Showing papers on "Lysis published in 1995"

Chitinase production by Streptomyces viridificans: its potential in fungal cell wall lysis.

Abstract: Streptomyces viridificans was found to be a good chitinase producer among nine species of Streptomyces screened. Minimum levels of constitutive enzyme were observed with both simple and complex carbon substrate. Arabinose doubled the enzyme production amongst the various pentoses and hexoses used with chitin. However, with glucose end-product inhibition and catabolite repression were observed. The enzyme tolerated a wide range of temperature (30-55 degrees C) and pH (3-7.5). Among various divalent cations Mn2+ and Hg2+ completely inhibited the purified enzyme while beta-mercaptoethanol stimulated its activity. Crude and purified enzyme had potential for cell wall lysis of many fungal pathogens tested.

The broad-range phospholipase C and a metalloprotease mediate listeriolysin O-independent escape of Listeria monocytogenes from a primary vacuole in human epithelial cells.

Abstract: Intracellular growth of Listeria monocytogenes begins after lysis of the primary vacuole formed upon bacterial entry into a host cell. Listeriolysin O (LLO), a pore-forming hemolysin encoded by hly, is essential for vacuolar lysis in most cell types. However, in human epithelial cells, LLO- mutants are capable of growth, suggesting that gene products other than LLO are capable of mediating escape from a vacuole. In this study, we investigated the role of other bacterial gene products in lysis of the primary vacuole in the human epithelial cell line Henle 407. Double internal in-frame deletion mutants were constructed by introducing a mutated hly allele into strains harboring deletions in either of the phospholipase C (PLC)-encoding genes or a metalloprotease-encoding gene. Bacterial escape from the primary vacuole, intracellular growth, and cell-to-cell spread were evaluated in Henle 407 cells. The results indicated that, in the absence of LLO, the broad-range PLC and the metalloprotease were both required for lysis of the primary vacuole in Henle 407 cells. Although phosphatidylinositol-specific PLC was not required, the efficiency of escape was reduced in an LLO phosphatidylinositol-specific PLC double mutant. These observations suggest that the relative importance of LLO, the phospholipases, and the metalloprotease may vary in different cell types or in cells from different species. In addition, these studies provide insight into the mechanisms of action of virulence determinants involved in the lysis of vacuolar membranes.

A simple "universal" DNA extraction procedure using SDS and proteinase K is compatible with direct PCR amplification.

Abstract: Department of Medical Microbiology, University of Z/irich, 8028 Z/irich, Switzerland A large number of different protocols for the efficient isolation of highly purified DNA from eukaryotic and prokaryotic cells is extant. (1-4) These procedures usually include treatment with proteinase K in the presence of SDS, which efficiently lyses the cells and nuclei and liberates the DNA tightly bound in chromatin. (s) Proteins are then extracted with phenol and chloroform, and the nucleic acids are precipitated with ethanol. This procedure is tedious and time-consuming, and significant amounts of DNA may be lost, especially when working with small specimens (e.g., joint biopsies). Therefore, this approach is not appropriate for diagnostic tests. Direct amplification of digested samples without phenol/chloroform extraction and precipitation is not possible because SDS is inhibitory to Taq polymerase at concentrations as low as 0 . 0 1 % . (6) Alternative simple DNA extraction procedures have been used but have often resulted in incomplete lysis of the cells. These procedures typically have included detergents (e.g., Triton X-100), chaotropes (e.g., guanidium isothiocyanate or sodium iodide), proteases (e.g., proteinase K), substances that lyse erythrocytes and leukocytes (e.g., saponin), or heat denaturation. (7) Often nonionic detergents such as Tween 20 or Laureth 12 in combination with proteinase K are used, followed by heat inactivation of the enzyme prior to PCR amplification. (7-1°) In our laboratory we have aimed at establishing an efficient but simple DNA extraction procedure applicable to various types of clinical specimens, including tissue, sputum, liquid specimens, and bacterial cultures. The procedure would allow direct PCR amplification without purification or precipitation of the DNA. Here, we describe the application of the widely used SDS/proteinase K method made compatible with direct PCR amplification, and including the use of uracil N glycosylase (UNG) to prevent false positives caused by amplicon carryover.( ] 1)

Molecular characterization and functional analysis of the major autolysin of Staphylococcus aureus 8325/4.

