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:3.1.26.9 (ribonuclease)
6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peptide-water interactions of a ribonuclease C-peptide analogue, RN-24 (Suc-AETAAAKFLRAHANH2), which exhibits significant helicity, have been studied in solution using homonuclear 2D and 3D NMR cross-relaxation experiments. Dipolar peptide proton-water proton interactions are indicated by a large number of NOESY-type cross peaks at the H2O resonance frequency, most of them with opposite sign relative to the diagonal. Some cross peaks arise from intrapeptide cross relaxation to labile protons of histidine, threonine, lysine and arginine side chains. The observed peptide-water interactions are rather uniformly distributed, involving peptide backbone and side chains equally. The data are consistent with rapid fluctuations of the conformational ensemble and the absence of peptide regions that are highly shielded from bulk solvent, even in a peptide that exhibits high propensities for formation of helical secondary structure.
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PMID:Hydration of the partially folded peptide RN-24 studied by multidimensional NMR. 764 54

Procedures are described for linking monomethoxypoly(ethylene glycol) (mPEG) to both epsilon and alpha amino groups of lysine. The lysine carboxyl group can then be activated as a succinimidyl ester to obtain a new mPEG derivative (mPEG2-COOSu) with improved properties for biotechnical applications. This branched reagent showed in some cases a lower reactivity toward protein amino groups than the linear mPEG from which it was derived. A comparison of mPEG- and mPEG2-modified enzymes (ribonuclease, catalase, asparaginase, trypsin) was carried out for activity, pH and temperature stability, Km and Kcat values, and protection to proteolytic digestion. Most of the adducts from mPEG and mPEG2 modification presented similar activity and stability toward temperature change and pH change, although in a few cases mPEG2 modification was found to increase temperature stability and to widen the range of pH stability of the adducts. On the other hand, all of the enzymes modified with the branched polymer presented greater stability to proteolytic digestion relative to those modified with the linear mPEG. A further advantage of this branched mPEG lies in the possibility of a precise evaluation of the number of polymer molecules bound to the proteins; upon acid hydrolysis, each molecule of mPEG2 releases a molecule of lysine which can be detected by amino acid analysis. Finally, dimerization of mPEG by coupling to lysine provides a needed route to monofunctional PEGs of high molecular weight.
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PMID:A branched monomethoxypoly(ethylene glycol) for protein modification. 771 Nov 5

This work reports the molecular cloning and expression of a synthetic gene encoding P2, a 7-kDa ribonuclease (RNase) previously isolated in our laboratory from the archaebacterium Sulfolobus solfataricus [Fusi et al., Eur. J. Biochem. 211 (1993) 305-310]. The P2-encoding synthetic gene was expressed in E. coli and in Saccharomyces cerevisiae. The recombinant (re-) protein was produced to approx. 1.5% of the total protein content in S. cerevisiae using the galactose-inducible GAL1 promoter and to 3% (tac/lac tandem promoters) or 6.5% (T7 promoter) in E. coli as judged by immunological and biochemical criteria. E. coli-produced P2 was purified to electrophoretic homogeneity through a one-step procedure, i.e., DEAE-Sephacel chromatography at pH 9.3. S. cerevisiae-produced P2 additionally required filtration through a Centricon-10 microconcentrator to obtain the same purity. The re-P2 was found to be indistinguishable from the Su. solfataricus enzyme on the basis of heat stability, pH optimum and RNA digestion pattern. Furthermore, monodimensional nuclear magnetic resonance showed that the E. coli- and Su. solfataricus-produced enzymes were structurally identical, the only exceptions being that Lys4 and Lys6 were not methylated in the re-enzyme, thus showing that lysine methylation does not play a role in P2 thermostabilization.
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PMID:Expression of a synthetic gene encoding P2 ribonuclease from the extreme thermoacidophilic archaebacterium Sulfolobus solfataricus in mesophylic hosts. 786 57

Protein p3, a ribonuclease we previously isolated from the archaebacterium Sulfolobus solfataricus [P. Fusi et al. (1993) Eur. J. Biochem. 211, 305-310], was subjected to complete amino acid sequencing. It consisted of 75 residues, with a calculated M(r) of 8582, a pI of 10.1, and had some degree of monomethylation at Lys-4 and Lys-6. p2, a previously sequenced, 62-residue ribonuclease from the same organism, had an identical sequence for 57 consecutive residues starting from the N-terminus. p2 and p3 also showed a striking similarity to five other proteins previously isolated from Sulfolobus strains and identified as DNA-binding proteins. However, the C-terminus, 10 residue region of p3 did not show any similarity to these proteins; in contrast, it was significantly similar to stretches in three eubacterial ribonucleases from Bacillus strains. No difference between p2 and p3 has so far been detected as regards their catalytic properties. Available data suggest that these molecules have a narrow substrate specificity and probably play specific roles in RNA processing.
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PMID:An 8.5-kDa ribonuclease from the extreme thermophilic archaebacterium Sulfolobus solfataricus. 787 27

