UNIPROT:Q07644 - FACTA Search

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Query: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Study of myosin and actomyosin preparations photocleavage conditioned by polyvanadates confirmed the data on V1 and V2 centre cleavage independence of bivalent cations. Actin does not change sufficiently the reaction in V1 centre and considerably slows down the reaction in V2 centre. These actin properties do not depend on bivalent cation (Mg2+), nor on preliminary incubation with vanadate. It was also discovered that preincubation with vanadate in EDTA medium results in myosin molecule cleavage with producing light (M 18 kD) fragments in both cases: with myosin and actomyosin preparations. Besides vanadate-dependent photocleavage of myosin peptide bonds, there were discovered photocrosslinkings of polypeptide chains in myosin and actomyosin preparations also depending on the presence of vanadate. In actomyosin preparations they probably lead to crosslinking of heavy minor proteins to heavy myosin chains.
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PMID:[Study of properties of the actomyosin complex using photo-cleavage of proteins by vanadates]. 180 93

The epithelial layer lining the proximal convoluted tubule of mammalian kidney contains a brush border of numerous microvilli. These microvilli appear in structure to be very similar to the microvilli on epithelial cells of the small intestine. Microvilli found in both the small intestine and the proximal convoluted tubules in kidney have a core bundle of actin filaments bundled by the accessory proteins villin and fimbrin. Along the length of intestinal microvilli, lateral links can be observed to connect the core bundle of actin filaments to the membrane. These cross-bridges are comprised of a 110-kDa calmodulin complex which belongs to a class of single-headed myosin molecules, collectively referred to as myosin-1. We now report that an analogous calmodulin-binding polypeptide of 105 kDa has been identified in rat kidney cortex. The 105-kDa polypeptide is preferentially found in purified kidney brush borders, can be extracted with ATP, and co-elutes with calmodulin on gel filtration and anion exchange chromatography. Fractions containing the 105-kDa polypeptide exhibit a modest ATPase activity in buffer containing CaCl2. The partially purified 105-kDa polypeptide will bind iodinated calmodulin and will sediment with F-actin in buffer containing ethylene glycol-bis-(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) or Ca2+. The addition of ATP partially reverses this association with F-actin. These results indicate that myosin-1, in addition to its presence in intestinal brush borders, is present in the brush border of kidney. We also provide preliminary evidence to indicate that the 105-kDa polypeptide is not restricted to tissues possessing a brush border.
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PMID:Identification of the microvillar 110-kDa calmodulin complex (myosin-1) in kidney. 183 82

Certain murine monoclonal antibodies (mAb) raised against structural proteins of mouse cytomegalovirus (MCMV) display distinct patterns of multiple organ-autoreactivity in addition to their viral specificities. We analysed the autoreactivity of five such mAb by immunoperoxidase histochemistry, western immunoblot and enzyme-linked immunosorbent assay (ELISA). Four mAb recognized cellular autoantigens in the salivary gland, lung, heart, liver, kidney, ileum, striated muscle and brain, as detected by immunoperoxidase histochemistry. However, the mAb showed different specificities for nuclear, cytoplasmic and surface membrane antigens on various cell types in addition to common autoreactivities. Immunoblot analyses showed that some of the mAb recognized polypeptides of various molecular weights obtained from 100,000 g supernatants of normal BALB/c liver, brain, striated and cardiac muscle homogenates. Reactivity of the mAb with a 200,000 molecular weight (MW) polypeptide was similar to our previous finding of the reaction of late immune polyclonal sera with a 200,000 MW polypeptide, the heavy chain of myosin. The mAb reacted to the cardiac isoform of myosin as determined by ELISA and immunoblot. Reactivity of mAb with cardiac myosin, as detected by immunoblot, was removed by absorption with cardiac myosin and recovered in the eluate. However, cardiac myosin used in a competitive inhibition ELISA did not abrogate the reactivity of the mAb with MCMV antigens. These anti-MCMV mAb appear to be multispecific for both virus and self-antigens, including cardiac myosin, and possibly recognize these different antigens through partly similar or distinct antigen-binding sites.
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PMID:Murine anti-cytomegalovirus monoclonal antibodies with autoreactivity. 185 Nov 34