Abstract: The gene encoding the major autolysin of Staphylococcus aureus 8325/4 has been cloned, sequenced, and insertionally inactivated. The three-domain, 137,384-Da protein has a C-terminal glucosaminidase active site and is involved in cell separation, generalized cell lysis, and release of wall material at the cell surface. Expression occurs throughout growth and is stimulated by low temperatures and in the presence of 1 M NaCl.

The translocation, folding, assembly and redox-dependent degradation of secretory and membrane proteins in semi-permeabilized mammalian cells.

Abstract: We describe here a semi-permeabilized cell-system which reconstitutes the efficient synthesis, translocation, folding, assembly and degradation of membrane and secretory proteins. Cells grown in culture were treated with the detergent digitonin which selectively permeabilized the plasma membrane leaving the cellular organelles, such as the endoplasmic reticulum (ER) and trans-Golgi network intact. These permeabilized cells were added to an in vitro translation system, either wheatgerm or reticulocyte lysate, supplemented with RNA coding for either membrane or secretory proteins. Efficient translocation and modification of proteins by these cells was demonstrated by protease protection, photocross-linking of nascent chains to components of the translocation apparatus and by post-translational modifications such as glycosylation or hydroxylation. A comparison was made between the ability of semi-permeabilized cells and microsomal vesicles to fold and assemble proteins. The results show that the intact ER within these cells can assemble proteins much more efficiently than vesicularized ER. Furthermore, the semi-permeabilized cells carried out the redox-dependent degradation of tissue-type plasminogen activator. This system has all the advantages of conventional cell-free systems, including speed and, importantly, the ability to manipulate the components of the assay, while retaining intracellular organelles and, therefore, allowing cellular processes to occur as they would in the intact cell.

Device and process for isolating nucleic acids from cell suspensions

Abstract: A device and a process for isolating nucleic acids by lysing intact cells and removing nucleic acids emerging from the lysed cells by the following steps: a) the cells are immobilized in a porous matrix, with the size of matrix voids being in the range of the type of cell to be lysed; b) the cells are lysed; c) the nucleic acids are fixated on the matrix surface, and subsequently d) are eluted.

S gene expression and the timing of lysis by bacteriophage lambda.

Abstract: The S gene of bacteriophage lambda encodes the holin required for release of the R endolysin at the onset of phage-induced host lysis. S is the promoter-proximal gene on the single lambda late transcript and spans 107 codons. S has a novel translational initiation region with dual start codons, resulting in the production of two protein products, S105 and S107. Although differing only by the Met-1-Lys-2... N-terminal extension present on S107, the two proteins are thought to have opposing functions, with the shorter polypeptide acting as the lysis effector and the longer one acting as an inhibitor. The expression of wild-type and mutant alleles of the holin gene has been assessed quantitatively with respect to the scheduling of lysis. S mRNA accumulates during the late gene expression period to a final level of about 170 molecules per cell and is maintained at that level for at least the last 15 min before lysis. Total S protein synthesis, partitioned at about 2:1 in favor of the S105 protein compared with the other product, S107, accumulates to a final level of approximately 4,600 molecules per cell. The kinetics of accumulation of S is consistent with a constant translational rate of less than one S protein per mRNA per minute. Mutant alleles with alterations in the translational initiation region were studied to determine how the translational initiation region of S achieves the proper partition of initiation events at the two S start codons and how the synthesis of S105 and S107 relates to lysis timing. The results are discussed in terms of a model for the pathway by which the 30S ribosome-fMet-tRNA complex binds to the translational initiation region of S. In addition, analysis of the relationship between lysis timing and the levels of the two S gene products suggests that S107 inhibits S105, the lethal lysis effector, by a stoichiometric titration.

