EC:3.2.1.17 - FACTA Search

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)

We have predicted the secondary structures of four beta-lactamases (Bacillus cereus, Bacillus licheniformis, Staphylococcus aureus, and Escherichia coli R-TEM) by the statistical method of Chou & Fasman as well as by the information theory method of Garnier et al. The secondary structures of all four beta-lactamases are of the alpha/beta type (Levitt & Chothia's nomenclature), with helices at N- and C-termini. There are about eight short regions each of alpha-helical (30--50%) and beta-strand (10--20%) structure separated by about 20 reverse turns. The conformation of the Gram-positive and Gram-negative beta-lactamases are generally similar although a few differences are predicted between the S.aureus and E.coli structures. Surprisingly, the two bacilli structures differ significantly in three short regions. In all four enzymes the region near the catalytically-implicated tyrosine has similar secondary structure. The secondary structure of hen egg white lysozyme, a penicillin-binding enzyme, as well as T4 phage lysozyme, has similarities to the N-terminal half of the penicillin-destroying beta-lactamases.
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PMID:Predicted secondary structures of four penicillin beta-lactamases and a comparison with two lysozymes. 31 76

Cytolysis of host cells by pathogenic Entamoeba histolytica can be blocked by specific lysozyme inhibitions and is recently reported to be enhanced by phosphoinositide (PI) signal transduction activation. However the mechanistic relationship between PI second messenger targets and massive lysosomal secretion needed to achieve rapid host cell lysis is unclear. We have previously shown that intracellular alkalinization associated with activated PI hydrolysis produces a massive endocytosis of huge proportions which would force a corresponding exocytosis for the maintenance of overall cell dimensions. These endosomes are processed by primary lysosomes. Apparently then, the massive exocytosis secretory pathway could provide the means for the ejection of lysozymes over target cells. We show here using human Chang liver cells that intracellular alkalinization produced large surface pittings similar to those seen in pathogenic E. histolytica in a rounded state. The SEM profile is correlated with the TEM profile of large endosomes containing extracellular debris and endosomes associated with primary lysosomal vesicles, which could support the notion that some of the pittings seen in the rounded Chang cells and the pathogenic amoebae are exit portals for endosome-lysosomes.
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PMID:Human Chang liver cells show large surface openings and endocytic channels that resemble those in the amoeba. 142 18

With TEM beta-lactamase as a reporter gene, a set of expression-secretion-promoting fragments were isolated from the chromosome of Lactococcus lactis subsp. lactis. The fact that only translocated beta-lactamase renders cells resistant to ampicillin allowed direct ampicillin selection with an Escherichia coli vector (pKTH33). The clones showing the greatest ampicillin resistance were subcloned onto a replicon capable of replication in lactic acid bacteria (pVS2), and the nucleotide sequences of the relevant fragments were determined. The structure of the secretion-promoting fragments in general resembled that of gram-positive true signal sequences, with a strongly positively charged N terminus, a long hydrophobic core, and a putative signal peptidase recognition site. The promoterlike sequences preceding the signal sequences matched well with those of previously published lactococcal promoters. In addition to E. coli, the functioning of these expression-secretion cassettes was studied in three gram-positive hosts: Bacillus subtilis, L. lactis, and Lactobacillus plantarum. Efficient expression and secretion of TEM beta-lactamase into the culture medium of each gram-positive host was obtained. Furthermore, when a strain of L. lactis subsp. lactis showing increased sensitivity to lysozyme was compared with a standard laboratory strain, threefold-higher secreted enzyme activities were detected.
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PMID:Secretion of TEM beta-lactamase with signal sequences isolated from the chromosome of Lactococcus lactis subsp. lactis. 190 4

