Loss of Kinesin-8 Improves the Robustness of the Self-assembled Spindle in Schizosaccharomyces Pombe

Overview

Journal J Cell Sci

Specialty Cell Biology

Date 2021 Aug 4

PMID 34346498

Citations 1

Authors

Alberto Pineda-Santaella

Nazaret Fernandez-Castillo

Alberto Jimenez-Martin

Maria Del Carmen Macias-Cabeza

Angela Sanchez-Gomez

Alfonso Fernandez-Alvarez

Affiliations

Soon will be listed here.

Abstract

Chromosome segregation in female meiosis in many metazoans is mediated by acentrosomal spindles, the existence of which implies that microtubule spindles self-assemble without the participation of the centrosomes. Although it is thought that acentrosomal meiosis is not conserved in fungi, we recently reported the formation of self-assembled microtubule arrays, which were able to segregate chromosomes, in fission yeast mutants, in which the contribution of the spindle pole body (SPB; the centrosome equivalent in yeast) was specifically blocked during meiosis. Here, we demonstrate that this unexpected microtubule formation represents a bona fide type of acentrosomal spindle. Moreover, a comparative analysis of these self-assembled spindles and the canonical SPB-dependent spindle reveals similarities and differences; for example, both spindles have a similar polarity, but the location of the γ-tubulin complex differs. We also show that the robustness of self-assembled spindles can be reinforced by eliminating kinesin-8 family members, whereas kinesin-8 mutants have an adverse impact on SPB-dependent spindles. Hence, we consider that reinforced self-assembled spindles in yeast will help to clarify the molecular mechanisms behind acentrosomal meiosis, a crucial step towards better understanding gametogenesis.

Citing Articles

Beyond tradition: exploring the non-canonical functions of telomeres in meiosis.

Fernandez-Alvarez A Front Cell Dev Biol. 2023; 11:1278571.

PMID: 38020928 PMC: 10679444. DOI: 10.3389/fcell.2023.1278571.

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