DNA damage induced by tumour necrosis factor-alpha in L929 cells is mediated by mitochondrial oxygen radical formation.

Abstract: Treatment of L929 cells with tumour necrosis factor-alpha (TNF-alpha) plus actinomycin D induced DNA damage (indicated by the appearance of a sub-G1 peak due to extracellular leakage of low molecular weight DNA following DNA fragmentation) before significant cell lysis occurred. The DNA damage occurred in parallel with a decrease of the intracellular total glutathione content and an increase of intracellular reactive oxygen intermediates (ROI), as indicated by increased dihydrorhodamine 123 oxidation. Because the inhibition of mitochondrial respiration suppressed the increase of dihydrorhodamine 123 oxidation and DNA damage as well as the decrease in the total glutathione content, it was suggested that increased mitochondrial formation of ROI was responsible for DNA damage after TNF treatment. Deferoxamine (a ferric iron chelator) and dithiothreitol (a sulfhydryl reagent) both prevented DNA damage and cell killing, indicate that hydroxyl radicals generated from O2- and H2O2 produced by the mitochondria in a process catalysed by iron contributed to DNA damage and that this pathway may be involved in TNF-alpha-induced cytotoxicity. An inhibitor of poly(ADP)-ribose polymerase (3-aminobenzamide), worsened DNA damage, but was protective against cell lysis, suggesting that DNA repair subsequent to injury was more important than DNA damage per se in development of TNF-alpha cytotoxicity.

A periplasm in Bacillus subtilis.

Abstract: The possibility of there being a periplasm in Bacillus subtilis, in the distinct cell compartment bounded by the cytoplasmic membrane and the thick cell wall, has been investigated quantitatively and qualitatively. Cytoplasmic, membrane, and protoplast supernatant fractions were obtained from protoplasts which were prepared isotonically from cells grown under phosphate limitation. The contents of the protoplast supernatant fraction represent an operational definition of the periplasm. In addition, this cell fraction includes cell wall-bound proteins, exoproteins in transit, and contaminating cytoplasmic proteins arising through leakage from, or lysis of a fraction of, protoplasts. The latter, measured by assay of enzyme markers and by radiolabeled RNA and protein, was found to represent 7.6% of total cell protein, yielding a mean of 9.8% +/- 4.8% for B. subtilis 168 protein considered periplasmic. Qualitatively, after subjection of all cell fractions to polyacrylamide gel electrophoresis, RNase and DNase, zymographs revealed that (i) each cell fraction had a unique profile of nucleases and (ii) multiple species and a major fraction of both nucleases were concentrated in the periplasm. We conclude that the operationally defined periplasmic fraction corresponds closely, both quantitatively and qualitatively, to the contents of the periplasm of Escherichia coli. We discuss evidence that the maintenance of the components of this surface compartment in B. subtilis is compatible with the thick negatively charged cell wall acting as an external permeability barrier.

Characterization of the involvement of two compensatory autolysins in mother cell lysis during sporulation of Bacillus subtilis 168.

Abstract: The 30-kDa sporulation-specific peptidoglycan hydrolase CwlC of Bacillus subtilis 168 was purified and characterized. It is an N-acetylmuramoyl-L-alanine amidase (amidase) that is associated with the mother cell wall of sporulating cells, and although it is secreted, it undergoes no N-terminal processing except removal of the initial methionine. It was found that mother cells of a strain insertionally inactivated in cwlC and lytC (the major vegetative amidase gene) did not lyse at the end of sporulation. Mutants with single mutations in cwlC or lytC lysed, and so the two autolysins must have mutually compensatory roles in mother cell lysis. Active CwlC and LytC are present at the time of mother cell lysis; however, reporter gene analysis revealed that lytC transcription ceases early in sporulation, and therefore the function that LytC has in mother cell lysis is performed by material remaining from presporulation expression. Autolytic enzymes similar in molecular mass to CwlC were detected in two other Bacillus species by their cross-reactivity with anti-CwlC antiserum.

