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:3.2.1.17 (lysozyme)
21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have previously demonstrated that avian osteoclasts contain high levels of 17 beta-estradiol (17 beta E2) receptors and respond to 17 beta E2 treatment with a dose-dependent decrease in in vitro resorption of [3H] proline-labeled bone particles. To more accurately assess the influence of 17 beta E2 on osteoclastic activity, the specificity of estrogen modulation of resorption levels was determined using a quantitative pit resorption assay. Treatment with 17 beta E2 significantly decreased the number of osteoclast resorption pits formed compared with that after either vehicle or 17 alpha E2 treatment. Cotreatment with 17 beta E2 and hydroxytamoxifen (a complete 17 beta E2 antagonist in birds) abrogated the influence of 17 beta E2 on resorption activity. To elucidate the mechanism by which 17 beta E2 inhibits osteoclast activity, the effects of 17 beta E2 on the steady state mRNA levels of two avian osteoclast lysosomal proteins, lysozyme and a lysosomal membrane protein (LEP-100), were examined. Using highly purified avian osteoclasts, 17 beta E2 was shown to decrease lysosomal protein mRNA levels in a dose-dependent manner within 8 h of treatment in a process that required de novo protein synthesis. This response was specific for 17 beta E2, since the inactive stereoisomer 17 alpha E2 had no effect. Furthermore, coincubation of 17 beta E2 with hydroxytamoxifen eliminated the 17 beta E2 influence. After removal of 10(-8) M 17 beta E2, lysosomal gene mRNA levels returned to near-normal levels within 24 h. This is consistent with the previously reported ability of avian osteoclast-mediated resorption activity to recover from 17 beta E2 treatment. Lysozyme protein levels similarly decreased after 17 beta E2 treatment. These data suggest that avian osteoclasts are target cells for 17 beta E2 in vitro, that osteoclast activity in vivo is likely to be modulated by circulating levels of 17 beta E2, and that the 17 beta E2 inhibition of osteoclast resorption activity may be mediated at least in part via regulation of osteoclast lysosomal gene expression.
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PMID:Estrogen modulation of avian osteoclast lysosomal gene expression. 844 Jan 93

Three mutant lysozymes where the Asp101-Gly102 sequence of lysozyme was converted to Asp101-Pro102, Gly101-Pro102 and Pro101-Gly102 were prepared to investigate the effect of proline residues on the stabilization of proteins. The free energy changes of lysozymes for the unfolding in aqueous solution at pH 5.5 and 35 degrees C were 10.0, 10.1, 11.0 and 7.7 kcal/mol for wild type, Asp101Pro102, Gly101Pro102 and Pro101Gly102 lysozyme respectively. When the energy level in the unfolded state of wild type lysozyme was fixed at a standard level, the energy levels in the folded state of Asp101Pro102 and Pro101Gly102 lysozymes were found to be higher than that of wild type lysozyme on the basis of delta GD(H2O) and entropy losses of their polypeptide chains in the unfolded state. The presence of some strain in the folded state of these lysozymes was supported by both the calculation of conformational energy for a trans-L-prolyl residue [Schimmel, P.R. and Flory, P.J. (1968) J. Mol. Biol., 34, 105-120] and the analysis of structures of energy-minimized mutant lysozymes. Therefore, it is concluded that the formation of the Gly-Pro sequence is effective in avoiding possible strain in the folded state of a protein caused by the introduction of proline residue(s).
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PMID:Stabilization of lysozyme by the introduction of Gly-Pro sequence. 847 43

The propensity of an amino acid to form an alpha helix in a protein was determined by multiple amino substitutions at positions 44 and 131 in T4 lysozyme. These positions are solvent-exposed sites within the alpha helices that comprise, respectively, residues 39 to 50 and 126 to 134. Except for two acidic substitutions that may be involved in salt bridges, the changes in stability at the two sites agree well. The stability values also agree with those observed for corresponding amino acid substitutions in some model peptides. Thus, helix propensity values derived from model peptides can be applicable to proteins. Among the 20 naturally occurring amino acids, proline, glycine, and alanine each have a structurally unique feature that helps to explain their low or high helix propensities. For the remaining 17 amino acids, it appears that the side chain hydrophobic surface buried against the side of the helix contributes substantially to alpha helix propensity.
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PMID:Structural basis of amino acid alpha helix propensity. 823 16

