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Myosin molecule schematic

Fig. 2. Structure of the myosin molecule. Schematic representation (components are not drawn to scale)... Fig. 2. Structure of the myosin molecule. Schematic representation (components are not drawn to scale)...
Figure 13, A schematic diagram of the motility assay. Myosin molecules (HMM or S-1 are also used) stick to glass coverslips coated with nitrocellulose. Actin, in solution, is then added to the glass coverslip and it binds to the myosin molecules. When ATP is added, actin can move over the surface, propelled by the myosin molecules. Figure 13, A schematic diagram of the motility assay. Myosin molecules (HMM or S-1 are also used) stick to glass coverslips coated with nitrocellulose. Actin, in solution, is then added to the glass coverslip and it binds to the myosin molecules. When ATP is added, actin can move over the surface, propelled by the myosin molecules.
Figure 8.10 Schematic drawing of the myosin molecule. Note that trypsin produces two fragments, light and heavy meromyosins. Figure 8.10 Schematic drawing of the myosin molecule. Note that trypsin produces two fragments, light and heavy meromyosins.
Figure 34.19. Thick Filament. (A) An electron micrograph of a reconstituted thick filament reveals the presence of myosin head domains at each end and a relatively narrow central region. (B) A schematic view shows how myosin molecules come together to form the thick filament. [Part A courtesy of Dr. Hugh Huxley.]... Figure 34.19. Thick Filament. (A) An electron micrograph of a reconstituted thick filament reveals the presence of myosin head domains at each end and a relatively narrow central region. (B) A schematic view shows how myosin molecules come together to form the thick filament. [Part A courtesy of Dr. Hugh Huxley.]...
FIGURE 7.5 Schematic representation of the myosin molecule. (From Sikorski, Z.E., Proteins, in Chemical and Functional Properties of Food Components, Sikorski, Z.E., Ed., Technomic Publishing Co. Inc., PA, 1997. With permission.)... [Pg.148]

Fig. 12.9. Schematic representations of (a) a myosin molecule (according to Lehninger, 1975), (b) arrangement of the Z line (7), actin (2), titin (3) and myosin ( ) in the sarcomere (I) stretched muscle, (II) contracted muscle... Fig. 12.9. Schematic representations of (a) a myosin molecule (according to Lehninger, 1975), (b) arrangement of the Z line (7), actin (2), titin (3) and myosin ( ) in the sarcomere (I) stretched muscle, (II) contracted muscle...
Figure 49-3. Schematic representation of the thin fiiament, showing the spatiai configuration of its three major protein components actin, myosin, and tropomyosin. The upper panei shows individual molecules of G-actin. The middle panel shows actin monomers assembled into F-actin. Individual molecules of tropomyosin (two strands wound around one another) and of troponin (made up of its three subunits) are also shown. The lower panel shows the assembled thin filament, consisting of F-actin, tropomyosin, and the three subunits of troponin (TpC, Tpl, andTpT). Figure 49-3. Schematic representation of the thin fiiament, showing the spatiai configuration of its three major protein components actin, myosin, and tropomyosin. The upper panei shows individual molecules of G-actin. The middle panel shows actin monomers assembled into F-actin. Individual molecules of tropomyosin (two strands wound around one another) and of troponin (made up of its three subunits) are also shown. The lower panel shows the assembled thin filament, consisting of F-actin, tropomyosin, and the three subunits of troponin (TpC, Tpl, andTpT).
See other pages where Myosin molecule schematic is mentioned: [Pg.544]    [Pg.228]    [Pg.62]    [Pg.1099]    [Pg.1100]    [Pg.627]    [Pg.163]    [Pg.186]    [Pg.187]    [Pg.165]    [Pg.166]   
See also in sourсe #XX -- [ Pg.7 , Pg.9 ]



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