All of the individual carboxyl groups (the side-chain carboxyl groups of Asp and Glu, and the C-terminal alpha-carboxyl group) in Escherichia coli ribonuclease HI, which is an enzyme that cleaves the RNA strand of a RNA/DNA hybrid, were pH-titrated, and their ionization constants (pKa) were determined from an analysis of the pH-dependent chemical shifts of the carboxyl carbon resonances obtained from 1H-13C heteronuclear two-dimensional NMR. The pKa values in the enzyme varied widely among individual residues, for example, in the unusual pKa values for two important catalytic residues, Asp10 (pKa 6.1) and Asp70 (pKa 2.6). Moreover, remarkable two-step titrations were observed for these carboxylates. The binding of Mg2+ ion to the enzyme, which is the cofactor necessary for catalytic activity, caused no significant change in the pKa values of the carboxyl groups, except for that of Asp10. The variations of the pKas that were dependent on the microenvironment in the protein were theoretically reproduced to compare with the experimental results by a numerical calculation, using a continuum electrostatic model. Most of the significant pKa decreases were brought about through strong electrostatic interactions with the neighboring basic amino acids, Arg or Lys. The pKa shifts and the two-step titrations of Asp10 and -70, which are close to each other, were interpreted to be due to the neighboring effect of two functional groups, as observed in the interacting titratable groups of a dicarboxyl compound or in the active site carboxylates of lysozyme and aspartic protease. The role of Asp10 in the catalytic action is either to be the proton donor to the RNA moiety or the binding partner of the Mg2+ ion cofactor. Asp70, on the other hand, is considered to be the proton acceptor from a water molecule.
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PMID:Individual ionization constants of all the carboxyl groups in ribonuclease HI from Escherichia coli determined by NMR. 790 91

2,5-Hexanedione (2,5-HD) is the neurotoxic gamma-diketone metabolite of the industrial solvent n-hexane. Substantial evidence indicates that 2,5-HD reacts with neurofilament protein lysine epsilon-amines to yield 2,5-dimethylpyrrole adducts and that this reaction is critical to the mechanism of toxicity. Alkylpyrroles are susceptible to autoxidative dimerization, a process that has also been suggested as an obligatory step in 2,5-HD neuropathy. In the present study, we characterized pyrrole autoxidation products of a 2,5-HD-treated lysine analogue and of a model, lysine-containing dipeptide and examined mechanistic aspects of pyrrole-mediated protein cross-linking. Incubation of 2,5-HD with N alpha-acetyllysine or the dipeptide N alpha-acetylglycyllysine methyl ester in physiological buffer (pH 7.4) under oxidative conditions resulted in time-dependent formation of the N epsilon-pyrrole derivative and two major pyrrole autoxidation products, as demonstrated by HPLC, on-line thermospray MS, and UV photodiode array detection. An autoxidative pyrrole dimer containing a methylene bridge between C-2 of one pyrrole ring and C-3 of a second ring was characterized by thermospray MS and 1H-NMR spectroscopy. 13C-NMR spectroscopy provided evidence for an identical pyrrole-to-pyrrole bridge in autoxidized, pyrrolylated ribonuclease (RNase). MS analysis also revealed a second major product--a stable, oxygen-containing monomeric pyrrole derivative. This product exhibited a UV absorbance maximum (lambda max = 355 nm) consistent with extended conjugation. Polymerization of pyrrolylated acetyllysine was accelerated by persulfate, a free-radical initiator, and inhibited by ascorbate, an antioxidant.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Formation and structure of cross-linking and monomeric pyrrole autoxidation products in 2,5-hexanedione-treated amino acids, peptides, and protein. 798 20

Derivatives of ribonuclease A (RNase A) with modifications in positions 1 and/or 7 were prepared by subtilisin-catalyzed semisynthesis starting from synthetic RNase 1-20 peptides and S-protein (RNase 21-124). The lysyl residue at position 1 was replaced by alanine, whereas Lys-7 was replaced by cysteine that was specifically modified prior to semisynthesis. The enzymes obtained were characterized by protein chemical methods and were active toward uridylyl-3',5'-adenosine and yeast RNA. When Lys-7 was replaced by S-methyl-cysteine or S-carboxamido-contrast, the catalytic properties were only slightly altered. The dissociation constant for the RNase A-RI complex increased from 74 fM (RNase A) to 4.5 pM (Lys-1, Cys-7-methyl RNase), corresponding to a decrease in binding energy of 10 kJ mol-1. Modifications that introduced a positive charge in position 7 (S-aminoethyl- or S-ethylpyridyl-cysteine) led to much smaller losses. The replacement of Lys-1 resulted in a 4-kJ mol-1 loss in binding energy. S-protein bound to RI with Ki = 63.4 pM, 800-fold weaker than RNase A. This corresponded to a 16-kJ mol-1 difference in binding energy. The results show that the N-terminal portion of RNase A contributes significantly to binding of ribonuclease inhibitor and that ionic interactions of Lys-7 and to a smaller extent of Lys-1 provide most of the binding energy.
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PMID:Interaction of semisynthetic variants of RNase A with ribonuclease inhibitor. 800 61

