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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The two cardiac myosin heavy chain isoforms, alpha and beta, differ functionally, alpha Myosin exhibits higher actin-activated ATPase than does beta myosin, and hearts expressing alpha myosin exhibit increased contractility relative to hearts expressing beta myosin. To understand the molecular basis for this functional difference, we determined the complete nucleotide sequence of full-length rat alpha and beta myosin heavy chain cDNAs. This study represents the first opportunity to compare full-length fast ATPase and slow ATPase muscle myosin sequences. The alpha and beta myosin heavy chain amino acid sequences are more related to each other than to other sarcomeric myosin heavy chain sequences. Of the 1938 amino acid residues in alpha and beta myosin heavy chain, 131 are non-identical with 37 non-conservative changes. Two-thirds of these non-identical residues are clustered, and several of these clusters map to regions that have been implicated as functionally important. Some of the regions identified by the clusters of non-identical amino acid residues may affect actin binding, ATP hydrolysis and force production.
J Mol Biol 1989 Dec 05
PMID:Full-length rat alpha and beta cardiac myosin heavy chain sequences. Comparisons suggest a molecular basis for functional differences. 261 40

The c-fos serum response element (SRE) and a sarcomeric actin promoter element (CArG box) are similar in sequence and are recognized, respectively, by the serum response factor (SRF) and the CArG-binding factor (CBF). Although the transcriptional controls for the c-fos and sarcomeric actin genes are rather different, SRF and CBF have been found to be indistinguishable by all criteria tested. They exhibited similar chromatographic properties, sedimentation rates, and temperature stabilities. In mobility shift assays, the SRE competed more strongly than the actin CArG box for formation of either the SRF-SRE or the CBF-CArG complex. The symmetric inverted repeat of the left side of the Xenopus cytoskeletal actin SRE also competed, even more strongly, for each complex. The site-specific binding of each protein was inhibited both by orthophenanthroline, whose effects were reversed by zinc addition, and by treatment with potato acid phosphatase. Furthermore, immune serum raised against the c-fos SRF also recognized the actin CBF. We discuss how transcriptional control of these diverse genes might be obtained with a single similar factor.
Mol Cell Biol 1989 Feb
PMID:The sarcomeric actin CArG-binding factor is indistinguishable from the c-fos serum response factor. 271 Jan 14

To identify the DNA sequences that regulate the expression of the sarcomeric myosin heavy-chain (MHC) genes in muscle cells, a series of deletion constructs of the rat embryonic MHC gene was assayed for transient expression after introduction into myogenic and nonmyogenic cells. The sequences in 1.4 kilobases of 5'-flanking DNA were found to be sufficient to direct expression of the MHC gene constructs in a tissue-specific manner (i.e., in differentiated muscle cells but not in undifferentiated muscle and nonmuscle cells). Three main distinct regulatory domains have been identified: (i) the upstream sequences from positions -1413 to -174, which determine the level of expression of the MHC gene and are constituted of three positive regulatory elements and two negative ones; (ii) a muscle-specific regulatory element from positions -173 to -142, which restricts the expression of the MHC gene to muscle cells; and (iii) the promoter region, downstream from position -102, which directs transcription initiation. Introduction of the simian virus 40 enhancer into constructs where subportions of or all of the upstream sequences are deleted (up to position -173) strongly increases the level of expression of such truncated constructs but without changing their muscle specificity. These upstream sequences, which can be substituted for by the simian virus 40 enhancer, function in an orientation-, position-, and promoter-dependent fashion. The muscle-specific element is also promoter specific but does not support efficient expression of the MHC gene. The MHC promoter in itself is not muscle specific. These results underline the importance of the concerted action of multiple regulatory elements that are likely to represent targets for DNA-binding-regulatory proteins.
Mol Cell Biol 1987 Dec
PMID:Multiple positive and negative 5' regulatory elements control the cell-type-specific expression of the embryonic skeletal myosin heavy-chain gene. 283 Apr 91

The accumulation of the cytoskeletal beta- and gamma-actin mRNAs was determined in a variety of mouse tissues and organs. The beta-isoform is always expressed in excess of the gamma-isoform. However, the molar ratio of beta- to gamma-actin mRNA varies from 1.7 in kidney and testis to 12 in sarcomeric muscle to 114 in liver. We conclude that, whereas the cytoskeletal beta- and gamma-actins are truly coexpressed, their mRNA levels are subject to differential regulation between different cell types. The human gamma-actin gene has been cloned and sequenced, and its chromosome location has been determined. The gene is located on human chromosome 17, unlike beta-actin which is on chromosome 7. Thus, if these genes are also unlinked in the mouse, the coexpression of the beta- and gamma-actin genes in rodent tissues cannot be determined by gene linkage. Comparison of the human beta- and gamma-actin genes reveals that noncoding sequences in the 5'-flanking region and in intron III have been conserved since the duplication that gave rise to these two genes. In contrast, there are sequences in intron III and the 3'-untranslated region which are not present in the beta-actin gene but are conserved between the human gamma-actin and the Xenopus borealis type 1 actin genes. Such conserved noncoding sequences may contribute to the coexpression of beta- and gamma-actin or to the unique regulation and function of the gamma-actin gene. Finally, we demonstrate that the human gamma-actin gene is expressed after introduction into mouse L cells and C2 myoblasts and that, upon fusion of C2 cells to form myotubes, the human gamma-actin gene is appropriately regulated.
Mol Cell Biol 1988 Apr
PMID:Structure, chromosome location, and expression of the human gamma-actin gene: differential evolution, location, and expression of the cytoskeletal beta- and gamma-actin genes. 283 53

