UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Carcinoscorpius amoebocyte lysate (CAL) was prepared from C. rotunda cauda by a modification of the method described by Mahalanabis et al. [Indian J Med Res, 70 (1979) 35]. Seasonal variation as well as batch variation was observed in the yield of haemolymph and the total lysate protein. In the presence of E. coli lipopolysaccharide (pure, free endotoxin) and E. coli and Salmonella cell suspensions (bound endotoxin), the CAL formed a gel after incubation at 37 degrees C. The gelling time varied from 10-90 min depending on the concentration of endotoxin used; higher concentrations formed gel more rapidly. The endotoxin detection capacity (sensitivity) of the lysate preparations was influenced by the season in which prepared, but not by the total protein content. Ten fold increase in the sensitivity was achieved by a purification step using chloroform. Although subsequent frozen storage with or without lyophilization did not alter the initial sensitivity, it was either decreased considerably or lost totally when the lysate was stored for 4 months at 4 degrees C or for 2 months at 30 degrees C. Under the same conditions, Limulus lysate was more stable. The lost sensitivity could not be regained by the incorporation of divalent cations (Ca2+ and Mg2+). The CAL preparations in general were able to detect as little as 10-100 pg of endotoxin or as few as 10(3) cells of E. coli or 10(4) cells of Salmonella and were comparable to LAL. CAL could be used successfully in lieu of Limulus amoebocyte lysate in the detection and assay of endotoxins.
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PMID:Carcinoscorpius rotunda cauda amoebocyte lysate for detection of endotoxins--its preparation, stability, sensitivity and comparison with Limulus amoebocyte lysate. 260 19

Previous studies in our laboratory led to the elucidation of the covalent structure of a tetraacyldisaccharide 1,4'-bisphosphate precursor of lipid A (designated lipid IVA), that accumulates at 42 degrees C in temperature-sensitive mutants defective in 3-deoxy-D-manno-octulosonic acid (KDO) biosynthesis (Raetz, C. R. H., Purcell, S., Meyer, M. V., Qureshi, N., and Takayama, K. (1985) J. Biol. Chem. 260, 16080-16088). Using [4'-32P]lipid IVA as the probe, we now demonstrate the existence of cytoplasmic KDO-transferases in Escherichia coli capable of attaching 2 KDO residues, derived from CMP-KDO, to lipid IVA. A partial purification has been developed to obtain a cytoplasmic subfraction that adds these 2 KDO residues with a 90% yield. The product is shown to have the stoichiometry of (KDO)2-IVA by fast atom bombardment mass spectrometry and NMR spectroscopy. The partially purified enzyme can utilize alternative lipid-disaccharide cosubstrates bearing five or six fatty acyl chains, but it has an absolute requirement for a monophosphate residue at position 4' of the lipid acceptor. When reincubated with a crude cytoplasmic fraction, a nucleoside triphosphate and Mg2+, (KDO)2-IVA is rapidly metabolized to more polar substances, the identity of which is unknown. The KDO-transferase(s) described in the present study should be very useful for the semisynthetic preparation of complex lipopolysaccharide substructures and analogs.
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PMID:Biosynthesis of lipopolysaccharide in Escherichia coli. Cytoplasmic enzymes that attach 3-deoxy-D-manno-octulosonic acid to lipid A. 265 35

Guinea pig endotoxicosis induced by lipopolysaccharide from Coxiella burnetii Nine Mile phase I stimulates phosphorylation of liver ribosomal protein S6, with a 50% increase at 12 h postinoculation. The responsible protein kinase (S6PK) has been partially purified from liver; its activity is independent of cyclic AMP and of Ca2+ plus phosphatidyl serine or diacylglycerol. The preparation has an apparent optimum concentration of 20 mM Mg2+, while Ca2+ and Mn2+ are each inhibitory at 2 mM. The apparent Km for ATP is 30 microM with intact ribosomes. Because of the central role of phosphorylation in metabolic regulation and a purported role of phosphorylated S6 in protein synthesis, the lipopolysaccharide-induced stimulation of S6PK suggests a significant regulatory role of such enzymes in the pathobiochemistry of Q fever infection and endotoxicosis.
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PMID:Endotoxicosis induced by Coxiella burnetii lipopolysaccharide stimulates a ribosomal protein S6 kinase: some properties of the partially purified enzyme. 280 43

