EC:3.1.27.4 - FACTA Search

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Query: EC:3.1.27.4 (ribonuclease)
6,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The primary structure of a non-secretory ribonuclease from bovine kidney (RNase K2) was determined. The sequence determined was VPKGLTKARWFEIQHIQPRLLQCNKAMSGV NNYTQHCKPENTFLHNVFQDVTAVCDMPNIICKNGRHNCHQSPKPVNLTQCNFIAGRYPDC RYHDDAQYKFFIVACDPPQKTDPPYHLVPVHLDKYF. The sequence homology with human non-secretory RNase, bovine pancreatic RNase, and human secretory RNase are 46, 34.6, and 32.3%, respectively. The bovine kidney RNase has two inserted sequences, a tripeptide at the N-terminus and a heptapeptide between the 113th and 114th position of bovine pancreatic RNase; on the other hand, it is deleted of the hexapeptide consisting of the 17th to the 22nd amino acid residue of RNase A. The amino acid residues assumed to be the constituents of the bovine pancreatic RNase active site are all conserved except F120 (L in RNase K2).
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PMID:Primary structure of a non-secretory ribonuclease from bovine kidney. 318 69

The primary structure of a pyrimidine base-specific ribonuclease from bovine brain was determined. The sequence determined is (sequence; see text). Although the sequence homology of this RNase with bovine pancreatic RNase A is 78.2%, it consists of 140 amino acid residues, and it is 16 amino acid residues longer than RNase A at the carboxyl-terminal. In addition to an N-glycosylated long carbohydrate chain, the bovine brain RNase has two short O-glycosylated carbohydrate chains at the 129th and the 133rd serine residues. The additional C-terminal tail of the bovine brain RNase has a unique composition: 6 proline, 5 hydrophobic amino acids, and two basic amino acids, arginine and histidine.
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PMID:Primary structure of a ribonuclease from bovine brain. 324 67

An inactivated gene for Bacillus amyloliquefaciens extracellular ribonuclease (barnase) has previously been cloned and sequenced following transposon mutagenesis. The intact gene could not be assembled in Escherichia coli and is presumed to be lethal. Therefore, we introduced specific mutations into the barnase gene to prevent its lethal effect. A Gln-73 mutant gene was stable in E. coli but only produced low amounts of barnase antigen. Mutants containing Asp, Gln or Arg, instead of His-102, at the active site were identified by immunological screening for barnase antigen. None of the mutant proteins with alterations at aa residue 102 possessed RNase activity. The level of barnase (Asp-102) was higher in E. coli than in B. subtilis but the protein was not processed to the correct size in E. coli. To obtain correct processing, the barnase (Asp-102) structural gene was fused to the E. coli alkaline phosphatase promoter and signal sequence (phoA). Cells containing this construct secreted correctly processed barnase (Asp-102) into the periplasmic space and culture supernatant at a level of 20 mg/l. Barnase (Asp-102) was purified and found to have an identical N-terminus and a thermal unfolding curve that was nearly identical to that of active barnase (His-102). The cloning and expression of barnase in E. coli will allow detailed analysis of barnase protein folding by molecular genetic approaches.
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PMID:Expression of Bacillus amyloliquefaciens extracellular ribonuclease (barnase) in Escherichia coli following an inactivating mutation. 329 26

The secondary and tertiary structures of Xenopus oocyte and somatic 5S rRNAs were investigated using chemical and enzymatic probes. The accessibility of both RNAs towards single-strand specific nucleases (T1, T2, A and S1) and a helix-specific ribonuclease from cobra venom (RNase V1) was determined. The reactivity of nucleobase N7, N3 and N1 positions towards chemical probes was investigated under native (5 mM MgCl2, 100 mM KCl, 20 degrees C) and semi-denaturing (1 mM EDTA, 20 degrees C) conditions. Ethylnitrosourea was used to identify phosphates not reactive towards alkylation under native conditions. The results obtained confirm the presence of the five helical stems predicted by the consensus secondary structure model of 5S rRNA. The chemical reactivity data indicate that loops C and D are involved in a number of tertiary interactions, and loop E folds into an unusual secondary structure. A comparison of the data obtained for the two types of Xenopus 5S rRNA indicates that the conformations of the oocyte and somatic 5S rRNAs are very similar. However, the data obtained with nucleases under native conditions, and chemical probes under semi-denaturing conditions, reveal that helices III and IV in the somatic 5S rRNA are less stable than the same structures in oocyte 5S rRNA. Using chimeric 5S rRNAs, it was possible to demonstrate that the relative resistance of oocyte 5S rRNA to partial denaturation in 4 M urea is conferred by the five oocyte-specific nucleotide substitutions in loop B/helix III. In contrast, the superior stability of oocyte 5S rRNA in the presence of EDTA is related to a single C substitution at position 79.
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PMID:A comparison of the solution structures and conformational properties of the somatic and oocyte 5S rRNAs of Xenopus laevis. 335 78

