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 inhibitor (RI) is a protein that forms a very tight complex with ribonucleases (RNases) of the pancreatic type. RI contains 30 thiol groups, some of which are important for the enzyme-inhibitor interaction. To examine which thiols are affected by the binding of RNase, differential labeling experiments were performed. Reaction of porcine RI with the cysteine-specific labeling reagent 4-N,N-dimethylaminoazobenzene-4'-iodoacetamido-2'-sulfonic acid resulted in labeling of an average of 7.4 of the 30 cysteinyl residues. Binding of bovine pancreatic RNase A caused a 3.2-fold reduction in the extent of modification. Peptide mapping showed that in free RI, Cys-57, -371, and -404 were labeled to the greatest extent (yield, 0.4-0.6 mol/mol). RNase A did not protect Cys-57 against modification, whereas the labeling of Cys-371 and -404 was reduced by more than 90%. A second group of residues was labeled to a lesser extent in free RI (yield, 0.04-0.2 mol/mol). Within this group 11 residues were protected by RNase A by more than 90%, 2 were not affected at all, and 7 were protected between 10 and 90%. Seven cysteinyl residues in RI that were protected in the RI.RNase A complex were no longer protected in the RI.S-protein complex. These residues were mainly present in the N-terminal region of RI. However, when the S-peptide was included to yield the RI.RNase S complex, the same pattern of labeling was obtained as with the RI.RNase A complex. Addition of the S-peptide alone had no effect on the labeling. The implications of these observations with respect to RNase binding areas of RI are discussed in relation to the results obtained from the analysis of active RI molecules that contain deletions.
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PMID:Studies on the interaction of ribonuclease inhibitor with pancreatic ribonuclease involving differential labeling of cysteinyl residues. 174 89

The in vitro metabolism of [14C]toluene by liver microsomes and liver slices from male Fischer F344 rats and human subjects has been compared. Rat liver microsomes produced only benzyl alcohol from toluene. Liver microsomes from human subjects metabolized toluene to benzyl alcohol, benzaldehyde, and benzoic acid. Liver microsomes from one human donor also produced p-cresol and o-cresol. The overall rate of toluene metabolism by human liver microsomes was 9-fold greater than by rat liver microsomes. Human liver microsomal metabolism of benzyl alcohol to benzaldehyde required NADPH and was inhibited by carbon monoxide and high pH (pH 10). but was not inhibited by ADP-ribose or sodium azide. These results suggest that cytochrome P-450, rather than alcohol dehydrogenase, was responsible for the metabolism of benzyl alcohol to benzaldehyde. Human and rat liver slices metabolized toluene to hippuric acid and benzoic acid. The overall rate of toluene metabolism by human liver slices was 1.3-fold greater than by rat liver slices. Cresols and cresol conjugates were not detected in human or rat liver slice incubations. Covalent binding of [14C]toluene to human liver microsomes and slices was 21-fold and 4-fold greater than to the comparable rat liver preparations. Covalent binding did not occur in the absence of NADPH, was significantly decreased by coincubation with cysteine, glutathione, or superoxide dismutase, and was unaffected by coincubation with lysine. Protease and ribonuclease digestion decreased the amount of toluene covalently bound to human liver microsomes by 78% and 27% respectively. Acid washing of human liver microsomes had no effect on covalent binding.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolism and covalent binding of [14C]toluene by human and rat liver microsomal fractions and liver slices. 198 39

A 77Se-containing moiety has been attached to cysteine residues in bovine hemoglobin, reduced ribonuclease A, and glutathione by reaction with [77Se]6,6'-diselenobis(3-nitrobenzoic acid). The resultant species contain Se-S linkages that have 77Se NMR absorptions in the range range of 568-580 ppm. Spectra have been recorded at 4.7 and 9.7 tesla (T). For labeled hemoglobin a line width of 250 Hz is seen at 4.7 T and 1000 Hz at 9.4 T. This quadrupling of line width with doubling of observational field strength is consistent with exclusive relaxation by the chemical shift anisotropy (CSA) mechanism. These line widths are greater than expected for a molecule the size of hemoglobin and indicate some aggregation at the high concentrations used. Upon dissociation and partial unfolding of the hemoglobin subunits, the line widths of the selenium resonance decrease to 35 and 120 Hz at 4.7 and 9.4 T, respectively. The spin-lattice relaxation time (T1) for the dissociated hemoglobin at 9.4 T was found to be 220 ms. Together with a value of 377 ms for the spin-spin relaxation time (T2), determined from the line width, an estimate of the CSA was made. This gave a value of 890 ppm, which is in accord with other values for Se(II) linked only by single bonds. When this value for the CSA is used, together with the CSA contribution to the line width, in estimating a correlation time for seleno(3-nitrobenzoic acid) (SeNB)-labeled glutathione, a value of 4 x 10(-11) s is obtained. For SeNB-labeled denatured ribonuclease, four distinct resonances are resolvable at 4.7 T and five resonances at 9.4 T. From T1 values for these resonances and the value of 890 ppm for the CSA, an appropriate correlation time of 0.1 ns was determined, which should result in 77Se resonances of 0.2-1.0 Hz at 4.7 and 9.4 T, respectively. Much greater apparent line widths are observed, which are attributed to microheterogeneity resulting from formation of inter- and intramolecular disulfide linkages. It is concluded that when there are no complications from protein aggregation or chemical exchange, the CSA values anticipated to exist in glutathione peroxidase or other selenoproteins should result in resonances with line widths in the range from 27 to 170 Hz, depending on field strength. These resonances should therefore be observable in the intact protein, if 77Se-enriched material is available.
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PMID:NMR relaxation properties of 77Se-labeled proteins. 199 5

