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)

As part of a study on the evolutionary aspects of control mechanisms, a number of structural muscle components from the Pacific dogfish (Squalus acanthias) are described. These include troponin, tropomyosin, actin, and myosin. Troponin (mol wt 108.000) was resolved into its constitutive subunits, repeated by a 20,500 mol wt fragment which binds 2 mol of Ca2+/mol with a KDiss of 0.91 mum, and an inhibitory component of 30,000 and a 58,000 component which are necessary for the calcium sensitivity of actomyosin ATPase. Tropomyosin and actin share many properties with their counterparts from higher vertebrates. Proteins similar to parvalbumins, i.e., the low molecular weight calcium-binding proteins widely distributed in fish, amphibians, and mammalian muscle, could be generated from troponin and its calcium-binding subunit by limited proteolysis. The appearance of immunological cross-reactivity and other similar features suggested some identity, but differences in the amino acid analysis exclude the possiblity that parvalbumins occur as breakdown products of troponin. The close relationship between parvalbumins and the calcium-binding subunit brings additional evidence that these proteins have arisen through divergent evolution.
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PMID:Structural proteins of dogfish skeletal muscle. 12 58

Tropomyosin was found to undergo only limited digestion by trypsin at 0 degrees C and the two segments that accumulated amounted to two-thirds of the original protein. They are referred to as segments A and B. These segments were not resistant to trypsin digestion at 20 degrees C and at the latter temperature no large fragments remained as judged by disc gel electrophoresis. Segments A and B were separated from each other on the basis of solubility differences and were found to have molecular weights of 24600 and 21900 respectively. Each of the segments appeared to retain about 70-75% of the helical conformation as judged by circular dichroism at 20 degrees C. However, the segments did not show any of the inhibitory activity of the parent tropomyosin molecule when mixed with troponin in the Mg2+-actomyosin ATPase system. Amino acid analysis showed that the portion of tropomyosin that was digested by trypsin (EC 3.4.21.4) had a lower content of the helix stabilizing residues Glu and Leu and a higher content of the helix-destabilizing residues Arg and Lys. These differences indicate that the digested portion should be less stable in the helical conformation than the two trypsin-resistant segments. End group determinations along with the results of the amino acid analysis indicated that segment A was probably derived from the central one-third of tropomyosin and segment B from the C-terminal one-third. By the process of elimination the N-terminal third appears to have been more liable region that was digested by trypsin. The segments A and B were shown to differ in their stability to denaturation by guanidine-HCl and elevated temperature. All of these observations indicate that tropomyosin is not a uniform structure and is composed of regions of different stability.
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PMID:The structure and stability of trypsin-resistant segments from rabbit tropomyosin. 13 16

1. Tropomyosin, one of the regulatory proteins in muscle contraction, was prepared from chickens, rabbits, frogs, shrimps, and shellfish, and conserved characteristics were studied using an enzymological technique. 2. All tropomyosins tested, irrespective of their sources, were found to have the ability to mediate the inhibitory activity of rabbit troponin toward rabbit Mg2+-activated actomyosin ATPase (Mg2+-ATPase) activity in the absence of Ca2+ ions. 3. The effect of tropomyosin on the Mg2+-ATPase activity in the presence of Ca2+ ions varied, depending on the source, and this variation appeared to reflect the evolutionary course of this protein. 4. Tropomyosin from shellfish adductor muscle had the ability to bind to rabbit skeletal muscle troponin and actin. This ability is also considered to be a basic characteristic of tropomyosin which has been conserved during evolution.
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PMID:The functional characteristics conserved in tropomyosins. 14 70

The findings after biochemical analysis of heart muscle taken at autopsy are given in this preliminary communication. Human myosin is made up of two heavy sub-units and two light sub-units: it is similar to cardiac myosin found in other mammals, but is different in certain characteristics, particularly immunological ones. Tropomyosin is made up of two different sub-units. The normal human heart contains 1 mg of collagen and 130 microgram of desoxyribonucleic acid (DNA) per 100 mg of fresh tissue. The degree of cardiac hypertrophy correlates with the increase total DNA within the heart, and with the lowering of myofibrillary Ca2+ ATPase, the concentration in the collagen remaining unchanged providing there is no ischaemic heart disease. These techniques may be used to quantify several factors, such as the degree of sclerosis or the nuclear mass in ill-understood conditions such as the primary cardiomyopathies.
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PMID:[Biochemistry of myocardium taken at autopsy. Preliminary report]. 15 17

