UMLS:C0272170 - FACTA Search

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Query: UMLS:C0272170 (SDS)
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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

Exhaustive extraction of human platelets with 6 M guanidine-HCl, and 5% beta-mercaptoethanol, followed by 5% SDS resulted in a sedimentable material which showed fibrous structure by transmission electron microscopy. When platelets treated with 8 M urea, 50 mM DTT and 2% SDS were applied on a 3% solubilizable acrylamide gel a high molecular weight material could be also isolated which was highly crosslinked by epsilon(gamma-glutamyl)lysine bonds. Its amino acid composition was Asp 110, Glu 119, Ser 55, Gly 70, Arg 33, Thr 41, Ala 112, Pro 93, Tyr 35, Val 18, Met 55, Cys 46, IIe 47, Leu 71, Phe 27, Lys 76 expressed as residue per 1000. The quantity of platelet polymer material as well as the amount of epsilon(gamma-glutamyl)lysine bond was slightly higher in thrombin activated platelets. The insoluble matrix of resting platelets reacts with antibodies against spectrin, alpha-actinin, actin, myosin, tropomyosin. The matrix from activated platelets has shown reaction with additional antibodies including ones against blood coagulation factor XIIIa, fibrinogen, von Willebrand factor, thrombospondin, tubulin and filamin. The presence of an epsilon(gamma-glutamyl)lysine cross-linked cell matrix in platelets is consistent with the observation of a similar structure in other cells.
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PMID:The presence of a covalently cross-linked matrix in human platelets. 200 80

The results discussed in the preceding paper (Levine, R. J. C., J. L. Woodhead, and H. A. King. 1991. J. Cell Biol. 113:563-572.) indicate that A-band shortening in Limulus muscle is a thick filament response to activation that occurs largely by fragmentation of filament ends. To assess the effect of biochemical changes directly associated with activation on the length and structure of thick filaments from Limulus telson muscle, a dually regulated tissue (Lehman, W., J. Kendrick-Jones, and A. G. Szent Gyorgyi. 1973. Cold Spring Harbor Symp. Quant. Biol. 37:319-330.) we have examined the thick filament response to phosphorylation of myosin regulatory light chains. In agreement with the previous work of J. Sellers (1981. J. Biol. Chem. 256:9274-9278), Limulus myosin, incubated with partially purified chicken gizzard myosin light chain kinase (MLCK) and [gamma 32P]-ATP, binds 2 mol phosphate/mole protein. On autoradiographs of SDS-PAGE, the label is restricted to the two regulatory light chains, LC1 and LC2. Incubation of long (greater than or equal to 4.0 microns) thick filaments, separated from Limulus telson muscle under relaxing conditions, with either intact MLCK in the presence of Ca2+ and calmodulin, or Ca2(+)-independent MLCK obtained by brief chymotryptic digestion (Walsh, M. P., R. Dabrowska, S. Hinkins, and D. J. Hartshorne. 1982. Biochemistry. 21:1919-1925), causes significant changes in their structure. These include: disordering of the helical surface arrangement of myosin heads as they move away from the filament backbone; the presence of distal bends and breaks, with loss of some surface myosin molecules, in each polar filament half; and the production of shorter filaments and end-fragments. The latter structures are similar to those produced by Ca2(+)-activation of skinned fibers (Levine, R. J. C., J. L. Woodhead, and H. A. King. J. Cell Biol. 113:563-572). Rinsing experimental filament preparations with relaxing solution before staining restores some degree of order of the helical surface array, but not filament length. We propose that outward movement of myosin heads and thick filament shortening in Limulus muscle are responses to activation that are dependent on phosphorylation of regulatory myosin light chains. Filament shortening may be due, in large part, to breakage at the filament ends.
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PMID:Effects of phosphorylation by myosin light chain kinase on the structure of Limulus thick filaments. 201 36

Here we present evidence that strongly suggests that the well-documented phenomenon of A-band shortening in Limulus telson muscle is activation dependent and reflects fragmentation of thick filaments at their ends. Calcium activation of detergent-skinned fiber bundles of Limulus telson muscle results in large decreases in A-band (from 5.1 to 3.3 microns) and thick filament (from 4.1 to 3.3 microns) lengths and the release of filament end fragments. In activated fibers, maintained stretched beyond overlap of thick and thin filaments, these end fragments are translocated to varying depths within the I-bands. Here they are closely associated with fine filamentous structures that also span the gap between A- and I-bands and attach to the distal one-third of the thick filaments. End-fragments are rarely, if ever, present in similarly stretched and skinned, but unstimulated fibers, although fine "gap filaments" persist. Negatively stained thick filaments, separated from skinned, calcium-activated, fiber bundles, allowed to shorten freely, are significantly shorter than those obtained from unstimulated fibers, but are identical to the latter with respect to both the surface helical array of myosin heads and diameters. Many end-fragments are present on grids containing thick filaments from activated fibers; few, if any, on those from unstimulated fibers. SDS-PAGE shows no evidence of proteolysis due to activation and demonstrates the presence of polypeptides with very high molecular weights in the preparations. We suggest that thick filament shortening is a direct result of activation in Limulus telson muscle and that it occurs largely by breakage within a defined distal region of each polar half of the filament. It is possible that at least some of the fine "gap filaments" are composed of a titin-like protein. They may move the activation-produced, fragmented ends of thick filaments to which they attach, into the I-bands by elastic recoil, in highly stretched fibers.
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PMID:The effect of calcium activation of skinned fiber bundles on the structure of Limulus thick filaments. 201 37

