Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Ribonuclease A was introduced into the cytoplasm of IMR-90 human diploid fibroblasts by red cell-mediated microinjection. Early passage fibroblasts degraded ribonuclease A with a half-life of approximately 90 h in the presence of 10% fetal calf serum and enhanced the degradative rate 1.6-fold upon serum withdrawal. Senescent cells degraded ribonuclease A more slowly with half-lives ranging between 125 and 250 h and had diminished capacities to enhance the catabolism of this protein during serum starvation. Decreased protein degradation in senescent cells was also evident for microinjected RNase S-protein, RNase B, aldolase, lysozyme, and the synthetic copolymer polyglutamate: tyrosine:alanine (1:1:1). These alterations in the mechanisms and regulation of intracellular protein degradation may contribute to several biochemical abnormalities characteristic of aging cells and organisms.
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PMID:Altered degradation of proteins microinjected into senescent human fibroblasts. 717 58

Isolated nuclei incubated with [14C]protein hydrolysate are shown to incorporate labelled amino acids into the acid-insoluble fraction. Purified chromatin and the complex of DNA with firmly bound proteins possess similar ability. The optimum pH of the reaction is 6.5-7.0, 2 mM MgCl2 stimulates incorporation, the temperature optimum is 37-40 degrees C. Chloramphenicol depresses incorporation by 70%, puromycin by 40%, cycloheximide does not affect the chromatin activity. Incorporation does not depend on the presence of ATP or GTP, and is substantially inhibited by deoxyribonuclease but not by ribonuclease treatment of chromatin or of the nuclei. Specific activity of firmly bound chromatin non-histone proteins is higher than that of labile bound ones; histones are not labelled. After pronase treatment of proteins radioactivity changes to an acid-soluble state. The molecular weight of isolated labelled polypeptides is about 6000 as shown by gel filtration and the analysis of NH2-terminal amino acids. Labelled polypeptides firmly bound to DNA consist of 7-10 amino acids. Specific activity of proteins firmly bound to DNA increases linearly with the time of incubation of chromatin with [14C]protein hydrolysate, the activity curve of labile bound non-histone proteins has a distinct sygmoid character. The polypeptide-synthesizing activity of rat liver chromatin increases between 9 h and 21 h after partial hepatectomy. Irradiation with 800 rads 30 min before the operation prevents activation of amino acid incorporation. From nine amino acids studied alanine, methionine, lysine, tyrosine and arginine are not incorporated in the system described. Glutamic acid is polymerized most effectively. Glutamine, asparagine and glycine are incorporated 7-8 times less. The data are given indicating that the incorporation is not random when an amino acid mixture is present. Preincubation of chromatin with NAD+ but not with its analogues increases the polypeptide-synthesizing activity of chromatin. The activation is prevented by thymidine and nicotinamide. Storage (18 h at 2-4 degrees C) brings about a complete loss of the polypeptide-synthesizing activity of chromatin. The ability of 'old' chromatin to incorporate amino acids can be restored by preincubating it with NAD+. Storage of chromatin in the presence of 5 mM adenosine 3',5'-monophosphate (cAMP) does not result in decrease of the polypeptide-synthesizing activity. It is assumed that poly-(ADP-ribose) is the energy source for amino acid activation in the system described.
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PMID:Polypeptide-synthesizing activity of eukaryotic chromatin. Properties, dependence on poly(ADP-ribose) and connection with the cell cycle. 737 37

Two components having ribonuclease (EC 3.1.27.5) activity were isolated from human milk. Each component of human milk ribonuclease (RNAase) moved at a slightly different rate when electrophoresed on polyacrylamide gel but at the same rate when ultracentrifuged. The major component had a molecular weight of approx. 14 000, an isoelectric point of pH 7.9, and exhibited a broad absorbance maximum between 277 and 281 nm. Human milk RNAase hydrolyzed yeast RNA, poly(cytidylic acid) and poly(uridylic acid) but not DNA, poly(adenylic acid) or poly(guanylic acid). Maximum activity occurred at pH 7.7 and 60 degrees C. Amino acid analysis of the major component revealed a large number of alanine, valine, glycine and aspartic acids but no tryptophan or free sulfhydryl groups. Lysine was the N-terminal amino acid. Tryptic hydrolysis yielded 18 peptides, some of which are similar to those from bovine pancreatic RNAase. Human milk RNAase activity was increased in the presence of NaCl, KCl and sodium citrate and decreased by CaCl(2), MgCl(2), FeSO(4), ZnSO(4) and CuSO(4).
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PMID:Human milk ribonuclease. 741 55

