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)

A lysozyme derivative in which two domains were cross-linked intramolecularly was newly prepared by means of a two-step reaction. First, the beta-carboxyl group of Asp101 in lysozyme was selectively modified with 2-(2-pyridyldithio)ethylamine in the presence of 1-ethyl-3-[3-(dimethylamino)propyl]carbodiimide hydrochloride. After reduction of the pyridyldithio moiety of Asp101 modified lysozyme at pH 4.5 with dithiothreitol, the derivative was allowed to cross-link intramolecularly by reaction with 1,3-dichloroacetone at pH 7. Intramolecularly cross-linked lysozyme thus formed was purified by gel chromatography followed by ion-exchange chromatography. Based on the results of 1H-NMR and peptide analyses, it was concluded that Asp101 was cross-linked to Trp62 with a -CH2COCH2SCH2CH2NH-bridge in this derivative. The derivative showed minor but distinct activity against Micrococcus lysodeikticus and glycol chitin. Its melting temperature for thermal denaturation was higher by 7.3 degrees than that of native lysozyme at pH 3.
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PMID:Preparation and properties of a lysozyme derivative in which two domains are cross-linked intramolecularly between Trp62 and Asp101. 178 1

The 15N signal assignment of human lysozyme was carried out by using 1H-1H and 1H-15N two dimensional experiments. To solve the severe overlap problem of the NH signals, uniform labeling of the protein with 15N was introduced. The uniformly 15N labeled protein was prepared using a high-expression system of Saccharomyces cerevisiae. From the analyses of 1H and 15N NMR spectra, all of the backbone 15N signals of the molecule were assigned to each specific residue in the amino acid sequence. Recently published proton signal assignments [Redfield & Dobson (1990) Biochemistry, 29, 7201-7214] were confirmed by these complementary data. In addition, assignments were extended to side chain 15NH2 groups of asparagine and glutamine. Elements of secondary structure were deduced from the pattern of sequential and medium-range NOE connectivities. Two beta-sheets and four alpha-helices could be identified in the protein, which were in good agreement with those determined by X-ray crystallography. The interaction between human lysozyme and its inhibitor N-acetyl-chitotriose was investigated by 15N-1H HMQC spectra. Most of the 15N-NH cross-peaks in the spectra were separated well enough to be followed during the titration experiment. Residues whose NH proton signals decrease in intensity upon complex formation, are located mainly around subsites B, C, and D. Local conformational changes were observed around the fourth helix adjacent to the cleft of human lysozyme.
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PMID:1H and 15N NMR study of human lysozyme. 179 72

The underlying basis of the main chain directed (MCD) resonance assignment strategy for the analysis of 1H NMR spectra of proteins is reexamined. The criteria used in the construction of the patterns used in the MCD method have been extended to increase the robustness of the approach to the presence of variable protein secondary structure and significant spectral degeneracy. These criteria have led to the development of several dozen patterns exclusively involving the short distance relationships between main chain amide NH-C alpha-H-C beta H (NAB) J-coupled subspin systems of the amino acid residues. The MCD patterns have been examined for fidelity and frequency of occurrence in a database composed of the high resolution crystal structures of 39 proteins. The analysis has identified several extremely robust patterns, suitable for initiating a hierarchical construction of units of secondary structure based upon a systematic analysis of two-dimensional nuclear Overhauser effect spectra. A formal procedure, suitable for the computer assisted application of the MCD strategy, is developed. This procedure, termed MCDPAT, has been applied to the analysis of the crystal structures of human ubiquitin, T4 lysozyme, and ribonuclease A. It has been found that the MCDPAT procedure is conservative producing no significant errors and is globally successful in correctly identifying the appropriate units of secondary structure contained in these three proteins.
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PMID:Refinement of the main chain directed assignment strategy for the analysis of 1H NMR spectra of proteins. 186 55

The effect of including paramagnetic relaxation data as additional restraints in the determination of protein tertiary structures from NMR data has been explored by a systematic series of model calculations. The system used for testing the method was the 2.0 A resolution tetragonal crystal structure of hen egg white lysozyme (129 amino acid residues) and structures were generated using a version of the hybrid "distance geometry-dynamic simulated annealing" procedure. A limited set of 769 NOEs was used as restraints in all the calculations; the strengths of these were categorized into three classes on the basis of distances observed in the crystal structure. The values of 50 phi angles were also restrained on the basis of amide-alpha coupling constants calculated from the X-ray structure. Five sets of 12 structures were determined using differing sets of paramagnetic relaxation data as restraints additional to those involving the NOE and coupling constant data. The paramagnetic relaxation data were modeled on the basis of the distances of defined protons from the crystallographic binding site of Gd3+ in lysozyme. Analysis of the results showed that the relaxation data significantly improved the correspondence between the set of generated structures and the crystal structure, and that the more well defined the relaxation data, the more significant the improvement in the quality of the structures. The results suggest that the inclusion of paramagnetic relaxation restraints could be of significant value for the experimental determination of protein structures from NMR data.
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PMID:Relaxation data in NMR structure determination: model calculations for the lysozyme-Gd3+ complex. 189 25