Previous studies demonstrated two myosin heavy chain isoforms in vascular smooth muscles with SDS-polyacrylamide gel electrophoresis; MHC1 (204 kDa) and MHC2 (200 kDa). We report the existence of a novel myosin heavy chain isoform, MHC3 (196 kDa), which was exclusively contained in inferior vena cava. Equal amount of MHC1 and MHC2 was observed in aorta and pulmonary artery, respectively. However, inferior vena cava contained only MHC3. Proteolytic artifact was refuted by immunoblotting of tissue homogenates without purification, or SDS-polyacrylamide gel electrophoresis of myosin bands isolated by pyrophosphate gel electrophoresis. Furthermore, alpha-chymotryptic cleavage of MHC1, MHC2, and MHC3 displayed different peptide maps, indicating the primary structural difference among all three isoforms.
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PMID:A novel myosin heavy chain isoform in vascular smooth muscle. 203 19

Although a substantial literature exists on the in vitro polymerization of purified myosin, little is known about native thick filament assembly, remodeling or turnover. We have recently described a cell-free system (Bouche et al., 1988) to examine the interactions between thick filaments and soluble, newly synthesized myofibrillar proteins. In the present manuscript we describe our studies on myosin heavy (MHC) and light chain (LC) incorporation into myofibrils or native and synthetic thick filaments. 35S-labeled myofibrillar proteins or myosin subunits were synthesized in a reticulocyte lysate translation system after which myofibrils or myofilaments were added and incubated with these proteins in the lysate. The added filaments were then sedimented and analyzed by SDS-PAGE and fluorography to establish which of the labeled protein subunits were co-pelleted. Operationally, this co-sedimentation of labeled proteins with myofilaments has been termed 'protein incorporation'. We observed that newly synthesized MHC, LCs 1, 2 and 3 all incorporated into the thick filaments. However, the quantity and specificity of LC incorporation depended upon the structure or composition of the filaments. LCs 1 and 3 were preferentially incorporated into myofibrils and native thick filaments, whereas LC2 was selectively taken up by synthetic filaments prepared from purified myosin. These results suggest that soluble MHCs and LCs interact independently with myofilaments. This hypothesis is supported by the observation that selective removal of soluble MHCs, or of a single LC, did not alter the incorporation of the remaining myosin subunits. Similarly, MHCs synthesized in the absence of LCs also incorporated into myofilaments or myofibrils. We propose that myosin subunits are capable of independent incorporation into and exchange from myofilaments.
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PMID:Cell-free incorporation of newly synthesized myosin subunits into thick myofilaments. 206 10

1. The present study confirmed that light chains of Drosophila adult fibrillar (flight) muscle myosin consist of Lf1, Lf2, Lf2' and Lf3, and tubular muscle myosin light chains contain Lt1, Lt2, Lt2' and Lt3, as revealed by two-dimensional (isoelectric focusing and SDS-gel electrophoresis) gel electrophoresis. 2. Larva myosin light chains were of all the tubular type. However, it was found that Lt1 and Lt2' are produced by phosphorylation of Lt2, and Lf1 is produced by phosphorylation of Lf2'. 3. Injection of radioactive phosphate into Drosophila fly resulted in phosphorylations of Lf1 and Lt1. When larva or late pupa myosin was incubated with myosin light chain kinase from chicken gizzard or adult flies, phosphorylation of Lt1, Lf2' and Lt2' occurred. Drosophila myosin light chain kinase phosphorylated Lf1 in addition to Lt1 and L2' (Lf2' + Lt2') of adult myosin. 4. Dephosphorylation of adult myosin by potato acid and calf intestine alkaline phosphatases led to the shift of Lf1 (34,000), Lt1 (31,000) and L2' (Lf2' + Lt2') (30,000) to L2 (Lf2 + Lt2) positions (30,000). 5. Peptide mapping analyses revealed that larva Lt1, Lt2', Lt2 and adult Lt1 were all the same; therefore, it is thought that a single species of Lt2 specific to the tubular type of myosin and its phosphorylated isoforms (Lt1, Lt2') exist. 6. The peptide map of Lf1 was slightly different from that of Lt1, but very similar to that of L2' in adult myosin. L2 and L2' of adult myosin showed very similar peptide maps, but there were several different peptide fragments.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorylated and dephosphorylated myosin light chains of Drosophila fly and larva. 211 49

