EC:3.2.1.17 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

Four peptides encompassing the entire amino acid sequence of hen lysozyme were examined in aqueous solution and in 50% (v/v) 2,2,2-trifluoroethanol (TFE) by far-UV CD. Two peptides, 1-40 and 84-129, correspond to regions which are helical in the native protein, and together represent the alpha-domain. The beta-domain of the native enzyme was also synthesized as two peptides, one (41-60) containing the residues in the triple stranded antiparallel beta-sheet and the other (61-82) corresponding to a region lacking regular secondary structure. In water at pH 2.0 and 25 degrees C, the monomeric peptides 1-40, 41-60 and 61-82 appear to be predominantly unstructured. By contrast, the peptide 84-129 has considerable, presumably helical structure, corresponding to approximately 19%, or nine residues, on average, which can be unfolded by the addition of 8 M urea or 6 M guanidine hydrochloride. In 50% TFE the conformational properties of the four peptides are again distinct. Although little helical structure is induced in the peptides 41-60 and 61-82, and a native-like extent of helical structure is induced in the peptide 1-40, the peptide 84-29 converts almost entirely to helical structure in 50% TFE. The far-UV CD spectrum of a stoichiometric mixture of the four peptides in water resembles closely that of a denatured state of the intact protein formed by reductive methylation of its four disulphide bonds, but differs significantly from that of the native protein. The far-UV CD spectrum of the peptide mixture in TFE is indistinguishable from that of the intact protein in this solvent, both in the presence and in the absence of its four disulphide bonds. The conformational preferences of the peptides are not predicted using standard assessments of helical propensity or hydrophobicity, but correlate instead with the number of local contacts made in the native protein. On the basis of these results, we suggest that the region 84-129 could play an important role in determining the nature of the early folding events in the folding pathway of the intact polypeptide chain.
...
PMID:Conformational properties of four peptides spanning the sequence of hen lysozyme. 756 67

Solid phase methods have been used to synthesise a peptide corresponding to residues 38-51 of T4 lysozyme. The peptide, LYS(38-51), encompasses helix B in the crystal structure of T4 lysozyme. CD and 1H-NMR analysis showed that the peptide was unstructured in aqueous solution but adopted a helical conformation in the more hydrophobic environment provided by 50% TFE and SDS micelles. The solution structure derived from the NMR data was similar to that of the helix in the X-ray structure, although there was some fraying at the N-terminus.
...
PMID:CD and NMR determination of the solution structure of a peptide corresponding to T4 lysozyme residues 38-51. 763 21

The conformation, in solution, of a peptide corresponding to residues 59-81 from T4 lysozyme [LYS(59-81)] has been determined by 1H NMR and CD spectroscopy. This peptide spans the region corresponding to helix C in the crystal structure of T4 lysozyme. Secondary structure predictions indicated that the peptide would possibly be helical in an aqueous environment, but in a more hydrophobic environment the peptide would certainly adopt a helical conformation. This prediction was confirmed by the far-UV CD and NMR studies, which showed the peptide to be relatively unstructured in aqueous solution and significantly helical in the presence of either TFE or SDS micelles, although the 1H NMR results did give some indication of the presence of nascent helix in aqueous solution. For LYS(59-81), in TFE, the three-dimensional structure derived from the NMR data showed that the helix had a more pronounced curvature than the gradual bend observed in the crystal structure.
...
PMID:Conformation of a peptide corresponding to T4 lysozyme residues 59-81 by NMR and CD spectroscopy. 772 68

