (iii) The RNA left after the protein was extracted was partially immunogenic when emulsified in FIA even though it was partially degraded. (iv) Mycobacterial RNA prepared with ethyl alcohol and partially degraded with ribonuclease had a significantly lower immunogenic activity, and the original higher immune response was not restored by the addition of poly A:U. (v) Mycobacterial RNA totally degraded by weak alkali was not immunogenic, the original immunogenic activity was not restored by the addition of poly A:U or poly I:C, and FIA again did not influence the results. These findings suggest that (i) protein, polypeptides, or other antigenic fragments, if present, are not the specific immunogens; and (ii) mycobacterial RNA is responsible for the high immunogenic activity of mycobacterial ribosomal and RNA preparations. In addition, since the double-stranded forms of these synthetic polynucleotides markedly potentiate the formation of circulating antibodies, these results also reemphasize the lack of correlation between conventional antibody formation and immunity against tuberculosis.
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PMID:Failure of synthetic polynucleotides to affect the immunogenicity of mycobacterial ribonucleic Acid and ribosomal protein preparations. 1655 31

Poly-l-lysine, poly-alpha, gamma-diaminobutyric acid and basic proteins cause efflux of betacyanin from beet root tissues to varying degrees. Membrane activities fall in the order: polylysine > poly-alpha, gamma-diaminobutyric acid > polyarginine (protamine), suggesting the importance of steric factors in side-chain to backbone relations. It was also observed that homopolymer activity > heteropolymer activity, using ribonuclease and lysozyme as examples of the latter. Among polylysines, there appears to be an optimal chain length at a molecular weight equal to 50,000. Lowered activity of larger polymers is interpreted in terms of a diffusion barrier, the cell wall.Polylysine and Ca(++) exhibit competitive kinetics, and Ca(++) otherwise is far more active than other cations. It is assumed that polylysine displaces Ca(++) from anionic centers on the membrane, but cannot confer equivalent dimensional stability, rendering the membrane leaky. The possible role of cationic shielding in ionic stabilization of the membrane was also considered. The order of divalent ion activity against polylysine was Ca(++) > Sr(++) > Mg(++), suggesting again a specific size-fit relationship.
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PMID:Regulation of betacyanin efflux from beet root by poly-L-lysine, ca-ion and other substances. 1665 19

Increases in phenylalanine ammonia lyase activity and pisatin synthesis were induced in excised pea pods (a) by basic polypeptides such as protamine, histone, lysozyme, cytochrome c, and ribonuclease; (b) by the polyamines spermine, spermidine, cadaverine, and putrescine, and (c) by the synthetic oligopeptides poly-l-lysine, poly-dl-ornithine, and poly-l-arginine.Poly-l-lysine (1 milligram per milliliter, molecular weight 7,200) was utilized as a model inducer of pisatin and phenylalanine ammonia lyase. The poly-l-lysine-induced responses could be inhibited by adding the RNA synthesis inhibitors cordycepin or alpha-amanitin to the pods prior to or at the time of inducer application. Cordycepin added 1.5 hours after inducer no longer completely inhibited induction. The application of poly-l-lysine was shown to characteristically change the rate of RNA synthesis within 30 minutes. Ultrastructural changes in pea nuclei were detected within 3 hours, and gross changes in nuclear morphology were apparent at 14 hours after inducer application. The physical appearance of uranyl acetate-stained chromatin isolated from poly-l-lysine 2 hours after inducer application differed from that of water-treated tissues. The template properties of chromatin extracted from pods 3 hours after inducer application were consistently superior to control chromatin when assayed with Escherichia coli RNA polymerase (without sigma factor). Chromatin from poly-l-lysine-induced tissue also bound 49% more actinomycin D-(3)H.The DNA-complexing properties of inducer compounds and the induced changes in the template and dye-binding properties of pea chromatin formed the basis for a proposed mode of action for phytoalexin induction.
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PMID:Mode of Pisatin Induction: Increased Template Activity and Dye-binding Capacity of Chromatin Isolated from Polypeptide-treated Pea Pods. 1665 52

