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Myosin structure supporting

The structure of myosin supports the swinging cross-bridge hypothesis... [Pg.295]

The idea of conformational coupling of ATP synthesis and electron transport is especially attractive when we recall that ATP is used in muscle to carry out mechanical work. Here we have the hydrolysis of ATP coupled to motion in the protein components of the muscle. It seems reasonable that ATP should be formed as a result of motion induced in the protein components of the ATPase. Support for this analogy has come from close structural similarities of the F, ATPase P subunits and of the active site of ATP cleavage in the muscle protein myosin (Chapter 19). [Pg.1044]

Fibrous proteins represent a substantial subset of the human proteome. They include the filamentous structures found in animal hair that act as a protective and thermoregulatory outer material. They are responsible for specifying much of an animal s skeleton, and connective tissues such as tendon, skin, bone, cornea and cartilage all play an important role in this regard. Fibrous proteins are frequently crucial in locomotion and are epitomised by the muscle proteins myosin and tropomyosin and by elastic structures like titin. Yet again the fibrous proteins include filamentous assemblies, such as actin filaments and microtubules, where these provide supporting structures and tracks for the action of a variety of molecular motors. [Pg.530]

It has long been surmised that switch-2 movement and the concomitant swinging of the lever arm must be controlled by binding to and detachment from the actin filament to avoid futile consumption of ATP. However, direct evidence was lacking because near-atomic resolution crystal structures are necessarily obtained in the absence of the filament. Now, crystal structures of Dictyostelium myosin II (Reubold et at, 2003) and chicken myosin-V (Coureux et al., 2003) have revealed that the switch-1 motif can also exist in open and closed conformations. It has been inferred that switch-1 opening may be coupled to cleft closure and tight binding of the myosin head to the actin filament. This conclusion is supported by electron microscopy (Holmes et al., 2003) and fluorescence spectroscopy (Conibear et al., 2003) studies of the acto-myosin complex, which show that the concepts derived from crystal structures of isolated myosin heads are indeed valid for the functional complex. [Pg.330]

Ca (and pathological Ba) action on tertiary structure of actin and myosin fibers in muscles, to be relieved by Mg + as a better complex center) or their contributions to supporting structures such as algal skeletons (SrSO in some dinoflagellates). Here, catalytic flexibility is low or non-existent, testified by extreme values of both X andc. [Pg.94]

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See also in sourсe #XX -- [ Pg.29 , Pg.296 ]



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