The Escherichia coli RNase HI variant with the Lys86-->Ala mutation is purified in two forms, as nicked and intact proteins. The nicked K86A protein, in which the N-fragment (Met1-Lys87) and the C-fragment (Arg88-Val155) remain associated, is enzymatically active. These N- and C-fragments were isolated and examined for reassociation. These peptides did not associate to form the nicked K86A protein at pH 3.0 in the absence of salt, but were associated, with a yield of 30-80%, when the pH was raised to 5.5 or when salt was added. Measurements of the CD spectra show that the alpha-helices are partially formed in the N-fragment at pH 3.0 in the absence of salt and are almost fully formed either at pH 5.5 or at pH 3.0 in the presence of 0.15 M NaCl. In contrast, the C-fragment remains almost fully disordered under these conditions. The N-fragment with this high (native-like) helicity shows the characteristics of a molten globule with respect to the content of the secondary and tertiary structures, the ability to bind a fluorescent probe (1-anilinonaphthalene-8-sulfonic acid), and the behavior on the thermal transition. These results suggest that the N-fragment contains an initial folding site, probably the alpha I-helix, and the completion of the folding in this site provides a surface that facilitates the folding of the C-fragment. This folding process may represent that of the intact RNase HI molecule.
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PMID:Reconstitution of Escherichia coli RNase HI from the N-fragment with high helicity and the C-fragment with a disordered structure. 764 97

Two conserved Trp-Cys-Gly-His-Cys (WCGHC) sequences are assigned to act as catalytic sites for protein disulfide isomerase. Peptides containing the active site sequence, Ala-Pro-Trp-Cys-Gly-His-Cys-Lys(APWCGHCK), were synthesized both in a mono-molecular form and on multiple antigen peptide (MAP) resin or Wang resin by the 9-fluoroenylmethoxycarbonyl (Fmoc)-based solid-phase method. With scrambled RNase as a substrate, the (APWCGHCK)8-MAP was first shown to mimic the PDI activity, which was one thousandth of that of bovine PDI and comparable to that of thioredoxin. APWCGPCK and APWCGHCK, however, did not display a disulfide isomerase activity even at a concentration 8 times higher than that of (APWCGHCK)8-MAP. It was assumed that a sterically proper proximity of at least two active site peptides with CXXC motif was required for the expression of PDI activity.
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PMID:Active site peptides with CXXC motif on map-resin can mimic protein disulfide isomerase activity. 765 33

We tested the diagnostic sensitivity of various urinary analytes for detecting cadmium-induced nephropathy at an early stage. We investigated 73 healthy persons (control group 1) and individuals exposed to cadmium, either environmentally (n = 36, risk group 2) or occupationally (n = 62, exposed group 3). All data were related to limits of the central 95% reference intervals of the control group. The serum creatinine and ribonuclease values, indicators of the glomerular filtration rate, were not different in the three groups. In the exposed persons (group 3), proximal tubular indicators (low-M(r) proteins lysozyme, ribonuclease, retinol-binding protein, and alpha 1-microglobulin) were more often increased than the glomerular indices (higher-M(r) proteins transferrin, IgG, and albumin). Both the low-M(r) proteins and tubular enzymes were differently altered in their excretion rates. Alanine aminopeptidase, alkaline phosphatase, and N-acetyl-beta-D-glucosaminidase increased even in the risk group 2. alpha 1-Microglobulin was increased in the exposed persons whose cadmium excretion was < 5 mumol/mol creatinine. The combined determination of alpha 1-microglobulin and N-acetyl-beta-D-glucosaminidase exceeded the corresponding upper reference limits in 30% of group 2 and 39% of group 3. We recommend screening for these two analytes to detect cadmium-induced renal dysfunction at an early stage.
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PMID:Urinary proteins and enzymes as early indicators of renal dysfunction in chronic exposure to cadmium. 848 64

A useful approach using an MLEV-17 pulse sequence was developed to identify histidine C epsilon 1H magnetic resonances of proteins. This technique can be readily applied to proteins dissolved directly in deuterium oxide solution and eliminates the necessity for an exhaustive exchange of NH to ND. Because of its sensitivity, this technique makes it possible to significantly extend the limitations on protein size. The utility of this spin-lock sequence is demonstrated using ribonuclease, subtilisin, and human prostatic acid phosphatase, with molecular weights ranging from 12K to 100K. With this technique, all three or four of the histidine 1H NMR signals of two human low-molecular-weight phosphotyrosyl protein phosphatases (HCPTP-A or -B, respectively) were readily detected. Histidine peak assignments were accomplished through the use of histidine to alanine mutants of HCPTP-A and -B and a homologous bovine enzyme. Analysis of the pH titration curves of these signals provided microscopic pKa's for the histidines in the human enzymes. A comparison of corresponding histidine pKa values of the two isoenzymes, together with an examination of the 1H NMR spectra of the proteins, provided evidence of significant differences in secondary structure. Titration of HCPTP-A and -B with vanadate, a strongly bound competitive inhibitor, caused the His-72 peak to appear as two signals at nearly equimolar concentrations of protein and vanadate, while the other histidine peaks were not affected. This is interpreted to mean that His-72 is at the enzyme active site.
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PMID:Identification and pKa determination of the histidine residues of human low-molecular-weight phosphotyrosyl protein phosphatases: a convenient approach using an MLEV-17 spectral editing scheme. 768 32

