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Query: UNIPROT:P06889 (Mol)
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Little is known about the tissue-specific expression of contractile proteins during cardiogenesis in the mammalian heart. Since the myosin heavy chain (HC) isoform expressed in the adult correlates with myocardial functional capacity, we undertook an analysis of myosin HC expression in atrial and ventricular myocardia during fetal cardiogenesis in the rat heart. Cardiac HCs were separated by electrophoresis under denaturing conditions. The expression of the predominant adult isoform HC alpha was localized within developing fetal cardiac chambers by immunohistochemistry with a specific monoclonal antibody (R 37). Results demonstrated that myosin HC isoform expression followed tissue-specific patterns during cardiogenesis in the rat. Atrial myocytes expressed HC alpha throughout development. The ventricles expressed exclusively HC alpha in the adult, but HC beta expression predominated in fetal ventricles. Fetal ventricles also expressed minor amounts of HC alpha, whose amount and distribution varied with developmental stage. HC alpha was initially confined to tracts of cells in the trabeculae, suggestive of future conduction system cells. A more extensive population of HC alpha-expressing cells appeared several days before birth in a pattern which could represent the prenatal initiation of HC alpha expression in working myocardial cells. These results indicate that there is tissue-specific developmental modulation of myosin isoform expression during fetal development. Results also demonstrated that this modulation may include expression of a third electrophoretically distinct myosin HC in fetal hearts.
J Mol Cell Cardiol 1990 Mar
PMID:Histochemical and biochemical analysis of myosin heavy chain expression during cardiogenesis in the rat. 235

Left ventricular free wall (LV) myofibrillar proteins accumulate at a rate approximately 2.5 times faster than the rate of right ventricular free wall (RV) proteins during postnatal cardiac development of the rabbit heart. In this study, the contribution of regional differences in in vivo protein synthesis to the differential rates of growth of the RV and LV myocardium was assessed in 4-d, 3-wk, and 9-wk old rabbits. In vivo total protein fractional synthetic rates were measured by a modification of the flooding infusion method, with calculations based upon the rate of equilibration of plasma leucine and cardiac leucyl-tRNA specific radioactivities following intravenous administration of a large dose of labeled amino acid. This method was also applied to the analysis of the fractional synthetic rate of a contractile protein subunit (myosin heavy chain) in the RV and LV of 4-d and 9-wk old rabbits. Accelerated growth of the LV during the first week of postnatal cardiac development was associated with increased total protein fractional synthetic rates (35.3 +/- 3.6 vs. 45.5 +/- 4.7%/day for RV and LV total protein of 4-d old rabbits, respectively). In addition, RV and LV fractional synthetic rates for myosin heavy chain in the same 4-d old rabbits were considerably greater than those values observed for total protein (84.0 +/- 13.1 and 98.4 +/- 16.9%/day for RV and LV myosin heavy chain, respectively. However, the fractional synthetic rates of both total protein and myosin heavy chain in both the RV and LV rapidly declined during the transition from fetal to adult hemodynamics. Thus, regional and developmental differences in myocyte-specific protein synthesis both contribute to the extensive restructuring of ventricular muscle during this period of extremely rapid growth. These differences may be in response to regional and developmental changes in hemodynamic load.
J Mol Cell Cardiol 1990 May
PMID:Regional differences in in vivo myocardial protein synthesis in the neonatal rabbit heart. 238 84

As part of our studies on the fate of the muscle lineage during amphibian limb regeneration, we have isolated genomic and cDNA sequences from a myosin heavy chain in the newt (Notophthalmus viridescens). Notwithstanding the technical problems inherent in analysing the large newt genome, genomic and cDNA sequences have been isolated and subjected to analysis by restriction mapping. Northern hybridization, Southern hybridization and DNA sequencing. We believe these to be the first single copy newt gene sequences to have been subjected to this type of analysis. The newt gene sequences showed a striking difference from mammalian myosins in both the estimated sizes of the gene and its intervening sequences; these being much larger than in the mammalian models, it is speculated that this could contribute to the exceptional size of the newt genome. By contrast, the coding sequences displayed very high levels of sequence homology to mammalian myosins. In particular, the amino acid sequence of the newt myosin was found to have greatest homology with rat and human myosin isotypes having a similar cardio-skeletal muscle expression pattern. Despite a long evolutionary separation, newt and mammalian cardio-skeletal myosins have remained more similar to each other than have the human or rat cardiac forms to skeletal myosins within their own respective species.
J Mol Biol 1988 Jul 20
PMID:Structure and expression of a newt cardio-skeletal myosin gene. Implications for the C value paradox. 245 93