Universal process for isolating and purifying nucleic acids from extremely small amounts of highly contaminated various starting materials

Abstract: A universal process is disclosed for extracting and purifying nucleic acids from extremely small amounts of highly contaminated various biological and other starting materials. The invention has applications in forensic medicine, medical diagnosis, molecular biology, biochemistry, genetic technology and all related fields. The process is characterised in that nucleic acid-containing materials are lysed, the lysate is incubated with a non-porous, non-structured, highly disperse, homogeneous and chemically pure SiO2 substrate, the substrate is isolated with the bound nucleic acids and washed with a buffer solution, then the nucleic acids are dissolved from the substrate by a buffer with a lower salt concentration. Lysis of the material and nucleic acid immobilisation are preferably carried out in a reaction vessel. The substrate particles have a size of 7-40 nm, preferably 40 nm, and a specific surface from 50-300 g/m2, preferably 50 g/m2.

The direct application of the polymerase chain reaction to DNA extracted from foods

Abstract: Two methods for the successful extraction of DNA from foods are described. The rapid lysis method uses a proteinase K buffer system to lyse cells and solubilize food samples. DNA is then precipitated using isopropanol. The second method achieves cell lysis using toluene and mutanolysin, and solubilization using guanidium thiocyanate. Following protein removal with organic solvents DNA is precipitated with isopropanol. Both methods enabled the polymerase chain reaction to be applied directly to DNA extracted from samples of cheese, coleslaw and raw chicken and allowed the direct rapid, sensitive and specific detection of Yersinia enterocolitica, Aerococcus viridans and Listeria monocytogenes in these foods.

Method of purification of viral vectors

Abstract: The invention provides a method for purifying viral vectors containing therapeutic genes for use in gene therapy. The invention comprises a method of purification from a cell lysate of a recombinant viral vector containing a therapeutic gene, which comprises: a) treating said lysate with an enzymatic agent that selectively degrades both unencapsulated DNA and RNA; b) chromatographing the treated lysate from step a) on a first resin; and c) chromatographing the eluant from step b) on a second resin; wherein one resin is an anion exchange resin and the other is an immobilized metal ion chromatography (IMAC) resin.

Process for the separation and purification of nucleic acids from biological sources

Abstract: A process for the isolation and purification of nucleic acids and/or oligonucleotides for use in gene therapy wherein nucleic acids and/or oligonucleotides are isolated or purified from an essentially biological source, characterized in that essentially biological sources are lysed, the fractions obtained are optionally freed or depleted from the remainder of biological sources by per se known mechanical methods, such as centrifugation, filtration; the fractions thus treated are subsequently treated with affinity chromatographic material or with inorganic chromatographic material for the removal of endotoxins; followed by isolation of nucleic acids and/or oligonucleotides on an anion exchanger which is designed such that DNA begins to desorb from the anion exchanger only at an ionic strength corresponding to a sodium chloride solution of a concentration higher by at least 100 mM than one corresponding to the ionic strength at which RNA begins to desorb from the anion exchanger material.

Purification and characterization of the cytotoxic factor in rat peritoneal exudate cells: its identification as the calcium binding protein complex, calprotectin.