It was shown previously that the introduction of a negatively charged amino acid at the N-terminus of an alpha-helix could increase the thermostability of phage T4 lysozyme via an electrostatic interaction with the "helix dipole" [Nicholson, H., Becktel, W. J., & Matthews, B. W. (1988) Nature 336, 651-656]. The prior report focused on the two stabilizing substitutions Ser 38----Asp (S38D) and Asn 144----Asp (N144D). Two additional examples of stabilizing mutants, T109D and N116D, are presented here. Both show the pH-dependent increase in thermal stability expected for the interaction of an aspartic acid with an alpha-helix dipole. Control mutants were also constructed to further characterize the nature of the interaction with the alpha-helix dipole. High-resolution crystal structure analysis was used to determine the nature of the interaction of the substituted amino acids with the end of the alpha-helix in both the primary and the control mutants. Control mutant S38N has stability essentially the same as that of wild-type lysozyme but hydrogen bonding similar to that of the stabilizing mutant S38D. This confirms that it is the electrostatic interaction between Asp 38 and the helix dipole, rather than a change in hydrogen-bonding geometry, that gives enhanced stability. Structural and thermodynamic analysis of mutant T109N provide a similar control for the stabilizing replacement T109D. In the case of mutant N116D, there was concern that the enhanced stability might be due to a favorable salt-bridge interaction between the introduced aspartate and Arg 119, rather than an interaction with the alpha-helix dipole. The additivity of the stabilities of N116D and R119M seen in the double mutant N116D/R119M indicates that favorable interactions are largely independent of residue 119. As a further control, Asp 92, a presumed helix-stabilizing residue in wild-type lysozyme, was replaced with Asn. This decreased the stability of the protein in the manner expected for the loss of a favorable helix dipole interaction. In total, five mutations have been identified that increase the thermostability of T4 lysozyme and appear to do so by favorable interactions with alpha-helix dipoles. As measured by the pH dependence of stability, the strength of the electrostatic interaction between the charged groups studied here and the helix dipole ranges from 0.6 to 1.3 kcal/mol in 150 mM KCl. In the case of mutants S38D and N144H, NMR titration was used to measure the pKa's of Asp 38 and His 144 in the folded structures.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Analysis of the interaction between charged side chains and the alpha-helix dipole using designed thermostable mutants of phage T4 lysozyme. 191 73

We prepared the lysozyme derivative in which the beta-carboxyl group of Asp101 was modified with alpha-O-methyl N-glycylglucosaminide as an amide by means of the carbodimide reaction (alpha-MGG lysozyme). Since Asp101 residue is located at the edge of the active site cleft, a 1H-NMR study was carried out for this derivative in order to investigate the interaction between the introduced substituent and the active site cleft. It was confirmed that the alpha-MGG moiety sat in the active site cleft in alpha-MGG lysozyme from the reduction of line broadening of the NH-proton of Trp63 located in the active site cleft, the remarkable chemical shift change of the methyl group of the alpha-MGG moiety upon adding a trimer of N-acetyl-D-glucosamine [(NAG)3], and the NOE between the C6-proton resonance of Trp63 and the methyl resonance of the alpha-MGG moiety. Furthermore, alpha-MGG lysozyme had increased thermal stability compared with native lysozyme. Therefore, it was concluded that the alpha-MGG moiety covalently attached to Asp101 interacted with the active site cleft to increase the thermal stability of lysozyme.
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PMID:1H-NMR study of the intramolecular interaction of a substrate analogue covalently attached to aspartic acid-101 in lysozyme. 191 92