The protein disulfide isomerase catalyzed reduction of insulin by glutathione is inhibited by peptides of various length and amino acid composition. Peptide inhibitors are competitive against insulin and noncompetitive against GSH, consistent with a sequential rather than a double displacement mechanism. Peptides of unrelated primary sequence that do not contain cysteine inhibit the GSH-insulin transhydrogenase activity of PDI, and the affinity of these peptides toward the enzyme is largely dependent on the peptide length rather than composition, hydrophobicity, or charge. Cysteine-containing peptides are 4-8-fold better inhibitors than non-cysteine-containing peptides of the same length, suggesting a cysteine-specific component to the interaction with the enzyme. Oxidized insulin chain B also inhibits the oxidative folding of reduced ribonuclease in a glutathione redox buffer with an inhibition constant that is comparable to that observed for the inhibition of insulin reduction, suggesting a similar if not identical binding site for the catalysis of oxidative protein folding and the reduction of insulin.
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PMID:Effect of protein and peptide inhibitors on the activity of protein disulfide isomerase. 203 65

Protein disulfide-isomerase (PDI), which reactivates inactive scrambled RNase, was purified from Saccharomyces cerevisiae. The enzyme was purified 1,850-fold to apparent homogeneity by five purification steps: 30-70% ammonium sulfate fractionation, DEAE Toyopearl-650S and Butyl Toyopearl-650S chromatographies, and differential Phenyl-5PW HPLC with or without cysteine. The native enzyme had an apparent Mr of 140,000 on gel filtration chromatography, and its NH2-terminal was blocked. The Mr of its subunits were estimated to be 70,000 by sodium dodecyl sulfate polyacrylamide gel electrophoresis, indicating that the enzyme is probably composed of two identical subunits. The Mr of the subunits changed to 60,000 on endoglucosaminidase H treatment, indicating that the enzyme is transported into the endoplasmic reticulum. The enzyme has a pH optimum of 8.5, and pI of 4.02. Its enzymic properties were compared with those of purified bovine liver PDI. The Km values of yeast and bovine PDIs for scrambled RNase were 1 x 10(-5) and 2 x 10(-5) M, and their Vmax values were 6 and 7 units/mg protein, respectively. The two enzymes showed no significant differences in Km or Vmax values with respect to thiol compounds. Bacitracin inhibited both PDIs in the same fashion. These results indicate that this yeast PDI corresponds to mammalian PDI.
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PMID:Purification and characterization of yeast protein disulfide isomerase. 208 37

Regulation of human immunodeficiency virus (HIV) gene expression is dependent on specific regulatory regions in the long terminal repeat. These regions include the enhancer, SP1, "TATA," and trans-activating (TAR) regions. In addition, viral regulatory proteins such as tat and rev are important in regulating HIV gene expression. The mechanism of tat activation remains the subject of investigation, but effects at both transcriptional and posttranscriptional levels seem likely. Previous mutagenesis of the tat protein revealed that the amino terminus, the cysteine-rich domain, and the basic domain were all required for complete tat activation. Mutants of other viral trans-acting regulatory proteins, including E1A, tax, and VM65, have been identified that were capable of antagonizing the activity of their corresponding wild-type proteins. We wished to determine whether mutants of the tat protein could be identified that exhibited a similar phenotype. One mutant (delta tat) that truncated the basic domain of tat resulted in a transdominant phenotype inhibiting tat-induced gene expression of the HIV long terminal repeat but not other viral promoters. This mutant exhibited its maximal phenotype in cotransfection experiments when present in an 8- to 30-fold molar excess over the wild-type tat gene. Trans-activation of the HIV long terminal repeat by delta tat was very defective at the DNA concentrations used in these experiments. RNase protection analysis indicated that this mutant decreased tat-induced steady-state mRNA levels of the HIV long terminal repeat. Second-site mutations of the delta tat gene in either the amino terminus or cysteine region eliminated the transdominant phenotype. In contrast to tat, which was localized predominantly to the nucleolus, delta tat was present in both the nucleus and cytoplasm, suggesting that it may inhibit tat function by preventing nucleolar localization. Transdominant mutants of tat may have a role in potentially inhibiting HIV gene expression.
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PMID:A transdominant tat mutant that inhibits tat-induced gene expression from the human immunodeficiency virus long terminal repeat. 219 47

