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)

The brush border of intestinal epithelial cells consists of an array of tightly packed microvilli. Within each microvillus is a bundle of 20-30 actin filaments. The basal ends of the filament bundles are embedded in and interconected by a filamentous meshwork, the terminal web, which lies directly beneath the microvilli. When calcium and ATP are added to isolated brush borders that have been treated with the detergent, Triton X-100, the microvillar filament bundles rapidly retract into and through the terminal web region. Biochemical studies of brush border contractile proteins suggest that the observed microvillar contraction is actomyosin mediated. We have shown previously that the major protein of the brush border's actin (Tilney, L. G., and M. S. Mooseker. 1971. Proc. Natl. Acad. Sci. U. S. A. 68:2611-2615). The brush border also contains a protein with the same molecular weight as the heavy chain subunit of myosin (200, 000 daltons). In addition, preparations of demembranated brush borders exhibit potassium-EDTA ATPase activity of 0.02 mumol phosphate/mg-min (22 degrees C); this assay is diagnostic for myosin-like ATPase isolated from vertebrate sources. Other proteins of the brush border include a 30,000 dalton protein with properties similar to those of tropomyosin, and a protein with the same molecular weight as the Z band protein, alpha-actinin (95,000 daltons). How these observations bear on the basis for microvillar movements in vivo is discussed within the framework of our recent model for the organization of actin and myosin in the brush border (Mooseker, M. S., and L. G. Tilney. 1975. J. Cell Biol. 67:725-743).
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PMID:Brush border motility. Microvillar contraction in triton-treated brush borders isolated from intestinal epithelium. 1 Dec 22

alpha-Actinin isolated from dog muscle was used to incite antibodies in rabbits, Antibodies, purified by affinity chromatography on CNBr-Sepharose coupled with alpha-actinin and then ferritin-labeled were found to localize on the Z disc of muscle sarcomeres. Molecules of alpha-actinin as an adsorbed monolayer on the surface of polystyrene Lytron particles could bind muscle-actin and tropomyosin from solution. Both the ATPase activity and superprecipitation of an erythrocyte-actin and muscle-myosin hybrid actomyosin complex were altered by alpha-actinin, while tropomyosin diminished these alpha-actinin effects. The binding properties of alpha-actinin are consistent with those of an anchoring protein for microfilaments in nonmuscle cells.
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PMID:alpha-Actinin and tropomyosin interactions with a hybrid complex of erythrocyte-actin and muscle-myosin. 14 86

alpha-Actinin isolated from bovine brain migrated on sodium dodecyl sulphate/polyacrylamide-gel electrophoresis like muscle alpha-actinin with an apparent mol.wt. of 100000 and cross-reacted with antibodies to muscle alpha-actinin. Brain alpha-actinin modulated actin-myosin Mg2+-activated adenosine triphosphatase activity and, when bound by polystyrene particles, was found to bind muscle actin and tropomyosin from solution. Brain alpha-actinin, in conjunction with the other components of the contractile and relaxing complex, may play a role in the release of neurotransmitters from synaptic vesicles.
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PMID:Isolation and properties of brain alpha-actinin. 15 45

The degradation of rat cardiac myofibrils and their constituent proteins with a myosin-cleaving protease was studied. Electrophoretograms of the digestion products of myofibrils showed that myosin,M-protein, C-protein, and troponin were degraded, but actin and tropomyosin were not. Degradation of these constituents resulted in losses of the Mg2+-ATPase activity and its Ca2+-sensitivity of myofibrils. Incubation of myofibrils with the protease induced the release of alpha-actinin without degradation. Susceptibilities of myosin, actin, troponin, and alpha-actinin purified from rat and pig hearts to the protease were essentially identical to those of the assembled forms in myofibrils. Although the purified tropomyosin was readily degraded into five fragments with the protease, the tropomyosin assembled in myofibrils and actin-tropomyosin complex were insusceptible to the protease. Digestion of myosin in the filamentous state with the protease resulted in the disappearance of myosin heavy chain and light chain 2, producing two fragments having molecular weights of 130,000 and 94,000 which originated from the degradation of heavy chain. The Ca2+- and EDTA-ATPase activities of the degradation products remained unchanged during incubation for 22 h. The actin-activated ATPase activity of myosin was reduced by 30% during incubation for 6 h, and recovered to the original level on adding actin to give a ratio of actin to myosin of 2:1. The pH optima for degradation of myosin in the soluble and filamentous states were 8.5 and 7.0, respectively. The results indicate that cardiac myosin in the filamentous state was more readily degraded with the protease than the myosin in the soluble state.
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PMID:Degradation of rat cardiac myofibrils and myofibrillar proteins by a myosin-cleaving protease. 47 42