Escherichia coli K-12 derivatives with a common genetic background carrying, either alone or in combination, the pss-1 allele coding for a temperature-sensitive phosphatidylserine synthase (A. Ohta and I. Shibuya, J. Bacteriol. 132:434-443, 1977) and cls- for a defective cardiolipin synthase (G. Pluschke et al., J. Biol. Chem. 253:5048-5055, 1978) were constructed. The phospholipid polar headgroup compositions of these strains were significantly different from each other depending on their genotypes and growth temperature, whereas other membrane characteristics such as the total phospholipid content, fatty acid composition, membrane protein profile, and lipopolysaccharide content were practically the same, suggesting that the phenotypes of these strains were the direct consequences of abnormalities in membrane phospholipid composition. The cls pss-1 double mutation caused an unusual accumulation of phosphatidylglycerol with an extremely low content of cardiolipin. The cls mutation alone was found to give a growth defect, and its introduction into a pss-1 mutant resulted in an enhanced temperature sensitivity of growth. Addition to a broth medium of a proper concentration of sucrose, NaCl, Mg2+, or Ca2+ allowed the growth of a pss-1 mutant at otherwise nonpermissive temperature, but a pss-1 cls double mutant required the combined addition of sucrose or NaCl and MgCl2 for full growth at 42 degrees C. The possible mechanisms for these physiological consequences of the mutations are discussed on a molecular basis. The remedial effects of culture supplements allowed the pss-1 mutants to grow at 42 degrees C resulting in enhanced abnormalities of membrane phospholipid composition.
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PMID:Alteration of phospholipid composition by combined defects in phosphatidylserine and cardiolipin synthases and physiological consequences in Escherichia coli. 298 84

Thermal and low pH stabilities of matrix porin (Omp F) solubilized in the micellar solutions of ionic (SDS) and nonionic detergents were investigated by the methods of circular dichroism, intrinsic fluorescence, light scattering and sedimentation velocity. The stability of porin structure in solution is much higher in the presence of beta-octyl glucoside than with SDS. In the presence of SDS, sharp transitions were detected by all parameters measured, above 55 degrees C at neutral pH and below pH 4.5 at 20 degrees C. These transitions involve at least three concomitant processes: unfolding of protein, dissociation of trimers to monomers and the disruption of the protein-detergent micellar complexes, all events being irreversible in the presence of SDS. The nonionic detergent, beta-octyl glucoside, increases the stability of porin in acidic conditions, since neither dissociation nor denaturation was observed in the pH region between 7.5 and 2.0. However, at pH less than 3.5, small, reversible changes in protein structure became evident. The thermal stability of porin is also increased by beta-octyl glucoside as evidenced by a transition temperature 15-20 degrees C higher as compared to SDS. A considerable degree of native porin structure was regained after heat treatment in the presence of beta-octyl glucoside, though the reconstituted trimers were not identical to the native ones. The addition of lipopolysaccharide and divalent cations (Ca2+, Mg2+) to the experimental system did not improve the thermal reversibility.
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PMID:Effect of temperature and low pH on structure and stability of matrix porin in micellar detergent solutions. 300 79

