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Kinetochore-independent mechanisms of sister chromosome separation

Although kinetochores normally play a key role in sister chromatid separation and segregation, chromosome fragments lacking kinetochores (acentrics) can in some cases separate and segregate successfully. In Drosophila neuroblasts, acentric chromosomes undergo delayed, but otherwise normal sister sep...

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Autores principales: Vicars, Hannah, Karg, Travis, Warecki, Brandt, Bast, Ian, Sullivan, William
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7886193/
https://www.ncbi.nlm.nih.gov/pubmed/33513180
http://dx.doi.org/10.1371/journal.pgen.1009304
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author Vicars, Hannah
Karg, Travis
Warecki, Brandt
Bast, Ian
Sullivan, William
author_facet Vicars, Hannah
Karg, Travis
Warecki, Brandt
Bast, Ian
Sullivan, William
author_sort Vicars, Hannah
collection PubMed
description Although kinetochores normally play a key role in sister chromatid separation and segregation, chromosome fragments lacking kinetochores (acentrics) can in some cases separate and segregate successfully. In Drosophila neuroblasts, acentric chromosomes undergo delayed, but otherwise normal sister separation, revealing the existence of kinetochore- independent mechanisms driving sister chromosome separation. Bulk cohesin removal from the acentric is not delayed, suggesting factors other than cohesin are responsible for the delay in acentric sister separation. In contrast to intact kinetochore-bearing chromosomes, we discovered that acentrics align parallel as well as perpendicular to the mitotic spindle. In addition, sister acentrics undergo unconventional patterns of separation. For example, rather than the simultaneous separation of sisters, acentrics oriented parallel to the spindle often slide past one another toward opposing poles. To identify the mechanisms driving acentric separation, we screened 117 RNAi gene knockdowns for synthetic lethality with acentric chromosome fragments. In addition to well-established DNA repair and checkpoint mutants, this candidate screen identified synthetic lethality with X-chromosome-derived acentric fragments in knockdowns of Greatwall (cell cycle kinase), EB1 (microtubule plus-end tracking protein), and Map205 (microtubule-stabilizing protein). Additional image-based screening revealed that reductions in Topoisomerase II levels disrupted sister acentric separation. Intriguingly, live imaging revealed that knockdowns of EB1, Map205, and Greatwall preferentially disrupted the sliding mode of sister acentric separation. Based on our analysis of EB1 localization and knockdown phenotypes, we propose that in the absence of a kinetochore, microtubule plus-end dynamics provide the force to resolve DNA catenations required for sister separation.
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spelling pubmed-78861932021-02-23 Kinetochore-independent mechanisms of sister chromosome separation Vicars, Hannah Karg, Travis Warecki, Brandt Bast, Ian Sullivan, William PLoS Genet Research Article Although kinetochores normally play a key role in sister chromatid separation and segregation, chromosome fragments lacking kinetochores (acentrics) can in some cases separate and segregate successfully. In Drosophila neuroblasts, acentric chromosomes undergo delayed, but otherwise normal sister separation, revealing the existence of kinetochore- independent mechanisms driving sister chromosome separation. Bulk cohesin removal from the acentric is not delayed, suggesting factors other than cohesin are responsible for the delay in acentric sister separation. In contrast to intact kinetochore-bearing chromosomes, we discovered that acentrics align parallel as well as perpendicular to the mitotic spindle. In addition, sister acentrics undergo unconventional patterns of separation. For example, rather than the simultaneous separation of sisters, acentrics oriented parallel to the spindle often slide past one another toward opposing poles. To identify the mechanisms driving acentric separation, we screened 117 RNAi gene knockdowns for synthetic lethality with acentric chromosome fragments. In addition to well-established DNA repair and checkpoint mutants, this candidate screen identified synthetic lethality with X-chromosome-derived acentric fragments in knockdowns of Greatwall (cell cycle kinase), EB1 (microtubule plus-end tracking protein), and Map205 (microtubule-stabilizing protein). Additional image-based screening revealed that reductions in Topoisomerase II levels disrupted sister acentric separation. Intriguingly, live imaging revealed that knockdowns of EB1, Map205, and Greatwall preferentially disrupted the sliding mode of sister acentric separation. Based on our analysis of EB1 localization and knockdown phenotypes, we propose that in the absence of a kinetochore, microtubule plus-end dynamics provide the force to resolve DNA catenations required for sister separation. Public Library of Science 2021-01-29 /pmc/articles/PMC7886193/ /pubmed/33513180 http://dx.doi.org/10.1371/journal.pgen.1009304 Text en © 2021 Vicars et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Vicars, Hannah
Karg, Travis
Warecki, Brandt
Bast, Ian
Sullivan, William
Kinetochore-independent mechanisms of sister chromosome separation
title Kinetochore-independent mechanisms of sister chromosome separation
title_full Kinetochore-independent mechanisms of sister chromosome separation
title_fullStr Kinetochore-independent mechanisms of sister chromosome separation
title_full_unstemmed Kinetochore-independent mechanisms of sister chromosome separation
title_short Kinetochore-independent mechanisms of sister chromosome separation
title_sort kinetochore-independent mechanisms of sister chromosome separation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7886193/
https://www.ncbi.nlm.nih.gov/pubmed/33513180
http://dx.doi.org/10.1371/journal.pgen.1009304
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