Fission Yeast Dis1 is an Unconventional TOG/XMAP215 That Induces Microtubule Catastrophe to Drive Chromosome Pulling

Overview

Journal Commun Biol

Specialty Biology

Date 2022 Nov 26

PMID 36435910

Authors

Yuichi Murase

Masahiko Yamagishi

Naoyuki Okada

Mika Toya

Junichiro Yajima

Takahiro Hamada

Masamitsu Sato

Affiliations

Soon will be listed here.

Abstract

The shortening of microtubules attached to kinetochores is the driving force of chromosome movement during cell division. Specific kinesins are believed to shorten microtubules but are dispensable for viability in yeast, implying the existence of additional factors responsible for microtubule shortening. Here, we demonstrate that Dis1, a TOG/XMAP215 ortholog in fission yeast, promotes microtubule shortening to carry chromosomes. Although TOG/XMAP215 orthologs are generally accepted as microtubule polymerases, Dis1 promoted microtubule catastrophe in vitro and in vivo. Notably, microtubule catastrophe was promoted when the tip was attached to kinetochores, as they steadily anchored Dis1 at the kinetochore-microtubule interface. Engineered Dis1 oligomers artificially tethered at a chromosome arm region induced the shortening of microtubules in contact, frequently pulling the chromosome arm towards spindle poles. This effect was not brought by oligomerised Alp14. Thus, unlike Alp14 and other TOG/XMAP215 orthologs, Dis1 plays an unconventional role in promoting microtubule catastrophe, thereby driving chromosome movement.

Citing Articles

Effects of Gene Deletion on Cell Division of Fission Yeast and Its Molecular Mechanism.

Yu W, Yuan R, Liu M, Liu K, Ding X, Hou Y Curr Issues Mol Biol. 2024; 46(3):2576-2597.

PMID: 38534780 PMC: 10969133. DOI: 10.3390/cimb46030164.

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