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)

In the native structure of hen egg white lysozyme (HEL), the amino acid sequence 87-97 (HEL 87-97) forms an amphiphilic helix, with hydrophilic residues in the sequence directed toward the solvent. A synthetic version of the HEL 87-97 sequence (with the cysteine corresponding to position 94 of HEL replaced by alanine) displays conformational features in solution typical of an unordered structure as judged by CD. However, various modifications in the sequence result in increased helix-forming potential of the HEL 87-97 analogues. Further stabilization of the helical conformation in the most helical analogue of the HEL 87-97 sequence is obtained when 4 copies of this peptide sequence are coupled on a peptide carrier molecule following the template-assembled synthetic protein (TASP) approach [M. Mutter and S. Vuilleumier (1989) Angew. Chem. Int. Ed. Engl., Vol. 28, pp. 535-554 "A Chemical Approach to Protein Design-Template-Assembled Synthetic Proteins (TASP)." This suggests that long-range interactions of the peptide with its environment contribute to conformational stability in short peptide sequences. TASP molecules may prove useful for the study of the factors that determine secondary structure formation in short peptides by providing a protein-like framework.
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PMID:Synthetic peptide and template-assembled synthetic protein models of the hen egg white lysozyme 87-97 helix: importance of a protein-like framework for conformational stability in a short peptide sequence. 846 50

Lysozyme has two distinct folding domains, and in most molecules the alpha-helical domain folds more quickly than the beta-sheet domain in vitro [Radford, Dobson and Evans (1992) Nature (London) 358, 302-307]. In order to investigate the relationship between the formation of disulphide bonds and protein folding in vivo, we carried out cysteine scanning mutagenesis to shift positions of the disulphide bonds in both the alpha-helical and beta-sheet domains of human lysozyme. Of the constructed mutants (nine in the beta-sheet domain and 13 in the alpha-helical domain), the mutant L79CC81A, in which Leu-79 and Cys-81 in the beta-sheet domain were replaced by Cys and Ala respectively, was secreted by yeast. The rest of the mutants were retained in the insoluble fraction of the cell, probably because of a failure of folding. The distance between the two alpha-carbons at positions 79 and 95 in the wild-type protein is too far to form a disulphide bond, but analysis of the primary structure revealed that the major part of L79CC81A was secreted with a non-native disulphide bond Cys79-Cys95 and two free cysteine residues at positions 65 and 77 in the beta-sheet domain. These results suggest that the beta-sheet domain of human lysozyme can tolerate the shift of locations of disulphide bonds, and the non-native folding of mutated polypeptide chains in in vivo folding. The free residues Cys-65 and Cys-77 formed a disulphide bond in vitro by air oxidation, yielding two isomers. On the basis of our previous results and present study it is suggested that the formation of Cys6-Cys128 is the first step of the in vivo correct folding of human lysozyme, and disulphide bonds in the beta-sheet domain are post-translationally formed in vivo.
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PMID:Indication of possible post-translational formation of disulphide bonds in the beta-sheet domain of human lysozyme. 850 81

The Bacillus subtilis spore coat is composed of at least 15 polypeptides plus an insoluble protein fraction arranged in three morphological layers. The insoluble fraction accounts for about 30% of the coat protein and is resistant to solubilization by a variety of reagents, implying extensive cross-linking. A dodecapeptide was purified from this fraction by formic acid hydrolysis and reverse-phase high-performance liquid chromatography. This peptide was sequenced, and a gene designated cotX was cloned by reverse genetics. The cotX gene encoding the dodecapeptide at its amino end was clustered with four other genes designated cotV, cotW, cotY, and cotZ. These genes were mapped to 107 degrees between thiB and metA on the B. subtilis chromosome. The deduced amino acid sequences of the cotY and cotZ genes are very similar. Both proteins are cysteine rich, and CotY antigen was present in spore coat extracts as disulfide cross-linked multimers. There was little CotX antigen in the spore coat soluble fraction, and deletion of this gene resulted in a 30% reduction in the spore coat insoluble fraction. Spores produced by strains with deletions of the cotX, cotYZ, or cotXYZ genes were heat and lysozyme resistant but readily clumped and responded more rapidly to germinants than did spores from the wild type. In electron micrographs, there was a less densely staining outer coat in spores produced by the cotX null mutant, and those produced by a strain with a deletion of the cotXYZ genes had an incomplete outer coat. These proteins, as part of the coat insoluble fraction, appear to be localized to the outer coat and influence spore hydrophobicity as well as the accessibility of germinants.
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PMID:Cloning and characterization of a cluster of genes encoding polypeptides present in the insoluble fraction of the spore coat of Bacillus subtilis. 850 31

