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)

Nuclear oncoproteins are among the most rapidly degraded intracellular proteins. Previous work has implicated the ubiquitin-mediated proteolytic system in the turnover of short-lived intracellular proteins. In the present study, we have evaluated the potential role of the ubiquitin system in the degradation of the specific nuclear oncoproteins encoded by the N-myc, c-myc, c-fos, p53 and E1A genes. Each of these nuclear oncoproteins was synthesized in vitro by transcription of the appropriate cDNA and translation of the resulting mRNA in the presence of [35S]methionine. Degradation of labeled proteins was monitored in the ubiquitin cell-free system. ATP stimulated the degradation of all the proteins between 3- and 10-fold. The degradation was completely inhibited by neutralizing antibody directed against the ubiquitin-activating enzyme, E1, the first enzyme in the ubiquitin-mediated proteolytic cascade. Moreover, degradation in E1-depleted lysates could be restored in each case by the addition of affinity-purified E1. These data suggest that the ubiquitin system mediates the degradation of these oncoproteins in vitro. Degradation of other proteins, such as superoxide dismutase, cytochrome c, enolase, RNase A, and ornithine decarboxylase, is not mediated by the ubiquitin cell-free system. This suggests that the nuclear oncoproteins studied here possess specific signals that target them for rapid turnover by this proteolytic pathway. Furthermore, the relative sensitivity to degradation of various E1A mutants in vivo is also maintained in the cell-free system, suggesting that the ubiquitin pathway may play a role in the cellular degradation of these proteins as well.
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PMID:Degradation of nuclear oncoproteins by the ubiquitin system in vitro. 184 34

Although there has been much speculation on the pathways of protein folding, only recently have experimental data on the topic been available. The study of proteins under conditions where species intermediate between the fully folded and unfolded states are stable has provided important information, for example about the disulphide intermediates in BPTI, cis/trans proline isomers of RNase A3 and the molten globule state of alpha-lactalbumin. An alternative approach to investigating folding pathways has involved detection and characterization of transient conformers in refolding studies using stopped-flow methods coupled with NMR measurements of hydrogen exchange. The formation of intermediate structures has been detected in the early stages of folding of cytochrome c, RNaseA and barnase. For alpha-lactalbumin, hydrogen exchange kinetics monitored by NMR proved to be crucial for identifying native-like structural features in the stable molten globule state. An analogous partially folded protein stable under equilibrium conditions has not been observed for the structurally homologous protein hen egg-white lysozyme, although there is evidence that a similar but transient state is formed during refolding. Here we describe NMR experiments based on competition between hydrogen exchange and the refolding process which not only support the existence of such a transient species for lysozyme, but enable its structural characteristics to be defined. The results indicate that the two structural domains of lysozyme are distinct folding domains, in that they differ significantly in the extent to which compact, probably native-like, structure is present in the early stages of folding.
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PMID:Demonstration by NMR of folding domains in lysozyme. 200 Jan 38

Alloreactive T cell hybridomas specific for IEk and/or IEb MHC Ag were obtained from IE-nonexpressor (IE alpha b) mice. The TCR V alpha and V beta gene segments used were identified by Northern blot and RNase protection. A large proportion (24 of 80 hybridomas tested) employed the same V alpha genes (V alpha 11.1 or V alpha 11.2) as are utilized in the IEk and IEb restricted response to the Ag cytochrome c. Of these 24 alloreactive hybridomas, 10 also expressed V beta genes utilized in the IE plus cytochrome c repertoire. Structural similarity between the two related sets of TCR indicates that V alpha segments can play a determining role in MHC specificity. These data also suggest that thymic selection based on TCR reactivity with self-MHC products acts on particular V(D)J combinations rather than on V alpha V beta pairings alone.
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PMID:Expression of identical V alpha V beta gene pairs by IE-alloreactive and IE-restricted, antigen-specific T cells from MHC disparate mice. Evidence for thymic selection of V(D)J combinations. 215 68

