Interaction of monomeric and dimeric kinesin with microtubules

M. Thormählen; A. Marx; S. A. Müller; Y. H. Song; E. M. Mandelkow; U. Aebi; E. Mandelkow

doi:10.1006/jmbi.1997.1503

Interaction of monomeric and dimeric kinesin with microtubules

M. Thormählen, A. Marx, S. A. Müller, Y. H. Song, E. M. Mandelkow, U. Aebi, E. Mandelkow^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Physik

36 Zitate (Scopus)

Abstract

The binding stoichiometry of kinesin to microtubules was determined using several biochemical and biophysical approaches (chemical crosslinking, binding assays, scanning transmission electron microscopy (STEM), image reconstruction, and X-ray scattering). The results show that each tubulin dimer associates with one kinesin head, irrespective of whether kinesin occurs in a monomeric or dimeric form in solution. Moreover, these heads appear to align along the protofilament axis generating a 16 nm periodicity of successive kinesin dimers. This is consistent with a 'tightrope' model of movement where the first head of the dimer provides a guiding signal for the following one.

Originalsprache	Englisch
Zeitschrift	Journal of Molecular Biology
Jahrgang	275
Ausgabenummer	5
Seiten (von - bis)	795-809
Seitenumfang	15
ISSN	0022-2836
DOIs	https://doi.org/10.1006/jmbi.1997.1503
Publikationsstatus	Veröffentlicht - 06.02.1998

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This work was supported by grants from the Deutsche Forschungsgemeinschaft (to E.M.M.), the Swiss National Science Foundation (grant 31-39691.93), the Canton Basel-Stadt, and the M.E. Müller Foundation of Switzerland.

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10.1006/jmbi.1997.1503

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abstract = "The binding stoichiometry of kinesin to microtubules was determined using several biochemical and biophysical approaches (chemical crosslinking, binding assays, scanning transmission electron microscopy (STEM), image reconstruction, and X-ray scattering). The results show that each tubulin dimer associates with one kinesin head, irrespective of whether kinesin occurs in a monomeric or dimeric form in solution. Moreover, these heads appear to align along the protofilament axis generating a 16 nm periodicity of successive kinesin dimers. This is consistent with a 'tightrope' model of movement where the first head of the dimer provides a guiding signal for the following one.",

author = "M. Thorm{\"a}hlen and A. Marx and M{\"u}ller, \{S. A.\} and Song, \{Y. H.\} and Mandelkow, \{E. M.\} and U. Aebi and E. Mandelkow",

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AU - Thormählen, M.

AU - Marx, A.

AU - Müller, S. A.

AU - Song, Y. H.

AU - Mandelkow, E. M.

AU - Aebi, U.

AU - Mandelkow, E.

N1 - Funding Information: This work was supported by grants from the Deutsche Forschungsgemeinschaft (to E.M.M.), the Swiss National Science Foundation (grant 31-39691.93), the Canton Basel-Stadt, and the M.E. Müller Foundation of Switzerland. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

PY - 1998/2/6

Y1 - 1998/2/6

N2 - The binding stoichiometry of kinesin to microtubules was determined using several biochemical and biophysical approaches (chemical crosslinking, binding assays, scanning transmission electron microscopy (STEM), image reconstruction, and X-ray scattering). The results show that each tubulin dimer associates with one kinesin head, irrespective of whether kinesin occurs in a monomeric or dimeric form in solution. Moreover, these heads appear to align along the protofilament axis generating a 16 nm periodicity of successive kinesin dimers. This is consistent with a 'tightrope' model of movement where the first head of the dimer provides a guiding signal for the following one.

AB - The binding stoichiometry of kinesin to microtubules was determined using several biochemical and biophysical approaches (chemical crosslinking, binding assays, scanning transmission electron microscopy (STEM), image reconstruction, and X-ray scattering). The results show that each tubulin dimer associates with one kinesin head, irrespective of whether kinesin occurs in a monomeric or dimeric form in solution. Moreover, these heads appear to align along the protofilament axis generating a 16 nm periodicity of successive kinesin dimers. This is consistent with a 'tightrope' model of movement where the first head of the dimer provides a guiding signal for the following one.

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DO - 10.1006/jmbi.1997.1503

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JF - Journal of Molecular Biology

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Interaction of monomeric and dimeric kinesin with microtubules

Abstract

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