UMLS:C0027960 - FACTA Search

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

The thermotropic behavior of both sulfatide (3-sulfogalactosylceramide) and galactosylceramide in dielaidoylphosphatidylcholine (DEPC) liposomes was studied, using steady-state fluorescence polarization of parinaric acid isomers. The glycosphingolipid (GSL) concentration of the liposomes was varied from 0 to 100%, and phase diagrams were constructed. The data indicate that sulfatide and DEPC are immiscible in the gel phase at sulfatide mole ratios of less than 0.30. The temperature of onset of the gel-liquid-crystalline phase transition is higher in K+ -containing buffer than in osmotically equal Na+ -containing buffer. Similar measurements, using galactosylceramide, a neutral GSL, indicated that this lipid and DEPC are immiscible in the gel phase at galactosylceramide mole ratios of less than 0.40. In contrast to the results obtained with sulfatide, onset temperatures are identical in Na+- or K+-containing buffers. The phase properties of sulfatide/DEPC mixtures are shown to depend on the cation only when the sulfatides contain hydroxy fatty acids. Our observations indicate that physiologically relevant concentrations of monovalent cations affect motion and distribution of sulfatide in biological membranes and further implicate this GSL as an important determinant of function of the Na+,K+-ATPase. A preliminary report of these data [Rintoul, D.A., Welti, R., & Song, W. (1988) Biophys. J. 53, 126a].
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PMID:Thermotropic behavior of mixtures of glycosphingolipids and phosphatidylcholine: effect of monovalent cations on sulfatide and galactosylceramide. 253 58

Two strains of Bacteroides intermedius BH20/30 and BH18/23, have been grown in anaerobic continuous culture under various conditions for periods up to 54 days. Strain BH20/30 grew over a relatively wide pH range from 5-8 with a maximum at pH 7.0 at a dilution rate (D) of 0.1 h-1 with a glucose limitation, while strain BH18/23 had an optimum between 5.8 and 7.3 and would not grow above and below this range. The maximum growth rate (mu max) for the latter strain was shown to be 0.23 h-1, or a doubling time of 3.0 at the upper limit of pH 7.3. The yield values (Y glucose) for strain BH18/23 reached 187-177 g cells (dry weight) per mole of glucose in the optimum pH range (6.0-7.0) and amino acid analysis of the spent medium indicated that these high values were the results of the combined use of glucose and amino acids; the cultures also exhibited proteolytic activity. The major acid end-products in the same pH range were formate and succinate with lesser concentrations of acetate, isovalerate and fumarate; small amounts of lactate appeared as the cells were stressed at pH values above 7.5 when the culture was 'washing out' of the chemostat. Glucose metabolism appeared to function through the glycolytic pathway in B. intermedius BH18/23 since the glycolytic inhibitors, sodium fluoride and sodium iodoacetate, completely inhibited glucose utilization as did the proton ionophore, gramicidin, and the ATPase inhibitor, N,N1-dicyclohexylcarbodiimide (DCCD). Inhibition by these latter compounds indicated that the saccharolytic Bacteroides utilize proton gradients generated by proton-extruding ATPase (H+/ATPase) to conserve energy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Growth and metabolic properties of Bacteroides intermedius in anaerobic continuous culture. 276 20

The effect of ethylene glycol on the contractile properties of skeletal muscles was studied using glycerinated rabbit psoas muscle fibers. Measurements were made at an ionic strength of 0.2 M, pH 7.0, and at 10 degrees C. Ethylene glycol reversibly reduced isometric tension, active stiffness, the tension-to-stiffness ratio, and the shortening velocity at zero load (Vo) in a dose-dependent fashion. Ethylene glycol also reduced the Ca sensitivity for contraction. The extent of the reduction in Vo by ethylene glycol was much larger than that in the actomyosin ATPase activity reported by Travers and Hillaire (Eur. J. Biochem. 98, 293-299 [1979]). Although ethylene glycol reduced tension and Vo, the MgATP concentration dependence of these two quantities was almost unaffected. These results suggest that in the presence of ethylene glycol, force produced by crossbridges in the principal force-producing state is reduced and/or the relative population of the attached crossbridges in the low-force state increases. The results also suggest that the reduction in Vo by ethylene glycol is caused not only by a reduction in the actomyosin ATPase activity but also by a reduction in the shortening distance per mole of ATP split.
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PMID:Modification of the contractile properties of rabbit skeletal muscle by ethylene glycol. 276 8

