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)

The indole C-2(delta 1) carbon of Trp 62 in hen egg-white lysozyme was selectively labeled with 13C through a series of reactions involving N'-formylkynurenine 62-lysozyme with K13CN, NaBH4-reduction, and acid-catalyzed dehydration. [delta 1-13C]Trp 62-lysozyme in which Trp 62 is labeled with 90% 13C has the same chemical and enzymatic properties as the native protein. The reverted lysozyme gave a single 13C-NMR signal at 125 ppm. pH-titration of the 13C signal indicated a transition at pH 3.9 for the free enzyme. In the presence of (GlcNAc)3, the resonance signals were shifted 0.5-1 ppm upfield, and the transitions in the titration curve were observed at pH 3.9 and 6.5. Asp 52 and Glu 35 were assigned to the groups with pKas of 3.9 and 6.5, respectively. In [2-13C]AHT 62-lysozyme, which has 3-(2-amino-3-hydroxy-3H-[2-13C]indol-3-yl)alanine (AHT) at position 62, AHT 62 behaved quite differently from Trp 62 on pH-titration of the 13C-label. These results suggest that a conformational change around Trp 62 is induced upon ionization of the catalytic residue and that the structural flexibility of the side chain of this aromatic residue in the substrate binding site is closely related to the function of lysozyme.
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PMID:Site-specific 13C-labeling of Trp 62 in hen egg-white lysozyme: preparation and 13C-NMR titration of [delta 1-13C]Trp 62-lysozyme. 176 25

The lysozyme from bacteriophage T4 is being used as a model system to determine the roles of individual amino acids in the folding and stability of a typical globular protein. Such studies can provide quantitative information on the contributions made by different types of interactions including hydrogen bonds, hydrophobic interactions, salt bridges and disulphide bridges. To determine the contribution of long-range electrostatic interactions a combination of charge-change mutations was used to reduce the overall formal charge on T4 lysozyme at neutral pH from +9 to +1 units. Such changes in charge were found to have little effect on the stability of the molecule. Salt bridges engineered on the surface of the protein also were found to contribute little to stability. In contrast, the introduction of acidic groups designed to interact with the partial positive charges at the N-termini of alpha-helices consistently increased the stability of the protein. It is argued that this difference between electrostatic salt-bridge interactions and electrostatic 'helix-dipole' interactions lies in the entropic cost of bringing together the interacting partners. In an attempt to simplify the folding problem, and also to further investigate the helix propensity of different amino acids, a series of alanines was introduced within an alpha-helix of T4 lysozyme. The resultant protein not only folds normally but is also more stable than the wild-type enzyme, adding further support to recent evidence that alanine is a helix-favouring amino acid.
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PMID:Structural and genetic analysis of electrostatic and other interactions in bacteriophage T4 lysozyme. 181 96

Free energy simulation methods are used to analyse the effects of the mutation Arg-96----His on the stability of bacteriophage T4 lysozyme and of Ile-96----Ala on the stability of barnase. By use of thermodynamic integration, the contributions of specific interactions to the free energy change are evaluated. It is shown that a number of contributions that stabilize the wild-type or the mutant partially cancel in the overall free energy difference; some of these involve the unfolded state. Comparison of the results with conclusions based on structural and thermodynamic data leads to new insights into the origin of the stability difference between wild-type and mutant proteins. For the charged-to-charged amino acid mutation in T4 lysozyme, the importance of the contributions of more distant residues, solvent water and the covalent linkage involving the mutated amino acid are of particular interest. Also, the analysis of the Arg-96 to His mutation with respect to the interactions with the C-terminal end of a helix (residues 82-90) indicates that the nearby carbonyl groups (Tyr-88 and Asp-89) make the dominant contribution, that the amide groups do not contribute significantly and that the helix dipole model is inappropriate for this case. For the non-polar-to-non-polar amino acid mutation in barnase, the solvent contribution is unimportant, and covalent terms are shown to be significant because they do not cancel between the folded and unfolded state.
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PMID:Simulation analysis of the stability mutants R96H of bacteriophage T4 lysozyme and I96A of barnase. 181 97

We review our research on triose-phosphate isomerase and bacteriophage T4 lysozyme. In our studies over the last ten years we have used electrostatic potentials, computer graphics, quantum mechanics, molecular mechanics, molecular dynamics and free energy calculations to try to understand why triose-phosphate isomerase is such an efficient enzyme and why its efficiency is dramatically decreased by several site-specific mutations. For T4 lysozyme we have used free energy methods to analyse and try to understand why Thr-157----Val and Thr-157----Ala mutations decrease protein stability by about 1-2 kcal/mol.
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PMID:The application of computational methods to the study of enzyme catalysis by triose-phosphate isomerase and stabilities of variants of bacteriophage T4 lysozyme. 181 99