Normal human left ventricular myocardium was obtained within 5 hours after death. Crude cardiac myosin was extracted from the myocardium by the method of Schossler, and cardiac myosin light chains (CMLC) were purified by isoelectric precipitation, fast protein liquid chromatography and preparative SDS-PAGE, respectively. The three methods were compared. The Ca2(+)-activated ATPase activity of cardiac myosin was 101.4 nmole Pi/mg/min. Molecular weights of CMLCI (24500) and CMLC II (20,000) were identified by analytical SDS-PAGE. All of the results mentioned above were consistent with data reported in the literature. An analytical electrophoresis test of the stability of CMLC stored at -20 degrees C demonstrated that liquid CMLC at long storage times or lower concentrations was easily degraded.
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PMID:[Purification and identification of human cardiac myosin light chains]. 214 Jul 23

Skeletal muscle fibers from muscular dystrophic mice (C57BL/10-mdx) 1-4 months of age show elevated free Ca2+ concentrations both at resting and stimulated states, although contractility of adult (2-12 months old) mouse is similar to that of normal mouse. To evaluate the sensitivity of the contractile system of adult mdx mouse muscle to elevated free Ca2+ concentration, Mg2(+)-adenosine triphosphatase (ATPase) activity was examined using myosin, myosin B, and reconstituted actomyosin. Myosin Mg2(+)-ATPase activity of the mdx mouse was significantly higher than that of the normal mouse. Myosin B ATPase activity of the mdx mouse was also higher than that of normal mouse in free Ca2+ concentrations between 10(-9) and 10(-5) M, though there was no difference in the Ca2+ concentration required for half maximal activation of ATPase activity, 2 x 10(-7) M. Polymerized actin (FA) isolated from normal and mdx mice activated rabbit myosin Mg2(+)-ATPase identically, while activation of Mg2(+)-ATPase in mdx myosin by rabbit FA was significantly lower than that in normal mouse myosin. Rapid Pi liberation by Mg2(+)-ATPase in mdx mouse myosin was about half that of normal mouse myosin, being consistent with low activation of Mg2(+)-ATPase activity by rabbit FA. Polyacrylamide gel electrophoresis in the presence of pyrophosphate showed that myosin molecules of mdx and normal mice were both composed of three isozymes, although the fast migrating myosin isozyme (M1) was decreased while the slow migrating band (M3) was increased in mdx myosin. Subunit composition of myosin analyzed by polyacrylamide gel electrophoresis in the presence of SDS showed that the content of the smallest light chain (LC3) in mdx myosin was lower than that of normal mouse myosin, which agreed with findings that mdx myosin contained less M1 isozyme than normal myosin. These results indicated that the lowered response of mdx muscle fibers to elevated Ca2+ concentration can be attributed to the isozyme composition of myosin in mdx mouse.
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PMID:Kinetic properties and isozyme composition of myosin in the mdx mutant mouse. 214 75

Abalone myosin contains two kinds of light chain, regulatory light chain (LC2) and essential light chain (LC1) according to SDS-PAGE. Three distinct light chain bands were observed on polyacrylamide gel electrophoresis of purified abalone myosin in the presence of urea (urea-PAGE). The slower two components showed had mobility on SDS-PAGE and they also showed regulatory activity as the regulatory light chain. They were termed LC2-a and LC2-b in order of increasing mobility on urea-PAGE and isolated by DE-32 ion exchange column chromatography in the presence 8 M urea. The ratio of LC2-a and LC2-b in the central portion of adductor muscle of abalone (LC2-a: LC2-b = 7:3) was different from that (1:1) in the peripheral portion. These results suggest that the two light chains are isoforms of the regulatory light chain. The amino acid compositions of LC2-a and LC2-b were very similar to each other except for the Cys content. The UV absorption spectra were also quite similar, as were the UV difference absorption spectra induced by Ca2+. Phosphorylation was not detectable with the myosin light chain kinase of chicken gizzard. The Ca2+ concentration dependencies of Mg-ATPase activity of LC2-a or LC2-b hybridized abalone myosin (a-myosin, b-myosin) were similar to each other in the absence of rabbit F-actin, but differed in the presence of actin. The b-myosin had a higher maximum value of actomyosin ATPase activity and a lower apparent binding constant of actin and myosin than a-myosin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Two isoforms of regulatory light chain of abalone smooth muscle myosin. 215 May 17

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