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)

The primary structure of the blood vessel inducing protein angiogenin is 35% identical with that of pancreatic ribonuclease (RNase) and contains counterparts for the critical RNase active-site residues His-12, Lys-41, and His-119. Although angiogenin is a ribonucleolytic enzyme, its activity toward conventional substrates is lower than that of pancreatic RNase by several orders of magnitude. Comparison of the amino acid sequences of RNase and angiogenin reveals several striking differences in the region flanking the active-site lysine, including a deletion and a transposition of aspartic acid and proline residues. In order to examine how these sequence changes alter the functional properties of angiogenin, an angiogenin/RNase hybrid protein (ARH-II), in which residues 38-41 of angiogenin (Pro-Cys-Lys-Asp) have been replaced by the corresponding segment of bovine pancreatic RNase (Asp-Arg-Cys-Lys-Pro), was prepared by regional mutagenesis. Compared to angiogenin, ARH-II has markedly diminished angiogenic activity on the chick embryo chorioallantoic membrane but 5-75-fold greater enzymatic activity toward a variety of polynucleotide and dinucleotide substrates. In addition, the specificity of ARH-II toward dinucleotide substrates differs from that of angiogenin and is qualitatively similar to that of pancreatic RNase. Thus, non-active-site residues near Lys-40 in angiogenin appear to play a significant role in determining enzymatic specificity and reactivity as well as angiogenic potency. An additional angiogenin/RNase hybrid protein (ARH-IV), in which residues 59-71 of ARH-II have been replaced by the corresponding segment of pancreatic RNase, was also prepared.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mutagenesis of residues flanking Lys-40 enhances the enzymatic activity and reduces the angiogenic potency of angiogenin. 169 54

The binding efficiency of high affinity monoclonal antifluorescyl antibody 4.4-20 with the homologous ligand situated in different protein environments has been investigated to quantitate the effect of non-active site secondary factors. To synthesize monofluoresceinated proteins, fluorescein 5-isothiocyanate was reacted with a 100-fold molar excess of ribonuclease, lysozyme, lactalbumin and bovine serum albumin. Absorption and emission spectra, as well as fluorescence life-time measurements which yielded discrete components and proteolytic studies suggested that fluorescein was conjugated to a specific lysine residue consistent with a non-random distribution of lysines within each protein population. The derivatized residue was probably a surface moiety based on accessibility analyses with iodide as a dynamic quencher. Dissociation rate analyses indicated that the relative release time of 4.4-20 with each monofluoresceinated protein was Fl-RNAse > or = Fl-lyso > or = FDS > Fl-lact > or = Fl-BSA which correlated with changes in free energy of binding. Relative fluorescence quenching measurements of the fluorescein moiety indicated that 4.4-20 showed decreasing quenching in the order FDS > Fl-RNAse > Fl-lyso > or = Fl-lact > Fl-BSA. Because spectral data indicated that fluorescein was conjugated to a specific residue or a non-random distribution of residues in each protein population, the results represented the effect of a single distinct environment or a weighted average of different microenvironments. Results have been interpreted within the theoretical framework of a dynamic antibody model involving conformer selection and the relative effects of primary and secondary interactions.
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PMID:Effects of secondary forces on the primary antibody-ligand interaction. 855 47

The major allergen from timothy grass pollen, Phlp5b (Phleum pratense), was shown to exhibit ribonuclease activity. It turned out that the C-terminal portion of this molecule was the biologically active domain. Here evidence is presented that the allergen is a single-stranded, sugar-nonspecific nuclease with topoisomerase activity. An isomerase-specific active site was identified, and a non-active mutant was constructed by site directed mutagenesis, and showed no nucleolytic activity. In contrast to the wild type (WT), the mutant did not dimerize. Although the binding capacity of IgE antibodies toward the mutant was reduced as compared to the WT, the allergenic activity was retained. We conclude that the allergen Phlp5b is a single-stranded nuclease with an unusual topoisomerase-like activity. This biological activity is not by itself connected to the allergenicity of the molecule. Whether the enzymatic activity is responsible for the induction of the allergic sensitization and inflammation remains an open question.
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PMID:A nonspecific, single-stranded nuclease activity with characteristics of a topoisomerase found in a major grass pollen allergen: possible biological significance. 1049 54