The use of molecular genetics to introduce both a metal ion binding site and a nitroxide spin label into the same protein opens the use of paramagnetic metalnitroxyl interactions to estimate intramolecular distances in a wide variety of proteins. In this report, a His-Xaa3-His metal ion binding motif was introduced at the N terminus of the long interdomain helix of T4 lysozyme (Lys-65 --> His/Gln-69 --> His) of three mutants, each containing a single nitroxide-labeled cysteine residue at position 71, 76, or 80. The results show that Cu(II)-induced relaxation effects on the nitroxide can be quantitatively analyzed in terms of interspin distance in the range of 10-25 A using Redfield theory, as first suggested by Leigh [Leigh, J.S. (1970) J. Chem. Phys. 52, 2608-2612]. Of particular interest is the observation that distances can be determined both under rigid lattice conditions in frozen solution and in the presence of motion of the spins at room temperature under physiological conditions. The method should be particularly attractive for investigating structure in membrane proteins that are difficult to crystallize. In the accompanying paper, the technique is applied to a polytopic membrane protein, lactose permease.
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PMID:A method for distance determination in proteins using a designed metal ion binding site and site-directed spin labeling: evaluation with T4 lysozyme. 861 88

As shown in the accompanying paper, the magnetic dipolar interaction between site-directed metal-nitroxide pairs can be exploited to measure distances in T4 lysozyme, a protein of known structure. To evaluate this potentially powerful method for general use, particularly with membrane proteins that are difficult to crystallize, both a paramagnetic metal ion binding site and a nitroxide side chain were introduced at selected positions in the lactose permease of Escherichia coli, a paradigm for polytopic membrane proteins. Thus, three individual cysteine residues were introduced into putative helix IV of a lactose permease mutant devoid of native cysteine residues containing a high-affinity divalent metal ion binding site in the form of six contiguous histidine residues in the periplasmic loop between helices III and IV. In addition, the construct contained a biotin acceptor domain in the middle cytoplasmic loop to facilitate purification. After purification and spin labeling, electron paramagnetic resonance spectra were obtained with the purified proteins in the absence and presence of Cu(II). The results demonstrate that positions 103, 111, and 121 are 8, 14, and > 23 A from the metal binding site. These data are consistent with an alpha-helical conformation of transmembrane domain IV of the permease. Application of the technique to determine helix packing in lactose permease is discussed.
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PMID:Distance determination in proteins using designed metal ion binding sites and site-directed spin labeling: application to the lactose permease of Escherichia coli. 861 89

Refolding of proteins at high concentrations often results in aggregation. To gain insight into the molecular aspects of refolding and to improve the yield of active protein, we have studied the refolding of lysozyme either from its denatured state or from its denatured/reduced state. Refolding of denatured lysozyme, even at 1 mg/ml, yields fully active enzyme without aggregation. However, refolding of denatured/reduced lysozyme into buffer that lacks thiol/disulfide reagents leads to aggregation. Thiol/disulfide redox reagents such as cysteine/cystine and reduced/oxidized glutathione facilitate the renaturation, with the yield depending on their absolute concentrations. We have obtained an approximately 70% renaturation yield upon refolding of lysozyme at 150 microgram/ml. The cysteine/cystine redox system is more efficient compared with the glutathione redox system. When lysozyme is refolded in the absence of redox reagents, a transient intermediate that has regained a significant amount of secondary structure is formed. The tryptophans in this intermediate are as exposed to water as in the fully unfolded protein. It shows increased exposure of hydrophobic surfaces compared with the native or completely unfolded enzyme. This aggregation-prone intermediate folds to active enzyme upon addition of oxidized glutathione before the aggregation process starts. These properties of the intermediate in the refolding pathway of lysozyme are similar to those proposed for the molten globule.
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PMID:Refolding of denatured and denatured/reduced lysozyme at high concentrations. 866 82

Thirty single cysteine substitution mutants of T4 lysozyme have been prepared and spin-labeled with a sulfhydryl-specific nitroxide reagent in order to systematically investigate the relationship between nitroxide side-chain mobility and protein structure. The perturbation caused by replacement of a native residue with a nitroxide amino acid was assessed from the resulting changes in biological activity, circular dichroism, and free energy of folding. The nitroxide produced context-dependent changes in stability and activity similar to those observed for substitution with natural amino acids at the same site but had little effect on the circular dichroism spectra. At solvent-exposed sites, the structural perturbation appears to be small at the level of the backbone fold. Nitroxide side-chain mobility faithfully reflects the protein tertiary fold at all sites investigated. The primary determinants of nitroxide side-chain mobility are tertiary interactions and backbone dynamics. Tertiary interactions constrain the side-chain mobility to an extent closely correlated with the degree of interaction. At interhelical loop sites, the side chains have a high mobility, consistent with high crystallographic thermal factors. On the exposed surfaces of alpha-helices, the side-chain mobility is not restricted by interactions with nearest neighbor side chains but appears to be determined by backbone dynamics. An unexpected result is a striking difference between the mobility of residues near the C- and N-termini of helices. These results provide the foundation for another dimension of information in site-directed spin-labeling experiments that can be interpreted in terms of the protein tertiary fold, its equilibrium dynamics and time-dependent conformational changes.
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PMID:Motion of spin-labeled side chains in T4 lysozyme. Correlation with protein structure and dynamics. 867 70

