EC:3.1.27.5 - FACTA Search

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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)

The histidine C-2 proton NMR titration curves of ribonuclease S-peptide (residues 1 to 20) and S-protein (residues 21 to 124) are reported. Although S-protein contains 3 histidine residues, four discrete resonances are observed to titrate. One of these arises from the equivalent histidine residues of unfolded S-protein. The variation in area of the four resonances indicate that there is a reversible pH-dependent equilibrium between the folded and unfolded forms of S-protein, with some unfolded material being present at most pH values. Two of the resonances of the folded S-protein can be assigned to 2 of the histidine residues, 48 and 105, from the close similarity of their titration curves to those in ribonuclease. These similarities indicate a homology of portions of the folded conformation of S-protein to that of ribonuclease in solution. These results indicate that the complete amino acid sequence is not required to produce a folded conformation similar to the native globular protein, and they appear to eliminate the possibility that proteins fold from their NH2 terminus during protein synthesis. The low pH inflection present in the titration curve assigned to histidine residue 48 in ribonuclease is absent from this curve in S-protein. This is consistent with our previous conclusion that this inflection arises from the interaction of histidine 48 with aspartic acid residue 14, which is also absent in S-protein. The third titrating resonance of native S-protein is assigned to the remaining histidine residue at position 119. The properties of this resonance are not identical with either of the titration curves of the active site histidine residues 12 and 119 of ribonuclease. The resonance assigned to histidine 119 is the only one significantly affected on the addition of sodium phosphate to S-protein, indicating that some degree of phosphate binding occurs. In both the absence and presence of phosphate this curve also lacks the low pH inflection observed in the histidine 119 NMR titration curve in ribonuclease. This difference presumably arise from a conformational between ribonuclease and the folded S-protein involving a carboxyl group.
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PMID:Nuclear magnetic resonance titration curves of histidine ring protons. Ribonuclease S-peptide and S-proteins. 0 55

Ethyl bromoacetimidate was designed as a potential reagent for cross-linking protein NH2 groups with a vicinal nucleophile. The chemical properties of this compound were studied by model reactions with small molecules. Ethyl bromoacetimidate amidinates lysine residues in ribonuclease at pH 9. In a second step, at lower pH values, one of the bromoacetamidino groups bound to the enzyme alkylates a proximal histidine residue. This substitution is pH-dependent with a sharp optimum at 5.6, the same as was earlier observed for alkylation of histidine-119: histidine-12 by halogenoacetates and halogenoacetamides. A common mechanism is suggested for all these types of alkylation. Ethyl bromoacetimidate thus appears as a short-distance crosslinker which can be used, for example, to explore chemically the microenvironment of an essential lysine residue of an enzyme within the active site.
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PMID:Ethyl bromoacetimidate, a NH2-specific heterobifunctional reagent. Model reactions with ribonuclease. 4 7

The amino groups of ribonuclease A (RNase-A) have been methylated with formaldehyde and borohydride to provide observable resonances for proton magnetic resonance (PMR) studies. Although enzymatic activity is lost, PMR difference spectroscopy and PMR studies of thermal denaturation show native conformation is largely preserved in methylated RNase-A. Resonances corresponding to the NH2-terminal alpha-amino and 10 xi-amino N-methyl groups are titrated at 220 MHz to obtain pK values. After correction for the effects of methylation, using values previously derived from model compound studies, a pK of 6.6 is found for the alpha-amino group, a pK of 8.6 for the xi-amino group of lysine-41 and pK values ranging from 10.6 to 11.2 for the other lysine xi-amino groups. Interactions between lysine-7 and lysine-41 or between the alpha-amino and xi-amino groups of lysine-1 have been proposed to account for deviations from simple titration behaviour. The correct continuities for the titration curves of the histidine H-2 proton resonances have been confirmed by selective deuteration of the H-2 protons. Titration curves for the H-2 proton resonances of histidine-12 and histidine-119 of methylated RNase-A show deviations from the titration curves for the native enzyme, indicating some alteration of the active-site conformation. In the presence of phosphate, titration curves for the H-2 proton resonances of histidine-12 and histidine-119 of methylated RNase-A indicate binding of phosphate at the active site, but these curves continue to show deviations from the titration behaviour of native RNase-A. The titration curve for the N-methyl resonance of lysine-41 is perturbed considerably by the presence of phosphate, which indicates a possible catalytic role for lysine-41.
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PMID:Proton-magnetic-resonance studies of the lysine residues of ribonuclease A. 23 43

