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A model of microtubule oscillations (1994)

Marx, A. ; Mandelkow, E.

Springer

European biophysics journal 22 (1994), S. 405-421

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ISSN: 1432-1017

Keywords: Dynamic instability ; Cap model ; Cooperativity ; Synchronization ; Small angle X-ray scattering ; Cytoskeleton

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract Simulations of microtubule oscillations have been obtained by a kinetic model including nucleation of microtubules, elongation by addition of GTP-loaded tubulin dimers, disassembly into oligomers, and dissolution of oligomers followed by nucleotide exchange at the free dimers. Dynamic instability is described by the on and off rates for dimer association in the growth phase, the rate of rapid shortening, and the transition rates for catastrophe and rescue. The latter are assumed to be completely determined by the current state of the system (“short cap hypothesis”). Microtubule oscillations and normal polymerizations measured by time-resolved X-ray scattering were used to test the model. The model is able to produce oscillations without further assumptions. However, in order to obtain good fits to the experimental data one requires an additional mechanism which prevents rapid desynchronization of the microtubules. One of several possible mechanisms that will be discussed is the destabilization of microtubules by the products of disassembly.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00180162

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Conformations of kinesin: solution vs. crystal structures and interactions with microtubules (1998)

Marx, A. ; Thormählen, M. ; Müller, J. ; [et al.]

Springer

European biophysics journal 27 (1998), S. 455-465

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ISSN: 1432-1017

Keywords: Key words Microtubules ; Motor proteins ; Kinesin ; X-ray crystallography ; Small angle X-ray scattering ; Cell motility

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract Recently, the molecular structures of monomeric and dimeric kinesin constructs in complex with ADP have been determined by X-ray crystallography (Kull et al. 1996; Kozielski et al. 1997 a; Sack et al. 1997). The “motor” or “head” domains have almost identical conformations in the known crystal structures, yet the kinesin dimer is asymmetric: the orientation of the two heads relative to the coiled-coil formed by their neck regions is different. We used small angle solution scattering of kinesin constructs and microtubules decorated with kinesin in order to find out whether these crystal structures are of relevance for kinesin's structure under natural conditions and for its interaction with microtubules. Our preliminary results indicate that the crystal structures of monomeric and dimeric kinesin are similar to their structures in solution, though in solution the center-of-mass distance between the motor domains of the dimer could be slightly greater. The crystal structure of dimeric kinesin can be interpreted as representing two equivalent conformations. Transitions between these or very similar conformational states may occur in solution. Binding of kinesin to microtubules has conformational effects on both, the kinesin and the microtubule. Solution scattering of kinesin decorated microtubules reveals a peak in intensity that is characteristic for the B-surface lattice and that can be used to monitor the axial repeat of the microtubules under various conditions. In decoration experiments, dimeric kinesin dissociates, at least partly, leading to a stoichiometry of 1:1 (one kinesin head per tubulin dimer; Thormählen et al. 1998 a) in contrast to the stoichiometry of 2:1 reported for dimeric ncd. This discrepancy is possibly due to the effect of steric hindrance between kinesin dimers on adjacent binding sites.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002490050156

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