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: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects, at pH 7.0, of a series of 0.2 mM phosphatidylcholines (PC), namely dicaproyl-PC (DCPC), didecanoyl-PC (DDPC), dilauroyl-PC (DLaPC), dimyristoyl-PC (DMPC), dipalmitoyl-PC (DPPC), dioleoyl-PC (DOPC) and dilinoleoyl-PC (DLPC) and a series of 0.2 mM fatty acid salts (namely sodium myristate, palmitate, stearate, oleate and linoleate) upon the erythrocyte haemolysis induced by 2 mM sodium taurodeoxycholate (STDC) were determined. The influence of egg PC and dihexadecyl phosphate (DHDP) concentration upon the haemolysis induced by 1.4 mM sodium deoxycholate (SDC), 2 mM STDC and 0.1 mM lysophosphatidylcholine (LPC) were also established. A bile salt:egg PC mole ratio of 0.5 virtually abolished the haemolysis induced by SDC and STDC, whereas the same ratio of LPC:egg PC only reduced haemolysis from 65 to 40% (maximum haemolysis). DHDP had no effect on the haemolytic action of SDC or STDC. The salts of the fatty acids were non-haemolytic, and when mixed with STDC did not affect the level of haemolysis induced by the bile salt. In contrast, DDPC and DLaPC enhanced the haemolysis of STDC and DCPC had no effect, whereas DMPC, DPPC, DSPC, DOPC, DLPC and egg PC all reduced haemolysis. Maximum reduction was determined for DMPC and egg PC. The mixed micelle preparation temperature (either room or 60 degrees C) and temperature of incubation (either 20 degrees C for 30 min or 37 degrees C for 5 min) had only minor effects on the net haemolysis induced by STDC. These findings may be of significance in understanding the aetiology of certain gastrointestinal diseases and in determining whether mixed bile salt micelles have a role as drug penetration enhancers.
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PMID:The mitigating effects of phosphatidylcholines on bile salt- and lysophosphatidylcholine-induced membrane damage. 135 88

A general model for the phase behavior of polymer-polymer aqueous two-phase systems containing small amounts of added inorganic salts has been developed from statistical thermodynamics. The model is based on the solution theory of Hill and new electrolyte solution model based on Fluctuation Solution Theory. It includes the effect of polymer molecular weight with scaling expressions from the Renormalization Group theory of polymer solutions. The model has been used to calculate the phase diagram and the partitioning of salt for an aqueous two-phase system containing polyethylene glycol (MW = 8000) and dextran (MW = 28,700) with 0.1 mole/kg of added Na2SO4. The calculations have been compared to experimental results with good agreement.
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PMID:Statistical thermodynamics of phase separation and ion partitioning in aqueous two-phase systems. 136 70

The pyruvate dehydrogenase complex (PDC) from muscle of the adult parasitic nematode Ascaris suum plays a unique role in its anaerobic mitochondrial metabolism. Resolution of the intact complex in high salt dissociates the pyruvate dehydrogenase subunit but leaves the dihydrolipoyl dehydrogenase subunit (E3) and two other proteins with apparent M(r)s of 45 and 43 kDa bound to the dihydrolipoyl transacetylase (E2) core. These proteins are not observable on Coomassie brilliant blue-stained gels of other eukaryotic PDCs, but the 45-kDa protein is similar in apparent M(r), pI, and sensitivity to trypsin to the Kb subunit of the bovine kidney PDH alpha kinase. Acetylation of the ascarid PDC with [2-14C]pyruvate under conditions designed to maximize the incorporation of label into protein yielded only a single radiolabeled subunit, E2. These results confirm earlier reports that the ascarid PDC lacks protein X, an integral component recently identified in other eukaryotic PDCs. About 1.6 to 1.8 mol of 14C was incorporated/mole of E2, suggesting that the ascarid E2 contained two lipoly-bearing domains. Domain mapping of the 14C-acetylated ascarid E2 by limited tryptic digestion identified two lipoyl-bearing fragments with apparent M(r)s of 50 and 34 kDa and two core fragments with apparent M(r)s of 46 and 30 kDa. The ascarid E2 domain structure appears to be similar to that of other E2s. However, it appears that the subunit-binding domain (E2B) of the ascarid E2 may be significantly larger or be flanked by larger than normal interdomain regions. An enlarged E2B domain may be necessary to accommodate the additional binding of E3 to the E2 subunit in the ascarid complex, in the absence of protein X.
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PMID:The pyruvate dehydrogenase complex from the parasitic nematode Ascaris suum: novel subunit composition and domain structure of the dihydrolipoyl transacetylase component. 137 97