Both ubiquitin conjugation and ubiquitin-dependent degradation of chicken egg white lysozyme in a reticulocyte lysate depend on the presence of a reducing agent. We present evidence that the reduction of a specific disulfide bond, namely that at Cys6-Cys127, facilitates ubiquitination and is a prerequisite to the formation of a multiubiquitin chain on one of at least four chain initiation sites on lysozyme. The Cys6-Cys127 disulfide bond in lysozyme can be specifically reduced, and the modified protein can be isolated after carboxymethylation of the 2 resulting cysteines. This modified lysozyme no longer requires the presence of a reducing agent for ubiquitin conjugation and degradation. Inhibition of ubiquitination by the dipeptide Lys-Ala revealed that this modified lysozyme, like the unmodified protein, is recognized via the binding of the ubiquitin protein ligase, E3, to the substrate's N-terminal lysyl residue. Both the rate and the extent of ubiquitin-lysozyme conjugation, however, are significantly higher with this modified substrate. Likewise, ubiquitin-dependent degradation of 6,127-reduced/carboxymethylated lysozyme was 2-4-fold faster than degradation of the unmodified counterpart. These results are consistent with an interpretation that the modified lysozyme mimics an intermediate formed at the rate-limiting step of the degradation of lysozyme in the reticulocyte lysate. Reduction of the Cys6-Cys127 disulfide bond is expected to unhinge the N-terminal region of lysozyme, and we propose that the recognition of this otherwise stable protein by the ubiquitin pathway is due to facilitated binding of E3 that results from such a conformational transition.
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PMID:Specific disulfide cleavage is required for ubiquitin conjugation and degradation of lysozyme. 184 43

The activation of polymorphonuclear leukocytes (PMN) is an important step in the development of tissue damage associated with inflammatory and ischemic conditions. Catecholamines have been reported to inhibit PMN functions, but the high concentrations required cast doubt on their actual relevance as a defense mechanism. We report here that adenosine, which is actively released in ischemic conditions, potentiates the effect of epinephrine and reduces the minimal active concentration required to inhibit PMN activation by at least two orders of magnitude. Epinephrine caused a dose-related reduction of chemiluminescence, superoxide anion generation, enzyme release (lysozyme and beta-glucuronidase), and adhesion to endothelial cell (EC) monolayers in human PMN activated by N-formyl-methionyl-leucyl-phenyl-alanine (fMLP). This effect was only apparent at 10(-7) to 10(-6) mol/L. As expected, adenosine caused dose-dependent reductions of superoxide anion production and PMN adhesion to EC. Adenosine and epinephrine combined had an additive effect on PMN superoxide production and adhesion to EC. The minimal effective concentration of epinephrine in combination with 10(-8) mol/L adenosine was in the range of 10(-10) to 10(-9) mol/L. In contrast, adenosine inhibited only slightly enzyme release and did not significantly enhance the inhibition by epinephrine on this parameter. Studies with adenosine analogs suggested that the potentiating effect of adenosine was mediated by A2 receptors. The mechanism of potentiation was not related to additive effect on intracellular cyclic adenosine monophosphate levels. Epinephrine's ability to modulate PMN activation and the potentiating effect of adenosine may constitute a form of physiologic protection against tissue injury in inflammatory and ischemic processes.
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PMID:Adrenergic modulation of human polymorphonuclear leukocyte activation. Potentiating effect of adenosine. 185 Mar 10

The complete 129-amino-acid sequences of two rainbow trout lysozymes (I and II) isolated from kidney were established using protein chemistry microtechniques. The two sequences differ only at position 86, I having aspartic acid and II having alanine. A cDNA clone coding for rainbow trout lysozyme was isolated from a cDNA library made from liver mRNA. Sequencing of the cloned cDNA insert, which was 1 kb in length, revealed a 432-bp open reading frame encoding an amino-terminal peptide of 15 amino acids and a mature enzyme of 129 amino acids identical in sequence to II. Forms I and II from kidney and liver were also analyzed using enzymatic amplification via PCR and direct sequencing; both organs contain mRNA encoding the two lysozymes. Evolutionary trees relating DNA sequences coding for lysozymes c and alpha-lactalbumins provide evidence that the gene duplication giving rise to conventional vertebrate lysozymes c and to lactalbumin preceded the divergence of fishes and tetrapods about 400 Myr ago. Evolutionary analysis also suggests that amino acid replacements may have accumulated more slowly on the lineage leading to fish lysozyme than on those leading to mammal and bird lysozymes.
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PMID:cDNA and amino acid sequences of rainbow trout (Oncorhynchus mykiss) lysozymes and their implications for the evolution of lysozyme and lactalbumin. 190 Oct 95

