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:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Solubility of fish (Labio rohita) myosin has been studied at varying temperatures in presence of various inorganic salts like NaCl, KCl, NaBr, Na2SO4, KI, and organic solutes like sucrose and urea. The effect of pH on the solubility has also been studied both in absence and presence of NaCl. Thermal denaturation temperatures of myosin in presence of NaCl, KCl, NaBr and Na2SO4 were found to be 40 degrees, 40 degrees, 45 degrees and 50 degrees C respectively. Thermodynamic parameters like changes in standard free energy (delta G degrees), enthalpy (delta H degrees) and entropy (delta S degrees) for precipitation of myosin from solution phase to gel phase have been evaluated and the physico-chemical aspects have been critically discussed. The average delta G degrees for gel formation varied only between -30 and -40 kJ/mole of myosin, although the nature of solutes, temperature and folding state of protein have been grossly altered. A compensation effect has also been exhibited from the linear plot of average values of delta H degrees against T delta S degrees for various solutes.
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PMID:Physico-chemical aspects of solubility of myosin in aqueous media. 262 69

Paramyosin from Caenorhabditis elegans was examined for post-translational modification by phosphorylation. Paramyosin purified from populations of mixed-age animals contained 0.7 to 2.0 moles of phosphate per mole of paramyosin. Paramyosin was also phosphorylated in vitro by an endogenous kinase in the particulate fraction. Analysis of the in vitro phosphorylated paramyosin in comparison with the DNA sequence of the unc-15 paramyosin gene of C. elegans shows that serine residues in the non-alpha-helical N-terminal region are the targets of the kinase. The N-terminal region of paramyosin has significant similarity to the non-helical C-terminal region of the two body wall myosin heavy chains of C. elegans. All three regions contain three copies of a Ser-*-Ser-*-Ala motif, the most likely target for phosphorylation in paramyosin, suggesting that these regions may be modified by the same kinase.
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PMID:Phosphorylation of the N-terminal region of Caenorhabditis elegans paramyosin. 275 33

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

The Ca dependence of contraction and myosin phosphorylation was investigated in canine tracheal smooth muscle stimulated with carbachol, K or serotonin. Previous studies of tracheal muscle showed carbachol concentration-response curves for contraction and myosin phosphorylation were superposable. In contrast, there was a striking difference in the Ca++ sensitivities of tension and myosin phosphorylation when Ca++ concentration-response curves were constructed in the presence of 10(-7) M carbachol. Significant phosphorylation (greater than 0.3 moles phosphate/mole 20,000 dalton myosin light chain) was observed in the absence of active tension. In the present study, carbachol (10(-7) and 10(-6) M) and serotonin (10(-5) M) also induced significant myosin phosphorylation in low Ca++ solutions (0-0.025 mM CaCl2) without proportional increases in tension. K+ depolarization in Ca++-free physiological salt solution (60 mM KCl, 10(-6) M atropine) yielded phosphorylation not significantly different from basal levels. All stimulants induced active stress after readmission of Ca. The Ca++ dependence curve for myosin phosphorylation in muscles stimulated with carbachol was shifted up and to the left of the force curve. Atropine (10(-6) M) significantly reduced phosphorylation induced by carbachol in Ca++-free solutions, as did 3 X 10(-6) M nifedipine and 10 mM ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid. Phorbol 12-myristate, 13-acetate or phorbol 12,13-dibutyrate did not increase basal phosphorylation or phosphorylation in low Ca++ solutions, suggesting that protein kinase C did not phosphorylate myosin in this case. Myosin phosphorylation under these conditions is not sufficient to support contraction, and is reduced by treatments that decrease Ca++ entry.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dissociation of myosin phosphorylation and active tension during muscarinic stimulation of tracheal smooth muscle. 310 Jul 73

Polyethyleneimine or polylysines of differing molecular sizes were substituted with either EDTA or DTPA and then with succinic acid groups. These polymers were then reacted with the amino groups on myosin-specific monoclonal antibody or its Fab using a water soluble carbodiimide. The polymer-antibody complexes were capable of binding up to 150 di- or trivalent ions per mole (Mn++, Gd , or 111In ) without attendant loss of antigen binding. The polylysine derivatives of the intact antibody were rapidly cleared and sequestered in the liver, whereas the polylysine 14-kilodalton (kd) derivative of Fab was cleared from the circulation with minimal hepatic and kidney sequestration. This differed from the biodistribution of intact antimyosin or its Fab labeled with 111In via direct attachment of DTPA to the epsilon amino group of the lysyl residues. Applications in magnetic resonance and nuclear imaging are envisioned.
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PMID:Monoclonal antibody modification with chelate-linked high-molecular-weight polymers: major increases in polyvalent cation binding without loss of antigen binding. 311 49