Liposomes of dimyristoylphosphatidylcholine (DMPC) and dicetylphosphate (DCP) reacted with 4-vinylpyridine (4-VP) to form a salt and, subsequently, autopolymerized for form poly(4-vinylpyridine) (poly(4-VP))-coated liposomes. The conditions for optimization of polymer coating have been determined; also, the effects of polymer coating on liposome stability, the encapsulation of ASA and its release kinetics have been measured. The coating efficiency was maximum at a DMPC:DCP 1:1 mole ratio, at pH 4.0 in acetate buffer, and a polymerization time of 40 min. The polymer-coated liposomes were stable in 2 mM sodium cholate and 4 per cent isopropanol solutions, as determined from turbidity measurements, versus a 20-25% decrease in stability of uncoated liposomes. The encapsulation efficiency of ASA reached a maximum of 9 per cent at DMPC:DCP 1:1 mole ratio. The release of ASA at 37 degrees C, pH 7.0 was characterized by an initial fast release (85 and 63 per cent in 20 min from uncoated and polymer-coated liposomes, respectively) followed by a slow, constant release rate up to 140 min. Thus, autopolymerization of a polymerizable monomer at liposome surfaces represents a potentially feasible stabilization approach for liposomes exposed to sodium cholate solutions with greater retention of solute than uncoated liposomes.
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PMID:Poly(4-vinylpyridine)-coated liposomes: stability studies and release of acetylsalicylic acid. 140 91

The binding of the intercalating dye methylene blue (MB) to chromatin and to free DNA has been studied as a function of ionic strength at very low binding ratios (1 MB/400 DNA bases) using absorption spectroscopy. With increasing salt concentration MB is displaced from chromatin to a higher extent than from DNA. The free energy change for MB binding to chromatin is found to be approximately 5 kJ/mole lower than for binding to DNA. This difference can be explained by the reduced number of high affinity binding sites in chromatin due to the presence of histone proteins. The difference in binding energy is virtually independent of the degree of chromatin condensation and also of the valence of counter ions, suggesting that neither the affinity for, nor the number of intercalation sites in the linker DNA is markedly changed upon the salt-induced condensation. The unaffected thermodynamics of the linker binding suggests that factors such as DNA superhelicity and the electrostatic influence from the chromatosomes remain unchanged during chromatin condensation.
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PMID:Ionic strength dependence of the binding of methylene blue to chromatin and calf thymus DNA. 161 25

Chlorophyllin (CHL), a copper/sodium salt of chlorophyll used in the treatment of geriatric patients, is an anti-mutagen that has been demonstrated to inhibit carcinogen--DNA binding in vivo. To study the mechanism of inhibition, the microsomal metabolism of 2-amino-3-methylimidazo[4,5-f]quinoline (IQ) and the kinetics of IQ--DNA binding were investigated in the presence and absence of CHL. In time-course studies, CHL produced greater than 80% inhibition of IQ--DNA binding and blocked the metabolism of IQ, such that 80% of the initial dose of carcinogen was recovered unmetabolized from the incubations after 1 h. Kinetic constants were determined for the in vitro DNA binding reaction, with the reaction rate measured as 'pmol IQ bound/mg DNA/min/mg microsomal protein'. Without altering V(max), the Km of the IQ--DNA binding reaction was increased by CHL, and the replot of Km/V(max) versus CHL concentration yielded a straight line with an inhibitor constant of 58.3 microM CHL. Spectrophotometric studies provided evidence in vitro for the formation of a non-covalent complex between CHL and IQ. The CHL--IQ complex had a stoichiometric ratio of 2:1 (mole ratio method) and an apparent dissociation constant from the Benesi-Hilderbrand plot of 1.41 x 10(-4)M at pH 7.4. These results are discussed in the context of a CHL inhibitory mechanism involving enzyme inhibition and molecular complex formation.
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PMID:Inhibition of 2-amino-3-methylimidazo[4,5-f]quinoline (IQ)-DNA binding by chlorophyllin: studies of enzyme inhibition and molecular complex formation. 163 77

The interaction of the anti-inflammatory drug, piroxicam, with some naturally occurring polymers-viz gamma-globulin, bovine serum-albumin, bovine synovial fluid and casein was characterized in this study. This was done using equilibrium dialysis method where the dialysis membrane was permeable only to the drug molecules while polymers and formed complex(es) cannot pass through. The amount of permeable piroxicam molecules was determined spectrophotometrically. It was found out that increasing the concentration of piroxicam was accompanied by an increase in the amount of piroxicam bound to the investigated natural polymers. The maximum binding capacity of the investigated polymers for the drug as revealed by Langmuir plots, could be arranged in ascending manner as follows: synovial fluid, albumin, casein and gamma-globulin. The binding parameters K (association constant) and n (the number of binding sites available on the polymer) were determined using Sandberg plots. It was found that two classed of binding sites were involved in the interaction of piroxicam with gamma-globulin, albumin and casein. Increasing salt concentration was accompanied by a decrease in piroxicam binding with the investigated polymers till a constant value of ionic strength (0.6 mole/liter). This result may suggest the ionic nature in binding of piroxicam with the investigated polymers. It was concluded that piroxicam is strongly bound to the investigated natural polymers with different degree of binding, such binding may affect the pharmacological effect of piroxicam. An in-vivo absorption study was performed on eight male healthy volunteers to compare the bioavailability of piroxicam in presence and absence of casein using plasma data after 100 mg single dose treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Piroxicam-natural polymers interactions. 172 87

