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 contrast to lysozymes, which undergo two-state thermal denaturation, the Ca(2+)-free form of the homologous alpha-lactalbumins forms an intermediate "molten globule" state. To understand this difference, we have produced a chimera of human lysozyme and bovine alpha-lactalbumin. In the synthetic gene of the former the sequence coding for amino acid residues 76-102 was replaced by that for bovine alpha-lactalbumin 72-97, which represents the Ca(2+)-binding loop and the central helix C. The chimeric protein, LYLA1, expressed in Saccharomyces cerevisiae was homogeneous on electrophoresis and mass spectrometry. Its Ca2+ binding constant was 2.50 (+/- 0.04) x 10(8) M-1, and its muramidase activity 10% of that of human lysozyme. One-dimensional NMR spectroscopy indicated the presence of a compact, well structured protein. From two-dimensional NMR spectra, main chain resonances for 118 of a total of 129 residues could be readily assigned. Nuclear Overhauser effect analysis and hydrogen-deuterium exchange measurements indicated the presence and persistence of all expected secondary structure elements. Thermal denaturation, measured by circular dichroism, showed a single transition temperature for the Ca2+ form at 90 degrees C, whereas unfolding of the apo form occurred at 73 degrees C in the near-UV and 81 degrees C in the far-UV range. These observations illustrate that by transplanting the central part of bovine alpha-lactalbumin, we have introduced into human lysozyme two important properties of alpha-lactalbumins, i.e. stabilization through Ca2+ binding and molten globule behavior.
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PMID:A Ca(2+)-binding chimera of human lysozyme and bovine alpha-lactalbumin that can form a molten globule. 773 86

LYLA1 is a chimeric protein mainly consisting of residues originating from human lysozyme but in which the central part (Ca(2+)-binding site and helix C) of bovine alpha-lactalbumin has been inserted. The equilibrium unfolding of this hybrid protein has been examined by circular dichroism and tryptophan fluorescence techniques. The reversible denaturation process induced by temperature or by addition of chemical denaturant is three-state in the case of apo-LYLA1 and two-state in the presence of Ca2+. The Ca(2+)-bound form of the chimera exhibits higher stability than both wild-type lysozyme and alpha-lactalbumin. The stability of the apo-form, however, is intermediate between that of the parent molecules. Unfolding of apo-LYLA1 involves an intermediate state that becomes populated to a different extent under various experimental conditions. Combination of circular dichroism with bis-ANS fluorescence experiments has permitted us to characterize the acid state of LYLA1 as a molten globule. Furthermore our results strongly suggest the presence of multiple denatured states depending on external conditions.
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PMID:Conformational stability of LYLA1, a synthetic chimera of human lysozyme and bovine alpha-lactalbumin. 903 52

Members of the Bunyaviridae family mature by a budding process in the Golgi complex. The site of maturation is thought to be largely determined by the accumulation of the two spike glycoproteins, G1 and G2, in this organelle. Here we show that the signal for localizing the Uukuniemi virus (a phlebovirus) spike protein complex to the Golgi complex resides in the cytoplasmic tail of G1. We constructed chimeric proteins in which the ectodomain, transmembrane domain (TMD), and cytoplasmic tail (CT) of Uukuniemi virus G1 were exchanged with the corresponding domains of either vesicular stomatitis virus G protein (VSV G), chicken lysozyme, or CD4, all proteins readily transported to the plasma membrane. The chimeras were expressed in HeLa or BHK-21 cells by using either the T7 RNA polymerase-driven vaccinia virus system or the Semliki Forest virus system. The fate of the chimeric proteins was monitored by indirect immunofluorescence, and their localizations were compared by double labeling with markers specific for the Golgi complex. The results showed that the ectodomain and TMD (including the 10 flanking residues on either side of the membrane) of G1 played no apparent role in targeting chimeric proteins to the Golgi complex. Instead, all chimeras containing the CT of G1 were efficiently targeted to the Golgi complex and colocalized with mannosidase II, a Golgi-specific enzyme. Conversely, replacing the CT of G1 with that from VSV G resulted in the efficient transport of the chimeric protein to the cell surface. Progressive deletions of the G1 tail suggested that the Golgi retention signal maps to a region encompassing approximately residues 10 to 50, counting from the proposed border between the TMD and the tail. Both G1 and G2 were found to be acylated, as shown by incorporation of [3H]palmitate into the viral proteins. By mutational analyses of CD4-G1 chimeras, the sites for palmitylation were mapped to two closely spaced cysteine residues in the G1 tail. Changing either or both of these cysteines to alanine had no effect on the targeting of the chimeric protein to the Golgi complex.
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PMID:A retention signal necessary and sufficient for Golgi localization maps to the cytoplasmic tail of a Bunyaviridae (Uukuniemi virus) membrane glycoprotein. 915 65