Previous work has shown that in the peptide segment 62-76 of naturally deamidated alpha subunit of bovine seminal ribonuclease (BS-RNase) the alpha-carboxyl group of iso-Asp67 is selectively methylated by S-adenosylmethionine:protein carboxyl O-methyltransferase [Di Donato, A., Galletti, P., & D'Alessio, G. (1986) Biochemistry 25, 8361-8368]. In the present study this reaction has been characterized, by using the tryptic segment 62-76 of the protein chain (peptide alpha 16). The peptide is stoichiometrically methyl esterified with a Km of 6.17 microM and a Vmax of 19.56 nmol min-1 mg-1, and the product of demethylation has been identified as the cyclic succinimidyl derivative of iso-Asp67-Gly68. The cleavage of the succinimidyl ring yields two isomeric peptides containing an aspartyl residue (peptide alpha 17) and an isoaspartyl residue (peptide alpha 16). On the basis of these results conditions were defined in which repeated cycles of methylation-demethylation led to an effective conversion of peptide alpha 16 into peptide alpha 17, a process that can be interpreted as the repair of an altered isopeptide bond. When the methyl esterification reaction was studied on the native dimeric isoenzymes of seminal RNase and on catalytically active monomeric derivatives, including a stabilized alpha-type subunit, the results of these experiments showed that none of the protein forms were substrates for the methyltransferase. Only the unfolded alpha-type subunit was methylated to a stoichiometric extent. These results indicate that the repair of altered isopeptide bonds is chemically feasible in peptides but is hindered in the case of seminal RNase by its three-dimensional structure.
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PMID:Repair of isopeptide bonds by protein carboxyl O-methyltransferase: seminal ribonuclease as a model system. 336 22

The primary structure of a base non-specific ribonuclease from Rhizopus niveus (RNase Rh) was determined by nucleotide sequence analysis of the DNA fragment encoding RNase Rh gene including signal peptide sequence, and amino acid sequence analysis of the peptide obtained from RNase Rh and RNase Rh' (a protease-modified RNase Rh created during the course of purification). The sequence determined was: MKAVLALATLIGSTLASSCSSTA LSCSNSANSDTCCSPEYGLVVLNMQWAPGYGPANAFTLHGLWPDKCSGAYAPSGGCDSN RASSSIASVIKSKDSSLYNSMLTYWPSNQGNNNVFWSHEWSKHGTCVSTYDPDCYDNYE EGEDIVDYFQKAMDLRSQYNVYKAFSSNGITPGGTYTATEMQSAIESYFGAKAKIDCSSG TLSDVALYFYVRGRDTYVITDALSTGSCSGDVEYPTK (the sequence of signal peptide is underlined). The sequence indicates that the homology with the sequence of RNase T2 from A. oryzae with the same base specificity is about 42% and that the sequences around the two histidine residues which are supposed to be involved in the active site are fairly conserved.
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PMID:Primary structure of a base non-specific ribonuclease from Rhizopus niveus. 339 95

Human placental ribonuclease inhibitor (PRI) abolishes both the ribonucleolytic activity of angiogenin toward 28S and 18S rRNA and its angiogenic activity on the chicken embryo chorioallantoic membrane. Treatment of the angiogenin-PRI complex with p-hydroxymercuribenzoate releases enzymatically active angiogenin. Assays measuring competition between angiogenin and bovine pancreatic ribonuclease A for PRI reveal that binding of the inhibitor to angiogenin is extremely tight, with a Ki value well below 0.1 nM. The stability of the angiogenin-PRI complex was assessed by cation-exchange HPLC quantitation of free angiogenin. No significant dissociation was detected after 17 hr at 25 degrees C in the presence of a large excess of bovine ribonuclease, which serves as a scavenger for free inhibitor. The results of these experiments, based on the predictive capacity of the angiogenin/RNase homology, suggest that PRI and related inhibitors may participate in the in vivo regulation of angiogenin and that this might have pharmacologic and/or therapeutic implications.
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PMID:Human placental ribonuclease inhibitor abolishes both angiogenic and ribonucleolytic activities of angiogenin. 347 Jul 87

