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Query: UNIPROT:P06889 (Mol)
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The parameters of fluorescence spectra of myosin and its subunits in Tris-HCl-buffer (pH 7.2) were studied. Analysis of the experimental results of myosin fluorescence quenching with I-ions and the quantum yield of the fluorescence at the excitation wavelength 296 nm shows that the greater part of the tryptophan residues (21 out of 28) is located in the hydrophylic environment. Concentrated solutions of NaCl and KCl do not affect myosin fluorescence, while LiCl, which changes the quaternary structure of the protein, brings about a change in the parameters of the myosin fluorescence spectra. This may be linked with structural changes accompanying the dissociation of the ligh subunits of myosin in the presence of LiCl.
Mol Biol (Mosk)
PMID:[Fluorescence of myosin and its subunits in concentrated salt solutions]. 121 99

Myosin participates in a varying repertoire of cellular functions ranging from cytokinesis, receptor capping and secretion to sarcomere contraction. In vertebrates this functional complexity is achieved through the regulated expression of gene families encoding isoproteins for each of the myosin subunits. We report here the identification and characterization of a gene (MYL5) that encodes a novel regulatory myosin light chain isoprotein and maps 700 kb from the human chromosome 4p telomere. Identical cDNAs have been isolated from human adult retina and fetal muscle cDNA libraries. A full length 519 bp open reading frame was identified in the cDNA sequence encoding a predicted protein of 173 residues. Sequence analysis of a 5.6 kb genomic region that encodes these cDNAs revealed the presence of 7 exons which span 4 kb. Expression of this gene has been detected in human adult retina, cerebellum, basal ganglia and fetal skeletal muscle. Whereas Northern analysis fails to detect transcription of this gene in human adult skeletal muscle it reveals an abundant transcript in monkey skeletal muscle. Phylogenetic comparison of the predicted proteins primary structure to those of related myosin light chains from Drosophila, rat and human reveal evolutionarily conserved structural motifs important for both calcium binding and phosphorylation.
Hum Mol Genet 1992 Dec
PMID:The genomic organization of a novel regulatory myosin light chain gene (MYL5) that maps to chromosome 4p16.3 and shows different patterns of expression between primates. 128 96

Proteins from grossly and histologically normal human aortic intimas and human aortic intima with fatty streaks or fibro-fatty lesions were extracted with 9 M urea mixture. Protein extracts were mixed with an internal absorbance calibrator (carbonic anhydrase) and subsequently separated by two-dimensional gel electrophoresis, silver stained, and quantitated by a laser beam densitometer. The vascular-origin proteins actin, tropomyosin-like proteins, tubulin, glycoprotein G35, and two myosin light chains were present in the highest amounts in normal aortic intima (27-year-old male). Quantitation of vascular-origin proteins in aortic intima with a fibro-fatty lesion from the same subject showed a slight decrease in relative amount of these proteins as compared to the normal intima. Several polypeptides (P15, P18, P60, P110b) and plasma-derived proteins not observed in the normal intima were found in fibro-fatty lesion (albumin, haptoglobin beta-chain, fibrinogen beta-chain, alpha 1-HS-glycoprotein). Other proteins which were present in very low amounts in the normal intima (transferrin, alpha 1-antitrypsin, apolipoprotein A-1, P56, P190) were found to be major proteins of intima with fibro-fatty lesion. Differences in relative amount of plasma-derived and vascular-origin proteins between normal intima and intima with fatty streaks, studied in a large number of specimens from 38 thoracic intimas and 18 paired abdominal intimas (16-34 years old) were less prominent. Statistically significant increases of the albumin/actin ratio were found in fatty streaks as compared to paired normal intimas as well as in the mean value of albumin/actin ratio in the group of fibro-fatty lesions (mean = 6.1) as compared to the group of fatty streaks (mean = 1.7) or normal intima (mean = 0.7). Several lesion unique proteins were observed; however, the frequency of the occurrence of these proteins in 41 specimens with lesion was low. No significant differences were observed in intima protein pattern and quantities of selected intima proteins between paired thoracic and abdominal aortas.
Exp Mol Pathol 1992 Dec
PMID:Quantitative alteration of some aortic intima proteins in fatty streaks and fibro-fatty lesions. 128 71

The contractile protein myosin is thought to subserve motility-related functions in a wide range of eukaryotic non-muscle cells including both neurons and glia. To determine if the Ca2+/calmodulin-dependent enzyme, myosin light chain kinase (MLCK) is involved in the regulation of neural myosin we investigated the presence and localization of MLCK in a variety of neural tissues by immunoblotting and immunocytochemistry. A specific immunoreactive protein (M(r) = 146,000) was detected in blotted homogenates from many regions of rat brain and from primary cultures of either astrocytes or cerebellar granule cells grown in the absence of other cell types. At the light microscopic level, MLCK-immunoreactivity was evident in many regions of rat brain, as well as in the cultured astrocytes and cerebellar granule cells. MLCK-immunoreactivity was observed to be largely cytosolic in astrocytes but with a proportion associated with the cytoskeleton. In the cerebellar granule cells immunoreactivity was present in neuronal processes as well as somata. The detection of MLCK in neural cells suggests that MLCK-catalyzed myosin phosphorylation may couple changes in intracellular calcium concentrations to motility-related functions of neurons and glia.
Brain Res Mol Brain Res 1992 Jun
PMID:Myosin light chain kinase is expressed in neurons and glia: immunoblotting and immunocytochemical studies. 132 15