Thermal stabilities of mutant ribonuclease HI proteins from Escherichia coli, in which each of five histidine residues was replaced with alanine, were examined at various pHs. Increases in the Tm values were observed at pH 3.0 for four of the mutant proteins, in which each of the four histidine residues exposed to the solvent was mutated, as compared to the Tm of the wild-type protein. The thermostabilization of three of the mutant proteins was dependent on pH, and only observed at low pH. The thermostabilizing effects of the His-->Ala substitutions were cumulative. The temperature of the midpoint of the transition in the thermal unfolding curves, Tm, of the most stable mutant enzyme, in which His 62, His 83, His 124, and His 127 were replaced by Ala, was 5.5 degrees C higher than that of the wild-type enzyme at pH 3.0. The stability of the wild-type protein decreased as the pH was lowered below pH 4, a condition favoring the protonation of carboxyl groups, probably due to unfavorable electrostatic interactions introduced by the increase in positive charges on the protein. Since imidazole groups are positively charged at pH 3.0, it seems likely that thermal stabilization at pH 3.0 by a His-->Ala substitution would be the result of a reduction in such unfavorable electrostatic interactions. These results suggest that amino acid substitutions that cause a decrease in the number of positive charges on the surface of a protein can be used as a general strategy to enhance protein stability at pH values below pH 4.
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PMID:pH-dependent thermostabilization of Escherichia coli ribonuclease HI by histidine to alanine substitutions. 776 48

To test whether the combination of multiple thermostabilizing mutations is a useful strategy to generate a hyperstable mutant protein, five mutations, Gly23-->Ala, His62-->Pro, Val74-->Leu, Lys95-->Gly, and Asp134-->His or Asn, were simultaneously introduced into Escherichia coli ribonuclease HI. The enzymatic activities of the resultant quintuple mutant proteins, 5H- and 5N-RNases HI, which have His and Asn at position 134, respectively, were 35 and 55% of that of the wild-type protein. The far-UV and near-UV CD spectra of these mutant proteins were similar to those of the wild-type protein, suggesting that the mutations did not seriously affect the tertiary structure of the protein. The differences in the free energy change of unfolding between the wild-type and mutant proteins, delta delta G, were estimated by analyzing the thermal denaturation of the proteins by CD. The 5H-RNase HI protein, which was slightly more stable than the 5N-RNase HI, was more stable than the wild-type protein by 20.2 degrees C in Tm and 5.6 kcal/mol in delta G at pH 5.5. In addition, the 5H-RNase HI was highly resistant to proteolysis and acid denaturation. The effects of each mutation on the thermal stability and the susceptibility to chymotryptic digestion were nearly cumulative, and the 5H-RNase HI undergoes chymotryptic digestion at a rate that is 41 times slower than that of the wild-type protein. Good correlation was observed between the thermal stability and the resistance to chymotryptic digestion for all proteins examined.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High resistance of Escherichia coli ribonuclease HI variant with quintuple thermostabilizing mutations to thermal denaturation, acid denaturation, and proteolytic degradation. 779 25

We have examined the equilibrium unfolding of Escherichia coli ribonuclease HI (RNase H), a member of a family of enzymes that cleaves RNA from RNA:DNA hybrids. A completely synthetic gene was constructed that expresses a variant of the wild-type sequence with all 3 cysteines replaced with alanine. The resulting recombinant protein is active and folds reversibly. Denaturation studies monitored by circular dichroism and tryptophan fluorescence yield coincident curves that suggest the equilibrium unfolding reaction is a 2-state process. Acid denaturation, however, reveals a cooperative transition at approximately pH 1.8 to a partially folded state. This acid state can be further denatured in a reversible manner by the addition of heat or urea as monitored by either CD or tryptophan fluorescence. Analytical ultracentrifugation studies indicate that the acid state of RNase H is both compact and monomeric. Although compact, the acid state does not resemble the native protein: the acid state displays a near-UV CD spectrum similar to the unfolded state and binds to and enhances the fluorescence of the dye 1-anilinonaphthalene, 8-sulfonate much more than either the native or unfolded states. Therefore, the acid state of E. coli RNase H has the characteristics of a molten globule: it retains a high degree of secondary structure, remains compact, yet does not appear to contain a tightly packed core.
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PMID:Equilibrium unfolding of Escherichia coli ribonuclease H: characterization of a partially folded state. 783 2


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