Abstract: We previously reported the existence of a growth inhibitory factor for mitogen-stimulated lymphocytes and murine tumor cell lines, MM46 and L-929, in inflammatory polymorphonuclear leukocytes. In this study, by using mouse MM46 mammary carcinoma as target, we purified the inhibitor from lysate of rat inflammatory peritoneal exudate cells by ammonium sulfate precipitation, gel filtration, isoelectrofocusing, and anion exchange chromatography. Although the in vitro inhibitory activity for MM46 growth was partitioned into three peaks in the final step, it was found that these inhibitory samples all consist of 8- and 13-kDa peptides. Analysis of amino acid sequences revealed that the partial sequences of the 8- and 13-kDa peptides completely agree with the smaller and larger components of rat calprotectin, which are predicted from cDNA, respectively, suggesting the cell growth inhibitory factor is calprotectin. In addition to MM46, the partially purified calprotectin inhibited the growth of a rat, three mice, and a human tumor cell line in similar dose-response relationships in vitro. Moreover, it exerted a cytolytic effect against all examined tumor cells. It was confirmed that the purified calprotectin induces growth inhibition and the lysis of MM46 cells and that the minimum effective concentration is between 50 and 100 micrograms/ml. The factor also inhibited the growth of bone marrow cells and macrophages. These results suggest that calprotectin is a negative regulatory factor for the growth and/or survival states of normal and tumor cells.

A new procedure for efficient recovery of DNA, RNA, and proteins from Listeria cells by rapid lysis with a recombinant bacteriophage endolysin.

Abstract: A method for the rapid lysis of Listeria cells, employing a recombinant Listeria bacteriophage A118 lytic enzyme (PLY118), is described. The procedure can be used with all listerial species. It enables fast, efficient, and gentle recovery of DNA, RNA, or native cellular proteins from small-scale (2- to 5-ml) cultures. Moreover, this approach should be very useful in analytical detection and differentiation of Listeria strains when the release of native nucleic acids or proteins is required.

Antifibrinolytic Effect of Recombinant Apolipoprotein(a) in Vitro Is Primarily Due to Attenuation of tPA-Mediated Glu-Plasminogen Activation

Abstract: The effect of a 17-kringle form of recombinant apo(a) [r-apo(a)] on in vitro fibrin clot lysis was studied. In these assays, fibrin clots were formed in the wells of microtiter plates, and lysis of the clots was monitored by measurement of the turbidity at 405 nm. The results indicate that r-apo(a) produces a dose-dependent antifibrinolytic effect in clots formed using either purified components or barium-adsorbed plasma. This effect was found to be independent of clot structure, since lysis of clots formed using both high and low concentrations of thrombin was prolonged by r-apo(a) to the same extent. The two components of the antifibrinolytic effect of r-apo(a) were determined to be (i) attenuation of tPA-mediated plasminogen activation (the major component) and (ii) inhibition of plasmin degradation of fibrin, although r-apo(a) did not directly attenuate plasmin activity, as measured by S-2251 hydrolysis. r-Apo(a) interfered most substantially with tPA-mediated activation of Glu-plasminogen and less substantially with tPA-mediated Lys-plasminogen activation and urokinase-mediated activation of plasminogen. In summary, we have demonstrated that apo(a) is able to attenuate fibrin clot lysis in vitro, primarily as a consequence of the interference by apo(a) with tPA-mediated Glu-plasminogen activation. These studies illuminate possible mechanisms by which Lp(a) may contribute to the development of vascular disease in vivo.

Dimethylformamide as an enhancer of cavitation-induced cell lysis in vitro.

Abstract: Polar solvents, including dimethylformamide (DMF), have been investigated as anticancer drugs, but their potential usefulness is constrained by hepatotoxic side effects. The ability to enhance drug cytotoxicity with ultrasound would be valuable in creating locally intense chemotherapy while minimizing effects peripheral to the treatment site. The effects of continuous wave ultrasound (US) (985 kHz; 0.5–2.5 W/cm2) were evaluated on cultured HL‐60 human promyelocytic leukemia cells alone and with a noncytotoxic DMF dose (0.11 M). The cells were insonified in a configuration that created no cell lysis without the introduction of albumin‐stabilized microbubbles into the exposure chamber. When microbubbles were introduced, US with bubbles induced cell lysis, and the presence of DMF significantly increased the lysis induced by ultrasound with bubbles. The necessary presence of microbubbles for the DMF–US synergism to occur suggests that a likely mechanism is acoustic cavitation, initiated by the presence of mic...

