2023
DOI: 10.1073/pnas.2306480120
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Distinct regions of the kinesin-5 C-terminal tail are essential for mitotic spindle midzone localization and sliding force

Zachary R. Gergely,
Michele H. Jones,
Bojun Zhou
et al.

Abstract: Kinesin-5 motor proteins play essential roles during mitosis in most organisms. Their tetrameric structure and plus-end-directed motility allow them to bind to and move along antiparallel microtubules, thereby pushing spindle poles apart to assemble a bipolar spindle. Recent work has shown that the C-terminal tail is particularly important to kinesin-5 function: The tail affects motor domain structure, ATP hydrolysis, motility, clustering, and sliding force measured for purified motors, as well as motility, cl… Show more

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Cited by 4 publications
(2 citation statements)
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“…Here, we use the model for the processive stepping of the full-length kinesin-5 Eg5 motor as proposed before, which was modified from the general model for the N-terminal kinesin dimers. In the model for the full-length Eg5 motor, the effect of the tail domain on the motor dynamics was considered (see Section S1 in the Supporting Information). , Upon binding to a MT filament, each pair of MT-bound heads of the Eg5 motor can move along the filament with the period of the binding sites being d = 8.2 nm . The pair of heads of the Eg5 motor can take a forward (plus-ended-directed) step with rate k F (m) and a backward (minus-ended-directed) step with rate k B (m) (see Section S1 in the Supporting Information).…”
Section: Methodsmentioning
confidence: 99%
“…Here, we use the model for the processive stepping of the full-length kinesin-5 Eg5 motor as proposed before, which was modified from the general model for the N-terminal kinesin dimers. In the model for the full-length Eg5 motor, the effect of the tail domain on the motor dynamics was considered (see Section S1 in the Supporting Information). , Upon binding to a MT filament, each pair of MT-bound heads of the Eg5 motor can move along the filament with the period of the binding sites being d = 8.2 nm . The pair of heads of the Eg5 motor can take a forward (plus-ended-directed) step with rate k F (m) and a backward (minus-ended-directed) step with rate k B (m) (see Section S1 in the Supporting Information).…”
Section: Methodsmentioning
confidence: 99%
“…Moreover, by facilitating the interaction between KIF11 and MTs, the tail domain promotes their crosslinking and sliding to ensure the effective alignment of MTs during metaphase without substantially hindering movement [70]. The tail domain interacts with the motor to decelerate ATP hydrolysis, generating a stable, powerful force to confirm the crosslinking and sliding of MTs [71,72].…”
Section: Kif11 In Spindle Eventsmentioning
confidence: 99%