Intact rabbit myosin and two different C-terminal fragments of rabbit muscle light meromyosin (LMM) expressed in Escherichia coli, LMM-30, and LMM-30C', were studied by 1H NMR spectroscopy. X-ray small-angle scattering shows that at high ionic strength two polypeptide chains of LMM-30 (which consists of the C-terminal 262 amino acids of myosin heavy chain) or LMM-30C' (which corresponds to LMM-30 but lacks the last 17 residues) assemble to form an alpha-helical coiled-coil as it is found also in myosin. The last 12 C-terminal residues of one polypeptide chain of LMM-30 and the last 9 C-terminal residues of the other chain are very mobile. The last 8 residues of the two strands are equivalent from the NMR point of view and unfolded; the valine residues in position 255 in the two strands are not equivalent, suggesting an interaction between the two strands, Ser-252, Arg-253, and Asp-254 are completely immobilized in one of the polypeptide strands and partly mobile in the other. Essentially the same pattern is observed in intact myosin. In spite of the large molecular weights of LMM-30 and LMM-30C', it is possible to resolve almost all aromatic residues and to determine the pK values of all the 4 tyrosine and of 9 (out of 10) histidine residues. The tyrosine residues in the two strands are equivalent in the two polypeptide chains and both have a pK of 10.5. The pK values of the histidine residues vary between 5.7 and 7.0.
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PMID:C-terminal structure and mobility of rabbit skeletal muscle light meromyosin as studied by one- and two-dimensional 1H NMR spectroscopy and X-ray small-angle scattering. 186 84

Spontaneous asparaginyl deamidation can produce damage to cytoskeletal proteins, and may lead to their targeting for subsequent rapid intracellular breakdown or repair. To test if myofibrillar proteins are subject to spontaneous deamidation damage in vitro, purified rat ventricular myosin light chain 1 (MLC1v) and phosphorylatable myosin light chain 2 (MPLC2v) were incubated (37 degrees C, 4 h, pH 2-11), and tested as substrates for human erythrocyte and rat cardiac protein carboxyl methyltransferase (PCMT). PCMT catalyzes the transfer of a methyl group from [3H-methyl] S-adenosyl methionine to deamidated asparaginyl residues and altered aspartyl residues on damaged proteins. MLC1v and MPLC2v underwent extensive incubation damage at neutral and alkaline pH. Sodium dodecyl sulfate polyacrylamide gel electrophoresis and fluorography revealed 3H-incorporation into MLC1v, MPLC2v, and a Mr = 14,000 polypeptide. 3H-methylated, CNBr-cleavage fragments of PCMT-methylated light chains were then separated by reverse-phase high performance liquid chromatography, and sequenced by automated Edman degradation. The major 3H-labeled peptide of the Mr = 14,000 protein proved homologous to residues 84 to 104 of rat MPLC2v, with a proposed deamidation site at Asn99-Ala100. The major 3H-labeled peptide from MLC1v proved homologous to residues 73 to 111 of rat cardiac MLC1v, with a proposed deamidation site at Asn108-Ser109. These results indicate that both myofibrillar protein subunits undergo selective non-enzymatic degradation at neutral and alkaline pH, resulting in the formation of methyl acceptor sites for human erythrocyte and rat cardiac PCMT. PCMT-catalyzed methylation of ventricular myosin light chains may be important in the repair, or subsequent proteolysis of these long-lived structural proteins of the myofibril.
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PMID:Asparaginyl deamidation-methylation of rat ventricular myosin light chains. 188 38

The way in which actin and myosin II become localized to the contractile ring of dividing cells resulting in cleavage furrow formation and cytokinesis is unknown. While much is known about actin binding proteins and actin localization, little is known about myosin localization. A 53-kDa (53K) polypeptide present in the sea urchin egg binds to myosin II in a nucleotide-dependent manner and mediates its solubility in vitro [Yabkowitz, R., & Burgess, D.R. (1987) J. Cell Biol. 105, 927-936]. The binding site of 53K on the myosin molecule was examined in an effort to understand the mechanism of 53K-induced myosin solubility and its potential function in myosin regulation. Blot overlay and chemical cross-linking techniques utilizing myosin proteolytic fragments indicate that 53K binds to fragments proximal to the head-rod junction of myosin. Fragments distal to the head-rod junction do not bind 53K. In addition, the binding of 53K to myosin largely inhibits protease digestion that produces the head and rod fragments. The binding of 53K to the head-rod domain of myosin may be critical in regulation of myosin conformation, localization, assembly, and ATPase activity.
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PMID:Mapping the binding domain of a myosin II binding protein. 193 49