The molten globule state of equine lysozyme is more stable than that of alpha-lactalbumin and is stabilized by non-specific hydrophobic interactions and native-like hydrophobic interactions. We constructed a chimeric protein which is produced by replacing the flexible loop (residues 105-110) in human alpha-lactalbumin with the helix D (residues 109-114) in equine lysozyme to investigate the possible role of the helix D for the high stability and native-like packing interaction in the molten globule state of equine lysozyme. The stability of the molten globule state formed by the chimeric protein to guanidine hydrochloride-induced unfolding is the same as that of equine lysozyme and is substantially greater than that of human alpha-lactalbumin, although only six residues come from equine lysozyme. Our results also suggest that the non-native interaction in the molten globule state of alpha-lactalbumin changes to the native-like packing interaction due to helix substitution. The solvent-accessibility of the Trp residues in the molten globule state of the chimeric protein is similar to that in the molten globule state of equine lysozyme in which packing interaction around the Trp residues in the native state is partially preserved. Therefore, the helix D in equine lysozyme is one of the contributing factors to the high stability and native-like packing interaction in the molten globule state of equine lysozyme. Our results indicate that the native-like packing interaction can stabilize the rudimentary intermediate which is stabilized by the non-specific hydrophobic interactions.
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PMID:The molten globule state of a chimera of human alpha-lactalbumin and equine lysozyme. 1051 8

For several proteins, a striking resemblance has been observed between the equilibrium partially folded state and the kinetic burst-phase intermediate, observed just after the dead-time in refolding experiments. This has led to the general statement that the conformation of both types of intermediates is similar. We show, at least for one of the proteins investigated here, that, although both states have some common characteristics, they are not identical. LYLA1 is a chimeric protein resulting from the transplantation of the Ca(2+)-binding loop and the adjacent helix C of bovine alpha-lactalbumin into the homologous position (residues 76-102) in human lysozyme. The apo-form of LYLA1 unfolds through a partially folded state, in analogy with the folding behaviour of the structurally homologous alpha-lactalbumin. The folding kinetics of LYLA1 and of its wild-type homologue, human lysozyme, are investigated by means of stopped-flow fluorescence and CD spectroscopy. In the case of human lysozyme, refolding involves parallel pathways as indicated by experiments in the presence of a fluorescent inhibitor. For apo-LYLA1, the burst-phase intermediate is compared with the equilibrium intermediate. At neutral pH, both states correspond, in that an important amount of secondary structure has been established, but the burst-phase intermediate is shown to be significantly less stable than the equilibrium intermediate. At pH 1.85, in the presence of 1.5 M guanidinium hydrochloride (GdnHCl) and at 25 degrees C, the equilibrium partially folded state of LYLA1 is 100% populated. When LYLA1 is rapidly diluted from 6 M GdnHCl to 1.5 M under these conditions, a time-dependent evolution of the fluorescence signal is observed, reflecting the transition from a burst-phase to a different equilibrium intermediate. These results provide strong evidence for the non-identity of both states in this protein.
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PMID:Kinetic and equilibrium intermediate states are different in LYLA1, a chimera of lysozyme and alpha-lactalbumin. 1054 61

