UMLS:C0027960 - FACTA Search

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Aggregation of phenosafranine in concentrated aqueous solutions and interaction with polyphosphates was studied by absorption and fluorescence spectroscopy. At concentrations greater than 10(-3)M phenosafranine forms dimers (Kd = 3.8 x 10(2) 1.mole-1), which are characterized by a hypsochromic shift of the visible and near ultraviolet absorption maxima accompanied by a hypochromic effect. No fluorescence could be detected from phenosafranine dimers. Analogues spectra changes were observed when a polyphosphate was titrated with phenosafranine, which indicated that with increasing saturation of the polyphosphate binding sites phenosafranine gradually became bound in the aggregated form. Full saturation of the polyphosphate binding sites with phenosafranine was reached only when an excess of free dye was present. The cooperative binding of phenosafranine to a polyphosphate could be evaluated by means of a theory proposed by Schwarz et al. At the zero ionic strength and at 25 degrees C the binding was characterized by cooperative binding constant K = 6.2 x 10(5) 1.mole-1, number of binding sites per monomeric phosphate residue g = 0.4, and cooperativity parameter q-30. Spectroscopic properties of phenosafranine in the aggregated and polyphosphate-bound states were compared with those of ethidium bromide.
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PMID:Interaction of phenosafranine with nucleic acids and model polyphosphates. I. Self-aggregation and complex formation with inorganic polyphosphates. 64

The reactions of hydrated electrons produced during pulse radiolysis have been utilized to investigate the binding of ethidium bromide to heparin. Complexes of ethidium bromide and heparin can be dissociated with salt. Divalent cations are more effective than monovalent cations in this respect. Pulse-radiolysis investigations at different temperatures indicate that the thermodynamic parameters governing the interaction of ethidium bromide with heparin are deltaH' = 11-6 kcal mole-1 and deltaS' = 42-6 cal deg-1 mole-1.
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PMID:Interaction of ethidium bromide with heparin. 108 22

The binding of spermidine and ethidium bromide to mixed tRNA and phenylalanine tRNA has been studied under equilibrium conditions. The numbers and classes of binding sites obtained have been compared to those found in complexes isolated by gel filtration a low ionic strength. The latter complexes contain 10-11 moles of either spermidine or ethidium per mole of tRNA; either cation is completely displaceable by the other. In ethidium complexes, the first 2-3 moles are bound in fluorescent binding sites; the remaining 7-8 molecules bind in non-fluorescent form. At least one of the binding sites for spermidine appears similar to a binding site for fluorescent ethidium. Similar results are found with E. coli formylmethionine tRNA. Spermine, in excess of 18-20 moles per mole tRNA, causes precipitation of the complex. Putrescine does not form isolable complexes with yeast tRNA and displaces ethidium less readily from preformed ethidium-tRNA complexes. Under equilibrium conditions, in the absence of Mg++, there are 16-17 moles of spermidine bound per mole of tRNA as determined by equilibrium dialysis. Of these, 2-3 bind with a Ksence of 9 mM Mg++, the total number of binding sites is decreased slightly and there appears to be only one class of sites with a Ka = 600 M(-1). Quantitatively similar results are obtained for the binding of spermidine to yeast phenylalanine tRNA. When the interaction between ethidium bromide and mixed tRNA is studied by equilibrium dialysis or spectrophotometric titration, two classes of binding sites are obtained: 2-3 molecules bind with an average Ka = 6.6 x 10(5) M(-1) and 14-15 molecules bind with an average Ka = 4.1 x 10(4) M(-1). Spermidine, spermine, and Mg++ compete effectively for both classes of ethidium sites and have the effect of reducing the apparent binding constants for ethidium. When the binding of ethidium is studied by fluorometry, there are 3-4 highly fluorescent sites per tRNA. These sites are also affected by spermidine, spermine and Mg++. Putrescine has little effect on any of the classes of binding sites. These data are consistent with those found under non-equilibrium conditions. They suggest that polyamines bind to fairly specific regions of tRNA and may be involved in the maintenance of certain structural features of tRNA.
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PMID:The binding of polyamines and of ethidium bromide to tRNA. 109 21