Tropomyosin, one of the proteins regulating the sarcomere, was prepared from pig heart and rabbit skeletal muscles. The effect of these two different tropomyosins was studied between 0.5 and 10 mM of Mg2+ at a constant ATP concentration (1 mM) on reconstituted actomyosin prepared from pig heart myosin and rabbit skeletal actin. Cardiac and skeletal tropomyosin both activated the ATPase at low Mg2+ concentrations and inhibited it above 3 mM. The pig heart and rabbit skeletal tropomyosins which contain two isomers, alpha alpha and alpha beta, respectively has very similar effects on actomyosin ATPase.
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PMID:Effect of cardiac and skeletal tropomyosin on Mg2+-actomyosin ATPase. 16 Feb 49

Tropomyosin of fast-twitch, slow-twitch and cardiac muscles of carp and icefish has been isolated by hydroxyapatite chromatography. The subunit distribution has been investigated by polyacrylamide gel electrophoresis and by peptide mapping. The purified skeletal muscle tropomyosins all belong to the alpha family and differ from higher vertebrate tropomyosin by the lack of beta subunits. Specific alpha isotypes are however encountered in fast-twitch fibres (alpha w subunit) and slow-twitch or intermediate (pink) fibres (alpha and alpha w subunits). The amino acid compositions and the paracrystals formed by the carp alpha w alpha w and alpha alpha w tropomyosins do not differ markedly from that of rabbit alpha alpha chains. They differ however by their capability to inhibit the ATPase activity of rabbit skeletal muscle acto-HMM system. A beta-like subunit is found in carp cardiac tropomyosin, in the proportion of 25% of the native protein, but not in icefish heart.
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PMID:Tropomyosin from the striated muscles of carp (Cyprinus carpio) and of icefish (Channichthys rhinoceratus). 170 98

A chemical modification of G-actin with (m-maleimidobenzoyl)-N-hydroxysuccinimide ester (MBS) impairs actin polymerization [Bettache, N., Bertrand, R., & Kassab, R. (1989) Proc. Natl. Acad. Sci. U.S.A. 86, 6028-6032]. MBS-actin recovers the ability to polymerize when a 2-fold molar excess of phalloidin is added in 30 mM KCl/2 mM MgCl2/20 mM Tris-HCl (pH 7.6). The resulting polymer (MBS-P-actin) is highly potentiated so that it activates the Mg(2+)-ATPase of S1 more strongly than native F-actin. The affinity of MBS-P-actin for S1 in the presence of ATP (KATPase) is about four times higher than that of native F-actin, although the maximum velocity at infinite actin concentration (Vmax) is almost the same. This high activation is not due to a cross-linking between MBS-P-actin and the S1 heavy chain, since no substantial amount of cross-linking was observed in SDS gel electrophoresis. Direct binding studies and ATPase measurements showed that the modification of actin with MBS impairs the binding of tropomyosin. Tropomyosin binding can be improved considerably by the addition of troponin. However, the regulation mechanism of the acto-S1 ATPase activity by troponin-tropomyosin is damaged. The addition of troponin-tropomyosin reduces the S1 ATPase activation by MBS-P-actin to the same level as that of native F-actin in 30 mM KCl/2.5 mM ATP/2 mM MgCl2, but there is no difference in the ATPase activation in the presence and absence of Ca2+.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction of maleimidobenzoyl actin with myosin subfragment 1 and tropomyosin-troponin. 182 94

