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)

The amino acid sequence of ribonuclease T2 (RNase T2) from Aspergillus oryzae has been determined. This has been achieved by analyzing peptides obtained by digestions with Achromobacter lyticus protease I, Staphylococcus aureus V8 protease, and alpha-chymotrypsin of two large cyanogen bromide peptides derived from the reduced and S-carboxymethylated or S-aminoethylated protein. Digestion with A. lyticus protease I was successfully used to degrade the N-terminal half of the S-aminoethylated protein at cysteine residues. RNase T2 is a glycoprotein consisting of 239 amino acid residues with a relative molecular mass of 29,155. The sugar content is 7.9% (by mass). Three glycosylation sites were determined at Asns 15, 76 and 239. Apparently RNase T2 has a very low degree of sequence similarity with RNase T1, but a considerable similarity is observed around the amino acid residues involved in substrate recognition and binding in RNase T1. These similar residues may be important for the catalytic activity of RNase T2.
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PMID:Amino-acid sequence of ribonuclease T2 from Aspergillus oryzae. 316 20

Metallothioneins that bind copper and zinc have an Mr of 6500 daltons, consist of a single polypeptide chain of 61 amino acids, 25-30 percent of whose residues are cysteine, have a metal-binding capacity of between 5 and 7 g atoms/mol, and contain no disulfide bonds or aromatic amino acids. Zincthionein has been postulated to participate in the transport and storage of zinc, which is involved in more than 235 metalloenzymes, including thymidine kinase, RNA polymerase, and ribonuclease, which in turn play crucial roles in the replication and transcription of DNA during cell division. In addition, trace elements including zinc modulate immune response and function. Conversely, zinc deficiency state causes, for example, thymic atrophy and lymphopenia and modifies antibody-mediated responses to both T-cell-dependent and T-cell-independent antigens. The concentrations of copper, zinc, and metallothionein and the copper/zinc ratio are modified in a number of malignancies. For example, the levels of metallothionein in normal and in malignant human livers are 471 and 75 micrograms/g, respectively. In addition, the copper/zinc ratio is significantly increased in human pancreatic cancer from 1.40 to 2.70. Furthermore, studies involving 64Cu in tumor-bearing mice showed that the distribution of 64Cu was altered and that all tumors contained a relatively high level of 64Cu. Moreover, the activity of superoxide dismutase to remove free oxygen radicals is lower in malignant tissues. Finally, the results of clinical studies suggest that the monitoring of the serum copper/zinc ratio may be a valuable tool, not only in determining the extent of malignancies, but also in predicting the efficacy of treatments.
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PMID:The status of zinc, copper, and metallothionein in cancer patients. 328 43

An intracellular effect of nickel(II) which may be involved in its carcinogenic action is the alteration of normal DNA-protein binding. This effect of ionic nickel was studied in Chinese hamster ovary cells using several chromatin isolation methods in combination with SDS-polyacrylamide gel electrophoresis. DNA from cells incubated with (35S)-methionine or (35S)-cysteine to radiolabel protein was prepared by three methods: (solation of nuclei or nucleoids followed by chloroform-isoamyl alcohol (24:1 v/v) extraction and in some cases an additional extraction in the absence or presence of 2M NaCl, 40 mM EDTA or SDS; by isopycnic centrifugation through Cs2SO4 gradients containing 0.8% sarkosyl, 2.2 MCs2SO4, 1 mM NaCl and 10 mM EDTA; or by chromatin disaggregation and denaturation using 9 M urea, 2% 2-mercaptoethanol, 4% Nonidet P-40 +/- 2 M NaCl. DNA from nickel-treated cells consistently had more (35S)-methionine radioactivity associated with it than did DNA from untreated cells. This radioactivity was resistant to ribonuclease but sensitive to protease. Differential extraction using denaturing agents and high ionic strength followed by SDS-polyacrylamide gel electrophoresis revealed that most of the tightly bound proteins were nonhistone chromosomal proteins, and possibly histone 1. The enhancement of DNA-protein binding from nickel-treated cells was disrupted by SDS, suggesting that nickel ions do not function as classical bifunctional crosslinking agents. Since regulation of DNA replication and gene expression is dependent upon DNA-protein interactions, the effect of nickel in altering the extent of DNA-protein binding may interfere with this regulation and may contribute to the carcinogenic activity of nickel compounds.
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PMID:Effects of nickel(II) on nuclear protein binding to DNA in intact mammalian cells. 362 Nov 37