The structure, stability, and unfolding-refolding kinetics of a chimeric protein, in which the amino acid sequence of the flexible loop region (residues 105-110) comes from equine lysozyme and the remainder of the sequence comes from bovine alpha-lactalbumin were studied by circular dichroism spectroscopy and stopped-flow measurements, and the results were compared with those of bovine alpha-lactalbumin. The substitution of the flexible loop in bovine alpha-lactalbumin with the helix D of equine lysozyme destabilizes the molten globule state, although the native state is significantly stabilized by substitution of the flexible loop region. The kinetic refolding and unfolding experiments showed that the chimeric protein refolds significantly faster and unfolds substantially slower than bovine alpha-lactalbumin. To characterize the transition state between the molten globule and the native states, we investigated the guanidine hydrochloride concentration dependence of the rate constants of refolding and unfolding. Despite the significant differences in the stabilities of both the molten globule and native states between the chimeric protein and bovine alpha-lactalbumin, the free energy level of the transition state is not affected by the amino acid substitution in the flexible loop region. Our results suggest that the destabilization in the molten globule state of the chimeric protein is caused by the disruption of the non-native interaction in the flexible loop region and that the disruption of the non-native interaction reduces the free energy barrier of refolding. We conclude that the non-native interaction in the molten globule state may act as a kinetic trap for the folding of alpha-lactalbumin.
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PMID:Effects of a helix substitution on the folding mechanism of bovine alpha-lactalbumin. 1221 Oct 19

Equine lysozyme is a calcium-binding lysozyme and an evolutional intermediate between non-calcium binding c-type lysozyme and alpha-lactalbumin. We constructed a chimeric protein by substituting the fluctuating loop of bovine alpha-lactalbumin with the D-helix of equine lysozyme. The substitution affects the protection factors not only in the fluctuating loop but also in the antiparallel beta-sheet, the A- and B-helices, and the loop between the B-helix and the beta-sheet. Amide protons in these regions of the chimera are more protected from exchange than are those of bovine alpha-lactalbumin. We used model-free analysis based on 15N nuclear magnetic resonance relaxation measurements to investigate the dynamics of the main chain of the chimera and showed that the fluctuating loop of the chimera is as rigid as three major helices. When we analyzed the chemical shift deviations and backbone HN-H(alpha) scalar coupling constants, we found that the chimera showed an alpha-helical tendency in residues around the fluctuating loop. Our results suggest that the replacement of a highly fluctuating loop in a protein with a rigid structural element in a homologous one may be useful to stabilize the protein structure.
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PMID:Stabilization of protein by replacement of a fluctuating loop: structural analysis of a chimera of bovine alpha-lactalbumin and equine lysozyme. 1242 44

Recent biochemical evidence indicates that an early event in signal transduction by the B-cell antigen receptor (BCR) is its translocation to specialized membrane subdomains known as lipid rafts. We have taken a microscopic approach to image lipid rafts and early events associated with BCR signal transduction. Lipid rafts were visualized on primary splenic B lymphocytes from wild-type or anti-hen egg lysozyme BCR transgenic mice, and on a mature mouse B-cell line Bal 17 by using fluorescent conjugates of cholera toxin B subunit or a Lyn-based chimeric protein, which targets green fluorescent protein to the lipid raft compartment. Time-lapse imaging of B cells stimulated via the BCR with the antigen hen egg lysozyme, or surrogate for antigen anti-IgM, demonstrated that lipid rafts are highly dynamic entities, which move laterally on the surface of these cells and coalesce into large regions. These regions of aggregated lipid rafts colocalized with the BCR and tyrosine-phosphorylated proteins. Microscopic imaging of live B cells also revealed an inducible colocalization of lipid rafts with the tyrosine kinase Syk and the receptor tyrosine phosphatase CD45. These two proteins play indispensable roles in BCR-mediated signaling but are not detectable in biochemically purified lipid raft fractions. Strikingly, BCR stimulation also induced the formation of long, thread-like filopodial projections, similar to previously described structures called cytonemes. These B-cell cytonemes are rich in lipid rafts and actin filaments, suggesting that they might play a role in long-range communication and/or transportation of signaling molecules during an immune response. These results provide a window into the morphological and molecular organization of the B-cell membrane during the early phase of BCR signaling.
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PMID:Visualizing lipid raft dynamics and early signaling events during antigen receptor-mediated B-lymphocyte activation. 1258 45

