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Motor proteins structure

Hoenger, A., Sablin, E., Vale, R., et al., 1995. Three-dimensional structure of a tnbnlin-motor-protein complex. Nature... [Pg.564]

Even though dynein, kinesin, and myosin serve similar ATPase-dependent chemomechanical functions and have structural similarities, they do not appear to be related to each other in molecular terms. Their similarity lies in the overall shape of the molecule, which is composed of a pair of globular heads that bind microtubules and a fan-shaped tail piece (not present in myosin) that is suspected to carry the attachment site for membranous vesicles and other cytoplasmic components transported by MT. The cytoplasmic and axonemal dyneins are similar in structure (Hirokawa et al., 1989 Holzbaur and Vallee, 1994). Current studies on mutant phenotypes are likely to lead to a better understanding of the cellular roles of molecular motor proteins and their mechanisms of action (Endow and Titus, 1992). [Pg.17]

Coming, P.A. (2002). Thermoeconomics beyond the second law. J. Bioeconom., 4, 57-88 Everett, D.H. (1959). An Introduction to Chemical Thermodynamics. Longmans, London Kinosita, K., Yasuda, R., Noji, H. and Adachi, K. (2000). A rotary molecular motor that can work at near 100% efficiency. Philos. Trans. Act. Royal Soc. London B, 355, 473—489. See also Proc. Biochem. Soc. (2005) Meeting Mechanics of Bioenergetic Membrane Proteins Structures and... [Pg.190]

With regard to microtubular ultrastructure, micro filaments (5-7 run in diameter) are composed of filamentous actin. The tubule-like structures are formed by a, P-tubulin heterodimers. The wall is composed of 13 parallel protofilaments. Various microtubule-associated proteins and motor proteins (kinesin and dynein) are bound to the wall. The microtubule is a polar structure, i.e., plus and minus ends. [Pg.24]

Adociasulfates 1-6 (380-385) were isolated from a Haliclona (aka Adocia) sp. from Palau and were all inhibitors of kinesin motor proteins [331]. Adociasulfate 2 (381) had earlier been shown to inhibit the activity of the motor protein kinesin by interference with its binding to microtubules [332], An Adocia sp. from the Great Barrier Reef contained adociasulfates 1 (380), 7 (386) and 8 (387), which inhibit vacuolar H -ATPase [333]. Adociasulfates 5 (384) and 9 (388) were obtained from Adocia aculeata from the Great Barrier Reef [334], The structure of adociasulfate 1 (380) was confirmed by an enantioselective total synthesis [335]. Adociasulfate 10 (389) from Haliclona sp. from Palau also inhibits the kinesin motor proteins [336]. [Pg.674]

Microtubules in the long axons of nerve cells function as "rails" for the "fast transport" of proteins and other materials from the cell body down the axons. In fact, microtubules appear to be present throughout the cytoplasm of virtually all eukaryotic cells (Fig. 7-32) and also in spirochetes.311 Motion in microtubular systems depends upon motor proteins such as kinesin, which moves bound materials toward what is known as the "negative" end of the microtubule,312 dyneins which move toward the positive end.310 These motor proteins are driven by the Gibbs energy of hydrolysis of ATP or GTP and in this respect, as well as in some structural details (Chapter 19), resemble the muscle protein myosin. Dynein is present in the arms of the microtubules of cilia (Fig. 1-8) whose motion results from the sliding of the microtubules driven by the action of this protein (Chapter 19). [Pg.370]

Marx, A., Muller, J., and Mandelkow, E. (2005). The structure of microtubule motor proteins. Adv. Protein Chem. 71, 299-304. [Pg.14]

When microtubules were visualized by electron microscopy (EM), after the improvement of methods of fixation, it was realized that they formed the structural basis of flagellar axonemes and of so-called spindle fibers, as well as occurring as individual filaments in the cytoplasm. Their designation as part of the cytoskeleton suggested that they acted mainly as fixed structural supports. Subsequent research has focused more and more on their dynamic behavior and on their role as tracks for motor proteins, which may, for example, transport chromosomes during cell division. Microtubules are found in all eukaryotic cells and are essential for many cellular functions, such as motility, morphogenesis, intracellular transport, and cell division. It is that dynamic behavior that allows microtubules to fulfill all of these functions in specific places and at appropriate times in the cell cycle. [Pg.258]

Microtubules are the intracellular tracks for two classes of motor proteins kinesins and dyneins. During the past few years, the motor domain structures of several kinesins from different organisms have been determined by X-ray crystallography. Compared with kinesins, dyneins are much larger proteins and attempts to crystallize them have failed so far. Structural information about these proteins comes mosdy from electron microscopy. In this chapter, we mainly focus on the crystal structures of kinesin motor domains. [Pg.299]

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Motor proteins

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