A question of whether or not casein kinase II (CKII) activity associated with Fc gamma 2aR is involved in the regulation of phagocytic process mediated by this type of Fc gamma R was investigated. Our previous studies showed that the rate of phagocytosis of sheep erythrocytes (SRBC) coated with anti-SRBC antibody (EA) by P388D1 cells varies significantly depending on the isotypes of antibody and that Fc gamma 2aR isolated from the detergent lysate of P388D1 cells is associated with CKII activity, whereas Fc gamma 2bR is not. Fc gamma Rs-mediated phagocytosis is a major function of macrophages by which invading pathogens such as bacteria could be eliminated and therefore warrants the investigation of its biochemical mechanisms. We have recently shown that phagocytosis of EA2b mediated by Fc gamma 2bR of P388D1 cells as well as murine peritoneal macrophages could be up-regulated by promoting the association of various cytoskeletal components with the receptor by inhibiting Fc gamma 2bR-associated phospholipase A2 (PLA2). CKII activity-associated Fc gamma 2aR mediates phagocytosis of EA2a more effectively than PLA2-associated Fc gamma 2bR mediates phagocytosis of EA2b. We have therefore examined a potential role of CKII in Fc gamma 2aR-mediated phagocytosis by the use of a specific inhibitor of CKII activity (heparin). Results showed that heparin inhibited CKII activity associated with Fc gamma 2aR and effectively down-regulated the Fc gamma 2aR-mediated phagocytosis by apparently blocking the association of the receptor with four types of cytoskeletal components (actin-binding protein, myosin heavy chain, alpha tubulin, and actin).(ABSTRACT TRUNCATED AT 250 WORDS)
J Mol Cell Immunol 1989
PMID:Regulation of Fc gamma 2a receptor-mediated phagocytosis by a murine macrophage-like cell line, P388D1: involvement of casein kinase II activity associated with Fc gamma 2a receptor. 253 85

A mutation (mhcA1 in strain HMM) created by insertional gene inactivation was used to map the Dictyostelium discoideum myosin heavy chain gene (mhcA) to linkage group IV. Three phenotypic traits associated with this mutation (slow colony growth, inability of the mutant to develop past aggregation, and the presence of five to ten integrated vector copies) cosegregated as expected for the consequences of a single insertional event. This linkage was confirmed using a restriction fragment length polymorphism. The mhcA1 mutation was recessive to wild type and was nonallelic with mutations at the following loci on linkage group IV: aggJ, aggL. couH, minA, phgB and tsgB. This work demonstrates the ability to apply standard techniques developed for D. discoideum parasexual genetic analyses to mutants generated by transformation, which is of particular relevance to analysis of genes for which no classical mutations or restriction fragment length polymorphisms are available.
Mol Gen Genet 1989 Apr
PMID:Linkage analysis of the myosin heavy chain gene in Dictyostelium discoideum using a mutation generated by homologous recombination. 256 78

In the nematode, Caenorhabditis elegans, the body wall muscles contain paramyosin and two different types of myosin heavy chain, MHC A and MHC B. In mutants that do not express MHC B or that express defective paramyosin, muscle structure is disrupted and movement is impaired. Second site mutations in the sup-3 locus partially reverse these defects and are correlated with a 2- to 3-fold increase in the accumulation of the MHC A isoform. The sup-3 mutations occur at a high frequency (10(-4] after ethyl methanesulfonate (EMS) mutagenesis. This is comparable to the average EMS-induced mutation rate per gene in C. elegans. In this paper we show that the sup-3 mutation is an amplification of the structural gene for the MHC A protein, myo-3. We employed genomic Southern hybridization with MHC gene-specific probes in order to measure the copy number of the myo-3 gene relative to that of the MHC B gene, unc-54. We have identified the putative amplification junctions for these sup-3 alleles using a set of cosmid clones which encompass myo-3 region. Although it has been suggested that gene amplification plays an important role in evolution, there are few known cases of gene amplification in the germ line cells of multicellular organisms. The results shown here provide a clear example of a heritable gene amplification event that occurs at a high frequency in the germ line. Similar events may thus represent the initial event in the evolution of new function and in the formation of multigene families.
Mol Gen Genet 1989 Oct
PMID:Myosin heavy chain gene amplification as a suppressor mutation in Caenorhabditis elegans. 257 5