Natural dimer of bovine seminal ribonuclease (AS RNase) suppressed markedly DNA synthesis in allogeneic mixed lymphocyte culture (MLC) of normal human lymphocytes and simultaneously inhibited induction of cytotoxic effector cells within the sensitization phase of indirect cell-mediated lympholysis (CML) reaction. The last purification step of the AS RNase isolation procedure did not increase the suppressive activity of AS RNase compared to a less purified preparation (ZS RNase), thus, the later preparation was mostly used. ZS RNase (10 micrograms/ml) caused 50% inhibition of MLC reaction whereas pancreatic ribonuclease (A RNase) was 10 times less effective. The suppressive effect of RNases added in the beginning of the sensitization phase of the CML reaction correlated with that observed in the MLC reaction. The concentrations of ZS RNase (10 micrograms/ml), A RNase (100 micrograms/ml), and additionally tested cyclosporin A (0.5 microgram/ml) resulted in nearly total abrogation of cytolysis in CML. ZS RNase added after the sensitization of effector cells did not influence their cytolytic action on target cells within the destruction phase of CML. Natural killer and killer cell activities in normal peripheral lymphocytes were not inhibited by ZS RNase at the concentration of 330 micrograms/ml. ZS RNase (20 micrograms/ml), cocultivated 1 h with normal human bone marrow cells and then washed off, enhanced formation of GM-CFC colonies in semisolid agar culture up to 200%. Simultaneously tested antilymphocyte globulin increased the number of GM-CFC colonies at the average of 128%. This stimulating effect on colony formation appeared also in bone marrow culture of patients suffering with various hematological disorders. The possibility of utilizing the preparations gained from seminal plasma in clinical bone marrow transplantation is discussed.
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PMID:Effect of ribonucleases on cell-mediated lympholysis reaction and on GM-CFC colonies in bone marrow culture. 349

The site of in vitro ADP-ribosylation of seminal ribonuclease was determined. Seminal enzyme was found to be a good receptor of [14C]ADP-ribose residues under the reaction conditions used. The recovery of [14C]ADP-ribosylated RNase was about 65% after purification. After tryptic digestion of modified enzyme, a fraction containing [14C]ADP-ribosylated peptides was separated from the others by ion-exchange chromatography on M82 resin. Radioactive peptides were then purified by affinity chromatography on anti-poly(ADP-ribose)IgG-Sepharose. High performance liquid chromatography of a mixture obtained after pronase digestion of purified ADP-ribosylated peptides revealed only one radioactive peptide whose amino acid composition corresponded to a peptide that has equimolar quantities of aspartic acid, serine, and glycine. Carboxypeptidase Y digestion of this peptide showed that its amino acid sequence was Asp-Ser-Gly. Only position 14-16 of seminal RNase corresponded to this sequence. The chemical stability of the ADP-ribose/enzyme linkage indicated that aspartic acid 14 is the modification site in seminal RNase.
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PMID:In vitro poly(ADP-ribosyl)ation of seminal ribonuclease. 370 Mar 84

The S-peptide and S-protein fragments of ribonuclease S (RNase S, no EC no. assigned) have been immobilized onto separate Sepharose gels via a "leash" of polycytidylic acid substrate. Each of these gels releases its RNase fragment when treated with the complementary enzyme fragment or with RNase A (EC 3.1.27.5), and the released fragments recombine to give RNase S activity. Thus this system provides substrate-leash amplification (SLA), such that more enzymatic activity is eluted from the system than is applied. For example, 100 pg of RNase applied to the S-peptide gel is amplified by 1.9 X 10(4) to the equivalent of 1.9 micrograms of activity in 20 h, when followed by combination of the released S-peptide with excess S-protein. We also tested a three-stage amplification system, with a pair of S-peptide and S-protein gels at each stage. In this system the cumulative amplification of the initial 1-ng dose of RNase A is 4.9, 52, and 25-fold after each stage, respectively. Only 2 mg of each SLA gel is used per stage in these experiments, reflecting the magnitude of their production of RNase S activity.
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PMID:Substrate-leash amplification with ribonuclease S-peptide and S-protein. 374 90

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