From a commercial digestive produced from Aspergillus saitoi, a ribonuclease [EC 3.1.4.23] having a molecular weight of 12,500 has been isolated in addition to the RNase reported previously, which had a molecular weight of 38,000. The enzyme was found to be homogeneous by chromatography on DEAE-cellulose, disc electrophoresis on polyacrylamide gel, and ultracentrifugation. The NH2-terminal amino acid was identified as glutamic acid. The amino acid composition indicated the presence of about 13 tyrosyl residues, 3 histidyl residues, and 2 half-cystine residues. The pH optimum of the RNase was 4.5, using RNA as a substrate. The enzyme was stable on heating at 70 degrees for 5 min from pH 2 to 10. It hydrolysed RNA completely to mononucleotides via 2', 3'-cyclic nucleotides. The rates of release of nucleotides and 2', 3'-cyclic nucleotides were in the order: guanylic acid is greater than adenylic acid is greater than cytidylic acid is greater than uridylic acid.
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PMID:Purification and properties of a new ribonuclease from Aspergillus saitoi. 23 32

The de novo biosynthesis of RNase (ribonucleate 3'-pyrimidino-oligonucleotidohydrolase, EC 3.1.4.22) was studied in a cell-free rabbit reticulocyte translation system using a polyadenylylated fraction of mRNA isolated from bovine pancreas. Analysis of the [35S]methionine-labeled translation products of pancreas mRNA by polyacrylamide gel electrophoresis indicated the presence of several proteins, one of which corresponded to 16,500 daltons, or approximately 2800 daltons greater than native RNase A. This protein was specifically precipitated from the mixture of products by anti-RNase antibodies. Partial sequence determination of the NH2-terminal region of the anti-RNase antibody-precipitable species indicated that it is a precursor form of RNase A with 25 additional amino acids on its NH2 terminus. The precursor nature of the protein was confirmed by demonstration that a mixture of RNase A and a glycosylated form of the enzyme, RNase B, is formed when translation of the mRNA is conducted in the presence of dog pancreas membranes. Assay of the putative precursor form of RNase for catalytic activity with polycytidylic acid as substrate indicated that the protein has a specific enzymatic activity identical to that of native RNase A.
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PMID:De novo biosynthesis of an enzymatically active precursor form of bovine pancreatic RNase. 28 56

Nuclear 30S RNP particles were studied by means of fluorescence techniques. It's shown that fluorescamin interacts with NH2-groups of protein molecule. As a result, covalent fluorescent label is formed. Quantum yield (rho), fluorescence spectra, lifetime of excited state (tau) and polarization of fluorescamin complexes with 30S particles were studied. Excitation spectra have their maximum at 395 nm, and fluorescence spectrum at 480 nm. These figures correspond to spectra of fluorescamin complexes with NH2-groups of lysine. Mean quantum yield (rho = 0.27) and lifetime of excited state of fluorescence (tau = 7.8 nsec) were measured. It's shown that fluorescamin forms two types of fluorescent complexes in 30S particles. These complexes differ only by their rho(rho1 = 0.11, rho2 = 0.30) and rho(rho1 = 3.6 nsec, rho2 = 10.0 nsec) by 2.7 times. Migration radius between fluorescamin bound to protein and ethydium bromide adsorbed on double-stranded regions of pre-mRNA in RNP-particles was measured. It's equal to 32 A. Adsorbtion isotherms of ethydium bromide were measured by fluorescence in 0.1 and 0.4 M NaCl. Data obtained showed that 6% of pre-mRNA in 30S particles bound the dye as a strong complex, i. e. this part of pre-mRNA is double-stranded. RNase treatment of RNP had no effect on this value. But the increase of NaCl concentration up to 0.4 M caused the dissociation of protein subunits to some extent followed by appearance of up to 40% free NH2-groups interacting with fluorescamin. Measuring of energy migration from fluorescamin to ethydium bromide showed that double-stranded pre-mRNA regions strictly bound to protein sticked out from RNP particle at a distance of about 27 A. The increase of NaCl concentration up to 0.4 M leads to disruption of this strict bond of double-stranded regions with protein. As a result, these regions of pre-mRNA become labile and move away from the RNP particle at more than 30 A. According to theoretical calculations, there is about 1--2 pre-mRNA hairpins (18--9 base pairs respectively) per one 30S particle.
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PMID:[Nuclear ribonucleoproteins containing pro-mRNA. XIV. Structural study using ethidium and fluorescamine]. 44 Mar 9