Packing interactions in bacteriophage T4 lysozyme were explored by determining the structural and thermodynamic effects of substitutions for Ala98 and neighboring residues. Ala98 is buried in the core of T4 lysozyme in the interface between two alpha-helices. The Ala98 to Val (A98V) replacement is a temperature-sensitive lesion that lowers the denaturation temperature of the protein by 15 degrees C (pH 3.0, delta delta G = -4.9 kcal/mol) and causes atoms within the two helices to move apart by up to 0.7 A. Additional structural shifts also occur throughout the C-terminal domain. In an attempt to compensate for the A98V replacement, substitutions were made for Val149 and Thr152, which make contact with residue 98. Site-directed mutagenesis was used to construct the multiple mutants A98V/T152S, A98V/V149C/T152S and the control mutants T152S, V149C and A98V/V149I/T152S. These proteins were crystallized, and their high-resolution X-ray crystal structures were determined. None of the second-site substitutions completely alleviates the destabilization or the structural changes caused by A98V. The changes in stability caused by the different mutations are not additive, reflecting both direct interactions between the sites and structural differences among the mutants. As an example, when Thr152 in wild-type lysozyme is replaced with serine, the protein is destabilized by 2.6 kcal/mol. Except for a small movement of Val94 toward the cavity created by removal of the methyl group, the structure of the T152S mutant is very similar to wild-type T4 lysozyme. In contrast, the same Thr152 to Ser replacement in the A98V background causes almost no change in stability. Although the structure of A98V/T152S remains similar to A98V, the combination of T152S with A98V allows relaxation of some of the strain introduced by the Ala98 to Val replacement. These studies show that removal of methyl groups by mutation can be stabilizing (Val98----Ala), neutral (Thr152----Ser in A98V) or destabilizing (Val149----Cys, Thr152----Ser). Such diverse thermodynamic effects are not accounted for by changes in buried surface area or free energies of transfer of wild-type and mutant side-chains. In general, the changes in protein stability caused by a mutation depend not only on changes in the free energy of transfer associated with the substitution, but also on the structural context within which the mutation occurs and on the ability of the surrounding structure to relax in response to the substitution.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structural and thermodynamic analysis of the packing of two alpha-helices in bacteriophage T4 lysozyme. 192 Apr 39

The formation of acceptor for the N epsilon-(D-Ala)-acceptor transpeptidase is an essential feature of nascent peptidoglycan processing. In Gaffkya homari the synthesis of cross-bridges in peptidoglycan includes a variety of penicillin-sensitive enzymes, e.g., transpeptidase, DD-carboxypeptidase, and LD-carboxypeptidase. To determine the primary target, we grew cultures in the presence of the MICs of benzylpenicillin (0.2 microgram/ml), methicillin (10 micrograms/ml), cephalothin (5 micrograms/ml), and cefoxitin (25 micrograms/ml) and examined the monomer-dimer composition of each peptidoglycan by high-performance liquid chromatography after muramidase digestion. From these studies it was recognized that of all the dimers, the synthesis of the predominant cross-bridge, diamidated octapeptide (-Ala-iso-D-Gln-Lys-D-Ala -Ala-iso-D-Gln-Lys-D-Ala), is most sensitive to the action of the beta-lactam at its MIC. The enhanced deamidation of the acceptor tetrapeptide, one of the substrates for the transpeptidase, is correlated with the inhibition of this cross-bridge. For example, at the MIC of benzylpenicillin, the ratio of amidated tetrapeptide to nonamidated tetrapeptide decreased from 2.8 in the control to 1.0 in the treated culture. From these results it would appear that a decrease in preferred acceptor for the transpeptidase results in the inhibition of synthesis of this major cross-bridge. Thus, the metabolism of the amide function of the monomer peptides may represent an additional feature of processing in the assembly of cross-bridged dimers in the peptidoglycan of this organism that is sensitive to the action of beta-lactam.
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PMID:Biosynthesis of peptidoglycan in Gaffkya homari: on the target(s) of benzylpenicillin. 195 43

We have found that if core regions crucial for class II binding are incorporated in multiple copies in the same peptide molecule ("reiterative motifs"), marked enhancement of the binding capacity occurs. Isotype specificity (IAd vs IEd binding capacities) is retained in all three antigenic determinants so far analyzed (lambda rep 12-26, OVA 323-339, and hen egg lysozyme 105-120). The mechanism involved in such an effect is not clear, but experiments involving introduction of a peptide spacer between two repeated core regions do not support the notion that the effect is mediated by cross-linking of more than one MHC molecule, favoring the possibility that conformational effects or distinct subsites of interaction on the MHC molecule may be involved. Based on reiterative structures, a peptide molecule composed of only two different amino acids (Ala and His) has been produced that still retains a very high binding affinity. An 125I-radiolabeled form of this peptide has been used to demonstrate that the high binding detected is mediated by the same binding site involved in the interaction of IAd and OVA 323-339. Inhibition of Ag presentation studies further supports the immunologic relevance of the phenomena observed. Finally, we observed naturally occurring clustered binding sites in proximity of immunodominant protein regions, raising the possibility that the phenomenon might have a physiologic counterpart.
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PMID:A novel approach to the generation of high affinity class II-binding peptides. 197 60


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