Activation of CD4+ T cells requires processing of exogenous protein antigens by antigen-presenting cells (APC). A macrophage hybridoma and B cell lymphoma were comparable in their ability to process hen egg lysozyme (HEL), which involves reduction of its disulfide bonds. The intracellular levels of cysteine and glutathione, major physiological thiols, based on protein content were similar within these cell lines. In addition, the cysteine transport pathway in viable cells was assessed by 35S-cystine uptake. For macrophages, the majority of the radioactivity resided in high density subcellular fractions of Percoll gradients that comigrated with lysosomal beta-galactosidase (beta-gal). Besides the lysosomes, low density fractions cosedimenting with endosomes incorporated the radiolabel in the B cells. Both peaks of radioactivity disappeared when the B cells were incubated with unlabeled carboxymethyl-cysteine (CM-cysteine), a specific competitor of the plasma membrane CG transport system. The distinct gradient profiles of radiolabel uptake in the cells correlated with a difference in their capacity to process the transferrin-lysozyme conjugate (TF-HEL). TF-HEL was significantly more stimulatory than HEL in inducing a HEL-specific T cell response with the B cells as the APC. However, the potencies of TF-HEL and HEL were similar when the macrophages were the APC. Thus, the intracellular location of cysteine transport activity may be cell lineage-dependent, and its presence may, in part, determine whether an organelle is a productive site of processing antigens with disulfide bonds that is necessary for CD4+ cell activation.
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PMID:Intracellular location of cysteine transport activity correlates with productive processing of antigen disulfide. 870 60

Periplasmic expression of recombinant proteins presents many potential benefits that may aid recovery of the protein product. Muramidases are the preferred agents in effecting selective release of recombinant proteins from the periplasm of E. coli and other Gram negative bacteria. Unfortunately cost restricts the use of pure lytic enzymes at large-scale and their removal as process contaminants adds to later purification demands. We constructed a reusable version of bacteriophage T4 lysozyme, by fusing a His-Gln-(His)3 peptide sequence to the C-terminus of a cysteine-free pseudo wild type bacteriophage T4 lysozyme. The peptide tail allowed rapid and high-level recovery on IDA Sepharose columns charged with Zn2+, Ni2+ and Cu2+ ions. The binding to metal-charged supports was specifically mediated by the histidine-rich tail as no binding was observed for the original cysteine-free pseudo wild type lysozyme. The strength of retention of polyhistidine recombinant T4 lysozyme on charged supports followed the expected Cu > Ni > Zn pattern, but there were few differences in the levels of purity and recovery of the modified enzyme, from columns charged with the different metal ions.
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PMID:Expression and purification of a recombinant metal-binding T4 lysozyme fusion protein. 887 73

We previously reported that protein disulfide isomerase (PDI) can dissociate the glutathione molecule in vitro from the mutant human lysozyme (hLZM) C77A-a, which is modified with glutathione at Cys95; however, it seems structurally difficult for PDI to attack either the disulfide bond or the side chain of the cysteine residue of a mixed disulfide. To investigate the function of PDI, we introduced several glutathione and cysteine derivatives at Cys95, instead of the glutathione of C77A-a. Using thiol compounds modified by 5,5'-dithiobis(2-nitrobenzoic acid) (DTNB), we could easily modify the free thiol group of C77A-b (C77A with no glutathionylation), without denaturation. For all of the modifications we tested, a negative correlation was found between the initial rate and the acceleration ratio of the reductive cleavage of mixed disulfides with PDI. A mutant PDI (hPDIM), which has no thiol-disulfide exchange activity, suppressed the reductive cleavage of the mixed disulfide of C77A-a with hPDI, suggesting that hPDI non-covalently interacted with the substrates. Taking account of the results of the structural analysis, we conclude that one of the functions of PDI in vivo lies in relaxing the structure around the disulfide bond, as well as in exchanging the thiol-disulfide bonds.
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PMID:A role of PDI in the reductive cleavage of mixed disulfides. 890 16


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