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

The myosin, actin, and collagen contents of young and adult avian red (leg) and white (breast) skeletal muscles from White Leghorn chickens have been determined by the use of analytical chromatographic methods developed to quantify the unique amino acids that occur in these proteins. Because one mole of actin purified from the red and white muscles of Leghorn chickens and one mole of myosin contain respectively one and two moles of N tau-methylhistidine, and the molar ratio of myosin and actin in skeletal muscle is known to be 1:6, the myofibrillar myosin and actin contents of avian skeletal muscles can be determined from the amounts of protein-bound N tau-methylhistidine found in acid hydrolysates of this tissue. Actin accounts for an estimated 11.2 to 12.2% of total muscle mass in both muscles or about 21.1% of total myofibrillar protein, whereas myosin ranges from 23.4 to 25.8% of total protein, corresponding to a mean value of 43.8% of total myofibrillar proteins. Total avian collagen ranged from 1.96 to 3.08% in breast and from 5.63 to 6.87% in leg skeletal muscles. With the methods described herein, content of collagen and collagen-like proteins can be calculated from amounts of 5-hydroxylysine present. The content of total connective tissue proteins could also be calculated from amounts of 4-hydroxyproline found. These quantifications are based on total protein content of the selected avian muscles determined by their detailed amino acid composition.
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PMID:Determination of myofibrillar and connective tissue protein contents of young and adult avian (Gallus domesticus) skeletal muscles and the N tau-methylhistidine content of avian actins. 323 78

The myofibrillar calcium sensitivity of mammalian skeletal muscle and cardiac muscle may be increased by myosin light chain kinase (MLCK)-induced myosin phosphorylation5) 13). Here we report increasing calcium responsiveness of frog skeletal muscle fibres (Tibialis anterior, skinned by freeze drying) by MLCK-induced myosin P-light chain phosphorylation and by the non-glycoside, non-sympathomimetic positive inotropic drug pimobendan. Investigation of myosin light chains by two dimensional gel electrophoresis revealed two phosphorylatable P-light chains (LC-2) having the same isoelectric point (5.3 for the unphosphorylated, 5.1 for the phosphorylated form) but different molecular weights (19 and 18 kD, respectively). This pattern of LC-2 is distinct from mammalian skeletal and cardiac muscle (only one phosphorylatable P-light chain in skeletal, two phosphorylatable P-light chains in cardiac muscle with different isoelectric points, but identical molecular weight). The phosphorylation level was about 0.45 mole phosphate/mole P-light chains and could be increased by 16 +/- 3% by the addition of myosin light chain kinase. This procedure increased the isometric tension at pCa 5.5 by 21 +/- 5% while maximum tension (at pCa 4.3) was not affected by MLCK. The new inotropic drug pimobendan (10(-4) M) increased isometric tension at pCa 6 by 48 +/- 4.5%, but maximal tension was not affected. Another positive inotropic drug, sulmazole, has been shown to potentiate the twitch of intact frog Tibialis anterior muscle23) and to increase force of skinned fibres by 21.7 +/- 3.3% at submaximal activation (pCa 6).
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PMID:Myofibrillar calcium sensitivity modulation: influence of light chain phosphorylation and positive inotropic drugs on skinned frog skeletal muscle. 326 85

The ability to induce alcoholic cardiomyopathy has been tested in a variety of animal species. Myocardial alterations consistent with subclinical heart disease have been produced in many of these studies through a direct effect of ethanol or its metabolites upon the heart or a neurohumoral mechanism. In the rat most studies have, however, failed to finding diminished contractility in the basal state. In long-term animals the acute left ventricular responses to isoproterenol and calcium as well as pacing were reduced. Long-term studies in mongrel dogs fed 36 per cent of calories as ethanol produced an early decrease in left ventricular diastolic compliance related to interstitial collagen accumulation. Diminished contractility developed by four years. In addition to the morphologic evidence of distorted sarcoplasmic reticulum, in vitro experiments suggest important acute effects. Each mole of ethanol is bound tightly to each mole of protein comprising the Ca-ATPase pump, which is inhibited. Impaired uptake and binding of calcium by the sarcoplasmic reticulum has been observed in chronic alcohol models at one to two day intervals following the last exposure to ethanol. In addition, the flux of calcium ion does not appear normal in terms of access to contractile protein, where the calcium regulated inhibition of the troponin interaction with myosin is impaired. Experimental studies in a canine model of alcoholism revealed that the ventricular fibrillation threshold was moderately reduced in the basal state after 18 months and was diminished further after acute exposure.
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PMID:Experimental models for studying the effects of ethanol on the myocardium. 331 64


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