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:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Severe degradation of high molecular weight RNA was shown to occur during incubation with commercially purified DNase. Most of the RNase activity could be removed by passage of the DNase through a column of agarose-coupled amino phenylphosphoryl-uridine-2' (3')-phosphate. Incubation with the treated DNase caused only minimal alteration of the sedimentation pattern of high molecular weight nuclear RNA, determined under partially denturing conditions. No impairment of DNase activity was detected.
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PMID:Removal of RNase activity from DNase by affinity chromatography on agarose coupled aminophenylphosphoryl-uridine-2' (3')-phosphate. 86 76

Total cellular RNA was isolated from the ciliate protozoan Paramecium aurelia by pH 9.5 chloroform/octanol extraction. Passage of this RNA through an oligo(dT)-cellulose column in 0.5 M NaCl resulted in 2--3% binding, indicating the presence of polyadenylic acid sequences. These polyadenylic acid regions were estimated to be 250-500 nucleotides in length, based on their resistance to ribonuclease degradation. The oligo(dT)-cellulose bound RNA sedimented at 14--25 S in sodium dodecyl sulphate/sucrose gradients. The base composition of this RNA is similar to the base composition of the DNA. This RNA was also actively translated into protein by an in vitro protein synthesizing system isolated from wheat germ. Translation was optimal under conditions similar to those used for mammalian mRNA translation. In addition, translation of the P. aurelia oligo(dT)-cellulose bound RNA was inhibited 80% by the analog 7-methylguanosine-5'-phosphate, suggesting the presence of a 5'-capped terminus.
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PMID:Isolation and characterization of mRNA from Paramecium aurelia. 88 13

The nucleoprotein of the WSN strain of influenza was found to be phosphorylated in vitro. The phosphate-protein bond was stable to hot trichloroacetic acid, RNase, DNase, succinic acid, and succinic acid-hydroxylamine, but sensitive to hydrolysis by bacterial alkaline phosphatase. This suggested that the nucleoprotein is in the form of a phosphomonoester. Acid hydrolysis of the isolated nucleoprotein followed by thin-layer electrophoresis identified the phosphorylated amino acid residue as phosphoserine.
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PMID:Phosphorylated protein component present in influenza virions. 90 30

The rate of hydrolysis of protein-methyl ester, the enzymatic product of S-adenosylmethionine: protein-carboxyl methyltransferase (EC.2.1.1.24) acting on oxidized ribonuclease, was measured at pH 7.1 and 8.6 at 37 degrees C. The half-life of the hydrolysis of the ester is 25 min at pH 7.1, and 4 min at 8.6. The rate of hydrolysis of the enzymatically formed esters at pH 7.0, in 0.1 M phosphate buffer, was about 25 times faster than that of esters formed chemically by reaction with methanol in HCl. The lability of the enzymatically synthesized protein-methyl ester suggests that the esterification is specific to sites such that ionization of neighboring amino acid side chains enhances the rate of the hydrolysis.
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PMID:Labile protein-methyl ester: comparison between chemically and enzymatically synthesized. 95 34

O antigen extracted from whole cells of Bacteroides fragilis ss. fragilis NCTC 9343 with 45 per cent aqueous phenol has been purified by gel filtration and chromatography. First, the water phase was treated with RNase and DNase and passed through a column of agarose. The chromatographic procedures included ion exchange on a column of DEAE-cellulose and adsorption to hydroxylapatite. The O antigen was eluted from the DEAE-cellulose with a gradient of NaCl, and from the column of hydroxylapatite with 1 M phosphate buffer, pH 6.8. Inhibition of indirect haemagglutination was used to detect the O antigen in the eluates.
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PMID:Purification of the O antigen of Bacteroides fragilis ss. fragilis NCTC 9343 from phenol-water extracts by gel filtration and chromatography on deae-cellulose and hydroxylapatite. 96 34

In order to investigate the base specificity of the minor RNase [EC 3.1.4.23] from Aspergillus saitoi, the kinetic constant of the enzyme was measured with 16 dinucleoside phosphates (XpY's) as substrates at pH 5.5 and 25 degrees. The maximum rates of transesterification of GpY's were in the range of 10,000 to 2,800 and were markedly larger than those of other XpY's, including XpG's. The average Km values of UpY, CpY, ApY, and GpY increased in the order A, C, U, and G. This order coincides with that of the rates of release of 4 common nucleotides from RNA by RNase Ms (the rates decreased in the order 3'-GMP, 3'-AMP, 3'-CMP, and 3'-UMP), except for the case of GpY. Therefore the rates of release of nucleotides seem to be dependent on the affinity constant of the X base in XpY, except in the case of GpY. The high rate of release of guanylic acid from RNA was explained by the findings that higher rates of hydrolysis of GpY's compensate for their lower affinity to the enzyme. These results suggested that the base specificity was rather dependent upon the X nucleotide in XpY. The Ki values of various nucleotides and nucleosides towards RNase Ms were measured. These compounds inhibited the RNase competitively. Although the inhibitory effect depends on the bases, sugars and location of phosphate, when the location of phosphate on the sugar was the same, the Ki values of ribonucleotides decreased in the order U, G, C, and A and those of deoxyribonucleotides decreased in the order T, G, C, and A. The dependence of the inhibitory effect of ribonucleosides on the bases was similar to that of ribonucleotides, but that of deoxyribonucleosides was in the order dT, dA, dG, and dC.
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PMID:Further studies on the specificity of the minor ribonuclease from Aspergillus saitoi. 96 65