Complete primary structure of an extracellular low molecular mass ribonuclease of Bacillus thuringiensis was determined using Edman degradation and mass-spectrometry analysis of individual peptides obtained after hydrolysis of the protein by cyanogen bromide and staphylococcal protease. The peptides were isolated and purified by HPLC and denaturing PAGE. The enzyme consists of 109 amino acid residues (Asp 8, Asn 6, Thr 6, Ser 10, Glu 3, Gln 1, Pro 3, Gly 9, Ala 12, Val 7, Ile 7, Leu 7, Tyr 7, Phe 4, His 1, Arg 10, Trp 3 and Lys 5) and has a molecular weight of 12182 Da. A single difference was detected between primary structures of the enzyme and an extracellular ribonuclease of B. intermedius.
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PMID:[Complete primary structure of Bacillus thuringiensis extracellular ribonuclease]. 825 Sep 78

The role of the conserved histidine residue (His124) in the catalytic function of Escherichia coli ribonuclease HI was probed by the use of the pH titration experiments with 1H NMR and site-directed mutagenesis. His124 is located close to the catalytic triad formed by the three carboxylates. The C2H proton resonance of His124, as well as those of four other His residues, in the enzyme were assigned by comparing the 1H NMR spectrum of the wild-type enzyme to the spectra of the five mutant enzymes, each of which lacked a different His residue. From the analysis of the pH titration shifts of these resonances, the pK alpha values of all His residues were determined. The pK alpha value of His124 was 7.1, which is slightly higher than, but close to, the normal value of the imidazole group. This result suggests that His124 is located in an acidic environment but does not interact directly with a carboxyl group in the solution structure. Three mutant enzymes, in which His124 was replaced by Lys, Gln, or Glu were constructed. The kinetic parameters of these mutant enzymes were determined by using the M13 DNA/RNA hybrid as a substrate. Substitution of Lys, Gln, or Glu for His124 dramatically lowered the Vmax value by 30-100-fold, without significantly affecting the Km value, as compared to those of the wild-type enzyme. In addition, any mutation impaired the in vivo function of the enzyme. These results indicate that His124 is involved in the catalytic function of the enzyme. We propose that His124 changes its conformation in the catalytic reaction and enhances the catalytic efficiency by removing a proton from a catalytically essential carboxylate.
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PMID:Role of histidine 124 in the catalytic function of ribonuclease HI from Escherichia coli. 838 Jan 73

Changes in biological properties of serum albumin, egg white lysozyme, human serum alpha-1 antiproteinase and human leukocyte ribonuclease in effect of interaction with the enzyme system composed of myeloperoxidase from human neutrophilic polymorphonuclear leukocytes, Cl- and H2O2 were investigated. All the studied proteins lost their biological functions and were denaturated, but the amounts of hydrogen peroxide necessary to produce these effects differed remarkably for each individual protein. The alpha-1 antiproteinase ability of binding to trypsin was abolished upon employing 1.2 mols of H2O2 per mol of alpha-1 antiproteinase. The lysozyme enzymatic activity was abolished when 1.4 mols of H2O2 per mol of lysozyme were employed. Albumin decreased its binding to specific antialbumin antibodies and entirely lost the binding properties when 2 mols and about 10 mols of H2O2 per mol of albumin were employed, respectively. On the other hand 18 mols of H2O2 per mol of human leukocyte ribonuclease were necessary to inactivate this enzyme. All the mentioned proteins were protected from losing their biological functions by excess of specific amino acids with affinity to hypochlorite: Alpha-1 antiproteinase by excess of N-acetylmethionine, lysozyme by N-acetylmethionine and N-acetyl glycyltryptophane, albumin by N-acetyl derivatives of methionine, cysteine, tryptophane and lysine, whereas ribonuclease was protected from denaturation by all above mentioned amino acid derivatives. None of the studied proteins was protected from denaturation by N-acetyl tyrosine, or phenylalanine.
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PMID:Inactivation and denaturation of some proteins by enzyme system: myeloperoxidase, chloride and hydrogen peroxide. 840 71


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