Parallel pathways for recruiting effector proteins determine centromere drive and suppression

Tomohiro Kumon; Jun Ma; R. Brian Akins; Derek Stefanik; C. Erik Nordgren; Junhyong Kim; Mia T. Levine; Michael A. Lampson

doi:https://doi.org/10.1016/j.cell.2021.07.037

doi.org/10.1016/j.cell.2021.07.037

Parallel pathways for recruiting effector proteins determine centromere drive and suppression

,

,

..., Michael A. Lampson

39

Cell64.50

Volume: 184, Issue: 19, Pages: 4904 - 4918.e11

Published: Sep 1, 2021

Abstract

Selfish centromere DNA sequences bias their transmission to the egg in female meiosis. Evolutionary theory suggests that centromere proteins evolve to suppress costs of this "centromere drive." In hybrid mouse models with genetically different maternal and paternal centromeres, selfish centromere DNA exploits a kinetochore pathway to recruit microtubule-destabilizing proteins that act as drive effectors. We show that such functional differences...

Paper Fields

Paper Details

Title

Parallel pathways for recruiting effector proteins determine centromere drive and suppression

DOI

doi.org/10.1016/j.cell.2021.07.037

Published Date

Sep 1, 2021

Journal

Cell

Volume

184

Issue

19

Pages

4904 - 4918.e11

Citation AnalysisPro

You’ll need to upgrade your plan to Pro

Looking to understand the true influence of a researcher’s work across journals & affiliations?

Scinapse’s Top 10 Citation Journals & Affiliations graph reveals the quality and authenticity of citations received by a paper.
Discover whether citations have been inflated due to self-citations, or if citations include institutional bias.

Learn more

Notes

History