Sulfhydryl oxidase isolated from bovine skim milk membrane vesicles catalyzes de novo formation of disulfide bonds with the substrates cysteine, cysteine-containing peptides, and reduced proteins using molecular oxygen as the electron acceptor. Initial rates for sulfhydryl oxidase-catalyzed oxidation of reduced ribonuclease exhibited typical Michaelis-Menten kinetics at low substrate concentrations. Substrate inhibition of the oxidative activity was observed at ribonuclease concentrations greater than 40 microM, similar to that observed with reduced glutathione or other small thiol substrates. The inhibition was more pronounced when ribonuclease activity was used to monitor the rates, presumably due to concentration-dependent formation of nonnative disulfide bonds. Thus, a maximum in the rate of regain of ribonuclease activity was observed at a 40 microM concentration, while optimum recovery was observed at 30 microM. The Michaelis constant obtained with reduced ribonuclease is 17.4 microM which corresponds to a sulfhydryl concentration of 0.14 mM, a value that compares favorably with the best small thiol substrate, reduced glutathione. Disulfide-containing intermediates in the oxidation pathway, as determined by ion-exchange chromatography of alkylated reaction mixtures, appeared to be similar for air oxidation and enzyme-catalyzed oxidation of the protein. The pH optimum, tissue location, and kinetic characteristics of sulfhydryl oxidase are compatible with a suggested physiological function of direct catalysis of disulfide bond formation in secretory proteins or indirect participation through provision of oxidized glutathione for protein disulfide-isomerase-catalyzed thiol/disulfide interchange.
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PMID:Sulfhydryl oxidase-catalyzed formation of disulfide bonds in reduced ribonuclease. 366 39

The molecular basis of the high reactivity toward reducing agents of intersubunit disulfides at positions 31 and 32 of dimeric bovine seminal ribonuclease was investigated by studying in the monomeric enzyme the fast reaction kinetics with disulfides of the adjacent cysteine-31 and -32, exposed by selective reduction of the intersubunit disulfides. Negatively charged and neutral disulfide reagents were used for measuring the thiol reaction rates at neutral pH. The kinetics studied as a function of pH permitted us to define pK values for the thiols of interest and indicated the possibility of determining pK values of SH groups in proteins indirectly by measuring the kinetics of reactivity of the SH groups with a disulfide reagent. The results were compared with those obtained under identical conditions with synthetic thiol peptides and model compounds. The data indicate that the superreactivity of intersubunit disulfides of seminal ribonuclease is matched by the high reactivity at neutral pH of adjacent cysteine residues 31 and 32, as compared to all small thiol compounds tested. The synthetic hexapeptide segment of seminal ribonuclease Ac-Met-Cys-Cys-Arg-Lys-Met-OH, which includes the two cysteine residues of interest, was even more reactive. These data, and the other results reported in this paper, led to the conclusion that the superreactivity at neutral pH of cysteine residues at positions 31 and 32 of bovine seminal ribonuclease is primarily dependent on the nearby presence of positively charged groups, particularly the epsilon-NH2 of lysine-34, and is influenced by the adjacency of the two thiols and by the protein tertiary structure.
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PMID:Molecular basis of superreactivity of cysteine residues 31 and 32 of seminal ribonuclease. 409 91

Yukioka, M. (University of Hawaii, Honolulu), and T. Winnick. Synthesis of malformin by an enzyme preparation from Aspergillus niger. J. Bacteriol. 91:2237-2244. 1966.-An enzyme fraction derived from disrupted Aspergillus cells was able to utilize each of the component labeled amino acids of malformin for the synthesis of this cyclic pentapeptide. The process was stimulated by adenosine triphosphate, K(+), and Mg(++), and was optimal at approximately pH 8.5. It was not affected by inhibitors of protein synthesis (ribonuclease, chloramphenicol, puromycin). There is evidence that cysteine, rather than cystine, was incorporated into peptide linkage, so that the disulfide bridge of malformin was formed subsequently. Although only the d isomers of cysteine and leucine occur in the malformin molecule, the l, as well as the d form of these amino acids, was readily utilized by the enzyme preparation. As in the case of several other microbial peptide systems, it appears that the d enantiomorph can arise from the l isomer at an intermediate stage of polypeptide synthesis.
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PMID:Synthesis of malformin by an enzyme preparation from Aspergillus niger. 594 39