Activity and purification of linenscin OC2, an antibacterial substance produced by Brevibacterium linens OC2, an orange cheese coryneform bacterium

Abstract: An orange cheese coryneform bacterium isolated from the surface of Gruyere of Comte and identified as Brevibacterium linens produces an antimicrobial substance designated linenscin OC2. This compound inhibits gram-positive food-borne pathogens including Staphylococcus aureus and Listeria monocytogenes but is not active against gram-negative bacteria. Linenscin OC2 caused viability loss and lysis of the test organism, Listeria innocua. Electron microscopy showed that linenscin OC2 induces protoplast formation and cell lysis. The native substance is resistant to proteolytic enzymes, heat, and organic solvents and stable over a wide range of pH. The molecular weight of the native linenscin OC2 was estimated by gel chromatography to be over 285,000. Linenscin OC2 was purified by ammonium sulfate precipitation, 2-propanol extraction, and reverse-phase chromatography. Direct detection of antimicrobial activity on a sodium dodecyl sulfate-polyacrylamide gel suggested an apparent molecular mass under 2,412 Da. Molecular mass was determined to be 1,196.7 Da by mass spectrometry. Amino acid composition analysis indicated that linenscin OC2 may contain 12 residues.

Biochemical analysis of starch degradation by Ruminobacter amylophilus 70.

Abstract: Ruminobacter amylophilus is an obligate anaerobe that uses only alpha-linked glucose molecules (i.e., maltose, maltodextrins, and starch) as a source of energy, making it an excellent model for the study of bacterial starch degradation. Constitutive amylase, amylopectinase, and pullulanase activities were found in intracellular and extracellular fractions of R. amylophilus. However, extracellular activities apparently resulted from cell lysis. Both soluble and membrane-bound polysaccharidase activities were detected. Most of the soluble polysaccharidase activity partitioned with the periplasmic cell fraction. No alpha-glucosidase or maltase activity was detected in either the cellular or extracellular fraction. In addition, intact cells of R. amylophilus bound U-14C-starch. This binding could be saturated and was constitutive and sensitive to proteinase K, indicating protein or protein complex mediation. Competition experiments showed that these starch-binding sites had equally high affinities for starch and maltodextrins larger than maltotriose. The sites had a reduced affinity for maltose and virtually no affinities for glucose and nonstarch polysaccharides. These findings suggest that R. amylophilus binds starch molecules to the cell surface as an initial step in transporting the molecule through the outer membrane and into the periplasmic space. Extracellular polysaccharides do not appear to be involved in starch degradation.

Differential Effects of Sulfate and Sulfobutyl Ether of β-Cyclodextrin on Erythrocyte Membranes in Vitro

Abstract: The hemolytic activity of beta-cyclodextrin (beta-CyD) on rabbit erythrocytes was reduced by the introduction of negatively-charged groups onto the hydroxyls of beta-CyD; the membrane disrupting abilities decreased in the order of beta-CyD > 2-hydroxypropyl-beta-CyD (HP-beta-CyD) > sulfobutyl-beta-CyD (SB-beta-CyD) >> beta-CyD sulfate (S-beta-CyD). Under pre-hemolytic concentrations, both beta-CyD and SB-beta-CyD induced shape changes of membrane invagination on the erythrocytes. In sharp contrast, S-beta-CyD showed biphasic effect on the shape of the erythrocytes; i.e. the crenation at relatively low concentrations and the invagination at higher concentrations. The S-beta-CyD-induced membrane crenation arose from a direct action on the membranes rather than cell metabolism-mediated effects. Unlike beta-CyD, S-beta-CyD was found to bind to the erythrocytes and may be confined to the outer surface of the membrane bilayer, which may expand the exterior layer relative to the cytoplasmic half, thereby inducing the cells to crenate. On the other hand, the membrane invagination mediated by the three beta-CyDs was initiated by extracting specific membrane lipids from the cells, depending upon their inclusion abilities, subsequently leading to the lysis of the cells. These results indicate that SB-beta-CyD and S-beta-CyD interact with the erythrocyte membranes in a differential manner and possess lower membrane disrupting abilities than the parent beta-CyD and HP-beta-CyD.