The effect of 2,2,2-trifluoroethanol (TFE) on the solution conformation of hen egg white lysozyme has been investigated using circular dichroism (CD) and 1H nuclear magnetic resonance (NMR) spectroscopy. Addition of TFE to lysozyme at pH 2.0, 27 degrees C, up to a concentration of 15% (v/v) induces only slight changes in the NMR spectrum. However, above this concentration a cooperative transition to a new but partially structured state of the protein is observed. This state shows no structural cooperativity against further denaturation and is characterized by an ellipticity in the far-UV CD greater than that of the native protein. Near-UV CD intensity is dramatically reduced compared with that of the native state, and 1H NMR studies indicate that side-chain interactions are substantially averaged in this denatured state. Solvent proton/deuterium exchange rates for 66 amide hydrogens were measured site-specifically by a combination of amide trapping experiments and 2D 1H NMR. Significant protection from exchange occurs for about 25 backbone amides, the majority of which are located in regions of the protein that are helical in the native enzyme. By contrast, amides located in a second region of the native protein which contains a beta-sheet and one 3(10)-helix as well as a long loop show little protection. This pattern of protection resembles that found in the stable molten globule state of alpha-lactalbumin and in an early kinetic intermediate detected in the refolding of hen lysozyme.
...
PMID:A partially folded state of hen egg white lysozyme in trifluoroethanol: structural characterization and implications for protein folding. 842 74

The refolding of a partially structured state of hen lysozyme formed in 60% (v/v) 2,2,2-trifluoroethanol (TFE) has been studied using hydrogen exchange pulse labelling monitored by 2D 1H NMR, and by stopped flow fluorescence and CD measurements. The results are compared with similar studies of the refolding of the protein denatured in 6 M guanidine hydrochloride (GuHCl). Two conclusions have emerged from these studies. First, provided that the refolding conditions are identical, the two denatured states fold with very similar kinetics, despite the fact the extensive secondary structure is present in the TFE-denatured state but not in the protein denatured in 6 M GuHCl. This arises because of the rapid equilibration of structure in the species formed in the initial stage of folding. Second, whilst addition of GuHCl to the refolding buffer decreases the rate of folding, low concentrations of TFE increase the rate of folding. The result is consistent with slow steps in the refolding of lysozyme being associated primarily with the reorganisation of hydrophobic interactions rather than of hydrogen bonded structure.
...
PMID:Acceleration of the folding of hen lysozyme by trifluoroethanol. 902 Sep 75

The effect of 2,2,2-trifluoroethanol (TFE) on the structure of an all beta-sheet protein, cardiotoxin analogue 111 (CTX III) from the Taiwan cobra (Naja naja atra) is studied. It is found that high concentrations (> 80% v/v) of TFE induced a beta-sheet to alpha-helix structural transition. It is found that in denatured and reduced CTX III (rCTX III) helical conformation is induced even upon addition of low concentrations (> 10% v/v) of TFE. Using three other proteins, namely, ribonuclease A (RNase A), lysozyme and alpha-lactalbumin, it is been observed that helix-induction by TFE is intricately linked to drastic destabilization of native tertiary structural interactions in the proteins.
...
PMID:Destabilisation of native tertiary structural interactions is linked to helix-induction by 2,2,2-trifluoroethanol in proteins. 902 98

The solution conformation of a peptide LYS(11-36), which corresponds to the beta-sheet region in T4 lysozyme, has been examined in aqueous solution, TFE, and SDS micelles by CD and 1H NMR spectroscopy. Secondary structure predictions suggest some beta-sheet and turn character in aqueous solution but predict a helical conformation in a more hydrophobic environment. The predictions were supported by the CD and NMR studies which showed the peptide to be relatively unstructured in aqueous solution, although there was some evidence of a beta-turn conformer which was maintained in 200 mM SDS and, to a lesser extent, in 50% TFE. The peptide was significantly helical in the presence of either 50% TFE or 200 mM SDS. TFE and SDS titrations showed that the peptide could form helical, sheet, or extended structure depending on the TFE or SDS concentration. The studies indicate that peptide environment is the determining factor in secondary structure adopted by LYS(11-36).
...
PMID:Conformational analysis of LYS(11-36), a peptide derived from the beta-sheet region of T4 lysozyme, in TFE and SDS. 929 73

