Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.4.1 (myosin ATPase)
 1,140 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Modification of histidine residues, SH- and epsilon-NH2-groups of myosin from rat sarcoma-45 by specific reagents was studied. It was shown that diethylpyrocarbonate modifies histidine residues essential for the ATPase activity. A kinetic analysis of myosin epsilon-NH2-groups modification by 2,4,6-trinitrobenzene sulfonate revealed that myosin trinitrophenylation and its inactivation by Ca2(+)-ATPase occurs in two steps: a fast and a slow (Km = 2400 and 1.7 s-1 M-1, respectively). Two essential epsilon-NH2-groups of tumour myosin active sites react in the fast reaction. The relatively low concentrations of p-chloromercuribenzoic acid activate rat sarcoma-45 myosin Ca2(+)-ATPase and Mg2(+)-ATPase, whereas higher ones inhibit the enzyme. The data obtained suggest that two SH-groups, SH1 and SH2 are essential for the tumour myosin ATPase function.
Biokhimiia 1990 Sep
PMID:[Study of the modification of histidine residues, SH- and epsilon-NH2-groups of rat sarcoma-45 myosin by specific reagents]. 215 Mar 35

Wild type chicken gizzard caldesmon (756 amino acids) was expressed in a T7 RNA polymerase-based bacterial expression system at a yield of 1 mg pure caldesmon per litre bacterial culture. A mutant composed of amino acids 1-578 was also constructed and expressed. The wild type and mutant caldesmon were purified and compared with native chicken gizzard caldesmon. Native and wild type expressed caldesmon were indistinguishable in assays for inhibition of actin-tropomyosin activation of myosin ATPase, reversal of inhibition by Ca2(+)-calmodulin and binding to actin, actin-tropomyosin, Ca2(+)-calmodulin, tropomyosin and myosin. The mutant missing the C-terminal 178 amino acids had no inhibitory effect and did not bind to actin or Ca2(+)-calmodulin. It bound to tropomyosin with a 5-fold reduced affinity and to myosin with a greater than 10-fold reduced affinity.
FEBS Lett 1990 Sep 17
PMID:The functional properties of full length and mutant chicken gizzard smooth muscle caldesmon expressed in Escherichia coli. 222 89

Muscle performance and structure was studied in rat soleus muscle with limited blood supply in combination with chronic muscle stimulation. Blood supply to the lower leg was restricted by ligation of the common iliac artery, electrodes were implanted in the vicinity of the sciatic nerve and ankle flexors were denervated. Three days later, soleus and gastrocnemius muscles were stimulated at 4 Hz four times a day for a period of 20 min with 2 h intervals between stimulations; this procedure was continued for 4 days. Muscle performance, histochemistry and ultrastructure were studied on the eighth day after operation in these muscles and in ischaemic unstimulated muscles with denervated ankle flexors. Both were compared with control animals. Muscles with limited blood supply developed less isometric twitch tension than control muscles (peak twitch tension in ischaemic muscle was 60.3 +/- 4.8 g g-1 muscle, mean +/- S.E.M., compared to 79.7 +/- 6.9 g g-1 in control muscle; tensions after 5 min contraction were 54.5 +/- 5.5 g g-1 in ischaemic muscle compared to 70.6 +/- 6 g g-1 in controls). Stimulated muscles with limited blood supply had higher peak (85 +/- 16.6 g g-1) and final (87 +/- 12 g g-1) tensions, and also fatigued less than muscles with limited blood supply but no stimulation. Histochemical estimation of capillary density (by staining for alkaline phosphatase) and slow (SO) and fast (FOG) fibres (by myosin ATPase staining) revealed similar capillary to fibre ratios (2.5) and a similar proportion of FOG fibres (around 18%) in all muscles. The proportion of glycogen-depleted fibres (estimated from the periodic acid Schiff reaction, PAS) in muscles removed from animals 10 min after a 5 min period of isometric twitches was significantly lower in ischaemic muscles (45.1 +/- 1.9%) than in control (80.5 +/- 1.5%) or chronically stimulated ischaemic muscles (67.3 +/- 4.0%). Electron microscopy showed disorganised myofibrils with Z-line streaming in 7.48 +/- 3.04% of fibres in muscles with limited blood supply. Swollen and degenerated mitochondria, dilated sarcoplasmic reticulum and areas of disrupted sarcolemma were also observed. Stimulated ligated muscles showed a significantly lower proportion of fibres with disorganised filaments (0.65 +/- 0.32%) and other signs of damage were much less frequent. The reduced damage and improved performance of chronically stimulated slow muscle may be the result of improved microcirculation, preventing accumulation of lactate.
J Exp Biol 1990 Sep
PMID:Effect of activity on performance and morphology in ischaemic rat slow muscles. 223 Jun 37

