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:C0009443 (cold)
92,137 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

(1) The hydrolytic activity of the isolated mitochondrial ATPase (F1) is strongly inhibited by azide. However, at very low ATP concentration (1 microM or less), no inhibition by azide is observed. (2) The azide-insensitive ATPase activity represents a high-affinity, low-capacity mode of turnover of F1. This is identified with the low Km, low Vmax component seen in steady-state kinetic studies in the absence of azide. (3) The azide-insensitive ATPase activity shows simple Michaelis-Menten kinetics, with Km = 3.2 microM, and Vmax = 1.1 mumol/min per mg (6 s-1). It is unaffected by anions such as sulphite, or by increasing pH in the range 7 to 8, both of which stimulate the maximal activity of F1. (4) Both the azide-insensitive and azide-sensitive components of F1-ATPase activity are equally inhibited by labelling the enzyme with 7-chloro-4-nitrobenzofurazan, by binding the natural inhibitor protein, or by cold denaturation of the enzyme. (5) It is concluded that azide-insensitive ATP hydrolysis represents catalysis by F1 involving a single catalytic site, and that azide acts by abolishing intersubunit cooperativity between the three catalytic sites of F1. Azide-sensitivity is thus a useful probe for events which affect the active site of F1 directly.
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PMID:Azide as a probe of co-operative interactions in the mitochondrial F1-ATPase. 252 39

Erythrocytes from twenty-five normal subjects were hemolyzed in both 20 mM imidazole and in ice-cold deionized water to determine their effects on membrane enzyme activities and protein concentration. Erythrocyte (Ca++)ATPase activity and membrane protein concentration were significantly different (p less than 0.01) following different hemolyses, whereas (Na+-K)ATPase and (Mg++)ATPase activities were not significantly affected. In order to test the influence of sex, erythrocyte protein concentration and enzyme activities were studied separately in male and female groups after each hemolytic solution. After hemolysis in water, females showed a significant increase in erythrocyte protein concentration (p less than 0.01) and in (Mg++)ATPase activity (p less than 0.005), whereas males showed a significant decrease in (Ca++)ATPase activity (p less than 0.02). The most reproducible results were obtained in the male group and after hemolysis in water. Females showed a significant lower mean value of cellular Na+ content (p less than 0.005) and higher mean value of K+ content as compared to males. A significant inverse relationship was found between cellular Na+ content and (Na+-K+)ATPase activity in all subjects studied (p less than 0.05). The results confirm that sex-related differences are present in the erythrocyte membrane so that hemolytic solutions in males and females can expose to a different extent membrane-bound proteins and latent ATPases.
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PMID:Sex differences in erythrocyte membrane ATPase activities evidenced by exposing the cells to different hemolytic solutions. 252 14

Golgi apparatus was prepared from rat liver, and enzymatic properties and the subunit structure of the H+-ATPase were characterized. GTP (and also ITP) was found to drive H+-transport with about 20% of the initial velocity as that of ATP. Bafilomycin, a specific inhibitor for vacuolar H+-ATPase, inhibited the activity at 2.5 nM. The H+-ATPase was completely inhibited in the cold in the presence of MgATP (5 mM) and NaNO3 (0.1 M). The cold inactivation of the H+-ATPase resulted in release of a set of polypeptides from Golgi membrane, with molecular masses almost identical to that of the hydrophilic sector of chromaffin granule H+-ATPase (72, 57, 41, 34, and 33 kDa). Three of these polypeptides (72, 57, and 34 kDa), cross-reacted with antibodies against the corresponding subunits of the chromaffin granule H+-ATPase. A counterpart of the 39-kDa hydrophobic component of chromaffin granule H+-ATPase was identified in the membrane, but no 115-kDa component was found. Hence, the Golgi H+-ATPase shows typical features of vacuolar H+-ATPase, in relatively low substrate specificity, its response to inhibitors, inactivation by cold treatment in the presence of MgATP, and subunit composition judged by antibody cross-reactivity.
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PMID:H+-translocating ATPase in Golgi apparatus. Characterization as vacuolar H+-ATPase and its subunit structures. 253 Feb 22