The fluorescence lifetimes and relative quantum yields of several derivatives of tyrosine are reported. The quenching of the fluorescence of these compounds by phosphate, caesium and iodide ions has been investigated; the encounter rate constants, calculated from the quenching parameters and lifetimes, show a clear dependence on the charges borne by the quenchers and fluorophores. The ratio of the Stern-Volmer constants of iodide and caesium, ions of similar size, defines an electrostatic parameter sensitive to the charge of the fluorophore which can be evaluated without knowledge of the fluorescent lifetimes. The mean of the encounter rate constants for caesium and iodide ions defines a rate constant which is largely charge-independent and is used to establish a steric parameter. The two parameters are used to investigate the tyrosine environment in bovine ribonuclease A (EC 3.1.4.23) and Erwinia carotovora L-asparaginase (EC 3.5.1.1). The quantum yield of L-asparaginase (0.12) is very high for a class A protein and may be associated with the absence of disulphide bridges. There was no evidence for more than one type of tyrosine residue from the quenching experiments with either enzyme, an observation which is attributed to efficient energy transfer amongst tyrosine residues. At pH values close to the isoelectric points of the enzymes the electrostatic parameter suggests that the environment of the quenchable tyrosines in L-asparaginase is somewhat more positive than in ribonuclease. In 1% sodium dodecyl sulphate the tyrosine environment of L-asparaginase becomes markedly negative as expected. The steric parameter indicates a lower accessibility of the tyrosine residues in L-asparaginase than in ribonuclease; an illustrative calculation is provided linking the steric parameter with the number of exposed tyrosine residues by taking into account the greater collision frequency of the larger protein molecules and the encounter distance for quenching determined from charge effects on the quenching of the model compounds. The calculation suggests that three tyrosyl residues are accessible in ribonuclease, in good agreement with other studies, but in L-asparaginase the number increases from 0.4 at pH 5.73 to 0.8 at pH 9.16 suggesting a loosening of the enzyme structure at high pH.
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PMID:An investigation of the electronic and steric environments of tyrosyl residues in ribonuclease A and Erwinia carotovora L-asparaginase through fluorescence quenching by caesium, iodide and phosphate ions. 98 70

1. An acid ribonuclease was partially purified from an acetone powder of porcine brain. This enzyme was an acidic protein with a molecular weight of aroung 70,000. It acted on yeast RNA optimally at about pH 5.9, yielding only a mixture of 3'-mononucleotides, and therefore appears to be an exonuclease. It did not hydrolyze heat-denatured calf thymus DNA or bis(rho-nitrophenyl) phosphate. It was fairly unstable to heat and acid. 2. An alkaline ribonuclease was partially purified from the same source simultaneously. This enzyme was a basic protein with a molecular weight of 25,000-26,000. It was a pyrimidine-specific endoribonuclease, and acted on yeast RNA optimmally at around pH 7.4. It did not hydrolyze heat-denatured calf thymus DNA or bis(rho-nitrophenyl) phosphate. It was fairly stable to heat and acid.
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PMID:Ribonucleases from porcine brain. Partial purification and properties. 101 Aug 44

Cytidine and 4-N-acetylcytidine were compared as phosphate acceptors in dinucleoside monophosphate synthesis catalyzed by pancreatic ribonuclease with uridine-2',3'-cyclophosphate and cytidine-2',3'-cyclo phosphate as phosphate donors. Because of low solubility of 4-N-acetylcytidine in water, the synthesis was carried out in aqueus-organic media. The results obtained indicate that acetylation of the exoaminogroup of cytidine decreases its acceptor activity. For the first time uridilyl-(3'-5')-4-N-acetylcytidine and cytidilyl-(3'-5')-4-N-acetylcytidine are prepared enzymatically by pancreatic ribonuclease.
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PMID:[Acceptor activity of 4-N-acetylcytidine in the synthesis of (3'-5')-internucleotide bond catalyzed by pancreatic nuclease]. 102 91

The kinetics of the refolding reaction of ribonuclease A from high concentrations of guanidine hydrochloride or urea are biphasic, and show two refolding reactions whose rates differ 450-fold at pH 5.8 and 25 degrees. Measurements of cytidine 2'-phosphate binding during refolding, after stopped-flow dilution of guanidine hydrochloride (Gdn.HCl) or urea, show that functional bovine pancreatic ribonuclease A (RNase A; ribonucleate 3'-pyrimidino-oligonucleotidohydrolase, EC 3.1.4.22) is formed in both the fast and slow phases of the refolding process. We conclude that the guanidine-unfolded state of RNase A is an equilibrium mixture of fast- and slow-refolding species, as was found previously for the heat-unfolded state at low pH. The fraction of the fast-refolding species in guanidine or urea-unfolded RNase A is the same as that in the heat-unfolded protein at pH 2. Previous work has shown that the fast-refolding species disappears as the pH is raised from 3 to 5 for heat-unfolded RNase A. This pH effect is not present in refolding from concentrated Gdn.HCl solutions: the same proportion of the fast-refolding species is found from pH 2 to pH 6, and also from 2 M to 6 M Gdn.HCl at pH 5.8. We conclude that the same proportion of the fast-refolding species is present at equilibrium whenever the residual structure in unfolded RNase A is reduced to a low level, and that the structural difference between the fast-refolding and slow-refolding species of RNase A lies in the configuration of the random coil polypeptide chain.
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PMID:Guanidine-unfolded state of ribonuclease A contains both fast- and slow-refolding species. 106 58


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