We have isolated a 725-bp full-length cDNA clone for the human eosinophil cationic protein (ECP). ECP is a small, basic protein found in the matrix of the eosinophil's large specific granule that has cytotoxic, helminthotoxic, and ribonuclease activity, and is a member of the ribonuclease multigene family. The cDNA sequence shows 89% sequence identity with that reported for the related granule protein, eosinophil-derived neurotoxin (EDN). The open reading frame encodes a previously unidentified 27-amino acid leader sequence preceding a 133-residue mature ECP polypeptide with a molecular mass of 15.6 kD. The encoded amino acid sequence of ECP shows 66% identity to that of EDN and 31% identity to that of human pancreatic ribonuclease, including conservation of the essential structural cysteine and cataytic lysine and histidine residues. mRNA for ECP was detected in eosinophil-enriched peripheral granulocytes and in a subclone of the promyelocytic leukemia line, HL-60, induced toward eosinophilic differentiation with IL-5. No ECP mRNA was detected in uninduced HL-60 cells, or in HL-60 cells induced toward monocytic differentiation with vitamin D3 or toward neutrophilic differentiation with DMSO. In contrast, mRNA for EDN was detected in uninduced HL-60 cells and was upregulated in HL-60 cells induced with DMSO. Despite similarities in sequence and cellular localization, these results suggest that ECP and EDN are subject to different regulatory mechanisms.
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PMID:Human eosinophil cationic protein. Molecular cloning of a cytotoxin and helminthotoxin with ribonuclease activity. 247 57

Using a transfer vector derived from Bombyx mori nuclear polyhedrosis virus (BmNPV), we have constructed recombinant baculoviruses that contain complete silk moth chorion chromosomal genes encoding high-cysteine proteins under the control of the polyhedrin promoter. Silk moth tissue culture cells infected with these recombinant viruses were found to contain abundant RNA sequences of sizes similar to those of the authentic chorion mRNAs. Chorion transcripts present in infected cells were initiated almost exclusively at the cap site of the polyhedrin start site. Primer extension and RNase protection experiments revealed that a considerable proportion of the resultant transcripts were spliced at the same sites as those utilized in follicular cells for the production of functional chorion mRNA. Electrophoretic analysis and immunoprecipitation of the proteins of host cells infected with the recombinant viruses revealed the presence of the corresponding chorion proteins. We conclude that baculovirus vectors can be used for expressing efficiently not only cDNAs or simple genes devoid of intervening sequences but also intron-containing chromosomal genes. Thus, recombinant baculoviruses offer a powerful alternative to hybrid-selected translation, particularly when the identification of proteins encoded by members of complex multigene families is required.
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PMID:Recombinant baculoviruses as vectors for identifying proteins encoded by intron-containing members of complex multigene families. 255 1

Three regulatory proteins are involved in the post-transcriptional control of arginine metabolism in Saccharomyces cerevisiae: ARGRI, ARGRII and ARGRIII. The 880 amino acid ARGRII protein, like some DNA binding proteins, possesses in its N-terminal sequence a cysteine-rich region that presents homology to the zinc binding region of Escherichia coli aspartate transcarbamylase. ARGRII also has a region of 90 amino acids that is 30% homologous to the E. coli ARGR repressor. Moreover a 87 amino acid long sequence of ARGRII contains three stretches with significant homology to some viral, bacterial and pancreatic RNases. We propose a model in which the RNase-like sequence could regulate the expression of arginine anabolic messenger RNAs.
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PMID:The yeast ARGRII regulatory protein has homology with various RNases and DNA binding proteins. 312 9

Reorganization and activation energies for charge transfer reactions occurring inside a dielectric sphere have been calculated by solving the problem of polar medium reorganization within and outside a dielectric sphere placed in another infinite dielectric. The dielectric sphere is assumed to simulate a protein globule, i.e. an enzyme molecule. It has been shown that for some reaction types the activation energy tends to decrease as the globule radius increases and that for each of the reaction types considered there is an optimal globule radius an increase of which does not bring about any tangible activation energy reduction. The calculated optimal radii for different processes are in good agreement with the increasing molecular sizes in the series: ribonuclease less than or equal to lysozyme less than serine proteinases approximately equal to cysteine proteinases less than NAD-dependent dehydrogenases. The calculated radii are usually about 1.5 to 1.7 times (and molecular masses about 4-5 times) smaller than the experimental ones. The reasons for this discrepancy are discussed and it has been suggested that the approximate nature of the treatment of a protein globule as a structureless dielectric is the main reason. It is shown that charge transfer at an acute angle to the globule surface is the optimum process. For endoergonic reaction stages it is the net charge transfer towards the periphery and for exoergonic ones that in the reverse direction which are advantageous. These conclusions are consistent with the data about the structure of the above-mentioned enzymes.
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PMID:Medium reorganization energy and enzymatic reaction activation energy. 315 27


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