EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Iodoacetamide (IAA) and its fluorescent derivative, 5-(2-iodoacetamidoethyl) amino-naphthalene-1-sulfonate (IAEDANS) specifically bind to a site on the C-terminal half of sarcoplasmic reticulum (SR) Ca2+,Mg2+-ATPase. The location of this specific binding site was identified. SR membranes were treated with 150 microM [14C]IAA at pH 7.0 and 30 degrees C. One mole of IAA per mole of ATPase was bound in 6 h without affecting the Ca2+-transport activity. [14C]IAA-labeled SR membranes were cleaved with BrCN, and 14C-labeled peptide fragments were separated by Sephadex LH-60 chromatography and then digested further with trypsin. A radioactive peptide (Ala-Cys 674-Cys-Phe-Ala-Arg) was purified by Sephadex LH-20 chromatography and C18 reversed phase HPLC (Cys denotes the [14C]IAA-binding site). IAEDANS-labeling was carried out by reacting SR membranes with 50 microM IAEDANS for 5 h, at pH 7.0 and 30 degrees C. A fluorescent peptide was successfully purified by the same procedures as for the IAA-labeled peptide, and the amino acid sequence analysis of this peptide revealed that the IAEDANS labeling site was identical with the IAA binding site.
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PMID:Reactive sulfhydryl groups of sarcoplasmic reticulum ATPase. II. Site of labeling with iodoacetamide and its fluorescent derivative. 295 12

Myosin has two heads which can bind with F-actin and react with ATP. The skeletal muscle myosin forms each 1 mol of the myosin-phosphate-ADP complex (M-P-ADP) and the myosin-ATP complex (M-ATP). The actomyosin ATPase reaction which is coupled with muscle contraction is catalyzed only by the head which forms M-P-ADP. However, the function of M-ATP forming head in muscle contraction has not been elucidated. We studied the binding of S-1 and HMM with F-actin and the dissociation of acto-S-1 or acto-HMM by ATP or AMPPNP using the change in light-scattering and fluorescence of pyrene bound to F-actin. S-1 and HMM bound with actin at 1:1 and 1:2 molar ratio, respectively. Acto-S-1 dissociated by one mole of ATP per mole of S-1 but acto-HMM dissociated by 1 mol ATP per mol of HMM (0.5 mol/mol head). Acto-HMM dissociates by AMPPNP (or ADP) via a ternally complex. Acto-HMM bound two mole of AMPPNP, but acto-HMM dissociated by a function of (AMPPNP) but not (AMPPNP)2. These results suggested that the affinity of HMM with F-actin decreased by the binding of one mole of AMPPNP. The result presented here showed that binding of M-ATP forming head with F-actin is controlled by the ATPase reaction of the M-P-ADP forming head. It is suggested that during muscle contraction two heads react cooperatively with thin filament.
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PMID:The function of two heads of myosin in muscle contraction. 297 Feb 8

Since the Ca2+-regulatory mechanism for actin-myosin interaction in smooth muscle involves phosphorylation of the 20,000-Da myosin light chains, it was hypothesized that such interaction should be influenced by myosin phosphatase. Accordingly, we studied the effects of an aortic myosin light-chain phosphatase on Ca1+-dependent actin-myosin interaction in detergent-skinned porcine carotid artery and bovine aortic native actomyosin. In skinned preparations, the aortic phosphatase (16 U/ml) markedly inhibited the rate of isometric contraction in low Ca2+ (6.8 X 10(-7) M) and responsiveness to Ca2+ (force attained with 6.8 X 10(-7) Ca2+/force attained with 1.6 X 10(-6) M Ca2+), whereas relaxation was accelerated. Ca2+-dependent actomyosin ATPase activity and phosphorylation of the light chains were significantly and progressively depressed in the presence of increasing concentrations of phosphatase (0.1-0.9 U/ml). The concentration of Ca2+ (1.1 X 10(-6) M) required for half-maximal activation of either ATPase activity or light-chain phosphorylation increased by 70% in the presence of 0.1 U phosphatase/ml. Neither the maximal rate of Ca2+-sensitive ATP hydrolysis (39 +/- 0.8 nmole/min/mg actomyosin) nor the extent of phosphorylation (0.68 +/- 0.05 mole PO4/mole light chain) was altered at greater than 5 X 10(-6) M Ca2+. ATPase activity was correlated to light-chain phosphorylation under diverse conditions including the presence or absence of 1 microM calmodulin, different concentrations of phosphatase (0-0.9 U/ml), and different concentrations of Ca2+ (10(-8) to 1.25 X 10(-5) M). However, significant phosphorylation was present (20-25% of maximum) in the absence of Ca2+-dependent ATPase activity and only 15% of the maximal rate of ATP hydrolysis was expressed until phosphorylation attained 50% of its maximal value. These findings are consistent with the ordered model of myosin phosphorylation suggested by A. Persechini and D. J. Hartshorne [Science (Washington, DC), 213:1383-285, 1961] (36). They also suggest that myosin phosphatase may participate in modulating actin-myosin interactions in vascular smooth muscle.
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PMID:Phosphatase-mediated modulation of actin-myosin interaction in bovine aortic actomyosin and skinned porcine carotid artery. 298 22