Deinococcus radiodurans, a radiation-resistant aerobe, synthesized a 43,000 Mr dimeric superoxide dismutase. The holoenzyme, sp act 3300 U/mg, contained 1.5 g-atoms Mn, 0.6 g-atom Fe, and 0.1 g-atom Zn per mole dimer. Apoprotein, prepared by dialysis of the holoenzyme in denaturant plus chelator and then renatured in chelex-treated Tris chloride buffer, rapidly regained superoxide dismuting activity upon incubation in 1 mM MnCl2. Reconstitution was dependent on Mn concentration and pH. The Mn-reconstituted protein, sp act 3560 U/mg, contained 1.7 g-atoms Mn per mole dimer. The holoenzyme and Mn-reconstituted apoprotein migrated with the same patterns in 10% acrylamide gels and focused to the same pattern upon isoelectric focusing. Fluorescence emission maxima of the holoenzyme, Mn-reconstituted apoprotein, and the renaturated apoprotein were 329 +/- 1 nm but differed from the denatured apoprotein (352 nm). Apoprotein bound 1.7 g-atoms Zn and from 3-7 g-atoms Fe per mole dimer on incubation with 1 mM ZnSO4 and Fe(NH4)2(SO4)2, respectively. Although neither Zn nor Fe restored superoxide dismuting activity, the ferrous and the zinc salt inhibited reconstitution of the apoprotein with manganese. Metal addition to renatured aposuperoxide dismutase offers a novel approach to reconstitution of procaryote superoxide dismutases.
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PMID:Reconstitution of the Deinococcus radiodurans aposuperoxide dismutase. 189 53

Clusterin/human complement lysis inhibitor (CLI) is incorporated stoichiometrically into the soluble terminal complement complex and inhibits the cytolytic reaction of purified complement components C5b-9 in vitro. Using an anti-clusterin affinity column, we found that an additional protein component with a molecular mass of 28-kDa co-purifies with clusterin from human plasma. We show by immunoblotting and amino acid sequencing that this component is apolipoprotein A-I (apoA-I). By using physiological salt buffers containing 0.5% Triton X-100, apoA-I is completely dissociated from clusterin bound to the antibody column. Free clusterin immobilized on the antibody-Sepharose selectively retains apoA-I from total human plasma. Delipidated apoA-I and to a lesser extent ultracentrifugation-purified high density lipoproteins (HDL) adsorbed to nitrocellulose also have a binding affinity for purified clusterin devoid of apoA-I. The isolated apoA-I-clusterin complex contains approximately 22% (w/w) lipids which are composed of 54% (mole/mol) total cholesterol (molar ratio of unesterified/esterified cholesterol, 0.58), 42% phospholipids, and 4% triglycerides. In agreement with the low lipid content, apoA-I-clusterin complexes are detected only in trace amounts in HDL fractions prepared by density ultracentrifugation. In free flow isotachophoresis, the purified apoA-I-clusterin complex has the same mobility as the native clusterin complex in human plasma and is found in the slow-migrating HDL fraction of fasting plasma. Our data indicate that clusterin circulates in plasma as a HDL complex, which may serve not only as an inhibitor of the lytic terminal complement cascade, but also as a regulator of lipid transport and local lipid redistribution.
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PMID:Clusterin (complement lysis inhibitor) forms a high density lipoprotein complex with apolipoprotein A-I in human plasma. 190 58

Thermal denaturation was studied for a wide range of magnesium ions concentrations and salt concentration 0.15 M NaCl. It was shown that thermal stability of DNA increases at low Mg/2P ratios and decreases at high concentrations of magnesium ions. Up to Mg/2P = 10 DNA denaturation is an equilibrium process. With an increase in magnesium ions concentrations the enthalpy of DNA denaturation reaches the maximum at Mg/2P = 10 (50 kJ/mole base pairs). DNA aggregation and appearance of a new heat absorption peak is observed in the high temperature region at Mg/2P = 10. At this region of magnesium ions concentrations DNA denaturation process is non-equilibrium.
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PMID:[Microcalorimetric study of heat denaturation of DNA from calf thymus DNA in the absence of magnesium ions]. 191 15


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