UNIPROT:P06889 - FACTA Search

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Using x-rays from a laboratory source and an area detector, myosin layer lines and the diffuse scattering between them in the moderate angle region have been recorded. At full overlap, incubation of rigor muscles with S-1 greatly reduces the diffuse scattering. Also, three of the four actin-based layer lines lying close to the meridian (Huxley, H. E., and W. Brown, 1967. J. Mol. Biol. 30:384-434; Haselgrove, J. C. 1975. J. Mol. Biol. 92:113-143) increase, suggesting fuller labeling of the actin filaments. These results are consistent with the idea (Poulsen, F. R., and J. Lowy, 1983. Nature [Lond.]. 303:146-152) that some of the diffuse scattering in rigor muscles is due to a random mixture of actin monomers with and without attached myosin heads (substitution disorder). In relaxed muscles, regardless of overlap, lowering the temperature from 24 to 4 degrees C practically abolishes the myosin layer lines (a result first obtained by Wray, J.S. 1987. J. Muscle Res. Cell Motil. 8:62 (a). Abstr.), whilst the diffuse scattering between these layer lines increases appreciably. Similar changes occur in the passage from rest to peak tetanic tension in live frog muscle (Lowy, J., and F.R. Poulsen. 1990. Biophys. J. 57:977-985). Cooling the psoas demonstrates that the intensity relation between the layer lines and the diffuse scattering is of an inverse nature, and that the transition occurs over a narrow temperature range (12-14 degrees C) with a sigmoidal function. From these results it would appear that the helical arrangement of the myosin heads is very temperature sensitive, and that the disordering effect does not depend on the presence of actin. Measurements along the meridian reveal that the intensity of the diffuse scattering increases relatively little and does so in a nearly linear manner: evidently the axial order of the myosin heads is much less temperature sensitive. The combined data support the view (Poulsen, F. R., and J. Lowy. 1983. Nature [Lond.]. 303:146-152) that in relaxed muscles a significant part of the diffuse scattering originates from disordered myosin heads. The observation that the extent of the diffuse scattering is greater in the equatorial than in the meridional direction suggests that the disordered myosin heads have an orientation which is on average more parallel to the filament axis.
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PMID:X-ray studies of order-disorder transitions in the myosin heads of skinned rabbit psoas muscles. 174 54

We have measured the mass per unit length of in vitro self-assembled smooth muscle myosin filaments, using scanning transmission electron microscope darkfield images of freeze-dried samples. The measured values were integral multiples, usually 1, 2, 3 or 4, of 75 kDa per nm. The data corroborate an earlier proposal, that these filaments are built from monolayer sheets of molecules, each sheet having two antiparallel myosin molecules per 14.3 nm of its length.
J Mol Biol 1991 Dec 05
PMID:Scanning transmission electron microscopic mass determination of in vitro self-assembled smooth muscle myosin filaments. 174 89

We have isolated and characterized five overlapping clones that encompass 3.2 kb and encode a part of the short subfragment 2, the hinge, and the light meromyosin regions of the myosin heavy chain rod as well as 143 bp of the 3' untranslated portion of the mRNA. Northern blot analysis showed expression of this mRNA mainly in ventricular muscle of the adult chicken heart, with trace levels detected in the atrium. Transient expression was seen in skeletal muscle during development and in regenerating skeletal muscle following freeze injury. To our knowledge, this is the first report of an avian ventricular myosin heavy chain sequence. Phylogenetic analysis indicated that this isoform is a distant homolog of other ventricular and skeletal muscle myosin heavy chains and represents a distinct member of the multigene family of sarcomeric myosin heavy chains. The ventricular myosin heavy chain of the chicken is either paralogous to its counterpart in other vertebrates or has diverged at a significantly higher rate.
J Mol Evol 1991 Oct
PMID:Structural and phylogenetic analysis of the chicken ventricular myosin heavy chain rod. 177 88

Proteins from biopsy of human heart muscle (n = 250) were studied. The supplementary fraction was found in a material from an individuum that coincided in molecular mass but differed in pI from the light chain of myosin usually expressed in the ventricular tissue of the heart muscle (LCM-1 v). The two-dimensional electrophoresis and immunoblotting have shown this supplementary fraction to be a rare allele of LCM-1 v.
Mol Gen Mikrobiol Virusol 1991 Nov
PMID:[A new variant of myosin light chain 1 detected in human cardiac tissue]. 180 10