A fast protein liquid chromatography procedure for purification of the V-type H+-ATPase from higher plant vacuolar membrane to yield near-homogeneous enzyme with a specific activity of 20-25 mumol/mg.min is described. When precautions are taken to ensure the quantitative recovery of protein before sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the preparation is found to be constituted of seven major polypeptides of 100, 67, 55, 52, 44, 32, and 16 kDa, respectively, and two minor components of 42 and 29 kDa. The 52-, 44-, and 32-kDa polypeptides do not cross-react with antisera raised to the 67- and 55-kDa subunits of the enzyme, and two independent sample preparation procedures yield the same apparent subunit composition. The additional polypeptides are not breakdown products or aggregates of the previously identified subunits of the ATPase. The ATPase of tonoplast vesicles is subject to MgATP-dependent cold inactivation, and the conditions for inactivation are identical to those for the bovine chromaffin granule H+-ATPase (Moriyama, Y., and Nelson, N. (1989) J. Biol. Chem. 264, 3577-3582). Cold inactivation is accompanied by the detachment of five major polypeptides of 67, 55, 52, 44, and 32 kDa from the membrane, and all five components co-migrate with the corresponding polypeptides of the purified ATPase upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The 100- and 16-kDa polypeptides of the ATPase are not removed from the membrane during cold inactivation, but the latter can be purified to homogeneity by chloroform:methanol extraction of the fast protein liquid chromatography-purified enzyme. It is concluded that the tonoplast H+-ATPase is constituted of 6-7 major polypeptides organized into a peripheral sector comprising the 67-, 55-, 52-, 44-, and 32-kDa components and an integral sector consisting of the 100- and 16-kDa polypeptides. The V-type H+-ATPase from animal endomembranes and higher plant vacuolar membranes therefore have remarkably similar subunit compositions and gross topographies.
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PMID:High purity preparations of higher plant vacuolar H+-ATPase reveal additional subunits. Revised subunit composition. 253 Nov 42

Previously we reported that ATPase activity was recovered when the subunit alpha + beta + gamma or alpha + beta + delta of the F1-ATPase from the thermophilic bacterium PS3 were combined under appropriate conditions. Unlike that of holoenzyme (TF1) and the alpha + beta + gamma mixture, ATPase activity of the alpha + beta + delta mixture was heat labile and insensitive to azide inhibition (Yoshida, M., Sone, N., Hirata, H., and Kagawa, Y. (1977) J. Biol. Chem. 252, 3480-3485). Here, the properties of purified subunit complexes were compared in detail with those of native TF1. The subunit stoichiometries of the complexes were determined to be alpha 3 beta 3 gamma 1 and alpha 3 beta 3 delta 1. In general, the properties of the alpha 3 beta 3 gamma complex are very similar to those of TF1, whereas those of the alpha 3 beta 3 delta complex are significantly different. ATPase activity of the alpha 3 beta 3 delta complex is cold labile. The alpha 3 beta 3 delta complex showed a less stringent specificity for substrate and divalent cation than TF1 and the alpha 3 beta 3 gamma complex. Two Km values for ATP were exhibited by the alpha 3 beta 3 delta complex with the lower one being in the range of 0.1 microM. Equilibrium dialysis experiments revealed that the alpha 3 beta 3 delta complex cannot specifically bind ADP in the absence of Mg2+, while TF1 and the alpha 3 beta 3 gamma complex bind about 1 and 3 mol of ADP/mol of enzyme, respectively. ADP-dependent inactivation of the alpha 3 beta 3 delta complex by dicyclohexylcarbodiimide was not observed. The alpha 3 beta 3 gamma complex was readily formed when the gamma subunit was added to the alpha 3 beta 3 delta complex, suggesting that the alpha 3 beta 3 delta complex is not a "dead-end" complex. The cause of thermolability of the alpha 3 beta 3 delta complex appears to be the low stability of the complex itself at high temperature and not due to an unusually low thermostability of the delta subunit.
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PMID:The reconstituted alpha 3 beta 3 delta complex of the thermostable F1-ATPase. 253 13