Gingerol, isolated as a potent cardiotonic agent from the rhizome of ginger, stimulated the Ca2+-pumping activity of fragmented sarcoplasmic reticulum (SR) prepared from rabbit skeletal and dog cardiac muscles. The extravesicular Ca2+ concentrations of the heavy fraction of the fragmented SR (HSR) were measured directly with a Ca2+ electrode to examine the effect of gingerol on the SR. Gingerol (3-30 microM) accelerated the Ca2+-pumping rate of skeletal and cardiac SR in a concentration-dependent manner. The rate of 45Ca2+ uptake of HSR was also increased markedly by 30 microM gingerol without affecting the 45Ca2+ efflux from HSR. Furthermore, gingerol activated Ca2+-ATPase activities of skeletal and cardiac SR (EC50, 4 microM). The activation of SR Ca2+-ATPase activity by gingerol (30 microM) was completely reversed by 100-fold dilution with the fresh saline solution. Kinetic analysis of activating effects of gingerol suggests that the activation of SR Ca2+-ATPase is uncompetitive and competitive with respect to Mg . ATP at concentrations of 0.2-0.5 mM and above 1 mM, respectively. Kinetic analysis also suggests that the activation by gingerol is mixed-type with respect to free Ca2+ and this enzyme is activated probably due to the acceleration of enzyme-substrate complex breakdown. Gingerol had no significant effect on sarcolemmal Ca2+-ATPase, myosin Ca2+-ATPase, actin-activated myosin ATPase and cAMP-phosphodiesterase activities, indicating that the effect of gingerol is rather specific to SR Ca2+-ATPase activity. Gingerol may provide a valuable chemical tool for studies aimed at clarifying the regulatory mechanisms of SR Ca2+-pumping systems and the causal relationship between the Ca2+-pumping activity of SR and muscle contractility.
Biochim Biophys Acta 1987 Sep 18
PMID:Gingerol, a novel cardiotonic agent, activates the Ca2+-pumping ATPase in skeletal and cardiac sarcoplasmic reticulum. 244 70

Fischer 344 rats at various ages throughout the life span have been treated with growth hormone, clonidine, and insulin-like growth factor-I to restore circulating somatomedin levels in old animals to levels found in younger rats. The injections were intended to reverse (2-week treatments) or prevent (6-month treatments) deleterious effects of aging on skeletal muscle--specifically the loss of fast fibers during the latter part of the life span. However, measurements of myosin ATPase (and subsequent histochemical fiber type determinations) revealed that the previously reported age-related decrease in ATPase activities and fast fiber content did not occur in barrier-protected specific pathogen free rats or mice. None of the treatments used had a significant effect on the ATPase activity or fiber composition of soleus, extensor digitorum longus, or diaphragm muscles, although parallel determinations in collaborating laboratories verified that the hormones had major effects in other systems. Previously reported decreases with age in ATPase activity of heart muscle were confirmed in our experiments, and these decreases were shown to reflect a change in myosin isozyme composition of the hearts, both at the protein and the mRNA levels of gene expression.
J Gerontol 1989 Sep
PMID:Skeletal muscle fiber types and myosin ATPase activity do not change with age or growth hormone administration. 252 6

Three kinds of ATP analogues were synthesized. These ATP analogues can be classified into two conformations, i.e. syn and anti forms with respect to the N-glycosidic bond between adenine and ribose groups of ATP. 3'-O-(N-Methylanthraniloyl)-2-azidoadenosine 5'-triphosphate (MantN2(3)ATP) is recognized as the anti form, as ATP, and the other two, 3'-O-(N-methylanthraniloyl)-8-azidoadenosine 5'-triphosphate (MantN8(3)ATP) and 1,N6-etheno-8-azidoadenosine 5'-triphosphate (epsilon N8(3)ATP) are both syn forms. Mant and etheno groups are both fluorescent which allows detection of their binding to proteins. The photochemical binding of azido groups in ATP analogues to the myosin active site, examined in the presence and absence of ATP, showed that all the analogues bound to the site of myosin ATPase. These analogues also acted as substrates of the ATPase and were hydrolyzed in the active site, as judged by competitive inhibition of the ATPase and by their ATPase activities. Of these analogues, MantN2(3)ATP is very similar to ATP in divalent-cation dependence of its hydrolysis rate and in its ability to trap ADP in the active site with vanadate, while the other two are different from ATP in these respects. The photochemical binding sites of ATP analogues were localized by gel electrophoresis of trypsinized myosin ATPase with photocross-linked ATP analogues and/or by isolating the modified peptides. MantN2(3)ATP was found in the 23-kDa fragment which has a structure common to ATP-binding proteins, i.e. Gly-Xaa-Xaa-Gly-Xaa-Gly-Lys-Thr. Mant N8(3)ATP was found in a region of the 20-kDa fragment where actin is reported to attach.
Eur J Biochem 1989 Sep 01
PMID:Localization of the ATP-binding site in the 23-kDa and 20-kDa regions of the heavy chain of the skeletal muscle myosin head. 252 53