The lysine-rich sequence (-KKGGKKK-) located at the 50,000/20,000 Mr junction of myosin subfragment-1 (S-1) was cleaved by endoprotease Arg-C or by trypsin in the presence of ATP and an equimolar amount of actin. Under these conditions, cleavage by Arg-C was between the first and second lysine residues, whereas cleavage by trypsin was between the third and fourth lysine residues. The actin-activated MgATPase activity of the S-1 cleaved by Arg-C was almost the same as native S-1, but S-1 cleaved by trypsin showed markedly reduced ATPase activity.
J Mol Biol 1991 Jan 20
PMID:Identification of the site important for the actin-activated MgATPase activity of myosin subfragment-1. 182 18

Myosin from the striated adductor muscle of the scallop Pecten maximus is shown to fold into a compact 10 S conformer under relaxing conditions, as has been characterized for smooth and non-muscle myosins. The folding transition is accompanied by the trapping of nucleotide at the active site to give a species with a half-life of about an hour at 20 degrees C. Ca2+ binding to the specific, regulatory sites on a myosin head promotes unfolding to the extended 6 S conformer and activates product release by 60-fold. The unfolding transition, however, remains much slower than the contraction-relaxation cycle of scallop striated muscle and could not play a role in the regulation of these events. The dissociation of products from myosin heads in native thick filaments is Ca2(+)-regulated, but under relaxing conditions the nucleotide is released at least an order of magnitude faster than from the 10 S monomeric myosin, at a rate similar to that observed with heavy meromyosin. Thus, there is no evidence for any intermolecular interaction between neighbouring molecules in the filament analogous to the head-neck intramolecular interaction in the 10 S conformer. It is possible that the 10 S myosin state represents an inert form involved in the control of filament assembly during muscle growth and development. Removal of regulatory light chains or labelling the reactive heavy chain thiol of myosin prevents, or at least disfavours, formation of the folded 10 S conformer and allows separation of the modified protein from the native molecules.
J Mol Biol 1991 Jan 20
PMID:A folded (10 S) conformer of myosin from a striated muscle and its implications for regulation of ATPase activity. 182 21

The regulatory light chains (RLCs) located on the myosin head, regulate the interaction of myosin with actin in response to either Ca2+ or phosphorylation signals. The RLCs belong to a family of calcium binding proteins and are composed of four "EF hand" ancestral calcium binding motifs (numbered I to IV). To determine the role of the first EF hand (EF hand I) in the regulatory process, chimaeric light chains were constructed by protein engineering, by switching this region between smooth muscle and skeletal muscle myosin RLCs. For example, chimaera G(I)S consisted of EF hand I of the smooth muscle (gizzard) RLC and EF hands II to IV of the skeletal muscle RLC, whereas chimaera S(I)G consisted of EF hand I of the skeletal muscle RLC and EF hands II to IV of the smooth muscle RLC. The chimaeric RLCs were expressed in Escherichia coli using the pLcII expression system, and after isolation and purification their regulatory properties were compared with those of wild-type smooth and skeletal muscle myosin RLCs. The chimaeric RLCs bound to the myosin heads in scallop striated muscle myofibrils from which the endogenous RLCs had been removed ("desensitized" myofibrils) with similar affinities to those of the wild-type smooth and skeletal muscle RLCs. Both chimaeric RLCs were able to regulate the actin-activated Mg(2+)-ATPase activity of scallop myosin: G(I)S inhibited the ATPase in the presence and absence of Ca2+, like the wild-type skeletal muscle RLC, while S(I)G inhibited the myosin ATPase in the absence of Ca2+, and this inhibition was relieved on Ca2+ addition, in the same way as the wild-type smooth muscle RLC. Thus the type of regulation that the RLCs confer on the myosin is determined by the source of EF hands II to IV rather than that of EF hand I.
J Mol Biol 1991 Apr 20
PMID:Chimaeric myosin regulatory light chains: sub-domain switching experiments to analyse the function of the N-terminal EF hand. 182 64