The effects of pressure and temperature on an integral membrane protein, Na+/K+-adenosine triphosphatase (Na+/K+-ATPase), were studied in fish gill membrane preparations from shallow- and deep-living marine teleosts. The inhibition by pressure of maximal velocity of the enzyme is nonlinear, increasing at higher pressures. Na+/K+-ATPases from deep-sea fish were less inhibited by pressure than those of shallow-living species. Habitat temperature also affected the pressure response of the enzyme. As a function of physiological pressure and temperature, the order of increasing pressure-sensitivity was cold, deep-sea less than warm, deep-sea (hydrothermal vents) less than polar = shallow and mid-depth, cold less than shallow, warm. Activation volumes in all species were conserved at 30-60 ml mol-1 at physiological pressures, which may reflect a similar membrane physical state at the actual pressure the animal experiences. Arrhenius plots [In(Na+/K+-ATPase activity) vs 1/T] were steeper for warm-water and shallow-living species than for deep-sea species. The depth at which adaptation was first observed was about 2000 m (approximately equal to 200 atm: 1 atm = 101.3 kPa). The data are consistent with a model of increased membrane fluidity resulting in reduced pressure-sensitivity of Na+/K+-ATPase from deep-sea species.
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PMID:Pressure adaptation of Na+/K+-ATPase in gills of marine teleosts. 254 29

The influence of environmental temperature and energy intake on 3H-ouabain binding sites in skeletal muscle has been investigated in young growing pigs at 8 weeks of age. Animals lived for several weeks at 35 or 10 degrees C on a high (H) or low (L) level of energy intake. The four treatment groups were thus: 35H, 35L, 10H and 10L. The total number of 3H-ouabain binding sites (Bmax) in longissimus dorsi muscle (mean values +/- SEM) were 221 +/- 66, 214 +/- 61, 350 +/- 76 and 486 +/- 114 pmol/g wet weight for the 35H, 35L, 10H and 10L groups respectively. Bmax was significantly greater in those living in the cold than the warm (P less than 0.001). Moreover, at 10 degrees C energy intake had a significant effect, with Bmax being greater in the 10L than the 10H group (P less than 0.005). Level of energy intake had no influence on Bmax at 35 degrees C. The apparent dissociation constant was not affected by either temperature or intake. The elevated Bmax and hence the increase in number of Na+,K+-pumping sites in the cold is probably related to increased muscular activity associated with shivering. However, thyroid status also influences the number of Na+,K+-pumping sites and this may have been a contributory factor in the present study. In addition, the elevated Bmax suggests a greater potential for non-shivering thermogenesis associated with increased Na+,K+-ATPase concentration in the cold. Differences in relative stage of development between the four groups may help to explain the results for Bmax in relation to level of energy intake.
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PMID:3H-ouabain binding sites in porcine skeletal muscle as influenced by environmental temperature and energy intake. 255 Aug 82

1. We measured intracellular Ca2+ transients during rapid cooling contractures (RCCs) in guinea-pig ventricular myocytes using the fluorescent Ca2+ indicator, Indo-1. 2. Rapid cooling of myocytes from 22 to 0-1 degrees C induced a rapid increase in [Ca2+]i which preceded the peak of the contraction and was sometimes large enough to saturate Indo-1. This indicates that [Ca2+]i may reach greater than 10 microM during an RCC. 3. The [Ca2+]i during the RCC slowly declined from its peak value and most of this decline in [Ca2+]i can be attributed to slow reaccumulation of Ca2+ by the sarcoplasmic reticulum (SR) in the cold. RCCs induced in the absence of Cao2+, were not different from control, supporting previous conclusions that RCCs depend exclusively on intracellular Ca2+ stores. 4. RCCs are depressed by long rest periods (rest decay) or by exposure to ryanodine or caffeine, which supports conclusions that RCCs are due to Ca2+ release from the SR. The rest decay of RCCs can be almost completely prevented by applying Nao(+)-free solution during the rest period. This implies that the loss of SR Ca2+ during rest depends on the sarcolemmal Na(+)-Ca2+ exchange (and not the sarcolemmal Ca2(+)-ATPase pump). 5. Rapid rewarming during an RCC normally leads to an additional transient contraction (or rewarming spike), without any increase in [Ca2+]i. Thus, the rewarming spike might be attributable to an increase in myofilament Ca2+ sensitivity induced by rewarming. 6. A second RCC is used to assess the fraction of Ca2+ which is re-sequestered by the SR during relaxation from the first RCC. In control solution progressive RCCs decline in amplitude, but in Na(+)-free, Ca2(+)-free solution they are of constant amplitude. We conclude that the SR Ca2+ pump and Na(+)-Ca2+ exchange are responsible for relaxation and that the latter may account for 20-50% of relaxation. 7. These results support the use of RCCs as a useful means of assessing SR Ca2+ content in intact cardiac muscle cells.
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PMID:Intracellular Ca2+ transients during rapid cooling contractures in guinea-pig ventricular myocytes. 262 9