The structure of glycerinated Lethocerus insect flight muscle fibers, relaxed by spin-labeled ATP and vanadate (Vi), was examined using X-ray diffraction, electron microscopy and electron paramagnetic resonance (e.p.r.) spectra. We obtained excellent relaxation of MgATP quality as determined by mechanical criteria, using vanadate trapping of 2' spin-labeled 3' deoxyATP at 3 degree C. In rigor fibers, when the diphosphate analog is bound in the absence of Vi, the probes on myosin heads are well-ordered, in agreement with electron microscopic and X-ray patterns showing that myosin heads are ordered when attached strongly to actin. In relaxed muscle, however, e.p.r. spectra report orientational disorder of bound (Vi-trapped) spin-labeled nucleotide, while electron microscopic and X-ray patterns both show well-ordered bridges at a uniform 90 degrees angle to the filament axis. The spin-labeled nucleotide orientation is highly disordered, but not completely isotropic; the slight anisotropy observed in probe spectra is consistent with a shift of approximately 10% of probes from angles close to 0 degrees to angles close to 90 degrees. Measurements of probe mobility suggest that the interaction between probe and protein remains as tight in relaxed fibers as in rigor, and thus that the disorder in relaxed fibers arises from disorders of (or within) the protein and not from disorder of the probe relative to the protein. Fixation of the relaxed fibers with glutaraldehyde did not alter any aspect of the spectrum of the Vi-trapped analog, including the slight order observed, showing that the extensive inter- and intra-molecular cross-linking of the first step of sample preparation for electron microscopy had not altered relaxed crossbridge orientations. Two models that may reconcile the apparently disparate results obtained on relaxed fibers are presented: (1) a rigid myosin head could possess considerable disorder in the regular array about the thick filament; or (2) the nucleotide site could be on a disordered, probably distal, domain of myosin, while a more proximal region is well ordered on the thick filament backbone. Our findings suggest that when e.p.r. probes signal disorder of a local site or domain, this is complementary, not contradictory, to signals of general order. The e.p.r. spectra show that a portion of the myosin molecule can be disordered at the same time as the X-ray diffraction and electron microscopy show the bulk of myosin head mass to be uniformly oriented and regularly arrayed.
J Mol Biol 1992 Oct 05
PMID:Insect crossbridges, relaxed by spin-labeled nucleotide, show well-ordered 90 degrees state by X-ray diffraction and electron microscopy, but spectra of electron paramagnetic resonance probes report disorder. 132 52

cDNAs encoding the rod region of four different fast myosin heavy chains (MYCHs) in the chicken were identified, using anti-MYCH monoclonal antibodies, in two expression libraries prepared from 19-day embryonic and adult chicken muscle. These clones were used to determine the amino acid sequences that encompass the epitopes of five anti-MYHC monoclonal antibodies. Additionally, the amino acid sequences were compared to each other and to a full length embryonic MYHC. Although there is extensive homology in the chicken fast myosin rods, sequences within the hinge, within the central portion of the light meromyosin fragment, and at the carboxy terminus exhibit the largest number of amino acid substitutions. We propose that divergence within these subdomains may contribute to isoform-specific properties associated with skeletal myosin rods.
J Mol Biol 1992 Jun 20
PMID:Analysis of the chicken fast myosin heavy chain family. Localization of isoform-specific antibody epitopes and regions of divergence. 137 78

We have used molecular replacement followed by a highly parameterized refinement to determine the structure of tropomyosin crystals to a resolution to 9 A. The shape, coiled-coil structure and interactions of the molecules in the crystals have been determined. These crystals have C2 symmetry with a = 259.7 A, b = 55.3 A, c = 135.6 A and beta = 97.2 degrees. Because of the unusual distribution of intensity in X-ray diffraction patterns from these crystals, it was possible to solve the rotation problem by inspection of qualitative aspects of the diffraction data and to define unequivocally the general alignment of the molecules along the (332) and (3-32) directions of the unit cell. The translation function was then solved by a direct search procedure, while electron microscopy of a related crystal form indicated the probable location of molecular ends in the asymmetric unit, as well as the anti-parallel arrangement. The structural model we have obtained is much clearer than that obtained previously with crystals of extraordinarily high solvent content and shows the two alpha-helices of the coiled coil over most of the length of the molecules and establishes the coiled-coil pitch at 140(+/- 10) A. Moreover, the precise value of the coiled-coil pitch varies along the molecule, probably in response to local variations in the amino acid sequence, which we have determined by sequencing the appropriate cDNA. The crystals are constructed from layers of tropomyosin filaments. There are two molecules in the crystallographic asymmetric unit and the molecules within a layer are bent into an approximately sinusoidal profile. Molecules in consecutive layers in the crystal lie at an angle relative to one another as found in crystalline arrays of actin and myosin rod. There are three classes of interactions between tropomyosin molecules in the spermine-induced crystals and these give some insights into the molecular interactions between coiled-coil molecules that may have implications for assemblies such as muscle thick filaments and intermediate filaments. In interactions within a layer, the geometry of coiled-coil contacts is retained, whereas in contacts between molecules in adjacent layers the coiled-coil geometry varies and these interactions instead appear to be dominated by the repeating pattern of charged zones along the molecule.
J Mol Biol 1992 Sep 20
PMID:Structure of tropomyosin at 9 angstroms resolution. 140 62