Alcohols have been shown to cause a conformational transition of proteins into a new stable conformational state resembling that of the "molten globule intermediate" characterized by high alpha-helical content and disrupted tertiary structure. We have studied the effect of monohydric alcohols on the stability and structural characteristics of small globular protein hen egg white lysozyme by the combined use of differential scanning calorimetry, circular dichroism, and nuclear magnetic resonance spectroscopy. The protein stability was found to be significantly decreased with increasing alcohol concentration, and, in presence of moderate to higher alcohol concentrations, depending on the pH and alcohol studied, the protein was found to be unfolded even at 4 degrees C. Correlation between thermal stability and alpha-helicity of several small globular proteins like hen egg white lysozyme, horse heart cytochrome C, and bovine carbonic anhydrase B, observed in presence of increasing alcohol concentrations, suggests that probably alcohols induce helical structures in unfolded protein. The temperature-dependent near- and far-UV circular dichroism and proton nuclear magnetic resonance spectroscopic studies on lysozyme in the presence of 2,2,2-trifluoroethanol and methanol, respectively, showed that alcohols do induce significantly higher helical structures in unfolded protein compared to folded protein. The results presented in this paper suggest that the molten globule intermediate of proteins in the presence of high alcohols as reported earlier is due to alcohol-induced local folding rather than global folding of unfolded protein and hence is an off-pathway product and not a real folding intermediate.
...
PMID:Alcohol-induced molten globule intermediates of proteins: are they real folding intermediates or off pathway products? 973 68

Using CD and 2D (1)H NMR spectroscopy, we have identified potential initiation sites for the folding of T4 lysozyme by examining the conformational preferences of peptide fragments corresponding to regions of secondary structure. CD spectropolarimetry showed most peptides were unstructured in water, but adopted partial helical conformations in TFE and SDS solution. This was also consistent with the (1)H NMR data which showed that the peptides were predominantly disordered in water, although in some cases, nascent or small populations of partially folded conformations could be detected. NOE patterns, coupling constants, and deviations from random coil Halpha chemical shift values complemented the CD data and confirmed that many of the peptides were helical in TFE and SDS micelles. In particular, the peptide corresponding to helix E in the native enzyme formed a well-defined helix in both TFE and SDS, indicating that helix E potentially forms an initiation site for T4 lysozyme folding. The data for the other peptides indicated that helices D, F, G, and H are dependent on tertiary interactions for their folding and/or stability. Overall, the results from this study, and those of our earlier studies, are in agreement with modeling and HD-deuterium exchange experiments, and support an hierarchical model of folding for T4 lysozyme.
...
PMID:Identification of initiation sites for T4 lysozyme folding using CD and NMR spectroscopy of peptide fragments. 1080 43

A common method of evolutionary change is gene duplication, followed by other events that lead to new function, decoration of folds, oligomerization, or other changes. As part of a study on the potential for evolutionary change created by duplicated sequences, we have carried out a crystallographic study on a mutant of Staphylococcal nuclease in which residues 55-62 have been duplicated in a wild-type variant termed PHS. In the parental protein (PHS) these residues form the first two turns of a helix running from residue 54 to 68 (hereafter designated as helix I). The crystal structure of the mutant is very similar to that of the parental, with helix I being unaltered. The duplicated residues are accommodated by expanding an existing loop N-terminal to helix I. In addition, circular dichroism (CD) studies have been carried out on a parental peptide containing helix I with six flanking residues at each terminus (residues 48-74) and on the same peptide expanded by the duplication, as a function of 2,2,2-trifluoroethanol (TFE) concentration. Each peptide possesses only modest helical propensity in solution. Our data, which is different from what was observed in T4 lysozyme, show that the conformation of the duplicated sequence is determined by a balance of sequential and longer-range effects. Thus duplicating sequence need not mean duplicating structure. Proteins 2000;40:465-472.
...
PMID:The duplication of an eight-residue helical stretch in Staphylococcal nuclease is not helical: a model for evolutionary change. 1086 38

1 2 Next >>