Helical regions in many tetrapyrrole proteins are highly amphiphilic, one side interacting with a hydrophobic core and another side interacting with the polar solvent. The mean helical hydrophobic moment is a measure of amphiphilicity of a helix. Helical regions in myoglobin, the alpha and beta subunits of C-phycocyanin, and cytochrome c can be distinguished from nonhelical regions by use of a hydrophobic moment analysis. 24 of 27 (89%) of the helical regions in these proteins were located by this analysis. Calculations were also performed on chymotrypsin, ribonuclease, and papain, which do not possess as pronounced a hydrophobic core as the tetrapyrrole-containing proteins. Less than 50% of the helical regions were correctly located, indicating a lack of amphiphilicity in the helices of these proteins. The hydrophobic moment analysis was also used to predict helical regions in phytochrome, the ubiquitous photoreceptor in plants. Additionally, this analysis is used to quickly locate internal hydrophilic residues which may be functionally important. The distribution of hydrophobic moments from a random sequence was determined so that qualitative and to some extent quantitative comparisons between different amphiphilic helices may be made.
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PMID:Location of helical regions in tetrapyrrole-containing proteins by a helical hydrophobic moment analysis. Application to phytochrome. 217 Mar 85

The activity of purified bull seminal RNase was markedly stimulated by various basic proteins. At the half concentration of substrate RNA, basic proteins such as histones, high-mobility group chromosomal proteins and cytochrome c stimulated the enzyme activity 4-6 fold. Other non-basic proteins such as bovine serum albumin and human gamma-globulin were far less effective. In addition to enzyme-stimulating activity, basic proteins showed a marked enzyme-stabilizing activity, indicating the presence of a strong interaction between the enzyme and basic proteins.
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PMID:Stimulation of bull seminal RNase by various basic proteins. 241 4

The attempt is made to find new correlations between local structural characteristics of proteins and the hydrogen exchange rates of their individual main-chain amides, and to relate such correlations to possible mechanisms of hydrogen exchange. It is found that in bovine pancreatic trypsin inhibitor (BPTI) the surface area buried by a particular residue and its neighbors correlates with the exchange rate of the main-chain amide of that residue. As the area buried by a particular fragment can be associated with the stabilization of the protein structure by this fragment, the correlation suggests a role for the energetics of the local unfolding in the mechanism of hydrogen exchange. Calculations based on the assumption that the exchange mechanism involves local unfolding lead to quantitative agreement between the calculated and experimentally measured exchange rates for 80% of the amides of BPTI that are buried or hydrogen bonded to the main-chain or to internal water molecules. The same degree of correlation is found between the calculated exchange rates and partial exchange data for ribonuclease S, hen lysozyme and cytochrome c. A similarly strong correlation is found between calculated exchange rates and the exchange rates of ribonuclease A determined by neutron diffraction in the crystal. The criteria of correlation are, however, less stringent in this case because of the experimental errors, which are larger than for solution data. It is suggested that the observed correlation be used for predictions of hydrogen exchange rates in proteins.
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PMID:Correlation between calculated local stability and hydrogen exchange rates in proteins. 244 80

Heat capacity, intrinsic viscosity and ellipticity of a number of globular proteins (pancreatic ribonuclease A, staphylococcal nuclease, hen egg-white lysozyme, myoglobin and cytochrome c) and a fibrillar protein (collagen) in various states (native, denatured, with and without disulfide crosslinks or a heme) have been studied experimentally over a broad range of temperatures. It is shown that the partial heat capacity of denatured protein significantly exceeds the heat capacity of native protein, especially in the case of globular proteins, and is close to the value calculated for an extended polypeptide chain from the known heat capacities of individual amino acid residues. The significant residual structure that appears at room temperature in the denatured states of some globular proteins (e.g. myoglobin and lysozyme) at neutral pH results in a slight decrease of the heat capacity, probably due to partial screening of the protein non-polar groups from water. The heat capacity of the unfolded state increases asymptotically, approaching a constant value at about 100 degrees C. The temperature dependence of the heat capacity of the native state, which can be determined over a much shorter range of temperature than that of the denatured state and, correspondingly, is less certain, appears to be linear up to 80 degrees C. Therefore, the denaturational heat capacity increment seems to be temperature-dependent and is likely to decrease to zero at about 140 degrees C.
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PMID:Heat capacity and conformation of proteins in the denatured state. 253 36