1. Nitrogen retention was determined by classical N balance techniques in fourteen rapidly growing low-birth-weight infants receiving 3 g protein/kg body-weight and during their 3rd week of life. This was compared with plasma free alkaline ribonuclease (EC 3.I.4.22; RNase) activity and other biochemical measurements of protein nutrition. 2. Plasma RNase showed a significant positive correlation with N retention and a corresponding negative correlation with urine urea-N. These results were unexpected and suggest a different relationship between RNase and N retention in infants compared with that found by other workers in children and adults. 3. The most likely explanation of this apparent anomaly is that in all instances high activities of plasma RNase are associated with a need to conserve N. In the infants studied this may indicate some measure of 'protein economy' and they could therefore benefit from a higher protein intake.
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PMID:Plasma alkaline ribonuclease (EC 3.1.4.22) and nitrogen retention in low-birth-weight infants. 71 28

The membrane penicillinase of Bacillus licheniformis 749/C differs from the exopenicillinase in that it has an additional 24 amino acid residues and a phosphatidylserine at the NH2 terminus (Yamamoto, S., and Lampen, J.O. (1976) J. Biol. Chem. 251, 4095-4101). The conversion of the membrane penicillinase to the exo form is probably carried out by a specific penicillinase-releasing protease (PR-protease) whose properties are generally consistent with the properties of penicillinase secretion. The substrate specificity of the PR-protease was determined by identifying the NH2 and COOH termini of the peptides produced by hydrolysis of ribonuclease B and beef insulin. The enzyme hydrolyzed only peptide bonds involving the carboxyl groups of serine or thrombine. Similar bonds in synthetic di- or tripeptides of L-serine were not cleaved. The existence of seryl-lysine and threonyl-glucamic acid bonds in the protease-susceptible (phospholipopeptide) region of the membrane penicillinase and the presence of only lysine or glutamic acid at the NH2 terminus of the exoenzyme released in vivo are consistent with the specificity of PR-protease; hence, we propose that this enzyme has an essential role in the formation of exopenicillinase. The PR-protease is a potential tool for protein sequence determination because of its narrow and novel substrate specificity.
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PMID:Penicillinase-releasing protease of Bacillus licheniformis 749 Specificity for hydroxyamino acids. 83 38

The cross-linking reaction between diimido esters and ribonuclease has been studied in terms of the yield of cross-linked dimer with optimum activity toward double-stranded RNA. With dimethyl suberimidate the most satisfactory conditions were condensation for 15 min at pH 7.5-8.0 at 21 degrees C with 1.25 mol equiv of the diimido ester and a protein concentration of 6%. The dimer (yield 20%) had 19 unmodified NH2 groups out of a theoretical 20 for a molecule in which two such groups are involved in the cross-linkage; the activity toward poly(A)-poly(U) in 0.14 M salt solution by spectrophotometric assay was 8.5 times that of the monomeric enzyme toward the same substrate.
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PMID:Preparation of cross-linked dimers of pancreatic ribonuclease. 94 78

A 70-residue analog of RNase S-protein was synthesized by the solid phase method. It was obtained by omitting the NH2 terminus from positions 21 to 25 and the segments 36 to 40, 58 to 73, 87 to 96, and 113 to 114. Four residues were inserted to link the ends formed by the deletions. Half-cystine residues that had not been part of the deletions were replaced by alanine or leucine residues. The synthetic polypeptide was separated by gel filtration into a dimer and a monomer. Both fractions were purified further by ion exchange chromatography. The dimeric 70-residue S-protein analog had a specific activity of approximately 4% using RNA as substrate. It also cleaved other substrates of RNase A such as 5'-(3'-cytidylyl)-guanosine, 5'-(3'-uridylyl)-guanosine, and polycytidylic acid. The monomer of the 70-residue analog was less active but showed the same substrate specificity as the dimer. It was found that both fractions of the synthetic S-protein analog catalyzed only the transphosphorylation step of the RNase A mechanism and had very little if any activity in the hydrolysis step. Addition of natural S-peptide or S-protein did not increase the activity in the transphosphorylation reaction but greatly enhanced the reaction rate of the hydrolysis step. IN THE PRESENCE OF S-peptide, both monomeric and dimeric 70-residue S-protein, both monomeric and dimeric 70- residue S-protein analog had approximately 8% activity using cyclic cytidine 2':3'-monophosphate as substrate. The mixtures of monomer and dimer of the synthetic S-protein analog with natural S-protein generated even higher activities (151 and 74%, respectively) against this substrate despite the fact that the NH2-terminal portion of the natural enzyme (including His 12) was missing in both components of the two complexes. The 70-residue S-protein analog was completely inactive against DNA and (with one exception) against substrates for RNase T1. The close agreement of the substrate specificity of the synthetic analog with that of native RNase A in the transphosphorylation step suggested a remarkable conservation of the configuration of the active site despite drastic changes of the primary structure of the parent molecule. Possible implications of these results for the mechanism of action of RNase A are discussed.
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PMID:A synthetic 70-amino acid residue analog of ribonuclease S-protein with enzymic activity. 111 95

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