Protected disaccharides were the only products that could be isolated after condensation of 3, 4, 6-tri-O-acetyl-2-deoxy-2-diphenoxyphosphoramido-alpha-D-glucopyranosyl bromide or 2-acetamido-3, 4, 6-tri-O-acetyl-2-deoxy-alpha-D-glucopyranosyl chloride with benzyl 2, 4-di-O-benzyl-beta-D-galactopyranoside. On the other hand, reaction of 2-methyl-(3, 4, 6-tri-O-acetyl-1, 2-dideoxy-alpha-D-glucopyrano)-[2', 1': 4, 5]-2-oxazoline (6 moles) with the same galactopyranoside (1 mole) gave benzyl 3, 6-di-O-(2-acetamido-3, 4, 6-tri-O-acetyl-beta-D-glucopyranosyl)-2, 4-di-O-benzyl-beta-D-galactopyranoside, which was converted, by alkaline methanolysis followed by hydrogenolysis, to the title compound. This appears identical with an oligosaccharide previously obtained through degredation of a blood-group A glycoprotein from hog gastric mucin.
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PMID:The synthesis of 3, 6-di-O-(2-acetamido-2-deoxy-beta-D-glucopyranosyl)-D-galactose, a branched trisaccharide reported as a hydrolysis product of blood-group substances. 112 50

The following methods are described for the analytical investigation of pipecuronium bromide. 1. HPLC method. Of the several systems tried for the separation and quantification of impurities and degradation products the best results were obtained using silica as the stationary phase and 43:43:14 mixture of methanol, acetonitrile and concentrated aqueous ammonia containing 0.1 mole/l each of ammonium chloride and ammonium carbonate as the eluent. The validation of this method is presented. The above described aggressive eluent can be successfully replaced by an ion-pairing system using silica as the stationary phase and 96:4 mixture of acetonitrile and water containing 0.1 mole/l sodium perchlorate as the eluent. 2. Thin-layer chromatography. TLC systems are described for the separation and densitometric quantification of the impurities and degradation products of pipecuronium bromide. 3. Spectrophotometry. Two methods are described. The ester groups of the molecule can be determined by the iron(III)-hydroxamate method while for the ion-pair extraction of the quaternary ammonium steroid picric acid or bromthymol blue are used as the reagents. 4. Titrimetry. In addition to the titration with acetous perchloric acid for the assay of the bulk material a microtitration method is described for the determination of pipecuronium bromide in individual lyophylized ampoules (potentiometric titration with 0.1 M silver nitrate).
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PMID:[Analysis of steroids. Part 45: Analytical investigation of pipecuronium bromide (Arduan)]. 132 18

The lactoperoxidase-catalyzed oxidation of glutathione (GSH) and thiocyanate (SCN-) was studied. Oxidation of SCN- was recorded by ultraviolet spectroscopy and by electron spin resonance (ESR). Consumption of GSH was measured by amperometric titration. One or two moles of GSH was oxidized per mole of H2O2 added, depending on the reaction conditions. Omission of SCN- prevented the oxidation of GSH. The oxidation of GSH required only catalytic amounts of SCN-, which was therefore recycled. Iodide (I-) could replace SCN-, while chloride or bromide were ineffective. The apparent Michaelis constant for SCN- was 17 microM. Oxidation of SCN- gave rise to two reactive intermediates, one stable and one unstable. The stable intermediate (-OSC. = N-(?)) decayed by a second-order reaction with a rate constant of 1.1 M-1 s-1. The decay of the unstable radical was very fast. The data (a) explain the short- and long-term antibacterial effects of lactoperoxidase-halide-H2O2 system, (b) point to possible deleterious effects due to glutathione depletion, (c) are of relevance for free radical diseases involving sulphur-centered free radicals, and (d) support previous observations on lipid peroxidation/halogenation in biological membranes, liposomes, and unsaturated fatty acids.
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PMID:Free radical generation and coupled thiol oxidation by lactoperoxidase/SCN-/H2O2. 132 2

Study was made of controlled fabrication and operation of immunoadsorbents exploiting beaded composites of agarose or kieselguhr-agarose. Materials were activated by cyanogen bromide and tresyl chloride, derivatised with human IgG antigens, and utilised in direct, one-step purifications of anti-huIgG monoclonal antibodies produced in serum-based cultures of murine hybridomas. The influence of solid phase composition, degrees of activation, concentration of immobilised antigen, capping chemistries, and mode of product desorption was studied in respect of purification performance. Maximum concentrations of immobilised huIgG could be achieved following activation of 50% available hydroxyl groups in both materials. Specific adsorption and desorption of monoclonal antibodies, expressed per mole of immobilised ligand, declined with increasing ligand concentrations. Control of activation and derivatisation of agarose solid phases enhanced the overall specification and performance of both homogeneous and composite fabricates. The large particle size of composites (150-1000 microns) restricted efficient performance in fixed bed contactors operated under non-equilibrium conditions. However, their physical nature recommended adsorptive operations with particulate feedstocks in fixed or fluidised beds, batch suspension contactors, or fast flow regimes adopted for cleaning and equilibration operations.
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PMID:Comparative studies of agarose and kieselguhr-agarose composites for the preparation and operation of immunoadsorbents. 136 60