Vanadate has been suggested as an intracellular regulator of (Na+ + K+)-ATPase. To test this hypothesis we examined the stimulatory and inhibitory effects of vanadate on 86--Rb efflux and influx (measurements of the activity of the Na-pump) in rat ileum under conditions of normal, reduced and increased (Na+ + K+)-ATPase activity. The half maximal stimulation of the Rb efflux and the half maximal inhibition of the Rb influx were not different in the three conditions tested. This suggests that vanadate does not have a regulatory effect on the activity of the Na-K-transport enzyme. The vanadate effect seem rather, to be nonspecific in terms of being unrelated, on a mole per mole basis, to the activity of the (Na+ + K+)-ATPase enzyme.
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PMID:The nonspecific nature of the vanadate inhibition of rat ileal (NA,K)-ATPase. 284 70

Lucifer yellow (4-amino-N-[3-(vinylsulfonyl)phenyl]naphthalimide-3,6-disulf onate), a fluorescent probe that can react covalently with sulfhydryl or amino groups, has been used to modify chloroplast coupling factor 1 (CF1). Conditions are described under which Lucifer yellow selectively labels the alpha subunit of CF1 to the extent of about 1 mol of probe per mole of CF1. An especially reactive amino group is apparently labeled, and modification has little effect on the ATPase activity of the enzyme. Lucifer yellow is a useful probe for fluorescence energy transfer measurements. The distances between this probe and fluorescent and absorbing molecules attached to seven specific sites on the beta, gamma, and epsilon subunits were determined. These distances converge to a single location. In addition to providing further information about the structure of CF1, these results suggest that the alpha subunits of CF1 are not structurally equivalent.
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PMID:Selective modification of an alpha subunit of chloroplast coupling factor 1. 285 86

The inhibitory effect of dicyclohexylcarbodiimide (DCCD) on the activity of the adenosine-triphosphatase of Escherichia coli (ECF1) has been examined in detail. DCCD reacted with ECF1 predominantly in beta subunits with a maximum of 2 mol of reagent per mole of ECF1 being incorporated in these subunits. Ninety-five percent inhibition of steady-state or multistate ATPase activity required incorporation of 1 mol of DCCD per mole of enzyme into beta subunits. Seventy-five percent inhibition of the initial rate of unisite catalysis was only obtained after incorporation of 2 mol of DCCD per mole of ECF1 into beta subunits. Analyses of the kinetics of unisite catalysis and nucleotide binding experiments both indicate that DCCD binds outside the substrate ATP binding site. Inhibition by this reagent appears to be due in part to an effect on the catalytic sites but mainly to the blocking of cooperativity between these sites.
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PMID:Effect of dicyclohexylcarbodiimide on unisite and multisite catalytic activities of the adenosinetriphosphatase of Escherichia coli. 286 53

When the heat-activated chloroplast F1 ATPase hydrolyzes [3H, gamma-32P]ATP, followed by the removal of medium ATP, ADP, and Pi, the enzyme has labeled ATP, ADP, and Pi bound to it in about equal amounts. The total of the bound [3H]ADP and [3H]ATP approaches 1 mol/mol of enzyme. Over a 30-min period, most of the bound [32P]Pi falls off, and the bound [3H]ATP is converted to bound [3H]ADP. Enzyme with such remaining tightly bound ADP will form bound ATP from relatively high concentrations of medium Pi with either Mg2+ or Ca2+ present. The tightly bound ADP is thus at a site that retains a catalytic capacity for slow single-site ATP hydrolysis (or synthesis) and is likely the site that participates in cooperative rapid net ATP hydrolysis. During hydrolysis of 50 microM [3H]ATP in the presence of either Mg2+ or Ca2+, the enzyme has a steady-state level of about one bound [3H]ADP per mole of enzyme. Because bound [3H]ATP is also present, the [3H]ADP is regarded as being present on two cooperating catalytic sites. The formation and levels of bound ATP, ADP, and Pi show that reversal of bound ATP hydrolysis can occur with either Ca2+ or Mg2+ present. They do not reveal why no phosphate oxygen exchange accompanies cleavage of low ATP concentrations with Ca2+ in contrast to Mg2+ with the heat-activated enzyme. Phosphate oxygen exchange does occur with either Mg2+ or Ca2+ present when low ATP concentrations are hydrolyzed with the octyl glucoside activated ATPase. Ligand binding properties of Ca2+ at the catalytic site rather than lack of reversible cleavage of bound ATP may underlie lack of oxygen exchange under some conditions.
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PMID:Bound adenosine 5'-triphosphate formation, bound adenosine 5'-diphosphate and inorganic phosphate retention, and inorganic phosphate oxygen exchange by chloroplast adenosinetriphosphatase in the presence of Ca2+ or Mg2+. 287 34