We have determined the amino acid sequences of mullet white skeletal muscle myosin alkali light chains, LC1 and LC3. These are the first available fish myosin sequences. There are 29 differences between the mullet LC1 and LC3 sequences, spread throughout all regions of their polypeptide chains, leading us to conclude that fish myosin alkali light chains originate from two different genes. This finding is in sharp contrast to all previous studies on vertebrate fast skeletal muscle myosins, which showed that in birds and mammals LC1 and LC3 are produced from a single gene by alternative RNA transcription and splicing, yielding proteins which differ only in their N-terminal segments.
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PMID:Fish myosin alkali light chains originate from two different genes. 193 1

Antibodies previously used for immunofluorescence localization of a myosin heavy chain-like polypeptide to the nuclear envelope in higher eukaryotic cells crossreact with both muscle and nonmuscle isoforms of Drosophila myosin heavy chain. Analyses of Drosophila tissue culture cells and premyogenic embryos suggest that it is the nonmuscle isoform that is associated with the nuclear envelope. Further immunofluorescence and immunoelectron microscopy indicate that this polypeptide is associated with nuclear pore complexes. These data support the hypothesis put forward previously that myosin or myosin-like molecules play a role in pore complex architecture.
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PMID:Localization of a myosin heavy chain-like polypeptide to Drosophila nuclear pore complexes. 198 70

Two different mRNAs encoding two different nonmuscle myosin heavy chains (MHCs) of approximately 200 kD have been identified in chicken nonmuscle cells, in agreement with the results of Katsuragawa et al. (Katsuragawa, Y., M. Yanagisawa, A. Inoue, and T. Masaki. 1989. Eur. J. Biochem. 184:611-616). In this paper, we quantitate the content of mRNA encoding the two MHCs in a number of different tissues using RNA blot analysis with two specific oligonucleotide probes. Our results show that the relative content of mRNA encoding MHC-A and MHC-B differs in a tissue-dependent manner. Thus the ratio of mRNA encoding MHC-A versus MHC-B varies from greater than 9:1 in spleen and intestinal epithelial cells, to 6:4 in kidney and 2:8 in brain. The effect of serum on MHC mRNA expression was studied in serum-starved cultures of chick embryo fibroblasts. Serum stimulation results in a threefold increase in the mRNA encoding MHC-A and a threefold decrease in mRNA encoding MHC-B. Using SDS polyacrylamide gels, we have separated two nonmuscle MHC isoforms (198 and 196 kD) that can be distinguished from each other by two-dimensional peptide mapping of chymotryptic digests. We provide preliminary evidence that the MHC-A mRNA encodes the 196-kD polypeptide and that the MHC-B mRNA encodes the 198-kD polypeptide.
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PMID:Chicken nonmuscle myosin heavy chains: differential expression of two mRNAs and evidence for two different polypeptides. 199 62

We have investigated the time course of expression of the alpha and beta triad junctional foot proteins in embryonic chick pectoral muscle. The level of [3H]ryanodine binding in muscle homogenates is low until day E20 of embryonic development, then increases dramatically at the time of hatching reaching adult levels by day N7 posthatch. The alpha and beta foot protein isoforms increase in abundance concomitantly with [3H]ryanodine binding. Using foot protein isoform-specific antibodies, the alpha foot protein is detected in a majority of fibers in day E10 muscle, while the beta isoform is first observed at low levels in a few fibers in day E15 muscle. A high molecular weight polypeptide, distinct from the alpha and beta proteins, is recognized by antifoot protein antibodies. This polypeptide is observed in day E8 muscle and declines in abundance with continued development. It appears to exist as a monomer and does not bind [3H]ryanodine. In contrast, the alpha isoform present in day E10 muscle and the beta isoform in day E20 muscle are oligomeric and bind [3H]ryanodine suggesting that they may exist as functional calcium channels in differentiating muscle. Comparison of the intracellular distributions of the alpha foot protein, f-actin, the heavy chain of myosin and titin in day E10 muscle indicates that the alpha foot protein is expressed during myofibril assembly and Z line formation. The differential expression of the foot protein isoforms in developing muscle, and their continued expression in mature muscle, is consistent with these proteins making different functional contributions. In addition, the expression of the alpha isoform during the time of organization of a differentiated muscle morphology suggests that foot proteins may participate in events involved in muscle differentiation.
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PMID:Foot protein isoforms are expressed at different times during embryonic chick skeletal muscle development. 202 50

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