Three-bond 3JHN alpha coupling constants have been determined for 106 residues and 3J alpha beta coupling constants have been measured for 57 residues of the 129-residue protein hen egg white lysozyme. These NMR data have been compared with torsion angles defined in the tetragonal and the triclinic crystal forms of the protein. For most residues the measured 3JHN alpha values were consistent with the phi torsion angles found in both crystal forms; the RMS difference between the coupling constants calculated by using the tetragonal crystal structure phi angles and the experimental 3JHN alpha values is 0.88 Hz. Thus there appears to be no significant averaging of the phi torsion angle either in the interior or at the surface of the protein. For 41 of the residues where 3J alpha beta coupling constants have been determined, the values are consistent with a single staggered conformation about the chi 1 torsion angle and there is complete agreement between the NMR data in solution and the torsion angles defined in the crystalline state. In contrast, for the other 16 residues where 3J alpha beta coupling constant values have been measured, the data indicate extensive motional averaging about the chi 1 torsion angle. These residues occur largely on the surface of the protein and examination of the crystal structures shows that many of these residues adopt a different conformation in the triclinic and tetragonal crystal forms and have high crystallographic temperature factors. It appears, however, that in solution conformational flexibility of the side chains of surface residues is significantly more pronounced than in individual crystal structures.
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PMID:Analysis of phi and chi 1 torsion angles for hen lysozyme in solution from 1H NMR spin-spin coupling constants. 198 88

Although there has been much speculation on the pathways of protein folding, only recently have experimental data on the topic been available. The study of proteins under conditions where species intermediate between the fully folded and unfolded states are stable has provided important information, for example about the disulphide intermediates in BPTI, cis/trans proline isomers of RNase A3 and the molten globule state of alpha-lactalbumin. An alternative approach to investigating folding pathways has involved detection and characterization of transient conformers in refolding studies using stopped-flow methods coupled with NMR measurements of hydrogen exchange. The formation of intermediate structures has been detected in the early stages of folding of cytochrome c, RNaseA and barnase. For alpha-lactalbumin, hydrogen exchange kinetics monitored by NMR proved to be crucial for identifying native-like structural features in the stable molten globule state. An analogous partially folded protein stable under equilibrium conditions has not been observed for the structurally homologous protein hen egg-white lysozyme, although there is evidence that a similar but transient state is formed during refolding. Here we describe NMR experiments based on competition between hydrogen exchange and the refolding process which not only support the existence of such a transient species for lysozyme, but enable its structural characteristics to be defined. The results indicate that the two structural domains of lysozyme are distinct folding domains, in that they differ significantly in the extent to which compact, probably native-like, structure is present in the early stages of folding.
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PMID:Demonstration by NMR of folding domains in lysozyme. 200 Jan 38

Carbon-13 NMR spectroscopy has been used to further document the interaction, at low and high temperatures, of N-acetylglucosamine and its short polymers with hen egg-white lysozyme. The results have been compared with the corresponding X-ray crystallographic data. Two domains, the active site and the hydrophobic box, have been found by NMR to undergo conformational rearrangement while X-ray crystallography only detected changes located in the active site. The extent of the modifications induced by inhibitor binding was proportional to the inhibitor size. The two techniques concurred to show that even in the presence of monosaccharide (N-acetylglucosamine), more than one subsite of the enzyme was occupied at high temperature, the binding at the C-site being the best defined. The thermal transition of lysozyme still occurred in solution when inhibitors were bound. However, in the solid state, crystallographic data showed that the transition was hindered.
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PMID:Effect of inhibitors on conformational changes in hen lysozyme around thermal transition point in solution and solid state. 216 67

Paramagnetic agents produce line broadening and thus cancellation of anti phase cross-peak components in two-dimensional correlated nuclear magnetic resonance spectra. The specificity of this effect was examined to determine its utility for identifying surface residues of proteins. Ubiquitin and hen egg white lysozyme, for which X-ray crystal structures and proton NMR assignments are available, served as test cases. Two relaxation reagents were employed, 4-hydroxy-2,2,6,6-tetramethylpiperidinyl-1-oxy and the gadolinium (III) diethylenetriaminepentaacetate complex ion. Correlations were sought between reagent-produced decreases of side-chain cross-peak volumes in double-quantum-filtered proton correlation (DQF-COSY) spectra and the solvent-exposed side-chain surface area of the corresponding residues. The lanthanide complex produced strong effects ascribable to association with carboxylate groups but was not otherwise useful in delineating surface residues. The nitroxyl, on the other hand, produced clear distinctions among the Val, Leu, and Ile residues that generally paralleled side-chain exposure in the crystal, although consistent correlations were not observed with residues of other types. Although an instance of possible specific protein-nitroxyl association was noted, the nitroxyl appears to be a tool for identifying hydrophobic surface residues.
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PMID:NMR identification of protein surfaces using paramagnetic probes. 217 60


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