A metalloendopeptidase (MEP) isolated from rabbit liver microsomes with substrate specificity for peptides containing Arg at the P1 and P4 positions has recently proved to be identical to soluble angiotensin-binding protein present in the cytosol. Here we describe the peptide-degrading specificity of MEP, determined using various bioactive peptides and novel fluorogenic substrates for the enzyme. MEP degraded oligopeptides, including bradykinin, alpha-neoendorphin, bovine adrenal medulla dodecapeptide, substance P, bombesin, neurotensin, and alpha-endorphin, but not polypeptides such as reduced lysozyme and histone H4, hence, MEP probably belongs to the family of endo-oligopeptidases. It cleaved most preferentially at the -Phe-Ser- bond of bradykinin (kcat/Km = 2.8 x 10(4) M-1.S-1) but did not cleave high molecular weight and low molecular weight kininogens, the precursors of bradykinin. MEP did not cleave angiotensin I, dynorphin A 1-13, somatostatin, and luteinizing hormone-releasing hormone, some of which are good substrates for metalloendopeptidase-24.15, metalloendopeptidase-24.16, N-arginine dibasic convertase, and yeast endopeptidase-24.15 related peptidase. An active site-directed inhibitor of metalloendopeptidase-24.15, N-[1-(R,S)-carboxyl-3-phenylpropyl]-Ala-Ala-Phe-p-aminobenzoate also had no effects on the amidolytic activity of MEP. Based on the cleavage sites of bioactive peptides and processing sites of vitamin K-dependent proproteins, intramolecularly quenched fluorogenic peptide substrates were newly synthesized. Among the thirteen substrates used, the most reactive was 2-aminobenzoyl-Ala-Arg-Val-Arg-Arg-Ala- Asn-Ser-2,4-dinitroanilinoethylamide (kcat/Km = 9.3 x 10(5) M-1.S-1). An angiotensin antagonist, [Sar1, Ala8]-angiotensin II, inhibited hydrolysis of the substrate by MEP in a competitive manner (Kl = 7.6 microM). MEP cleaved oligopeptides even on the carboxyl side of proline residue and these peptides are resistant to hydrolysis by the cytosol-derived proteasome, therefore MEP may participate in the catabolism of oligopeptides in the cytosol, together with other endo-oligopeptidases.
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PMID:Substrate specificity of rabbit liver metalloendopeptidase and its new fluorogenic peptide substrates. 857 4

A high proportion (up to 30%) of major histocompatibility complex (MHC) class II-bound peptides in the mouse and humans contains a proline residue at the N-terminal penultimate position (XP motif). We used a set of ovalbumin (OVA)-specific and hen egg lysozyme (HEL)-specific T cell hybridomas and asked whether the XP motif in MHC class II-associated peptides might influence the stimulation of T cells. We created N-terminally substituted variants of OVA323-339, an H2-Ad restricted OVA epitope and of HEL50-63, a dominant epitope in the context of H2-Ak. Our results show that the N-terminal sequence of MHC class II-bound peptides has a strong impact for the overall stimulation of specific T cells. Proline at the N terminus of antigenic peptides, in contrast to other amino acids, is tolerated or even enhances the recognition of MHC class II-bound peptides significantly.
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PMID:A biological function for the XP motif within the N terminus of major histocompatibility complex class II-associated peptides. 876 27

Because of its ability to probe directly the chiral elements of the peptide backbone, together with the very short time scale of the scattering process, vibrational Raman optical activity (ROA) can provide new information on structure in non-native states of proteins. Here we report ROA studies of hen egg white lysozyme and bovine ribonuclease A in unfolded denatured states, prepared by reducing all the disulfide bonds. ROA spectra of unfolded lysozyme at 45, 20, and 2 degrees C, and of unfolded ribonuclease A at 35 and 20 degrees C, are presented and discussed. At 45 and 20 degrees C, unfolded lysozyme appears to contain very little extended secondary structure, but at 2 degrees C there could be roughly 20% of the native amount of alpha-helix present but little beta-sheet. Unfolded ribonuclease A, on the other hand, appears to contain roughly 50% of its native-like secondary structure, including both alpha-helix and beta-sheet, at 20 degrees C; similar secondary structure persists at 35 degrees C, but the amount is reduced. The most striking result is the observation of three sharp ROA bands in the extended amide III region, originating in coupled C alpha-H and N-H deformations, which might monitor directly the dominant intrinsic propensities for residues to adopt particular phi, psi angles, averaged over the different amino acids in the mobile heteropolypeptide. Specifically, positive bands at approximately 1300 and 1314 cm-1 appear to monitor propensities for alpha-helix and beta-structure, respectively, and a negative band at approximately 1237 cm-1 appears to monitor that for the poly(L-proline) II helix. These signals are generated by individual residues clustering in the most favorable regions of the Ramachandran plot and are present even in the absence of signals from the corresponding extended secondary structures. At 45 degrees C, the 1300 and 1314 cm-1 ROA bands of unfolded lysozyme coalesce into a single sharp band from which an analysis similar to that used for exchange effects in NMR suggests a rate of approximately 2.6 x 10(12) s-1 for interconversion between the individual residue conformations at this temperature.
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PMID:Residual structure in unfolded proteins revealed by Raman optical activity. 882 88