When perfused cortex-free ox adrenal medulla was stimulated to secrete catecholamine by infusion of 0.1 mM acetylcholine for 4 min, the oxygen consumption increased to a value which was 0.15 +/- 0.07 mumole O2/min/g wet weight (+/- S.D., N = 12) above the pre-stimulation value of 0.49 +/- 0.15 (P less than 0.001). 1.4 +/- 0.9 (+/- S.D., N = 12) mole of catecholamine was secreted per mole of enhanced O2 consumption in the 16 min following the start of the stimulation. The rate of ATP hydrolysis by the proton-translocating Mg-ATPase of the chromaffin granule may increase on fusing with the plasma membrane of the chromaffin cell during exocytosis. However, from the amount of catecholamine secreted, this was estimated to account for less than 17% of the oxygen consumption increase. The amount of catecholamine secreted by 4 min 0.1 mM acetylcholine stimulations correlated with the enhancement of oxygen consumption (r = 0.82, P less than 0.001) but, on stimulation with 60 microM veratridine for 4 min, O2 consumption enhancement was anomalously low. This dependence on mode of stimulation suggests that ATP consumption in exocytosis itself is an inadequate explanation. Ouabain-sensitive oxygen consumption rose from undetectable levels to 18 +/- 8% (+/- S.D., N = 4) of the basal respiration during prolonged 0.1 mM acetylcholine stimulation in the absence of Ca, indicating that Na,K-ATPase was not responsible for all of the oxygen consumption enhancement.
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PMID:Enhanced oxygen consumption in adrenal medulla on stimulation with acetylcholine. 298 35

Occlusion of Rb+ by C12E8-solubilized (Na+ + K+)-ATPase from shark salt glands has been measured. The rate of de-occlusion at room temperature is about 1 s-1, which is the same as for the membrane-bound enzyme. The amount of Rb+ occluded is 3 moles Rb+ per mole membrane-bound shark enzyme, whereas only about 2 moles Rb+ are occluded by the C12E8-solubilized enzyme.
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PMID:Occlusion of Rb+ by detergent-solubilized (Na+ + K+)-ATPase from shark salt glands. 298 93

(Na+ + K+)-ATPase from shark rectal glands reconstituted into lipid vesicles and oriented inside out catalyses an ouabain-sensitive Na+-Na+ exchange in the absence of intravesicular K+ when ATP is added extravesicularly. Intravesicular ouabain inhibited the exchange completely. This was also the case with digitoxigenin added to the vesicles. Intravesicular oligomycin inhibited the Na+-Na+ exchange partly in a fashion which was ATP dependent. The exchange is accompanied by a net hydrolysis of ATP with an apparent Km of 2.5 microM. ADP was found to give no stimulation of the Na+-Na+ exchange, contrarily, ADP inhibited the ATP-dependent exchange of Na+ both at optimal and supraoptimal ATP concentrations. When initial influx and efflux of 22Na was measured and the hydrolysis of ATP concomitantly determined a coupling ratio of 2.8:1.3:1 was found, i.e. 2.8 moles of Na+ were taken up (cellular efflux) and 1.3 moles of Na+ extruded (cellular influx) for each mole of ATP hydrolyzed. The electrogenic Na+-Na+ exchange generated a transmembrane potential which was measured with the fluorescent probe ANS (8-anilino-1-naphthalenesulfonic acid) to be 60 mV positive inside the liposomes (extracellular).
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PMID:Na+-Na+ exchange mediated by (Na+ + K+)-ATPase reconstituted into liposomes. Evaluation of pump stoichiometry and response to ATP and ADP. 299 89

The kinetics of hydrolysis of ATP were determined for the renal Na,K-ATPase, in the K+ conformation, modified with glucose-6-phosphate. There was a shift in the ATP hydrolysis kinetics from negative kinetic co-operativity for the control enzyme preparations to substrate inhibition kinetics for the modified enzyme preparations. The effect was reversible and stabilized after NaBH4 reduction. Approximately 4 moles of glucose-6-phosphate were incorporated per mole of Na,K-ATPase (based on MW of 150,000 daltons). Similar substrate inhibition kinetics were observed for the renal Na,K-ATPase isolated from several human subjects with mature onset diabetes.
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PMID:Glucose-6-phosphate modification of bovine renal Na,K-ATPase: a model for changes occurring in the human renal medulla in diabetes. 299 41