A calcium-activated factor (CaAF) has been isolated and partially purified from the post-myofibrillar supernatant fraction of rabbit skeletal muscle. The 200-fold purified CaAF hydrolyzed denatured casein, [3-H]acetyl hemoglobin, and N-ethyl[3-H]maleimide-labeled alpha-actinin. The proteolytic activity has a pH optimum at 6.9 and is dependent on the presence of Ca2+ (optimum concentration, 10 mM). Digestion of isolated myofibrils with CaAF results in removal of Z-lines and in a parallel loss of a 90, 000-dalton protein that has a mobility identical with that of alpha-actinin as determined by polyacrylamide gel electrophoresis. A protein with the properties of alpha-actinin (identical electrophoretic mobility, and ability to accelerate the Mg2+-activated ATPase of reconstituted actomyosin) was isolated from the supernatant of CaAF-treated myofibrils. The release of alpha-actinin from myofibrils by the calcium-activated neutral protease occurs in the absence of detectable change in the electrophoretic profiles of the other myofibrillar proteins, or in the ethylene glycol bis(beta-aminoethyl ether)-N, N' tetraacetic acid (EGTA) sensitivity of Mg2+-activated ATPase. In contrast to the specific removal of Z-lines and of alpha-actinin by CaAF, trypsin treatment of myofibrils results in extensive degradation of myosin heavy chains and of the inhibitory component of troponin (TN-I), and in loss of EGTA sensitivity of myofibrillar ATPase. The degradation of TN-I and loss of EGTA sensitivity occur before the Z-line disappearance.
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PMID:Removal of Z-lines and alpha-actinin from isolated myofibrils by a calcium-activated neutral protease. 80 38

1. Changes of structural proteins in experimental and human myocardial infarction were studied by the determination of myosin- and actomyosin-ATPase activities and gel electrophoretic analysis in the presence of sodium dodecyl sulfate (SDS). 2. In animal experiments using dogs, the relative amounts of myosin and alpha-actinin decreased at 24 to 48 hours after coronary ligation, became lowest at 72 hours, and remained at this level for 2 weeks and returned to almost normal value at 28 days. 3. Myosin- and actomyosin-ATPase activities decreased rapidly during 24 to 48 hours after ligation with temporary increase in their activities in the initial stage of ischemia and followed the similar time course as that of the amounts of myosin and alpha-actinin. 4. SDS gel electrophoretic analysis of structural proteins of infarcted tissues of the human hearts obtained from 5 cadavers showed also marked decrease of the contents of myosin and alpha-actinin with relative preservation of actin, tropomyosin and troponin-T.
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PMID:Changes of cardiac structural proteins in myocardial infarction. 92 15

5 min of tryptic digestion of purified rabbit skeletal alpha-actinin decreases by approximately 75% the ability of alpha-actinin to cross-link F-actin filaments as measured viscometrically at 27 degrees C, but has little effect on the sedimentation coefficient of alpha actinin at 20 degrees C or an alpha-actinin's ability to increase the Mg2+-modified ATPase activity and rate of turbidity increase of reconstituted actomyosin suspensions. Twenty to sixty min of trypsin treatment reduces the sedimentation coefficient of alpha-actinin and destroys much of alpha-actinin's ability to increase the MG2+-modified ATPase and rate of turbidity increase of reconstituted actomyosin suspensions. Therefore, the ability of alpha-actinin to increase the rate of in vitro measures of muscle contraction may not result directly from alpha-actinin's ability to cross-link F-actin filaments. Trypsin does not split alpha-actinin into large fragments as it does myosin. Previous studies have shown that 35 to 65% of total tryptic-susceptible peptide bonds in alpha-actinin are split after 60 min of incubation with trypsin and that 30% of these bonds split in 60 min are cleaved during the first 5 min in a rapid reaction. That splitting of this group of peptide bonds has little effect on the sedimentation coefficient of alpha-actinin indicates that these bonds are located in a region of the alpha-actinin molecule where noncovalent forces are strong enough to maintain conformation of the native alpha-actinin molecule even after these bonds have been split. This ostensible segregation of alpha-actinin's ability to cross-link F-actin filaments from its ability to increase rate of in vitro assays of contraction by tryptic digestion may suggest that alpha-actinin could have at least two different physiological roles: (1) to bind actin filaments to each other or to basal structures, and (2) to enhance the effectiveness of actin in supporting movement.
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PMID:Effect of trypsin on rabbit skeletal muscle alpha-actinin. 99 Feb 86