A fluorescent derivative of polymyxin B (dansyl-polymyxin) was used to study the interaction of polycations with lipopolysaccharide (LPS) and lipid A from Pseudomonas aeruginosa. Dansyl-polymyxin became bound to LPS and lipid A sites, including Mg2+-binding sites, resulting in a 20-fold enhancement of fluorescence. A Hill plot of the binding data showed that the binding of dansyl-polymyxin to LPS was cooperative (n = 1.98) and of high affinity (S0.5 = 0.38 microM). The maximal binding capacity of LPS was approximately four molecules of dansyl-polymyxin per mol of LPS. The dansyl-polymyxin interaction with lipid A displayed similar kinetics (n = 2.26; S0.5 = 0.38 microM), and the maximal binding capacity was approximately 2 mol of dansyl-polymyxin per mol of lipid A. A variety of polycationic compounds, including gentamicin, streptomycin, and polymyxin B, as well as Mg2+, were able to displace dansyl-polymyxin bound to LPS or to lipid A. Marked differences both in terms of the degree of displacement and in terms of the amount of competing polycation required to displace a given amount of dansyl-polymyxin were observed. Addition of excess polymyxin B resulted in displacement of all of the dansyl-polymyxin, demonstrating that only polymyxin-binding sites were being probed. Our data demonstrate that polymyxin B binds to multiple sites on LPS, including sites which bind aminoglycoside antibiotics and other polycationic compounds.
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PMID:Interaction of polycationic antibiotics with Pseudomonas aeruginosa lipopolysaccharide and lipid A studied by using dansyl-polymyxin. 301 85

Pseudomonas cepacia was found to be resistant to the outer membrane-permeabilizing effects of aminoglycoside antibiotics, polymyxin B, and EDTA. Permeabilization of P. cepacia to the fluorescent probe 1-N-phenylnaphthylamine was not achieved at concentrations 100- to 1,000-fold above those required to permeabilize Pseudomonas aeruginosa. Furthermore, in contrast to P. aeruginosa cells, intact cells of P. cepacia did not bind the fluorescent probe dansyl-polymyxin. However, purified lipopolysaccharide (LPS) from P. cepacia bound dansyl-polymyxin with approximately the same affinity as did LPS from P. aeruginosa. Also, binding of dansyl-polymyxin to P. cepacia (and P. aeruginosa) LPS was inhibited by polymyxin B, streptomycin, gentamicin, and Mg2+. These data suggest that P. cepacia does not utilize the self-promoted pathway for aminoglycoside uptake and that the outer membrane is arranged in a way that conceals or protects cation-binding sites on LPS which are capable of binding polycations such as aminoglycosides or polymxyin.
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PMID:Involvement of outer membrane of Pseudomonas cepacia in aminoglycoside and polymyxin resistance. 302 53

The R-form lipopolysaccharide from Klebsiella pneumoniae strain LEN-111 (O3-:K1-), from which cationic material had been removed by electrodialysis, was previously shown to form a hexagonal lattice structure with the lattice constant of 14 to 15 nm when suspended in 50 mM tris(hydroxymethyl)aminomethane buffer at pH 8.5 containing 10 mM Mg2+. Under this experimental condition, effects of other divalent metal cations on the hexagonal assembly of the electrodialyzed LPS were compared with that of Mg2+. The Zn2+, Hg2+, Cu2+, and Ni2+ could produce essentially the same hexagonal lattice structure with the lattice constant of 14.5 to 15.0 nm as that formed with Mg2+. The Cd2+, Co2+, and Fe2+ produced the hexagonal lattice structure with the lattice constant of 15.5 to 16.0 nm, and Ba2+, Sr2+, and Ca2+ produced that with the lattice constant of 18 to 19 nm. In addition, the hexagonal lattice structures formed with the latter three cations were less orderly than those formed with the other cations. When the higher concentrations of Ba2+, Sr2+, and Ca2+ were used, the lattice constants were not shortened. The length of lattice constants of the hexagonal lattice structures formed with the divalent cations did not relate to the quantity of the cations bound to the LPS. Among the divalent cations tested, Hg2+ was bound to the LPS in the smallest amount (its atomic ratio to P, 0.07), and Zn2+ and Fe2+ were bound in very large amounts (their atomic ratios to P, 2.94 and 8.28, respectively).
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PMID:Formation of a hexagonal lattice structure by an R-form lipopolysaccharide of Klebsiella: effect of various divalent cations on the lattice formation. 305 Mar 76

