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Query: UNIPROT:P06889 (Mol)
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We describe a method for the complete solubilization and quantitative analysis of individual myofibrillar proteins in whole tissue homogenates of ventricular myocardium using gradient dodecyl sulfate polyacrylamide gel electrophoresis and staining with 125I-labeled Coomassie brilliant blue. The procedure allows for the simultaneous quantification of myosin heavy chain, myosin light chain, phosphorylatable myosin light chain and actin from as little as 50 mg of tissue. Within-assay and between-assay variations range from 8.0% to 12.6% for each protein subunit. The method was applied to the determination of the subunit stoichiometry of purified myosin, and to the measurement of myosin and actin concentrations in the neonatal and adult rabbit heart. Furthermore, we provide quantitative biochemical evidence for the existence of large molar excesses of myosin light chains in tissue homogenates of both neonatal and adult rabbit ventricular myocardium.
J Mol Cell Cardiol 1987 Jul
PMID:Quantitative analysis of myofibrillar protein subunits: demonstration of large molar excesses of myosin light chains in rabbit ventricular myocardium. 368 7

A monoclonal antibody capable of detecting a conformational change in myosin light chain two (LC2) was characterized in detail. The antibody was shown to bind only to myosin LC2 when tested against fast skeletal myosin (chicken pectoralis muscle). With cardiac or slow muscle myosins, the antibody exclusively recognized their first light chains (LC1). Staining of myofibrils by the monoclonal antibody could be observed only after their irreversible denaturation by acetone or ethanol, or after incubation of the myofibrils in divalent metal chelators. This latter effect was shown to be fully reversible. The metal effect was independent of ionic strength although the affinity of the antibody for myosin was depressed at high salt concentrations. Similar metal effects were detected in the binding of antibody to cardiac or slow myosins. Neither the metal nor the ionic strength-related inhibition of antibody binding were detected with denatured myosin. The antibody binding site overlaps one of the alpha-chymotryptic sites in LC2 protected by divalent metals. Electron microscopic observations of myosin-antibody complexes demonstrated that the antibody binding site is located near the head-rod junction of myosin. Since the binding site of this monoclonal antibody has been mapped by recombinant DNA methods to the junction of the first alpha-helical domain with the calcium binding site of LC2, the location of the calcium binding site must also be located near the head-tail junction of myosin. A model for conformational changes at the myosin head-tail junction is proposed to account for the metal-induced blockage of antibody binding and the inhibition of alpha-chymotryptic digestion of LC2.
J Mol Biol 1985 May 25
PMID:Analysis of the metal-induced conformational change in myosin with a monoclonal antibody to light chain two. 389 19

We have cloned and sequenced a complementary DNA copy (pSS48) of a novel muscle-specific, low molecular weight RNA, 7 S RNA, isolated from embryonic chick cardiac muscle cells. The hybridization pattern of plasmid pSS48 DNA to chick genomic DNA suggests that 7 S RNA is derived from the repetitive chick DNA with a repetition frequency of about 300 copies per haploid genome. Under low stringency, pSS48 DNA also hybridizes with high specificity to the single copy gene for chick myosin light chain (MLC) and to myosin heavy chain (MHC), and possibly to other co-ordinately expressed genes for chick muscle proteins. The sequence analysis of recombinant plasmids pSS48, pML10 and pMHC8, for 7 S RNA, MLC mRNA and MHC RNA, respectively, indicated that short nucleotide stretches homologous to 7 S RNA reside in the 3' untranslated regions of the respective genes. The 7 S RNA sequence appears to be highly specific for the chick muscle tissue, since RNA and DNA from several sources did not hybridize to pSS48 DNA. Furthermore, the 7 S RNA-like sequence(s) appears in chick blastodermal cells preferentially earlier than the onset of transcription of genes for major muscle proteins. These results, taken together, suggest a possible function for 7 S RNA in expression of muscle-specific genes during chick development.
J Mol Biol 1984 Dec 15
PMID:Co-ordinate control of gene expression. Muscle-specific 7 S RNA contains sequences homologous to 3'-untranslated regions of myosin genes and repetitive DNA. 608 16