We report an inducible system of self Ag expression that examines the relationship between serum protein levels and central T cell tolerance. This transgenic approach is based on tetracycline-regulated expression of a secreted form of hen egg lysozyme, tagged with a murine hemoglobin (Hb) epitope. In the absence of the tetracycline-regulated transactivator, serum levels of the chimeric protein are extremely low (< or = 0.1 ng/ml) and the mice show partial tolerance to both Hb(64-76) and lysozyme epitopes. In the presence of the transactivator, expression increases to 1.5 ng/ml and the mice are completely tolerant. Partial tolerance was further investigated by crossing these mice to strains expressing transgenic TCRs. At the lowest Ag levels, 3.L2tg T cells (specific for Hb(64-76)/I-E(k)) escape the thymus and approximately 10% of CD4(+) splenocytes express the 3.L2 TCR. In contrast, 3A9 T cells (specific for hen egg lysozyme(46-61)/I-A(k)) are completely eliminated by negative selection. These data define a tolerogenic threshold for negative selection of Ag-specific T cells by circulating self proteins that are 100-fold more sensitive than previously demonstrated. They suggest that partial tolerance at extremely low levels of self Ag exposure is the result of a restricted repertoire of responding T cells, rather than a simple reduction in precursor frequency; tolerogenic thresholds are T cell specific.
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PMID:A threshold for central T cell tolerance to an inducible serum protein. 1262 54

Crystalline bacterial cell surface layer (S-layer) proteins are composed of a single protein or glycoprotein species. Isolated S-layer subunits frequently recrystallize into monomolecular protein lattices on various types of solid supports. For generating a functional protein lattice, a chimeric protein was constructed, which comprised the secondary cell wall polymer-binding region and the self-assembly domain of the S-layer protein SbpA from Bacillus sphaericus CCM 2177, and a single variable region of a heavy chain camel antibody (cAb-Lys3) recognizing lysozyme as antigen. For construction of the S-layer fusion protein, the 3'-end of the sequence encoding the C-terminally truncated form rSbpA(31)(-)(1068) was fused via a short linker to the 5'-end of the sequence encoding cAb-Lys3. The functionality of the fused cAb-Lys3 in the S-layer fusion protein was proved by surface plasmon resonance measurements. Dot blot assays revealed that the accessibility of the fused functional sequence for the antigen was independent of the use of soluble or assembled S-layer fusion protein. Recrystallization of the S-layer fusion protein into the square lattice structure was observed on peptidoglycan-containing sacculi of B. sphaericus CCM 2177, on polystyrene or on gold chips precoated with thiolated secondary cell wall polymer, which is the natural anchoring molecule for the S-layer protein in the bacterial cell wall. Thereby, the fused cAb-Lys3 remained located on the outer S-layer surface and accessible for lysozyme binding. Together with solid supports precoated with secondary cell wall polymers, S-layer fusion proteins comprising rSbpA(31)(-)(1068) and cAbs directed against various antigens shall be exploited for building up monomolecular functional protein lattices as required for applications in nanobiotechnology.
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PMID:Generation of a functional monomolecular protein lattice consisting of an s-layer fusion protein comprising the variable domain of a camel heavy chain antibody. 1264 55


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