The effect of an affinity modifier of myosin ATPase representing a mixed anhydride of AMP and mesitylene carboxylic acid (AMP-MA) on myosin with protected active centers was studied. The protection of active centers was performed by the method of Wells et al. Which consists in the stabilization of the myosin-MgADP complex in the enzyme active center by way of cross-linking of the active center with a Co-phenanthroline complex simultaneously interacting with two SH-groups of the protein. Myosin with protected active center completely loses its ability to hydrolyze ATP; however, it can be reactivated by way of SH-group reduction with a subsequent MgADP release from the active centers. Treatment of myosin with protected active centers with AMP-MA does not result in the reduction of the enzyme activity after removal of the Co-phenanthroline complex. This suggests that the irreversible inhibition of myosin ATPase by AMP-MA occurs due to the protein modification outside the active center(s), which provides support for our earlier made conclusion concerning the existence of an additional (with respect to active centers) substrate-binding site in the myosin molecule.
Biokhimiia 1989 Sep
PMID:[Affinity modification of myosin with protected active centers: confirmation of the existence of an allosteric substrate-binding segment]. 253 15

Corticosteroids have been shown to produce a myopathy of peripheral skeletal muscle, characterized predominantly by Type II fiber atrophy. To determine if similar histologic and histochemical changes occur in the diaphragm and whether the in vitro contractile properties of this muscle are adversely affected by steroids, we studied two groups of hamsters. The experimental group received triamcinolone while a control group received saline, both given daily for 3 wk as i.m. injections. Soleus (Sol) and extensor digitorum longus (EDL) muscles and costal diaphragm muscle sections were stained for histologic (hematoxylin and eosin, modified Gomori trichrome) and histochemical (myosin ATPase, succinate dehydrogenase [SDH]) analysis. Muscle fiber proportions and cross-sectional areas (CSA) were measured from myosin ATPase sections. In vitro studies of isometric contractions were carried out on small strips of costal diaphragm, measuring maximal isometric twitch (Pt) and tetanus (Po) tensions, time to peak tension (TTP), half relaxation time (1/2 RT), force-frequency relationship, and fatigue characteristics (60 Hz tetani; duty cycle, 0.5). Triamcinolone treatment resulted in no change in muscle fiber proportions. There was no effect on Type I fiber CSA; however, there was Type IIa (Sol, EDL) and Type IIb (diaphragm, EDL) fiber atrophy in triamcinolone-treated animals. Pt and Po (normalized for weight) of diaphragm strips were not different. There was a prolongation in TTP and 1/2 RT, a left shift in the force-frequency curve, and a reduced fatiguability of triamcinolone-treated diaphragm (P less than 0.05). We conclude that a steroid myopathy could be explained by a loss of muscle mass (Type IIb fiber atrophy) rather than an intrinsic impairment in contractile function.(ABSTRACT TRUNCATED AT 250 WORDS)
Am J Respir Cell Mol Biol 1989 Sep
PMID:Pathologic changes and contractile properties of the diaphragm in corticosteroid myopathy in hamsters: comparison to peripheral muscle. 262 59

The addition of large amounts of myosin light chain kinase to the reconstituted gizzard actomyosin shows diphosphorylation of 20 kDa myosin light chain. Accompanying diphosphorylation, the actin-activated myosin ATPase activity was also enhanced. The extent of diphosphorylation and the myosin ATPase activity were clearly demonstrated to be in a linear relationship. From the time course experiment, the conversion of monophosphorylated light chain into one which was diphosphorylated seemed to be a sequential process. Moreover, analyzing phospho-amino acid by using a two-dimensional electrophoresis technique revealed that monophosphorylated light chain contained phosphoserine and diphosphorylated one contained phosphothreonine in addition to phosphoserine.
Biochem Biophys Res Commun 1985 Sep 16
PMID:Linear relationship between diphosphorylation of 20 kDa light chain of gizzard myosin and the actin-activated myosin ATPase activity. 293 11

It was demonstrated that the dialdehyde derivative of ATP is a good substrate for Ca-ATPase of heavy meromyosin (Km = (1.2-1.4) X 10(-4) M; V = VATP). At the same time, this compound can induce irreversible inhibition of the enzyme. Since oxo-ATP is rapidly hydrolyzed by myosin to form oxo-ADP, this inhibition is the result of the enzyme interaction with oxo-ADP. It was found that the kinetics of heavy meromyosin inhibition by oxo-ADP are typical of affinity modification; in this case ATP fully protects heavy meromyosin from the activity loss. Similar results on the irreversible inhibition of the ATPase activity under the action of oxo-ADP were obtained in the presence of myosin, heavy meromyosin, subfragment I and natural actomyosin and in the absence of bivalent cations, thus suggesting the modification of the active center of myosin ATPase.
Biokhimiia 1985 Sep
PMID:[Dialdehyde derivatives of purine mononucleotides: substrate properties and affinity modification of myosin ATPase]. 293 67


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