The amino-acid sequence of the short subfragment-2 in the amino-terminal portion of subfragment-2 derived from adult chicken ventricular muscle myosin was completely determined by direct protein analysis. Peptides fragmented by cyanogen bromide, lysyl endopeptidase and arginyl endopeptidase of S-carboxymethylated S-2 and peptides of large CNBr peptides cleaved by dilute formic acid were separated and sequenced. This short S-2 composed of 259 amino-acid residues was found highly conserved and contained hydrophobic and charged residue repeat units. Comparing this sequence with the partial nucleotide sequence of cDNA corresponding to short S-2 (Stewart A.F.R., et al. (1991) J. Mol. Evol. 33, 357-366), a 64 amino-acid residues extension towards the NH2 terminus and 9 residues differences were observed. Furthermore, this sequence is compared with those of rat, rabbit and human ventricular myosins, and 86.1%, 86.5%, 86.5% sequence identities are observed, respectively.
 ...
PMID:Amino-acid sequence of the short subfragment-2 in adult chicken cardiac muscle myosin. 141 75

The actin-based cytomatrix generates stress fibers containing a host of proteins including actin and myosin II and whose dynamics are easily observable in living cells. We developed a dual-radioisotope-based assay of myosin II phosphorylation and applied it to serum-deprived fibroblasts treated with agents that modified the dynamic distribution of stress fibers and/or altered the phosphorylation state of myosin II. Serum-stimulation induced an immediate and sustained increase in the level of myosin II heavy chain (MHC) and 20-kDa light chain (LC20) phosphorylation over the same time course that it caused stress fiber contraction. Cytochalasin D, shown to cause stress fiber fragmentation and contraction, had little effect on myosin II phosphorylation. Okadaic acid, a protein phosphatase inhibitor, induced a delayed but massive cell shortening preceded by a large increase in MHC and LC20 phosphorylation. Staurosporine, a kinase inhibitor known to effect dissolution but not contraction of stress fibers, immediately caused an increase in MHC and LC20 phosphorylation followed within minutes by the dephosphorylation of LC20 to a level below that of untreated cells. We therefore propose that the contractility of the actin-based cytomatrix is regulated by both modulating the activity of molecular motors such as myosin II and by altering the gel structure in such a manner as to either resist or yield to the tension applied by the motors.
Mol Biol Cell 1992 Sep
PMID:Myosin II phosphorylation and the dynamics of stress fibers in serum-deprived and stimulated fibroblasts. 142 76

We have used an antibody to a previously identified 180 kDa (Hmp1) protein in Escherichia coli to clone the corresponding gene, which encodes a polypeptide of 114 kDa that has a mobility equivalent to 180 kDa in SDS/PAGE. We have demonstrated that the 180 kDa polypeptide is the primary gene product and not due to aggregation with other molecules. Moreover, our data indicate that the highly charged C-terminal region of the protein is responsible for its anomalous behaviour when analysed by SDS/PAGE. The hmp1 gene is in fact identical to ams (abnormal mRNA stability), also designated rne (RnaseE), and reported to have an ORF of 91 kDa. This discrepancy with the data in this paper can be ascribed to the omission of two bases in the previously reported sequence, generating an apparent stop codon. We previously demonstrated that the 180 kDa Hmp1/Ams protein cross reacted with both a polyclonal antibody and a monoclonal antibody raised against a yeast heavy chain myosin. However, we could detect no homology with myosin genes in the ams/hmp1 sequence. From the DNA sequence data, we identified a putative nucleotide binding site and a transmembrane domain in the N-terminal half of the molecule. In the C-terminal half, which appears to constitute a separate domain dominated by proline and charged amino acids, we also identified a region homologous to the highly conserved 70 kDa snRNP protein, involved in RNA splicing in eukaryotes. This feature would be consistent with reports that ams encodes RNaseE, an enzyme required for the processing of several stable RNAs in E. coli.
J Mol Biol 1992 Nov 05
PMID:Cloning and analysis of the entire Escherichia coli ams gene. ams is identical to hmp1 and encodes a 114 kDa protein that migrates as a 180 kDa protein. 818 58


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