The 1979 amino acid sequence of embryonic chicken gizzard smooth muscle myosin heavy chain (MHC) have been determined by cloning and sequencing its cDNA. Genomic Southern analysis and Northern analysis with the cDNA sequence show that gizzard MHC is encoded by a single-copy gene, and this gene is expressed in the gizzard and aorta. The encoded protein has a calculated Mr of 229 X 10(3), and can be divided into a long alpha-helical rod and a globular head. Only 32 to 33% of the amino acid residues in the rod and 48 to 49% in the head are conserved when compared with nematode or vertebrate sarcomeric MHC sequences. However, the seven residue hydrophobic periodicity, together with the 28 and 196 residue repeat of charge distribution previously described in nematode myosin rod, are all present in the gizzard myosin rod. Two of the trypsin-sensitive sites in gizzard light meromyosin have been mapped by partial peptide sequencing to 99 nm and 60 nm from the tip of the myosin tail, where these sites coincide with the two "hinges" for the 6 S/10 S transition. In the head sequence, several polypeptide segments, including the regions around the putative ATP-binding site and the reactive thiol groups, are highly conserved. These areas presumably reflect conserved structural elements important for the function of myosin. A multi-domain folding model of myosin head is proposed on the basis of the conserved sequences, information on the topography of myosin in the literature, and the predicted secondary structures. In this model, Mg2+ ATP is bound to a pocket between two opposing alpha/beta domains, while actin undergoes electrostatic interactions with lysine-rich surface loops on two other domains. The actin-myosin interactions are thought to be modulated through relative movements of the domains induced by the binding of ATP.
J Mol Biol 1987 Nov 20
PMID:Complete primary structure of vertebrate smooth muscle myosin heavy chain deduced from its complementary DNA sequence. Implications on topography and function of myosin. 289 41

Three distinct subpopulations (A, B, C) derived from a dimethylbenzanthracene-induced rat rhabdomyosarcoma were established as permanent cell lines. Although the clonal nature of each of these subpopulations was confirmed by repeated recloning procedures, a striking intraclonal phenotypic heterogeneity was observed. By means of immunofluorescence microscopy and transmission electron microscopy, it could be shown that these subpopulations closely recapitulate stages of embryonic rhabdomyogenesis both in vitro and in vivo, but differ in their particular range of maximum differentiation. Embryonic rhabdomyogenesis is imitated most perfectly by subpopulation C, in which multinuclear myotubes are formed in vitro by fusion of mononuclear cells, and alpha-sarcomeric actin is expressed in the multinuclear cells and in a few mononuclear cells. After retransplantation in vivo, subpopulation C further proceeds in fine structural differentiation, now exhibiting myofibrils with a sarcomeric organization in the myotube-like giant cells. The cells of subpopulation B do not exceed the stage of mononuclear desmin-positive cells in vitro, but synthesize thin and thick myofilaments after retransplantation in vivo. The cells of subpopulation A recapitulate embryonic rhabdomyogenesis least successfully being confined to the stage of mononuclear desmin-positive cells. Thus, the coexistence of diverse subpopulations and the cellular maturation within these subpopulations together contribute to the phenotypic heterogeneity of rhabdomyosarcomas.
Virchows Arch B Cell Pathol Incl Mol Pathol 1988
PMID:The intraclonal and interclonal phenotypic heterogeneity in a rhabdomyosarcoma cell line with abortive imitation of embryonic myogenesis. 290 May 72

A series of 14 primary and two metastatic rat rhabdomyosarcomas (RMS) induced with nickel sulfide was studied by light microscopy, transmission electron microscopy, indirect immunofluorescence, avidin-biotin-peroxidase immunohistochemistry and two-dimensional gel electrophoresis. Monoclonal or affinity-purified polyclonal antibodies were used for the immunohistochemical demonstration of vimentin, desmin, alpha-smooth muscle (alpha-sm) actin and alpha-sarcomeric (alpha-sr) actin. By histological and ultrastructural studies, four categories of RMS were diagnosed on the basis of the neoplastic cell types. These were: (1) well-differentiated RMS (n = 2), (2) pleomorphic RMS (n = 8), (3) embryonal RMS (n = 4), and (4) embryonal myosarcomas (n = 2). Immunohistochemically, all these neoplasms expressed desmin and alpha-sr actin, reflecting their rhabdomyoblastic origin. Two dimensional gel electrophoresis performed on five neoplasms demonstrated alpha, beta and gamma actins spots in all cases. This study demonstrates that the alpha-sr actin antibody represents a good marker for rhabdomyoblastic differentiation is useful in the diagnosis of RMS since it was present in all morphologically confirmed RMS and in two ultrastructurally undifferentiated sarcomas positive for desmin. Neoplastic cells positive for alpha-sm actin were noted in 11 confirmed RMS. Double indirect immunofluorescence showed that all alpha-sm and alpha-sr positive cells also contained desmin. Co-expression of alpha-sr and alpha-sm actins was studied in serial sections of formalin-fixed, paraffin-embedded tumor tissue. Both alpha-sm and alpha-sr actins were localized in some rhabdomyoblasts. This study confirms our previous observations in human tumors and shows, for the first time, that alpha-sr and alpha-sm actins can be present in the same neoplastic cell in vivo.
Virchows Arch B Cell Pathol Incl Mol Pathol 1988
PMID:Chemically induced rhabdomyosarcomas in rats. Ultrastructural, immunohistochemical, biochemical features and expression of alpha-actin isoforms. 290 Nov 66