In the formation of covalent ubiquitin-protein conjugates that occurs during ATP- and ubiquitin-dependent proteolysis in reticulocyte extracts, ubiquitin (Ub) is activated to a thiol ester of the activating enzyme E1 (via the Ub carboxyl terminus), transferred to low-molecular weight "carrier proteins" (E2s) to form E2-Ub thiol esters, and then transferred by a third enzyme (E3) to amino groups on target proteins (Hershko, A., Heller, H., Elias, S., and Ciechanover, A. (1983) J. Biol. Chem. 258, 8206-8214). We report here the fractionation of Ub carrier proteins by molecular weight, and their characterization with respect to several activities. The Ub thiol ester forms of at least four of the five E2s catalyze Ub transfer to a number of small amines, in a reaction that does not require E3; only primary amines on primary carbons can serve as Ub acceptors. E3-independent Ub transfer to the small, basic proteins histones H2A and H2B, and cytochrome c, is also observed. The Ub thiol ester forms of two of the E2s were found to catalyze Ub transfer to cytochrome c. Only a single E2 functions in E3-dependent conjugate formation (with the substrates creatine phosphokinase, reduced/carboxymethylated serum albumin, and oxidized RNase) and in E3-dependent protein breakdown (with the substrate serum albumin). This E2 has a subunit molecular weight of 14,000 and migrates as a dimer on Sephacryl 200.
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PMID:Functional heterogeneity of ubiquitin carrier proteins. 298 64

13C NMR spectroscopy has been used to characterize Amadori (ketoamine) adducts formed by reaction of [2-13C]glucose with free amino groups of protein. The spectra of glycated proteins were acquired in phosphate buffer at pH 7.4 and were interpreted by reference to the spectra of model compounds, N alpha-formyl-N epsilon-fructose-lysine and glycated poly-L-lysine (GlcPLL). The anomeric carbon region of the spectrum (approximately 90-105 ppm) of glycated cytochrome c was superimposable on that of N alpha-formyl-N epsilon-fructose-lysine, and contained three peaks characteristic of the alpha- and beta-furanose and beta-pyranose anomers of Amadori adducts to peripheral lysine residues on protein (pK alpha approximately 10.5). The spectrum of GlcPLL yielded six anomeric carbon resonances; the second set of three was displaced about 2 ppm to lower shielding of the first and was assigned to the Amadori adduct at the alpha-amino terminus (pK alpha approximately 7.5). The spectrum of glycated RNase was similar to that of GlcPLL, but contained a third set of three signals attributable to modification of active site lysine 41 (pK alpha approximately 8.8). The assignments for RNase were confirmed by analysis of spectra taken at pH 4 and under denaturing conditions. The spectrum of glycated hemoglobin was comparable to that of GlcPLL, and distinct resonances could be assigned to Amadori adducts at amino-terminal valine and intrachain N epsilon-lysine residues. Chemical analyses were performed to measure the relative extent of alpha- and epsilon-amino group modification in the glycated macromolecules, and the results were compared with estimates based on integration of the NMR spectra.
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PMID:Characterization of glycated proteins by 13C NMR spectroscopy. Identification of specific sites of protein modification by glucose. 298 92

The adsorbent glycinehydroxamate-Sepharose 6B, charged with Fe3+ under specified conditions, is reported. It was used at various pH values for chromatography of the following proteins: lysozyme, cytochrome c, avidin, bovine pancreatic RNase, myoglobin, ovalbumin and human serum albumin. The common naturally occurring amino acids were tested for their interactions with the new sorbent under neutral conditions.
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PMID:Fe3+-hydroxamate as immobilized metal affinity-adsorbent for protein chromatography. 298 38


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