The influence of an increased temperature (39 degrees C) on a denaturation of 50 kDa-fragment of myosin subfragment 1 was studied in the presence of different nucleoside triphosphates (NTP) and nucleoside diphosphates (NDP). The degree of the denaturation was appreciated evaluated from its trypsinolysis depth. According to their protective influence NTP and NDP were shown to arrange in lines ATP greater than or equal to CTP greater than UTP greater than GTP and ADP greater than GDP greater than CDP greater than UDP, correspondingly. The results received and the literature data allow to suggest that there are at least two states of ATPase site hydrophobic pocket, one of which in responsible for sharp ATPase reaction slowing-down on the stage of macroergic bonding splitting.
Mol Biol (Mosk)
PMID:[Functionally different states of the "hydrophobic pocket" of the myosin ATPase center]. 183 76

While previous findings suggest that increased carbohydrate (CHO) provision and/or utilization can be involved in the up regulation of V1 cardiac isomyosin expression in both the insulin deficient and the semi-starved rat, little is known about the role of CHO provision and/or utilization in regulating isomyosin expression in normal animals. This study was undertaken to ascertain whether a limited carbohydrate provision combined with repeated episodes of an increased cardiac energy demand can induce a down regulation of the V1 cardiac myosin inoenzyme in normal, young adult rats, i.e., a response similar to that seen in insulin deficient/food restricted rats. Animals were assigned to one of three major groups according to diet and/or drug treatment: (1) a mixed-diet control group; (2) a low-carbohydrate (LC)/high-fat-diet group; and (3) a low-carbohydrate-diet group treated with 3-mercaptopicolinic acid (MPA), an inhibitor of gluconeogenesis. In each of the above groups, subgroups of animals were metabolically challenged with daily isoproterenol injections (0.2 mg/kg/day) sufficient to markedly elevate cardiac work for at least 3 h. Four weeks of treatment reduced myofibrillar calcium activated ATPase activity by 17% (P less than 0.05) in the LC-diet-fed group treated with both isoproterenol and MPA. No change in myofibril ATPase was observed in any of the other experimental groups relative to the mixed diet control group. Isomyosin profile was not changed in any of the experimental groups. Tissue glycogen and plasma glucose and free fatty acid analyses provided indirect evidence of an increased utilization of fat for energy provision, especially in the low-carbohydrate-diet groups treated with MPA.(ABSTRACT TRUNCATED AT 250 WORDS)
J Mol Cell Cardiol 1991 Apr
PMID:Effects of low carbohydrate provision on isomyosin expression in the isoproterenol stressed rat heart. 183 53

Sodium has been identified as a causal factor in the development of hypertension in experimental animal models as well as in clinical human subjects. Sodium is also known to play a role in modulating myocardial mass and its pattern of myosin isozyme distribution. In the rodent model, the accumulation of V3 myosin isozyme (MI), due to the modulating influence of sodium, has been shown to be associated with persistent cardiac hypertrophy and heart failure. In this paper, we have examined the effect of the restriction of dietary sodium on blood pressure, ventricular weight and myosin isoforms in spontaneously hypertensive rats (SHR) and the relationship of these parameters with age. In 10- to 11-week-old SHR, dietary sodium restriction for 14 weeks resulted in a significant reduction in ventricular mass associated with systolic shifting of myosin isoform from V3 type to V1 type with no change in systolic blood pressure level; dietary sodium restriction also showed a significant reduction in body weight. When the effect of dietary sodium restriction (for 8 weeks) was studied in relation to age (in 11-, 16- and 24-week-old rats) a significant shift in myosin isoform from the V3 to the V1 type was noted in the 11-week-old rats; a slight but significant shift was noted in 16-week-old rats, and no change in myosin isoform distribution was noted in the 24-week-old SHR. The alteration in myosin isoform and myocardial mass in the 11- and 16-week-old rats was independent of changes in systolic blood pressure. This study demonstrates that sodium plays an important role not only in modulating myocardial mass but also in changing the biochemical composition of the heart. This study also suggests that in genetic hypertension, the restriction of sodium at a very young age may fully prevent the development of hypertension and hypertrophy. However, the mechanism by which the sodium ion modulates myocardial mass and the expression of either V1 or V3 myosin genes is unknown; the question of how sodium affects the cardiac function also remains. Some evidence suggests that sympathetic outflow may play an important role, but further studies are needed to validate this.
J Mol Cell Cardiol 1991 Jun
PMID:Effect of sodium deprivation on cardiac hypertrophy in spontaneously hypertensive rats: influence of aging. 183 55

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