As the ultrastructural data on the effects of ozone on pulmonary alveolar macrophages (PAM) are lacking, transmission (TEM) and scanning (SEM) electron microscopy were performed on rat PAM present in alveolar lavages following exposure to ozone. Rats were continuously exposed for 7 d to ozone concentrations ranging from 0.25 to 1.50 mg/m3 for 7 d followed by a 5-d recovery period. Additionally, morphometry on lung sections was performed to quantitate PAM. In a second experiment rats were continuously exposed to 1.50 mg O3/m3 for 1, 3, 5, or 7 d. To study the influence of concurrent ozone exposure and lung infection, due to Listeria monocytogenes, rats were exposed for 7 d to 1.50 mg O3/m3 after a Listeria infection. The surface area of lavaged control PAM was uniformly covered with ruffles as shown by SEM and TEM. Exposure to 0.5 mg ozone/m3 for 7 d resulted in cells partly covered with microvilli and blebs in addition to normal ruffles. The number of large size PAM increased with an increase in ozone concentration. After 1 d of exposure, normal-appearing as well as many small macrophages with ruffles and scattered lymphocytes were seen. Lavage samples taken after 5 or 7 d of exposure showed an identical cell composition to that taken after 3 d of exposure. After Listeria infection alone, lavage samples consisted of mainly lymphocytes and some macrophages. Small quantitative changes, such as an increase in the number of polymorphonuclear neutrophils and large-size PAM, occurred in lavages after ozone exposure and infection with L. monocytogenes. Morphometric examination of lung sections revealed a concentration-related increase in the number of PAM, even in animals exposed to 0.25 mg ozone/m3 for 7 d. Centriacinar regions were more severely affected than other regions of lung tissue. By 5 d after termination of exposure to ozone, the number of lysozyme-positive alveolar cells was still significantly increased in centriacinar areas of the lung. The results indicate that ozone exposure causes major changes in the number, size, and surface morphology of PAM in rat lung. Furthermore, the results presented here suggest that changes in alveolar macrophage function are reflected by morphological changes.
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PMID:Surface morphology and morphometry of rat alveolar macrophages after ozone exposure. 221 22

We have shown recently that an average of three or more C9 molecules must bind to C5b-8 on Escherichia coli strain J5 to cause direct complement killing in the absence of serum lysozyme. We initially confirmed and extended this observation by showing that deposition of a large number of C5b-9 complexes bearing 1C9 per C5b-8 was not bactericidal for J5. To identify the target site for bactericidal C5b-9 deposition, we measured release of periplasmic and cytoplasmic markers of different size from J5 as the C9:C5b-8 ratio was changed, because the diameter of the C5b-9 channel is known to increase as the C9:C5b-8 ratio increases. To facilitate measurement of release of the periplasmic marker beta-lactamase (BLA), J5 was transformed for high level constitutive TEM-1 BLA production (J5-Amp). Multimeric C9 within C5b-9 (C9:C5b-8 greater than 3) was required to release BLA (m.w. 28,900) from J5-Amp regardless of whether cells bore 310, 560, or 890 C5b-9/organism. Curves of both BLA release and killing vs C9:C5b-8 ratio were sigmoidal and nearly superimposable. Release of the small cytoplasmic marker 86Rb, a potassium analog, also required a minimum C9:C5b-8 ratio of 3:1; specific 86Rb release did not occur in the absence of killing. Release of the large cytoplasmic marker beta-galactosidase (m.w. 505,000) did not occur even at the highest achievable C9:C5b-8 ratio of 11:1, despite greater than 99.9% killing, indicating that there was no dissolution of the peptidoglycan layer due to incomplete removal of serum lysozyme. Complement-mediated killing of J5 requires sufficient damage to the outer membrane or formation of a sufficiently large C5b-9 channel to release the large periplasmic marker BLA. The requirement of multimeric C9 for 86Rb release suggests that at low C9:C5b-8 ratios, either C5b-9 does not have access to the cytoplasmic space or that the J5 K+ transport systems are able to compensate for putative C5b-9 channels.
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PMID:Multimeric C9 within C5b-9 is required for inner membrane damage to Escherichia coli J5 during complement killing. 310 Jun 18

The X-PRESS, osmotic shock, chloroform treatment, lysozyme treatment and ultrasonic disruption methods to release five different plasmid-mediated beta-lactamases from Escherichia coli and one chromosomal beta-lactamase from Enterobacter cloacae were compared. The main activities of TEM-1, SHV-1, OXA-1, OXA-2, PSE-4 and chromosomal P99 beta-lactamases were found at the same isoelectric point irrespective of the method used. However, additional satellite bands were found with TEM-1, OXA-1, OXA-2 and PSE-4 beta-lactamases released by the lysozyme method. In addition, beta-lactamase released by osmotic shock treatment was found to be unstable during storage at -20 degrees C or during the 18 h period of iso-electric focusing at +4 degrees C. Chloroform treatment produced similar band patterns and at least as good an enzyme yield as ultrasonic disintegration and was equally simple and fast to perform.
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PMID:Evaluation of five different methods to prepare bacterial extracts for the identification of beta-lactamases by isoelectric focusing. 814 21