We report measurements of the reactivity (degree of labeling, as mole of ligand per mole of protein, at constant exposure time) of the reactive thiol, "SH1", of a subfragment of myosin (S-1), and of Cys-10 of F-actin under various conditions, using N-iodo-[3H]acetyl-N-(1-sulfo-5-naphthyl)ethylenediamine, a fluorescent radioactive iodoacetamide analog. When either ADP or adenyloyl imidodiphosphate (simulating unhydrolyzed ATP) is bound to the enzymatic site of S-1, the reactivity of "SH1" is slightly enhanced, but when active ATPase is going on, reactivity is reduced by about a third, presumably due to the species, (S-1) ADP,Pi. The reactivity of Cys-10 alone is very low. When the complex, (S-1)-F-actin, is formed, the reactivity of SH1 is strongly decreased, and the reactivity of Cys-10 is strongly increased. The foregoing results explain our further observation (on glycerol-treated rabbit psoas fibers) that when fibers labeled in relaxation solution are compared with fibers labeled in rigor solution, myosin is more reactive and actin is less reactive, in the former case; alpha-actinin and C-protein are also less reactive in the former case.
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PMID:Reciprocal reactivities of specific thiols when actin binds to myosin. 106 Nov 33

In normal human muscle, a monoclonal antibody against alpha-actinin recognizes an isoform that is only expressed in a population of fast fibers histochemically identified as type IIb or fast-twitch glycolytic. Immunohistochemical studies of muscle biopsies from patients with Duchenne muscular dystrophy (DMD) showed that the number of alpha-actinin-positive type IIb fibers was essentially normal in preclinical patients. Symptomatic patients between the ages of 3 and 5 years showed depletion of these fibers, which were not seen in patients older than 5 years. ATPase histochemistry showed that a few type IIb fibers were present in muscle from symptomatic DMD patients but lacked the fast isoform of alpha-actinin. The data suggest that type IIb fibers are affected early in DMD.
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PMID:Progressive depletion of fast alpha-actinin-positive muscle fibers in Duchenne muscular dystrophy. 174 58

Triton X-100 residues (cytoskeletons) of human platelets were prepared in the presence of various concentrations of free calcium (Ca2+), and the polypeptide composition and ATPase activity were examined. Triton residues prepared in the presence of Ca2+ concentrations below 2 X 10(-7) M were composed primarily of polypeptides with an apparent molecular mass of 43 (actin), 105 (alpha-actinin-like protein) and 250 (actin-binding protein) kDa and showed low K+-EDTA-ATPase activity. When Triton residues were prepared at Ca2+ above 5 X 10(-7) M, a 200 kDa polypeptide (myosin heavy chain) and K+-EDTA-ATPase activity increased markedly, but actin-binding protein and alpha-actinin-like protein decreased. When N-(N-(L-3-trans-carboxyoxirane-2-carbonyl)-L-leucyl)agmatine, an inhibitor for Ca2+-dependent proteinase, was added to Triton lysis buffer containing high Ca2+, polypeptides of 250, 235 and 105 kDa remained associated with the residues. Under electron microscopic analysis, the treatment of platelets with Triton X-100 at low Ca2+ showed a network of microfilaments. When platelets were treated with high Ca2+, the microfilaments were disrupted and a few thick filaments and many granules appeared. However, when the inhibitor for Ca2+-proteinase was included in Triton lysis buffer, the microfilaments remained intact. These results suggested that an increase in Ca2+ concentration to more than 5 X 10(-7) M not only makes myosin associate with cytoskeletons but also regulates the organization of filamentous structures.
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PMID:Effect of calcium on protein composition of human platelet cytoskeletons. 293 Nov 20

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