N,N'-Dicyclohexylcarbodiimide (DCCD), a reagent that reacts with carboxyl groups under mild conditions, irreversibly inhibits (Na+,K+)-ATPase activity (measured by using 1 mM ATP) with a pseudo-first-order rate constant of 0.084 min-1 (0.25 mM DCCD and 37 degrees C). The partial activities of the enzyme, including (Na+,K+)-ATPase at 1 microM ATP, Na+-ATPase, and the formation of enzyme-acyl phosphate (E-P), decayed at about one-third the rate at which (Na+,K+)-ATPase at 1 mM ATP was lost. The formation of E-P from inorganic phosphate was unaffected by DCCD while K+-phosphatase activity decayed at the same rate as (Na+,K+)-ATPase measured at 1 mM ATP. The enzyme's substrates (i.e., sodium, potassium, magnesium, and ATP) all decreased the rate of DCCD inactivation of (Na+,K+)-ATPase activity measured at either 1 mM or 1 microM ATP. The concentration dependence of the protection afforded by each substrate is consistent with its binding at a catalytically relevant site. DCCD also causes cross-linking of the enzyme into species of very high molecular weight. This process occurs at about one-tenth the rate at which (Na+,K+)-ATPase activity measured at 1 mM ATP is lost, too slowly to be related to the loss of enzymatic activity. Labeling of the enzyme with [14C]DCCD shows the incorporation of approximately 1 mol of DCCD per mole of large subunit; however, the incorporation is independent of the loss of enzymatic activity. The results presented here suggest that (Na+,K+)-ATPase contains two carboxyl groups that are essential for catalytic activity, in addition to the previously known aspartate residue which is involved in formation of E-P.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of (Na+,K+)-ATPase by dicyclohexylcarbodiimide. Evidence for two carboxyl groups that are essential for enzymatic activity. 300 Apr 36

The (Na+ + Mg2+)-ATPase of the Acholeplasma laidlawii B plasma membrane was inactivated by the 2',3'-dialdehyde derivative of ATP (oATP). oATP behaved as a reversible competitive inhibitor of this ATPase and was slowly hydrolyzed by the enzyme. In addition, oATP induced an irreversible inactivation of the enzyme. A 62% inactivation of the enzyme correlated with the binding of 16 moles of oATP per mole of the enzyme. In the presence of 5'-adenylyl imidodiphosphate, a non-hydrolyzable substrate analogue, the stoichiometry was 8 moles oATP per mole of ATPase. By SDS-polyacrylamide gel electrophoresis, [U-14C]oATP was found to bind covalently to four of the five subunits of the enzyme, but specific labeling was highest for the gamma-subunit of the ATPase.
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PMID:Affinity labeling of the (Na+ + Mg2+)-ATPase from Acholeplasma laidlawii B membranes by the 2',3'-dialdehyde derivative of adenosine 5'-triphosphate. 315 67

There are one or more proteins of 50,000 to 60,000 Mr in the thin filaments of insect flight muscle. A protein of 55,000 Mr has been isolated from insect fibrillar flight muscle and called arthrin. Despite its higher molecular weight, arthrin is in many ways like actin. The amino acid composition of arthrin was similar to that of actin. There were similarities in the peptides produced by digesting the denatured proteins and mild digestion of polymerized proteins cleaved similar-sized fragments from arthrin and actin. Polymerized arthrin activated the Mg2+ ATPase of myosin to the same extent as actin and the ATPase was regulated by rabbit or Lethocerus troponin and tropomyosin. Arthrin did not itself act as troponin-T. Electron microscopy of negatively stained specimens showed that arthrin and actin filaments were similar in structure and that arthrin could be decorated by rabbit subfragment-1 to form normal-looking arrowheads. Arthrin formed paracrystals at an optimum concentration of MgCl2 (25 mM) that was somewhat lower than the optimum for actin paracrystals. Optical diffraction showed that the structure of the paracrystals was similar to those formed from actin. The mass of arthrin and actin filaments relative to phage fd was measured by scanning transmission electron microscopy; the relative mass of arthrin and actin was 1.33, in agreement with molecular weight estimations. Therefore arthrin has the properties of a heavy form of actin. The proportion of actin, arthrin and troponin-T in Lethocerus myofibrils was six moles of actin to one mole of arthrin and one mole of troponin-T. The function of arthrin is not known.
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PMID:Arthrin: a new actin-like protein in insect flight muscle. 315 2

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