Here we report on investigations into the orientational behaviour of hydrated membrane systems made from lipopolysaccharide and its lipid component, free lipid A, using Fourier-transform infrared spectroscopy and applying attenuated total reflectance. For the investigated lipopolysaccharides--extracted from mutants of Salmonella minnesota and Escherichia coli, and differing in the length of the polysaccharide moiety--the dependence of dichroic ratios on temperature for several vibrations of the hydrophilic and hydrophobic portions was measured, from which the order parameter for the lipid assembly can be calculated. In the lower temperature range (less than 40 degrees C) for all lipopolysaccharide preparations the evaluation of the dichroic ratios clearly shows the existence of a highly ordered phase, i.e. the gel state of the hydrocarbon chains within lamellar structures. For this phase an order parameter S = 0.70 +/- 0.05 could be calculated which is lower than that of typical phospholipids in the same phase state (S = 0.80 +/- 0.05 for e.g. phosphatidylethanolamines). For deep rough mutant lipopolysaccharides at higher temperatures (greater than 40 degrees C) a transition into a disordered, isotropic phase can usually be observed for which an order parameter S = 0.25 +/- 0.05 could be approximated. The other rough mutant lipopolysaccharides at higher temperatures predominantly form lamellar structures. Only in special cases, under the influence of divalent cations like Mg2+, could isotropic phases also be observed. Free lipid A preparations over the whole temperature range exhibited no unequivocal orientational behaviour. However, the existence of a pure L beta-phase even at lower temperatures may be excluded for these compounds. The observed structural preferences might be of great importance with respect to the expression of biological activities of lipopolysaccharide and free lipid A systems in vivo and in vitro.
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PMID:Orientation measurements on membrane systems made from lipopolysaccharides and free lipid A by FT-IR spectroscopy. 306 83

The lipopolysaccharide (LPS) of the aminoglycoside-supersusceptible Pseudomonas aeruginosa tolA mutant PAO1715 was compared with its parent strain PAO1670 and tol+ revertant PAO1716. Electrophoretic separation of purified LPSs from the three isolates showed similar LPS banding patterns. Analysis of the Western blots of these LPSs from the three isolates with O-antigen-specific monoclonal antibody indicated that the ladder pattern consisted of doublet bands, which presumably reflected a modification of core or lipid A; the level of one of the bands in the doublet was in much lower amounts in the isolate from the tolA mutant than in that from the parent or revertant. Results of competitive displacement experiments, in which the cationic spin probe 4-dodecyldimethylammonium-1-oxyl-2,2,6,6-tetramethylpiperidine bromide was displaced from its LPS-binding site by polycations, revealed that the tolA mutant had a much higher affinity for gentamicin, polymyxin, Ca2+, and Mg2+ than did the parent or revertant. The order of affinity for all samples was polymyxin B much greater than gentamicin C much greater than Ca2+ greater than Mg2+. Both gentamicin and polymyxin induced rigidification of all of the LPS samples, but for the sample from the tolA mutant, rigidification occurred at substantially lower concentrations. Dansyl polymyxin titration experiments with intact cells demonstrated that the increased affinity of the LPS from the tolA mutant for polycations was reflected in an increase in the affinity of binding to the cell. Together these data suggest that the tolA mutant is supersusceptible to aminoglycosides by virtue of an LPS change which increases the binding affinity of the LPS for polycations, including gentamicin.
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PMID:Enhanced binding of polycationic antibiotics to lipopolysaccharide from an aminoglycoside-supersusceptible, tolA mutant strain of Pseudomonas aeruginosa. 313 45

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