Coronary artery strips of cattle hearts in vitro respond to transmural stimulation with two potent but distinctly different responses. A neurogenic constriction, attributable to the endogenous release of acetylcholine, is predominant under conditions of minimal and moderate tone. During a high degree of spontaneous tone, and in the presence of near maximal contractions induced by 5-hydroxytryptamine, the response to field stimulation is relaxation rather than constriction. This process was studied more clearly after blockade of the cholinergic effects with atropine. The relaxation response elicited by 5 Hz stimulation for 2 min consisted of two components, one occurring during stimulation and the other promptly after its cessation. The overall relaxation was sufficient to almost obliterate a spontaneous contraction or a near-maximal contraction to 5-hydroxytryptamine. The relaxation to transmural stimulation was unaltered by tetrodotoxin, adrenergic blockade, indomethacin or 5 days cold storage of tissue. Relaxation was elicitable even by a single pulse. With a few pulses, the maximal effect was achieved at 0.5 Hz. Repeated application of three pulses, in strips with spontaneous tone, led to substantial but transient relaxations, which simulated spontaneous rhythm. Removal of the endothelium was without effect on the relaxations, and they were unaltered by inhibition of guanylate cyclase. In the presence of elevated potassium (30 mM), contractions to 5-hydroxytryptamine and those generated spontaneously did not relax to field stimulation. Inhibition of Na+-K+-ATPase with ouabain (5 microM) partially antagonized both components of the relaxation response.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nonneurogenic relaxation to field stimulation in coronary arteries. 278 16

This paper describes properties of a simple manual assay for Rb+ occlusion on renal (Na+ + K+)-ATPase. Rb+ occlusion is measured by applying the enzyme plus Rb+ (86Rb) mixture to a Dowex-50 cation exchange column at 0 degree C, and eluting the enzyme with occluded Rb+ using an ice-cold sucrose solution. The enzyme-Rb+ complex is quite stable at 0 degree C. This method is useful for measuring Rb+ occlusion under equilibrium binding conditions and slow rates of dissociation of the enzyme-Rb+ complex. The stoichiometry of Rb+ occluded per phosphorylation site is 2. Rb+ saturation curves are strictly hyperbolic, suggesting that the two Rb+ sites have very different affinities, one in the micromolar range and one in the tens of millimolar range. ATP shifts the Rb+ saturation curves to the right (control K0.5 100-200 microM; plus ATP, K0.5 0.8-1.4 mM, in a 100 mM Tris-HCl medium, pH 7.0) and reduces the maximal level occluded (control approx. 4 nmol/mg; plus ATP approx. 3 nmol/mg protein). Thus, as expected, ATP shifts the E(1)2Rb+-E2(2Rb+)occ equilibrium towards E1. Sodium ions at concentrations of up to 30 mM compete with the rubidium ions, KNa = 1.86 mM in the Tris-HCl medium. Na+ at higher concentrations (30-100 mM) has an added non-competitive antagonistic effect. At room temperature, Rb+ dissociates slowly from the enzyme, kobs = 0.08 s-1, in the presence of either Rb+ (20 mM) or Na, (100 mM). As expected, dissociation is greatly accelerated by ATP, the rate being to fast to be measured by this technique. (Na+ + K+)-ATPase proteolyzed selectively by chymotrypsin in a Na+ medium, occludes Rb+. For control and proteolyzed (Na+ + K+)-ATPase the Rb+ saturation curves are similar and the rates of dissociation of the enzyme-Rb+ complex are identical. The chymotryptic split appears to disrupt antagonistic interactions between cation and ATP binding domains, while the E1-E2 conformational transition of the unphosphorylated protein probably remains.
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PMID:Rb+ occlusion in renal (Na+ + K+)-ATPase characterized with a simple manual assay. 282 11


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