In vitro binding experiments were carried out using (32)P-labeled cells of the virulent Agrobacterium tumefaciens strain B6 and Datura innoxia cells from suspension culture. Binding kinetics showed that adherence of bacteria to Datura cells increased gradually during the first 60 minutes and attained a maximum level within 120 minutes of incubation. Maximum binding occurred at pH 6.0. The presence of Ca(2+) and Mg(2+) reduced binding slightly and EDTA had little effect at concentrations of 0.1 to 10 millimolar. The binding of bacteria to Datura cells was temperature-dependent. Escherichia coli, Salmonella typhimurium, Rhizobium japonicum, and Micrococcus lysodeikticus did not compete with virulent A. tumefaciens strain B6 for binding to Datura cells. The admixture of avirulent A. tumefaciens strain IIBNV6 enhanced adherence of virulent A. tumefaciens strain B6 to Datura cells. Octopine had no effect on the binding of virulent A. tumefaciens strain B6 to Datura cells, but 10 millimolar canavanine was inhibitory. Arginine enhanced the adherence of the bacteria at concentrations higher than 0.1 millimolar. Incubation with DNase, RNase, and lipase did not affect the binding, but protease stimulated the adherence of bacteria to Datura cells. Concanavaline A and soybean lectin had little effect whereas lecithin and lysolecithin enhanced binding slightly. Poly-l-lysine markedly stimulated the bacteria-plant cell adherence. Cells from suspension cultures of pea, vetch, and soybean had a 2- to 3-fold higher binding capacity than Datura cells, whereas cells from wheat, corn, rice, and sorghum had a considerably lower affinity for binding with virulent A. tumefaciens strain B6. Bacterial adherence to plant cells was confirmed by autoradiography and electron microscopy. Autoradiographic analysis showed that bacteria were associated with the cell wall, and that often binding of bacteria was localized. Electron micrographs clearly illustrated a tight association of virulent A. tumefaciens strain B6 cells to the Datura cell wall.
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PMID:In Vitro Binding of Agrobacterium tumefaciens to Plant Cells from Suspension Culture. 1666 Jul 32

Poly(A)-specific ribonuclease (PARN), a member of the DEDD family, is a key enzyme involved in the deadenylation of mRNA in higher eukaryotic cells. In this research, it was found that Mg(2+) could protect PARN against thermal inactivation by increasing the midpoint of inactivation and decreasing the inactivation rate. This protective effect was unique to Mg(2+) in a concentration-dependent manner. However, the thermal unfolding and aggregation was promoted by the addition of Mg(2+) at high temperatures. These results revealed that Mg(2+) might have dual effects on PARN stability: protecting the active site but endangering the overall structural stability.
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PMID:Effect of magnesium ions on the thermal stability of human poly(A)-specific ribonuclease. 1730 97

Poly(A) specific ribonuclease (PARN), which contains a catalytic domain and two RNA-binding domains (R3H and RRM), acts as a key enzyme in eukaryotic organisms to regulate the stability of mRNA by degrading the 3' poly-(A) tail. In this research, the activity, structure and stability were compared between the full-length 74kDa PARN, the proteolytic 54kDa fragment with half of the RRM, and a truncated 46kDa form completely missing the RRM. The results indicated that the 46kDa one had the lowest activity and substrate binding affinity, the most hydrophobic exposure in the native state and the least stability upon denaturation. The dissimilarity in the activity, structure and stability of the three PARNs revealed that the entire RRM domain not only contributed to the substrate binding and efficient catalysis of PARN, but also stabilized the overall structures of the protein. Spectroscopic experiments suggested that the RRM domain might be structurally adjacent to the R3H domain, and thus provide a basis for the cooperative binding of poly(A) by the two RNA-binding domains as well as the catalytic domain.
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PMID:Role of the RRM domain in the activity, structure and stability of poly(A)-specific ribonuclease. 1739 38