Myosin light chain kinase from smooth muscle has been shown to be phosphorylated by cyclic AMP-dependent protein kinase, which leads to a decrease in the affinity of the kinase for Ca2+ . calmodulin and, hence, a decrease in enzymatic activity. This event has been proposed as a mechanism for the relaxation of smooth muscle in response to increased intracellular concentrations of cyclic AMP. The ratio of myosin light chain kinase activities measured in the presence of 4 microM or 100 microM Ca2+, at 1 microM calmodulin, permits evaluation of such a change in the calmodulin activation properties of myosin light chain kinase. This activity ratio was decreased by phosphorylation of either purified bovine tracheal smooth muscle myosin light chain kinase, or the endogenous myosin light chain kinase in a homogenate of tracheal smooth muscle, with the addition of the catalytic subunit of cyclic AMP-dependent protein kinase. The ratio was unchanged, however, by activation of the endogenous cyclic AMP-dependent protein kinase in homogenates of tracheal smooth muscle by the addition of cyclic AMP. Incubation of tracheal smooth muscle with isoproterenol, at a concentration sufficient to relax the muscle and to increase phosphorylase a formation, had no effect upon the activity ratio. Incubation of tracheal smooth muscle for 2 hr in the presence of carbachol resulted in a transient increase and then a decrease in myosin light chain phosphate content to control values with no decrease in isometric force. The addition of isoproterenol at 2 hr still resulted in relaxation. These findings are inconsistent with a role of myosin light chain kinase phosphorylation in mediating relaxation of tracheal smooth muscle by beta-adrenergic agonists. Cyclic AMP-dependent effects on cytoplasmic calcium concentrations may be more important in mediating relaxation.
Mol Pharmacol 1983 Sep
PMID:The role of myosin light chain kinase phosphorylation in beta-adrenergic relaxation of tracheal smooth muscle. 613 4

Isozymes of myosin have been localized with respect to individual fibers in differentiating skeletal muscles of the rat and chicken using immunocytochemistry. The myosin light chain pattern has been analyzed in the same muscles by two-dimensional PAGE. In the muscles of both species, the response to antibodies against fast and slow adult myosin is consistent with the speed of contraction of the muscle. During early development, when speed of contraction is slow in future fast and slow muscles, all the fibers react strongly with anti-slow as well as with anti-fast myosin. As adult contractile properties are acquired, the fibers react with antibodies specific for either fast or slow myosin, but few fibers react with both antibodies. The myosin light chain pattern slow shows a change with development: the initial light chains (LC) are principally of the fast type, LC1(f), and LC2(f), independent of whether the embryonic muscle is destined to become a fast or a slow muscle in the adult. The LC3(f), light chain does not appear in significant amounts until after birth, in agreement with earlier reports. The predominance of fast light chains during early stages of development is especially evident in the rat soleus and chicken ALD, both slow muscles, in which LC1(f), is gradually replaced by the slow light chain, LC1(s), as development proceeds. Other features of the light chain pattern include an "embryonic" light chain in fetal and neonatal muscles of the rat, as originally demonstrated by R.G. Whalen, G.S. Butler- Browne, and F. Gros. (1978. J. Mol. Biol. 126:415-431.); and the presence of approximately 10 percent slow light chains in embryonic pectoralis, a fast white muscle in the adult chicken. The response of differentiating muscle fibers to anti-slow myosin antibody cannot, however, be ascribed solely to the presence of slow light chains, since antibody specific for the slow heavy chain continues to react with all the fibers. We conclude that during early development, the myosin consists of a population of molecules in which the heavy chain can be associated with a fast, slow, or embryonic light chain. Biochemical analysis has shown that this embryonic heavy chain (or chains) is distinct from adult fast or slow myosin (R.G. Whalen, K. Schwartz, P. Bouveret, S.M. Sell, and F. Gros. 1979. Proc. Natl. Acad. Sci. U.S.A. 76:5197-5201. J.I. Rushbrook, and A. Stracher. 1979. Proc Natl. Acad. Sci. U.S.A. 76:4331-4334. P.A. Benfield, S. Lowey, and D.D. LeBlanc. 1981. Biophys. J. 33(2, Pt. 2):243a[Abstr.]). Embryonic myosin, therefore, constitutes a unique class of molecules, whose synthesis ceases before the muscle differentiates into an adult pattern of fiber types.
 ...
PMID:Distribution and properties of myosin isozymes in developing avian and mammalian skeletal muscle fibers. 617 31