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

We have isolated and characterized two distinct myosin heavy chain cDNA clones from a neonatal rat aorta cDNA library. These clones encode part of the light meromyosin region and the carboxyl terminus of smooth muscle myosin heavy chain. The two rat aorta cDNA clones were identical in their 5' coding sequence but diverged at the 3' coding and in a portion of the 3' untranslated regions. One cDNA clone, RAMHC21, encoded 43 unique amino acids from the point of divergence of the two cDNAs. The second cDNA clone, RAMHC 15, encoded a shorter carboxyl terminus of nine unique amino acids and was the result of a 39 nucleotide insertion. This extra nucleotide sequence was not present in RAMHC21. The rest of the 3' untranslated sequences were common to both cDNA clones. Genomic cloning and DNA sequence analysis demonstrated that an exon specifying the 39 nucleotides unique to RAMHC15 mRNA was present, together with the 5' upstream common exons in the same contiguous stretch of genomic DNA. The 39 nucleotide exon is flanked on either side by two relatively large introns of approximately 2600 and 2700 bases in size. RNase protection analysis indicated that the two corresponding mRNAs were coexpressed in both vascular and non-vascular smooth muscle tissues. This is the first demonstration of alternative RNA processing in a vertebrate myosin heavy chain gene and provides a novel mechanism for generating myosin heavy chain protein diversity in smooth muscle tissues.
J Mol Biol 1989 Dec 05
PMID:Myosin heavy chain isoform diversity in smooth muscle is produced by differential RNA processing. 261 41

Previous studies investigating the cellular origins of several collagens in young adult rat hearts (Eghbali et al., 1988) demonstrated that the mRNAs for types I and III collagen occurred in non-myocyte cells, mostly fibroblasts, whereas the mRNA for type IV collagen was observed in both myocytes and non-myocyte cells. In the present study, cellular localization of collagen mRNAs has been achieved by in situ hybridization in rat heart tissue and in isolated heart cells. Frozen tissue sections, isolated cardiomyocytes, cultured neonatal cardiomyocytes and fibroblasts were hybridized with DNA probes for type-specific collagens, actin, and myosin heavy chain. Silver grains were visualized by dark field imaging. In heart sections, types I and III mRNAs were observed predominantly adjacent to myocytes and in the interstitium, where fibroblasts are known to be present. In contrast, type IV collagen mRNA was identified both within the myocytes and the interstitium. In freshly isolated adult cardiomyocytes and in cultured neonatal cardiomyocytes, collagen type IV mRNA was observed but type I collagen mRNA was not. In cultured neonatal fibroblasts, both types IV and I collagen mRNAs were abundant.
J Mol Cell Cardiol 1989 Jan
PMID:Localization of types I, III and IV collagen mRNAs in rat heart cells by in situ hybridization. 271 64

Paramyosin is a major structural component of thick filaments isolated from many invertebrate muscles. The Caenorhabditis elegans paramyosin gene (unc-15) was identified by screening with specific antibodies an "exon-expression" library containing lacZ/nematode gene fusions. Short probes recovered from the library were used to identify bacteriophage lambda and cosmid clones that encompass the entire paramyosin (unc-15) gene. From these clones, numerous subclones containing epitopes reacting with anti-paramyosin sera were obtained, providing strong evidence that the initial cloned fragment was, in fact, derived from the structural gene for paramyosin. The complete nucleotide sequence of a 12 x 10(3) base-pair region spanning the gene was obtained. The gene is composed of ten short exons encoding a protein of 866 [corrected] amino acid residues. Paramyosin is highly similar to residues 267 to 1089 of myosin heavy chain rods. For most of its length, paramyosin appears to form an alpha-helical coiled-coil and shows the expected heptad repeat of hydrophobic amino acid residues and the 28-residue repeat of charged amino acids characteristic of myosin heavy chain rods. However, paramyosin differs from myosin in having non-helical extensions at both the N and C termini and an additional "skip" residue that interrupts the 28-residue repeat. The distribution of charges along the length of the paramyosin rod is also significantly different from that of myosin heavy chain rods. Potential charge-mediated interactions between paramyosin rods and between paramyosin and myosin rods were calculated using a model successfully applied previously to the analysis of the myosin rod sequences. Myosin rods aligned in parallel show optimal charge-charge interactions at multiples of 98 residue staggers (i.e. at axial displacements of multiples of 143 A). Paramyosin rods, in contrast, appear to interact optimally at parallel staggers of 493 residues (i.e. at axial displacements of 720 A) but show only weak interaction peaks at 98 or 296 residues. Similar calculations suggest optimal interactions between paramyosin molecules and myosin rods and in their anti-parallel alignments. The implications of these results for the structure of the bare zone and the assembly of nematode thick filaments are discussed.
J Mol Biol 1989 May 20
PMID:Paramyosin gene (unc-15) of Caenorhabditis elegans. Molecular cloning, nucleotide sequence and models for thick filament structure. 275 28


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