The three-dimensional structure of hevamine, a plant enzyme with chitinase and lysozyme activity, has been refined at 1.8 A resolution to an R-factor of 14.9% and a free R-factor of 19.6%. The final model consists of all 273 amino acid residues and 206 ordered water molecules. Two non-proline cis-peptides were identified, involving Phe32 and Trp255, both of which are implicated in substrate binding. Other glycosyl hydrolase family 18 proteins with known three-dimensional structure are bacterial chitinase A, endo-beta-N-acetylglucosaminidase F1, endo-beta-N-acetylglucosaminidase H, and the two plant proteins concanavalin B and narbonin, which have no known enzymatic activity. All these structures contain a (beta alpha)8 barrel fold, with the two family 18 consensus regions roughly corresponding to the third and fourth barrel strands. This confirms the grouping of these proteins into family 18, which was only based on weak and local sequence similarity. The substrate specificity of the enzymes is determined by the loops following the barrel strands that form the substrate binding site. All enzymes have an aspartic acid and a glutamic acid residue in positions identical with Asp 125 and the catalytic Glu127 of hevamine. The lack of chitinase activity of concanavalin B and narbonin can be explained by the absence of one of these carboxylate groups, and by differences in the loops that form the substrate-binding cleft in hevamine.
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PMID:The 1.8 A resolution structure of hevamine, a plant chitinase/lysozyme, and analysis of the conserved sequence and structure motifs of glycosyl hydrolase family 18. 883 91

A class of temperature-sensitive (ts) mutants of T4 lysozyme with reduced activity at 30 degrees C and no activity at 43 degrees C has been selected. These mutants, designated "tight" ts mutants, differ from most other T4 lysozyme mutants that are active at 43 degrees C, but only manifest their ts lesion by a reduced halo size around phage plaques after exposure of the growth plates to chloroform vapors. For example, in the series of T4 lysozyme mutants at position 157, the original randomly selected mutant, T1571, is the least stable of the series, yet, apart from the halo assay and subsequent in vitro protein stability measurements, this mutant is indistinguishable from wild type (WT) even at 43 degrees C. Two mutants were identified: L91P and L66P. Both insert proline residues into alpha-helical regions of the WT protein structure. The stabilities (delta delta G) as determined by urea denaturation are 8.2 kcal/mol for L91P and 7.1 kcal/mol for L66P. CD spectra indicate that no major conformational changes have occurred in the mutant structures. The structures of the mutants were modeled with a 40-ps molecular dynamics simulation using explicit solvent. For L91P, the reduction of stability appears to be due to an unsatisfied hydrogen bond in the alpha-helix and to a new buried cavity. For L66P, the reduction of stability appears to be due to a disruption of the interdomain alpha-helix, at least two unsatisfied hydrogen bonds, and a newly formed solvent-filled pocket that protrudes into the hydrophobic core, possibly reducing the stabilizing contribution of a partially buried intrachain salt bridge.
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PMID:Destabilizing effect of proline substitutions in two helical regions of T4 lysozyme: leucine 66 to proline and leucine 91 to proline. 884 64

The effect of proline on the prevention of trichloroacetic acid (TCA)-induced protein precipitation is studied. It is found that proline at high concentrations (> 4.0 M) completely prevents TCA-induced precipitation of hen egg white lysozyme. Other osmolytes such as ethylene glycol, glycerol and sucrose fail to prevent the TCA-induced precipitation of lysozyme. Viscosity and 1-anilino-8-naphthalene sulphonic acid binding experiments suggest that proline at high concentration forms an ordered supramolecular assembly. Proline is shown to increase the solubility of protein due to formation of such higher order assemblies. A model of the supra-molecular assembly of proline is proposed and a possible in vivo role of the increased levels of proline under water stress is discussed.
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PMID:Proline is a protein solubilizing solute. 906 63

When hen egg-white lysozyme was produced in Escherichia coli, it possessed an extra methionine residue at the N-terminus (Met(-1)-lysozyme). The Met(-1)-lysozyme showed a decreased refolding yield and solubility compared with the native hen egg-white lysozyme, as the methionine is a hydrophobic amino acid. A Met(-2)Pro(-1) or Met(-2)Ser(-1) sequence was introduced at the N-terminus of hen egg-white lysozyme. The methionine residue in these hen egg-white lysozymes was completely removed by methionine aminopeptidase, as expected, since the penultimate residue was proline or serine. From the analyses of solubility, stability and refolding yield, it was found that an extra Ser residue attached to the N-terminus of hen egg-white lysozyme (Ser(-1)-lysozyme) showed closer characteristics to the native hen egg-white lysozyme than did Met(-1) or an extra Pro residue attached to the N-terminus of hen egg-white lysozyme (Pro(-1)-lysozyme). Moreover, the tertiary conformation of Ser(-1)-lysozyme examined by NMR spectroscopy and its activity were almost identical with those of native hen egg-white lysozyme.
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PMID:Improvement of the refolding yield and solubility of hen egg-white lysozyme by altering the Met residue attached to its N-terminus to Ser. 951 23


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