Our previous work showed that myosin phosphorylation decreased the ATPase activity of skeletal muscle myofibrils that were lightly fixed with glutaraldehyde. The fixation process prevented sarcomere shortening and destruction of the ordered filament array upon the addition of ATP. We have now extended these results to myofibrils prepared from hearts of rabbits, dogs and rats. Myofibrils were phosphorylated by incubation with myosin light chain kinase, calmodulin and either ATP-gamma s or ATP, for 15 minutes at 25 degrees C. The extent of myosin light chain phosphorylation was 50% to 80%. The ATPase activity of unphosphorylated myofibrils was not altered by reaction with 0.01% glutaraldehyde for 5 minutes at 0 degrees C, and the ATPase activity of unfixed myofibrils was not changed by phosphorylation. However, phosphorylation decreased the ATPase activity of fixed myofibrils by 50%. The effect on myocardial myofibrillar ATPase activity of phosphorylation was similar in the three animal species. These results suggest that in both skeletal and cardiac muscle, myosin phosphorylation decreases the rate of cross-bridge cycling resulting in decreased energy expenditure. It also appears that the effect of myosin light chain phosphorylation on ATPase activity requires an ordered myofilament structure.
J Mol Cell Cardiol 1984 Jul
PMID:Myosin phosphorylation decreases the ATPase activity of cardiac myofibrils. 623

It has been proposed that Ca2+-dependent myosin light chain (P-light chain) phosphorylation in smooth muscle permits cycling of myosin cross-bridges within myofibrillar elements for muscle shortening, but a second Ca2+-dependent regulatory mechanism is responsible for force generation. Accordingly, we examined P-light chain phosphorylation and another Ca2+-dependent protein phosphorylation reaction, phosphorylase a formation, in bovine tracheal smooth muscle during isometric force generation elicited by the cholinergic agonist carbachol or KCl depolarization, two stimuli thought to increase the concentration of sarcoplasmic free Ca2+ by mobilizing different pools of Ca2+. Increases in P-light chain phosphorylation reached maximal values of 0.79 and 0.59 mole of phosphate per mole of P-light chain at 1 min and then declined during maintained isometric force developed in response to 1 microM carbachol and 60 mM KCl, respectively. Carbachol elicited approximately twice the amount of force as found in the presence of KCl, and yet a more rapid rate of decline in the phosphate content of P-light chain was apparent. Decreases in maximal levels of phosphorylase a also occurred during carbachol-mediated isometric force maintenance, yet did not occur with KCl stimulation. Concentration-dependent responses with carbachol and KCl showed a positive relationship between the extent of P-light chain phosphorylation and extent of developed isometric force after 1 min of contraction with both stimuli. Under no conditions was force generated without P-light chain phosphorylation. The concentration dependence of phosphorylase a formation with KCl was similar to isometric force and P-light chain phosphorylation. However, concentrations of carbachol necessary to stimulate phosphorylase a formation were much higher than those required for stimulation of isometric force and P-light chain phosphorylation. Furthermore, carbachol attenuated the stimulation of phosphorylase a formation by isoproterenol. Thus, carbachol appears to have both an inhibitory and stimulatory effect on phosphorylase a formation in bovine tracheal smooth muscle. These results also indicate that maintained isometric force in smooth muscle may be dependent upon the maximal extent of P-light chain phosphorylation obtained during an early temporal transient in phosphorylation.
Mol Pharmacol 1984 Mar
PMID:Phosphorylation of myosin light chain and phosphorylase in tracheal smooth muscle in response to KCl and carbachol. 670 May 72