Despite a high capacity for secretion of homologous proteins, the secretion of heterologous proteins by Bacillus subtilis is frequently inefficient. In the present studies, we have investigated and compared bottlenecks in the secretion of four heterologous proteins: Bacillus lichenifomis alpha-amylase (AmyL), Escherichia coli TEM beta-lactamase (Bla), human pancreatic alpha-amylase (HPA), and a lysozyme-specific single-chain antibody. The same expression and secretion signals were used for all four of these proteins. Notably, all identified bottlenecks relate to late stages in secretion, following translocation of the preproteins across the cytoplasmic membrane. These bottlenecks include processing by signal peptidase, passage through the cell wall, and degradation in the wall and growth medium. Strikingly, all translocated HPA was misfolded, its stability depending on the formation of disulfide bonds. This suggests that the disulfide bond oxidoreductases of B. subtilis cannot form the disulfide bonds in HPA correctly. As the secretion bottlenecks differed for each heterologous protein tested, it is anticipated that the efficient secretion of particular groups of heterologous proteins with the same secretion bottlenecks will require the engineering of specifically optimized host strains.
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PMID:Evaluation of bottlenecks in the late stages of protein secretion in Bacillus subtilis. 1038 86

Oppositely charged globular protein and surfactant systems, such as lysozyme-sodium dodecyl sulfate (SDS) and ovalbumin-dodecyltrimethylammonium chloride (DOTAC) form precipitate, gel, and colorless solution in water over a wide concentration range. Bluish solutions are also recognized in connection with the redissolution of precipitate as well as prior to the gel formation. For the lysozyme-SDS system the bluish solution has been suggested to consist of finely dispersed gel particles in solution. The oppositely charged bovine serum albumin (BSA)-DOTAC-water system forms only a large, clear solution phase and a narrow, bluish solution region within a very limited surfactant concentration range. In the lysozyme-SDS system the formation of protein-surfactant aggregates and their growth and breakdown are studied in detail by cryogenic-transmission electron microscopy (cryo-TEM) method. In particular a series of samples with an increased surfactant concentration at fixed 4 wt% of lysozyme is studied. Imaging of the bluish solution at different protein concentrations exhibits large aggregates in the form of rod-like, sheet-like, and star-like objects which are attributed to the gel. At excess amounts of SDS, in the colorless solution, only small objects are detected. In the ovalbumin-DOTAC-water and BSA-DOTAC-water systems large aggregates are also observed in the bluish solutions. Colorless solutions for these two systems show the presence of small objects in the cryo-TEM micrographs. Ultrathin sections of the lysozyme and ovalbumin gels fixed with OsO(4) also show the presence of aggregated structures as judged from the transmission electron microscopy observations. Copyright 2000 Academic Press.
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PMID:A Cryo-TEM Study of Protein-Surfactant Gels and Solutions. 1066 12

The cells of unicellular photosynthetic cyanobacterium Anacystis nidulans were permeated with lysozyme, toluene, toluene-triton, toluene-triton-lysozyme. Transmission electron microscopy of semi-thin sections (500 nm) using TEM at 160 kV showed that cells permeated with only lysozyme or toluene showed the typical concentric arrangement of thylakoid membranes. However, when toluene-treated cells were further treated with triton and lysozyme the thylakoid membranes were disrupted. Sequential reactions of Calvin cycle were studied in the differentially permeated cells in vivo, using various intermediates such as 3-PGA, GA-3-P, FDP, SDP, R-5-P, RuBP and cofactors like ATP, NADPH depending on the requirement. RuBP and R-5-P + ATP dependent activities could be observed in all types of permeated cells. Sequential reactions of the entire Calvin cycle using 3-PGA could be detected in the cells that had retained the internal organisation of the thylakoid membranes after permeation and were lost on disruption of this organisation. Light dependent CO2 fixation could be detected only in the cells permeated with lysozyme. This activity was abolished in the cells after treatment with toluene. The results suggested that the integrity of thylakoid membranes may be essential for the organisation of sequential enzymes of the Calvin cycle in vivo and facilitate their functioning.
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PMID:Involvement of thylakoid membranes in supramolecular organisation of Calvin cycle enzymes in Anacystis nidulans. 1268 42

Core/shell nanoparticles with lipid core, were prepared and characterized as a sustained delivery system for protein. The lipid core is composed of protein-loaded lecithin and the polymeric shell is composed of Pluronics (poly(ethylene oxide)-poly(propylene oxide)-poly(ethylene oxide) triblock copolymer, F-127). Based on the preparation method in the previous report by us, the freeze-drying of protein-loaded lecithin was performed in the F-127 aqueous solution containing trehalose used as a cryoprotectant to form stabilized core/shell nanoparticles. Cryo-TEM (transmittance electron microscopy) and a particle size analyzer were used to observe the formation of stabilized core/shell nanoparticles. For the application of core/shell nanoparticles as a protein drug carrier, lysozyme and vascular endothelial growth factor (VEGF) were loaded into the core/shell nanoparticles by electrostatic interaction, and the drug release pattern was observed by manipulating the polymeric shell.
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PMID:Core/Shell nanoparticles with lecithin lipid cores for protein delivery. 1690 83

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