The cross-linking of the F-actin-caldesmon complex with 1-ethyl-3-[3-(dimethylamino)propyl]carbodiimide in the presence of N-hydroxysuccinimide generated four major adducts which were identified on polyacrylamide gels. By cross-linking 3H-actin to 14C-caldesmon, these were found to represent 1:1 cross-linked complexes of actin and caldesmon displaying different electrophoretic mobilities. Tropomyosin did not noticeably affect the cross-linking process. The same four fluorescent species resulting from the cross-linking of caldesmon to F-actin labeled with N-[7-(dimethylamino)-4-methyl-3-coumarinyl]maleimide were subjected separately to partial cleavages with hydroxylamine or cyanogen bromide. These treatments yielded fluorescent 41- and 37-kDa fragments, respectively, from each cross-linked entity indicating unambiguously that caldesmon was cross-linked only to the NH2-terminal actin stretch of residues 1-12. This region is also known to serve for the carbodiimide-mediated cross-linking of the myosin subfragment-1 heavy chain (Sutoh, K. (1982) Biochemistry 21, 3654-3661). A covalent caldesmon-F-actin conjugate containing a protein molar ratio close to 1:19 was isolated following dissociation of uncross-linked caldesmon. It showed a low level of activation of the ATPase activity of skeletal myosin subfragment-1, and the binding of Ca2(+)-calmodulin to the derivative did not cause the reversal of the ATPase inhibition. In contrast, the reversible binding of caldesmon to F-actin cross-linked to myosin subfragment-1 did not inhibit the accelerated ATPase of the complex. The overall data point to the dual involvement of the actin's NH2 terminus in the inhibitory binding of caldesmon and in actomyosin interactions in the presence of ATP.
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PMID:Cross-linking of smooth muscle caldesmon to the NH2-terminal region of skeletal F-actin. 229 47

Tropomyosin and caldesomon reciprocally control the actomyosin system in smooth muscle and some non-muscle cells. To compare this mechanism between arterial smooth muscle and platelets, we carried out extensive exchange experiments. Actin, myosin, tropomyosin from arterial smooth muscle cells and platelets were recombined and the effects of two species of caldesmon ('caldesmon77' and 'caldesmon140') on the ATPase activities of both systems were examined and analyzed by the method of analysis of variance. (a) The actomyosin system itself is different between artery and platelets, the difference being determined by myosin (P less than 0.05) and not by actin. (b) Platelet tropomyosin differentiates platelet actin from arterial actin (P less than 0.01), while arterial tropomyosin does not. Neither does tropomyosin differentiate myosin. (c) The effect of caldesmon77 differentiates the origins of myosin (P less than 0.01), actin (P less than 0.05) and tropomyosin (P less than 0.05). The effect of caldesmon140 differentiates the origin of myosin (P less than 0.05) and the actin-myosin 'interaction' (combination) (P less than 0.01), but not the origin of tropomyosin (P greater than 0.1). (1) It is concluded that actomyosin/tropomyosin-caldesmon system is distinguishable between platelets and artery. (2) It is suggested that caldesmon is an actomyosin inhibitor which may interact with myosin, in addition to actin and tropomyosin.
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PMID:Tropomyosin-caldesmon/actomyosin systems in platelets and arterial smooth muscle: results from exchange experiments. 260 62

Rabbit brain actomyosin showed several fold stimulation of the MgATPase activity by Ca2+ alone and by Ca2+/calmodulin. The calmodulin-binding drug, fluphenazine, abolished the stimulated activity. In the presence of Ca2+, exogenous calmodulin had a biphasic effect on ATPase activity at low concentrations (less than 0.15 microM) and activated the ATPase activity by 60-70% at about 1 microM. Tropomyosin-troponin complex from skeletal muscle did not stimulate the ATPase activity of brain actomyosin, but conferred Ca2+ sensitivity to a skeletal muscle myosin/brain actomyosin mixture. These results indicate the presence of myosin-linked, calmodulin-dependent, Ca2+-regulatory system for brain actomyosin. Heavy and light chains of brain myosin were found to be rapidly phosphorylated by endogenous Ca2+-dependent protein kinase(s). Ca2+-independent phosphorylation of one of the light chains was also observed.
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PMID:Calcium/calmodulin regulation of ATPase activity and endogenous phosphorylation of mammalian brain actomyosin. 295 83

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