The purpose of the present study was to compare protein profiling of atria and ventricles in children operated for congenital heart disease. Tissue samples were obtained during surgery from patients with normoxemic (ventricular and atrial septal defects) and hypoxemic (tetralogy of Fallot) diseases. Protein fractions were isolated by stepwise extraction from both right ventricular and atrial musculature. The concentration of total atrial protein in the normoxemic patients exceeded the ventricular value (110 +/- 2.1 vs 99.9 +/- 4.0 mg.g-1 wet weight, respectively); in the hypoxemic group this atrio-ventricular difference disappeared. The concentration of contractile proteins in all cardiac samples was significantly higher in the ventricles as compared with atria, while the concentration of collagenous proteins was significantly higher in the atria (due to a higher amount of the insoluble collagenous fraction). The concentration of sarcoplasmic proteins (containing predominantly enzyme systems for aerobic and anaerobic substrate utilization), however did not differ between ventricles and atria. Furthermore, ventricular contractile fractions obtained from both normoxemic and hypoxemic patients were contaminated with the myosin light chain of atrial origin. Soluble collagenous fractions (containing newly synthesized collagenous proteins, predominantly collagen I and III), derived from all ventricular samples, were contaminated by low molecular weight fragments (mol. weight 29-35 kDa). The proportion of the soluble collagenous fraction was significantly higher in atrial but not in ventricular myocardium of hypoxemic children as compared with the normoxemic group. It seems, therefore, that lower oxygen saturation affects the synthesis of collagen preferentially in atrial tissue.
Mol Cell Biochem
PMID:Differences between atrial and ventricular protein profiling in children with congenital heart disease. 749 53

Schizosaccharomyces pombe cells divide by medial fission. One class of cell division mutants (cdc), the late septation mutants, defines four genes: cdc3, cdc4, cdc8, and cdc12 (Nurse, P., P. Thuriaux, and K. Nasmyth. 1976. Mol. & Gen. Genet. 146:167-178). We have cloned and characterized the cdc4 gene and show that the predicted gene product. Cdc4p, is a 141-amino acid polypeptide that is similar in sequence to EF-hand proteins including myosin light chains, calmodulin, and troponin C. Two temperature-sensitive lethal alleles, cdc4-8 and cdc4-31, accumulate multiple nuclei and multiple improper F-actin rings and septa but fail to complete cytokinesis. Deletion of cdc4 also results in a lethal terminal phenotype characterized by multinucleate, elongated cells that fail to complete cytokinesis. Sequence comparisons suggest that Cdc4p may be a member of a new class of EF-hand proteins. Cdc4p localizes to a ringlike structure in the medial region of cells undergoing cytokinesis. Thus, Cdc4p appears to be an essential component of the F-actin contractile ring. We find that Cdc4 protein forms a complex with a 200-kD protein which can be cross-linked to UTP, a property common to myosin heavy chains. Together these results suggest that Cdc4p may be a novel myosin light chain.
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PMID:Schizosaccharomyces pombe cdc4+ gene encodes a novel EF-hand protein essential for cytokinesis. 762 65

The primary structures of light chains isolated from the human myocardium with idiopathic dilated cardiomyopathy (IDC) were determined and compared with the sequence structures of myosin light chains obtained from control human heart myosin. Sequences were determined by chemical analysis and the identity of N-terminal residues established by mass spectrometry. The N-terminal residues in essential (ELC) and regulatory (RLC) light chains were blocked and were identified to be trimethyl alanine. The amino acid sequences of ELC and RLC from control human myosin revealed a high degree of homology with those purified from rat and chicken cardiac myosin. Comparison with a published partial chemical sequence of the human heart myosin light chains revealed significant variations. However, there was very good agreement with published sequences obtained by molecular biological techniques. Sequences of the light chains from cardiomyopathic myosin revealed no difference in the primary structures when compared with control human heart myosin light chains indicating IDC had no influence on, nor was caused by, altered myosin light chain gene expression.
Mol Cell Biochem 1995 Apr 12
PMID:Human cardiac myosin light chains: sequence comparisons between myosin LC1 and LC2 from normal and idiopathic dilated cardiomyopathic hearts. 765 82


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