F1-ATPase of rat liver was examined for its capacity to interact with both metal ions and nucleotides and for the effect of covalent ATPase inhibitors on these interactions. As isolated, rat liver F1 contains about 2 mol of Mg2+/mol of F1, 1 mol of which can be removed or exchanged. The remaining mole of Mg2+ per mole of F1 remains very tightly associated with F1 and is recovered in the alpha gamma fraction after cold denaturation. Rat liver F1 also contains as isolated a nearly equivalent amount of nucleotide (approximately 1.7 mol/mol of F1) which is readily removed by incubation at room temperature followed by column centrifugation. The "2 Mg2+ enzyme" binds almost 3 mol of 5'-adenylyl imidodiphosphate (AMP-PNP)/mol of F1 in the presence or absence of added divalent cation. When divalent cation is present as Co2+, an equivalent activator to Mg2+ in the ATPase reaction, 1 mol of F1 binds 3 mol of both AMP-PNP and Co2+. under these conditions, the very tight Mg2+ site remains loaded, the exchangeable Mg2+ site is replaced with AMP-PNPCo, and two additional AMP-PNPCo sites are filled. At this point, ADP can be loaded onto the enzyme as a fourth nucleotide at a site separate and distinct from the AMP-PNP sites. Significantly, rat liver F1 contains only a single readily detectable ADP binding site in the presence or absence of divalent cation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ligand binding studies of the F1 moiety of rat liver ATP synthase: implications about the enzyme's structure and mechanism. 288 76

The photolabeling of chloroplast F1 ATPase, following exposure to Mg2+ and 2-azido-ATP and separation from medium nucleotides, results in derivatization of two separate peptide regions of the beta subunit. Up to 3 mol of the analogue can be incorporated per mole of CF1, with covalent binding of one moiety or two moieties per beta subunit that can be either AMP, ADP, or ATP derivatives. These results, the demonstration of noncovalent tight binding of at least four [3H]adenine nucleotides to the enzyme and the presence of three beta subunits per enzyme, point to six potential adenine nucleotide binding sites per molecule. The tightly bound 2-azido nucleotides on CF1, found after exposure of the heat-activated and EDTA-treated enzyme to Mg2+ and 2-azido-ATP, differ in their ease of replacement during subsequent hydrolysis of ATP. Some of the bound nucleotides are not readily replaced during catalytic turnover and covalently label one peptide region of the beta subunit. They are on noncatalytic sites. Other tightly bound nucleotides are readily replaced during catalytic turnover and label another peptide region of the beta subunit. They are at catalytic sites. No alpha-subunit labeling is detected upon photolysis of the bound 2-azido nucleotides. However, one or both of the sites could be at an alpha-beta-subunit interface with the 2-azido region close to the beta subunit, or both binding sites may be largely or entirely on the beta subunit.
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PMID:Chloroplast F1 ATPase has more than three nucleotide binding sites, and 2-azido-ADP or 2-azido-ATP at both catalytic and noncatalytic sites labels the beta subunit. 288 81

The protein ATPase inhibitor entraps about five nucleotides in pig heart mitochondrial F1, one at least being a triphosphate [Di Pietro, A., Penin, F., Julliard, J.H., Godinot, C., & Gautheron, D.C. (1988) Biochem. Biophys. Res. Commun. 152, 1319-1325]. The fate of these nucleotides was studied during ATP synthesis driven by NADH oxidation in reconstituted inverted submitochondrial particles. Iodinated F1, containing 0.7 mol of endogenous nucleotides/mol, was first loaded with tritiated adenine nucleotides in the presence or absence of the protein inhibitor and then reassociated with F1-depleted submitochondrial particles (ASU particles) to reconstitute an efficient NADH-driven ATP synthesis. In the absence of the protein inhibitor, 1.7 mol of labeled nucleotides remained bound per mole of reassociated F1, 0.8-0.9 mol being rapidly exchangeable against medium ADP or ATP, as measured after rapid filtration through nitrocellulose filters. In the presence of the protein inhibitor, as many as 3.25 mol of labeled nucleotides remained bound per mole of reassociated F1. Under hydrolysis conditions where ATPase activity was highly inhibited, no release of tritiated nucleotide occurred. In contrast, under ATP synthesis conditions where the protonmotive force was generated by NADH oxidation, the progressive reversal of inhibition by the protein inhibitor was correlated to a concomitant release of tritiated nucleotide. When ATP synthesis became fully active, about one nucleotide was completely exchanged whereas more than three nucleotides remained tightly bound and did not appear to be directly involved in ATP synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Fate of nucleotides bound to reconstituted Fo-F1 during adenosine 5'-triphosphate synthesis activation or hydrolysis: role of protein inhibitor and hysteretic inhibition. 290 4

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