Quinolinium compounds have been used as Cl-sensitive fluorescent indicators in cells and cell-free membrane fractions. To improve Cl sensitivity and for conjugation via nucleophilic reaction, the compounds 6-methoxy-N-(n-aminoalkyl)quinolinium bromide hydrochloride (AAQ) with alkyl chain lengths (n) of 2 (AEQ), 3 (APQ), and 4 (ABQ) were synthesized. AAQ was water soluble, fluorescent, and quenched by Cl. The Stern-Volmer constants (KCl) for quenching of protonated AEQ, APQ and ABQ by Cl were 354, 322, and 272 M-1, respectively, higher than KCl for 6-methoxy-N-(3-sulfopropyl)quinolinium (SPQ; 118 M-1). To eliminate pH-dependent fluorescence, 6-methoxy-N-(3-trimethylammoniumpropyl)quinolinium dibromide (TMAPQ) was synthesized (KCl, 310 M-1). To red shift fluorescence excitation and emission spectra, 6-phenyl-N-(3-trimethylammoniumpropyl)quinolinium dibromide (phenyl-TMAPQ) (emission 475 nm) and N-(3-trimethylammoniumpropyl)phenanthridinium dibromide (TMAPP) (excitation 380 nm) were synthesized. AEQ and ABQ were conjugated with neutral dextran activated by cyanogen bromide to give indicator-to-dextran mole ratios of 5 to 20. KCl values at pH 7.4 were 132 (AEQ-dextran) and 237 M-1 (ABQ-dextran). To construct a single molecule with Cl-sensitive and insensitive moieties, the bichromophores 6-methoxy-N-(n- dansylsulfonamidoalkyl)quinolinium with alkyl chains of two and four were synthesized. The new Cl-sensitive indicators were used for measurement of intracellular Cl activity and for the labeling of endocytic vesicles in 3T3 fibroblasts and T84 cells. Our results indicate that N-substitution of quinoline with positively charged moieties gives increased Cl sensitivity, and extension of ring conjugation gives indicators with red-shifted fluorescence spectra.
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PMID:Synthesis of cell-impermeable Cl-sensitive fluorescent indicators with improved sensitivity and optical properties. 137 Jul 43

Halide permeability sequences were obtained from reversal potential measurements of single-channel currents through 10 pS and 20 pS anion channels in human airway epithelial cells. The sequences obtained were Cl- greater than I- greater than Br- greater than or equal to F- for the 10 pS channel and Cl- greater than I- greater than or equal to Br- greater than or equal to F- for the 20 pS channel. However, the permeability differences were not large, the greatest being 0.66 for the ratio of fluoride to chloride permeability in the 20 pS channel. Single-channel currents were also measured with solutions of constant halide concentration but varying ratios of chloride to fluoride ions. An anomalous mole fraction effect was observed for the 20 pS channel but not for the 10 pS channel, suggesting that the former is a multi-ion channel. Comparison of the halide permeability sequences of these two channels with those of whole-cell currents in other epithelial cells does not support their involvement in any of the known whole-cell epithelial currents.
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PMID:Halide permeation through 10 pS and 20 pS anion channels in human airway epithelial cells. 137 19

Deuterium nuclear magnetic resonance (2H NMR) spectroscopy was used to investigate the response of the phosphatidylcholine headgroup of 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) to changes in surface electrostatic charge in membranes consisting of ternary mixtures of lipids. DMPC was deuterated at the choline alpha- and beta-methylene segments. The membrane surface charge was manipulated by the simultaneous addition of cationic didodecyldimethylammonium bromide (DDAB) and anionic 1,2-dimyristoyl-sn-glycero-3-phosphoglycerol (DMPG) to neutral DMPC. Addition of increasing amounts of DDAB caused a progressive decrease (increase) in the 2H NMR quadrupole splitting from DMPC-alpha-d2 (DMPC-beta-d2). Addition of increasing amounts of DMPG caused a progressive increase (decrease) in the quadrupole splitting from DMPC-alpha-d2 (DMPC-beta-d2). Qualitatively, the 2H NMR quadrupole splitting charge response exhibited the same main features for ternary mixtures of DDAB/DMPG/DMPC and binary mixtures of DDAB/DMPC or DMPG/DMPC. Quantitatively, however, the 2H NMR quadrupole splittings obtained from ternary mixtures did not coincide with those obtained from binary mixtures of nominally identical surface charge densities. Hence, the quadrupole splitting did not respond directly to the net membrane surface charge. Instead, the quadrupole splitting measured for a given ternary lipid composition could be reproduced by summing the individual effects of the charged lipids in binary mixtures, weighted according to their appropriate mole fractions.
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PMID:Response of the phosphatidylcholine headgroup to membrane surface charge in ternary mixtures of neutral, cationic, and anionic lipids: a deuterium NMR study. 139 Jul 61

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