The sequences of three myosin heavy chain (MHC) genes from Caenorhabditis elegans, myo-1, 2 and 3, are presented. These genes, together with unc-54, comprise the entire nematode sacromeric MHC family. Comparison of nematode MHC sequences and sarcomeric, smooth and non-muscle MHCs from other organisms highlights conserved sequence features of the MHC rod believed to be important for thick filament assembly. These include: conservation of sequence differences between individual 28 amino acid repeats; invariant placements of large aromatic residues, such as tryptophan, in the rod sequences; conservation of "weak spots" in the hydrophobic seam; and conservation of non-uniform charge distributions along the length of the rod. The rod sequences of the body wall isoforms A and B are more closely related to each other than to the pharyngeal isoforms C and D, suggesting that structural constraints have been imposed by their location within the same thick filament. We have also identified the major transcriptional start site for gene unc-54. Surprisingly, there are no TATA or other known transcription factor elements immediately upstream from the unc-54 start site, or in the upstream regions of the other genes of the C. elegans MHC gene family.
J Mol Biol 1989 Feb 05
PMID:Sequence analysis of the complete Caenorhabditis elegans myosin heavy chain gene family. 292 20

The purpose of this study was to examine the Ca2+-Mg2+ myofibrillar ATPase and protein composition of cardiac and skeletal muscle following strenuous activity to voluntary exhaustion. Sprague-Dawley rats (200 g) were assigned to a control and exercised group, with the run group completing 25 m.min-1 and 8% grade for 1 hour. Following activity, the myocardial Ca2+-Mg2+ myofibrillar ATPase activity -pCa relationship had undergone a rightward shift in the curve. Electrophoretic analysis revealed a change in the pattern of cardiac myofibrillar protein bands, particularly in the 38-42 Kdalton region. Enzymatic analysis of myofibrillar proteins from plantaris muscle, revealed no change in Ca2+ regulation following exercise. Electronmicrographic and electrophoretic analysis revealed extensively disrupted sarcomeric structure and a change in the ratio of several plantaris myofibrillar proteins. No difference was observed for myosin: Actin: tropomyosin ratios; however a dramatic reduction in 58 and 95 Kdalton proteins were evident. The results indicate that prolonged running is associated with similar responses in cardiac and skeletal muscle myofibrillar protein compositions. The abnormalities in myofibrillar ultrastructure may implicate force transmission failure as a factor in exercised-induced muscle damage and/or fatigue.
Mol Cell Biochem 1988 Sep
PMID:Influence of exercise on cardiac and skeletal muscle myofibrillar proteins. 297 50

The establishment of a differentiated phenotype in skeletal muscle cells requires withdrawal from the cell cycle and termination of DNA synthesis. Myogenesis can be inhibited by serum components, purified mitogens, and transforming growth factors, but the intracellular signaling pathways utilized by these molecules are unknown. Recent studies have confirmed a role for proteins encoded by cellular proto-oncogenes in transduction of growth factor effects that lead to cell proliferation. To test the contrasting hypothesis that cellular oncogenes might also regulate tissue-specific gene expression in developing muscle cells, myoblasts have been modified by incorporation of the cognate viral oncogenes, the corresponding normal or oncogenic cellular homologs, and chimeric oncogenes, whose expression can be induced reversibly. Regulation of the endogenous cellular oncogenes also has been examined in detail. Down-regulation of c-myc is not obligatory for myogenesis; rather, inhibitory effects of myc on muscle differentiation are contingent on sustained proliferation. In contrast, activated src and ras genes block myocyte differentiation directly, through a mechanism that is independent of DNA synthesis and is rapidly reversible, resembling the effects of inhibitory growth factors. The coordinate regulation of diverse tissue-specific gene products including muscle creatine kinase, nicotinic acetylcholine receptors, sarcomeric proteins, and voltage-gated ion channels, raises the hypothesis that inhibitors such as transforming growth factor-beta and ras proteins might exert their effects through a transacting transcriptional signal shared by multiple muscle-specific genes.
Mol Neurobiol 1988
PMID:Control of myogenic differentiation by cellular oncogenes. 307 64


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