Poly(A)-specific ribonuclease (PARN), a key enzyme involved in eukaryotic mRNA decay, contains one catalytic domain and two RNA-binding domains. Here we found that at least one RNA-binding domain is required for the substrate binding, but not for the catalysis of PARN. The removal of the R3H domain led to a dramatic decrease in PARN stability and a change in the aggregation kinetic regime, while only minor effects were observed for the removal of the RRM domain or both RNA-binding domains. Thus the R3H domain might stabilize PARN by acting as a protector or intermolecular chaperone of the RRM domain.
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PMID:The R3H domain stabilizes poly(A)-specific ribonuclease by stabilizing the RRM domain. 1762 2

Poly(A)-specific ribonuclease (PARN) is an oligomeric, processive and cap-interacting 3' exoribonuclease that efficiently degrades mRNA poly(A) tails. Here we show that the RNA recognition motif (RRM) of PARN harbors both poly(A) and cap binding properties, suggesting that the RRM plays an important role for the two critical and unique properties that are tightly associated with PARN activity, i.e. recognition and dependence on both the cap structure and poly(A) tail during poly(A) hydrolysis. We show that PARN and its RRM have micromolar affinity to the cap structure by using fluorescence spectroscopy and nanomolar affinity for poly(A) by using filter binding assay. We have identified one tryptophan residue within the RRM that is essential for cap binding but not required for poly(A) binding, suggesting that the cap- and poly(A)-binding sites associated with the RRM are both structurally and functionally separate from each other. RRM is one of the most commonly occurring RNA-binding domains identified so far, suggesting that other RRMs may have both cap and RNA binding properties just as the RRM of PARN.
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PMID:A multifunctional RNA recognition motif in poly(A)-specific ribonuclease with cap and poly(A) binding properties. 1778 61

Obtaining highly specific and active ribonuclease activities is an important goal with numerous medical and biochemical applications. As a step toward more active and specific ribonucleases, we describe the preparation and the enzymatic and structural properties of RNase S monomers and dimers conjugated to DNA and PNA molecules. Poly(dT)n (2'-oligodeoxyribonucleotides, n = 8, 15) and t8 peptide nucleic acid (PNA) chains have been conjugated to the S-peptide of ribonuclease S. Monomers and dimers of the conjugated enzyme have been obtained and characterized by 1H NMR spectroscopy, showing that DNA or PNA conjugation does not alter the native structure of ribonuclease S. The oligonucleotide-conjugated RNase S monomer and dimer show significant activity against single-stranded RNA and very low/negligible hydrolysis of double-stranded poly(A).poly(U). In contrast, the t8-conjugated RNase S monomer and dimer show substantial activity against both ssRNA and dsRNA. These results highlight the importance of positive charges near but not in the active site in enhancing activity against dsRNA and reveal the promise of PNA-RNase conjugates for modulating RNase activity.
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PMID:Preparation of ribonuclease S domain-swapped dimers conjugated with DNA and PNA: modulating the activity of ribonucleases. 1816 47

The degradation of the poly(A) tail is crucial for posttranscriptional gene regulation and for quality control of mRNA. Poly(A)-specific ribonuclease (PARN) is one of the major mammalian 3' specific exo-ribonucleases involved in the degradation of the mRNA poly(A) tail, and it is also involved in the regulation of translation in early embryonic development. The interaction between PARN and the m(7)GpppG cap of mRNA plays a key role in stimulating the rate of deadenylation. Here we report the solution structures of the cap-binding domain of mouse PARN with and without the m(7)GpppG cap analog. The structure of the cap-binding domain adopts the RNA recognition motif (RRM) with a characteristic alpha-helical extension at its C-terminus, which covers the beta-sheet surface (hereafter referred to as PARN RRM). In the complex structure of PARN RRM with the cap analog, the base of the N(7)-methyl guanosine (m(7)G) of the cap analog stacks with the solvent-exposed aromatic side chain of the distinctive tryptophan residue 468, located at the C-terminal end of the second beta-strand. These unique structural features in PARN RRM reveal a novel cap-binding mode, which is distinct from the nucleotide recognition mode of the canonical RRM domains.
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PMID:The RRM domain of poly(A)-specific ribonuclease has a noncanonical binding site for mRNA cap analog recognition. 1864 16

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