Kinesin-14 motors drive a right-handed helical motion of antiparallel 
microtubules around each other.

Mitra, Aniruddha; Meißner, Laura; Gandhimathi, Rojapriyadharshini; Renger, Roman; Ruhnow, Felix; Diez, Stefan

doi:10.1038/s41467-020-16328-z

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Kinesin-14 motors drive a right-handed helical motion of antiparallel microtubules around each other.

Mitra, A., Meißner, L., Gandhimathi, R., Renger, R., Ruhnow, F., & Diez, S. (2020). Kinesin-14 motors drive a right-handed helical motion of antiparallel microtubules around each other. Nature communications, 11(1): 2565. doi:10.1038/s41467-020-16328-z.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0008-A2D6-F Version Permalink: https://hdl.handle.net/21.11116/0000-0008-A2D9-C

Genre: Journal Article

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Creators:
Mitra, Aniruddha¹, Author
Meißner, Laura, Author
Gandhimathi, Rojapriyadharshini, Author
Renger, Roman¹, Author
Ruhnow, Felix¹, Author
Diez, Stefan¹, Author

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1Max Planck Institute for Molecular Cell Biology and Genetics, Max Planck Society, ou_2340692

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Abstract: Within the mitotic spindle, kinesin motors cross-link and slide overlapping microtubules. Some of these motors exhibit off-axis power strokes, but their impact on motility and force generation in microtubule overlaps has not been investigated. Here, we develop and utilize a three-dimensional in vitro motility assay to explore kinesin-14, Ncd, driven sliding of cross-linked microtubules. We observe that free microtubules, sliding on suspended microtubules, not only rotate around their own axis but also move around the suspended microtubules with right-handed helical trajectories. Importantly, the associated torque is large enough to cause microtubule twisting and coiling. Further, our technique allows us to measure the in situ spatial extension of the motors between cross-linked microtubules to be about 20 nm. We argue that the capability of microtubule-crosslinking kinesins to cause helical motion of overlapping microtubules around each other allows for flexible filament organization, roadblock circumvention and torque generation in the mitotic spindle.

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Dates: Date issued: 2020-05-22

Publication Status: Issued

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Identifiers: DOI: 10.1038/s41467-020-16328-z
Other: cbg-7680
PMID: 32444784

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Title: Nature communications

Other : Nat Commun

Source Genre: Journal

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Pages: - Volume / Issue: 11 (1) Sequence Number: 2565 Start / End Page: - Identifier: -