Previous 77Se NMR relaxation time studies established the utility of 77Se NMR spectroscopy in studying low molecular weight (less than 500) selenium-containing molecules. Since the spin rotation and chemical shift anisotrophy mechanisms contributed significantly to the 77Se spin-lattice relaxation in these compounds, it was questionable as to whether the latter mechanism would be efficient enough to enable 77Se resonances to be observed in a reasonable period in high molecular weight selenobiomolecules. Thus, to address this problem, disulfide bonds of ribonuclease-A and lysozyme were reductively cleaved under denaturing conditions, and the resulting 7-8 sulfhydryl groups were treated with a new sulfhydryl group reagent containing selenium, 6,6'-diselenobis(3-nitrobenzoic acid), to give proteins containing covalently attached selenium in the form of selenenyl sulfides. The observation of high resolution 77Se NMR spectra of these proteins under denaturing conditions was accomplished. Five to six 77Se NMR resonances, which fell in a chemical shift range of 14-15 ppm, were observed for each protein and are compared to the chemical shifts of several model selenenyl sulfides derived from cysteine.
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PMID:Demonstration of the feasibility of observing nuclear magnetic resonance signals of 77Se covalently attached to proteins. 627 74

Lysozyme, ribonuclease and insulin were exposed to dry heating for 1 to 24 h at temperatures between 80 and 180 degrees C. Amino acid analyses of the heated samples showed that most of the amino acids are stable up to 120 degrees C. Initially, at higher temperatures, an almost rectilinear decrease took place which reached a critical stage at 160 degrees C. Nonpolar aliphatic, acidic and aromatic amino acids were all relatively stable (maximum loss less than 20% after 24 h at 180 degrees C). The lability of the other amino acids increased in the order proline, arginine, histidine, cysteine, threonine, lysine, tryptophan, serine, and methionine. Methionine was 86% decomposed after 24 h at 180 degrees C. Loss of trinitrobenzene sulfonic acid-reactive lysine ("available lysine") reached 20% at 100 degrees C and essentially 100% after 24 h at 180 degrees C. Maximum loss in weight during heating was 11%, although maximum protein loss was between 20 and 35%. Reaction orders and activation energies were estimated for some of the amino acid losses. Of the atypical amino acids ("hot spots") lysinoalanine, allo-isoleucine and ornithine that were detected, only lysinoalanine is useful as an indicator to detect amino acid damage after dry heating.
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PMID:Model studies on the heating of food proteins. Amino acid composition of lysozyme, ribonuclease and insulin after dry heating. 641 75

The primary structure of Penicillium brevicompactum guanyl-specific RNase was determined. The enzyme consists of 102 amino acid residues, Mr 10801. The 4 cysteine residues of the RNase are linked in pairs by disulfide bonds: Cys2-Cys10, Cys6-Cys101. P. brevicompactum RNase structure is similar to RNase T1; the degree of homology is 66%.
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PMID:Amino acid sequence and S-S bonds of Penicillium brevicompactum guanyl-specific ribonuclease. 643 69

Refolding of dimeric porcine cytosolic or mitochondrial malate dehydrogenases and of tetrameric pig heart and skeletal muscle lactate dehydrogenases (containing 5-7 cysteine residues), as well as reformation of the four cystine cross-bridges of bovine pancreatic ribonuclease, were studied in the presence of reduced and oxidized glutathione (GSH and GSSG). At the intracellular GSH level (5 mM) reduced ribonuclease can be reoxidized by 0.01-0.5 mM GSSG (pH 7.4) both at 20 degrees C and 37 degrees C. In this physiological range of GSSG concentrations and pH, the dehydrogenases show at least partial reactivation. With GSSG concentrations greater than 5 mM, reactivation is found to be completely inhibited for all the enzymes given. The results show that at the intracellular level of GSH and GSSG, thiol groups in reduced, unfolded ribonuclease are oxidized to form intramolecular cystine cross-bridges, while thiol groups of typical cysteine enzymes, such as lactate and malate dehydrogenase, remain in their reduced state during refolding. The rate of reactivation of lactate dehydrogenase (porcine muscle) is not affected by GSSG. In the case of ribonuclease, increasing concentrations of GSSG increase the rate of reactivation: At 20 degrees C, the halftime of the correct disulfide bond formation varies from approximately equal to 80 h in the presence of 0.01 mM GSSG to approximately equal to 10 h in the presence of 0.25 mM GSSG. A further increase in the rate of reactivation at higher GSSG concentrations is accompanied by a decrease in yield. Reactivation of ribonuclease is also observed at the low glutathione level found in blood plasma (5-25 microM GSH).
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PMID:Influence of glutathione on the reactivation of enzymes containing cysteine or cystine. 661 43


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