Permeabilization and lysis of Pseudomonas pseudoalcaligenes cells by Triton X-100 for efficient production of D-malate.

Abstract: Pseudomonas pseudoalcaligenes can only form d-malate from maleate after incubation of the cells with a solvent or a detergent. The effect of the detergent Triton X-100 on d-malate production was studied in more detail. The longer the cells were incubated with Triton X-100, the higher was the d-malate production activity, until the maximal malease activity was reached. Incubation of P. pseudoalcaligenes cells with Triton X-100 also resulted in an increase in the protein concentration of the supernatant, indicating that cell lysis had occurred. The rate at which the d-malate production activity increased was dependent on the Triton X-100 concentration and on the cell density. Also the rate at which lysis occurred depended on the Triton X-100 concentration.

Two-stage model for integration of the lysis protein E of ΦX174 into the cell envelope of Escherichia coli

Abstract: As a tool for determining the topology of the small, 91-amino acid phi X174 lysis protein E within the envelope complex of Escherichia coli, a lysis active fusion of protein E with streptavidin (E-FXa-StrpA) was used. The E-FXa-StrpA fusion protein was visualised using immune electron microscopy with gold-conjugated anti-streptavidin antibodies within the envelope complex in different orientations. At the distinct areas of lysis characteristic for protein E, the C-terminal end of the fusion protein was detected at the surface of the outer membrane, whereas at other areas the C-terminal portion of the protein was located at the cytoplasmic side of the inner membrane. These results suggest that a conformational change of protein E is necessary to induce the lysis process, an assumption supported by proteinase K protection studies. The immune electron microscopic data and the proteinase K accessibility studies of the E-FXa-StrA fusion protein were used for the working model of the E-mediated lysis divided into three phases: phase 1 is characterised by integration of protein E into the inner membrane without a cytoplasmic status in a conformation with its C-terminal part facing the cytoplasmic side; phase 2 is characterised by a conformational change of the protein transferring the C-terminus across the inner membrane; phase 3 is characterised by a fusion of the inner and outer membranes and is associated with a transfer of the C-terminal domain of protein E towards the surface of the outer membrane of E. coli.

Automated homogeneous liposome-based assay system for total complement activity.

Abstract: We developed an automated homogeneous immunoassay, based on immune lysis of dinitrophenyl (DNP)-labeled liposomes, for measuring total complement activity. Liposome lysis caused by complement activity was detected spectrophotometrically from entrapped glucose-6-phosphate dehydrogenase activity. Complement activity in human sera was quantified by comparison with a calibration curve. For ease of application to fully automated routine clinical analyzers, we adopted a two-reagent system, one reagent containing a homogeneous population of small DNP-labeled liposomes and one containing antibody/substrate. This system required calibration only once a week. Within-run and between-run CVs were 0.4-1.3% (n = 10) and 1.8-4.7% (n = 10), respectively. Serum results were linear upon dilution (with saline) over a twofold range. Bilirubin, hemoglobin, Intrafat, and serum proteins such as rheumatoid factor, M protein, IgG, and IgA did not affect the assay results. The results (y) correlated well with those from a hemolytic complement activity test (x): y = 1.05x - 1.14, r = 0.92, on 66 samples in the range 50 kU/L. This method should therefore be of great use for the determination of complement activity.