Transient and Partial Nuclear Lamina Disruption Promotes Chromosome Movement in Early Meiotic Prophase

Meiotic chromosome movement is important for the pairwise alignment of homologous chromosomes, which is required for correct chromosome segregation. Movement is driven by cytoplasmic forces, transmitted to chromosome ends by nuclear membrane-spanning proteins. In animal cells, lamins form a prominen...

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Autores principales: Link, Jana, Paouneskou, Dimitra, Velkova, Maria, Daryabeigi, Anahita, Laos, Triin, Labella, Sara, Barroso, Consuelo, Pacheco Piñol, Sarai, Montoya, Alex, Kramer, Holger, Woglar, Alexander, Baudrimont, Antoine, Markert, Sebastian Mathias, Stigloher, Christian, Martinez-Perez, Enrique, Dammermann, Alexander, Alsheimer, Manfred, Zetka, Monique, Jantsch, Verena
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5920155/
https://www.ncbi.nlm.nih.gov/pubmed/29689196
http://dx.doi.org/10.1016/j.devcel.2018.03.018
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author Link, Jana
Paouneskou, Dimitra
Velkova, Maria
Daryabeigi, Anahita
Laos, Triin
Labella, Sara
Barroso, Consuelo
Pacheco Piñol, Sarai
Montoya, Alex
Kramer, Holger
Woglar, Alexander
Baudrimont, Antoine
Markert, Sebastian Mathias
Stigloher, Christian
Martinez-Perez, Enrique
Dammermann, Alexander
Alsheimer, Manfred
Zetka, Monique
Jantsch, Verena
author_facet Link, Jana
Paouneskou, Dimitra
Velkova, Maria
Daryabeigi, Anahita
Laos, Triin
Labella, Sara
Barroso, Consuelo
Pacheco Piñol, Sarai
Montoya, Alex
Kramer, Holger
Woglar, Alexander
Baudrimont, Antoine
Markert, Sebastian Mathias
Stigloher, Christian
Martinez-Perez, Enrique
Dammermann, Alexander
Alsheimer, Manfred
Zetka, Monique
Jantsch, Verena
author_sort Link, Jana
collection PubMed
description Meiotic chromosome movement is important for the pairwise alignment of homologous chromosomes, which is required for correct chromosome segregation. Movement is driven by cytoplasmic forces, transmitted to chromosome ends by nuclear membrane-spanning proteins. In animal cells, lamins form a prominent scaffold at the nuclear periphery, yet the role lamins play in meiotic chromosome movement is unclear. We show that chromosome movement correlates with reduced lamin association with the nuclear rim, which requires lamin phosphorylation at sites analogous to those that open lamina network crosslinks in mitosis. Failure to remodel the lamina results in delayed meiotic entry, altered chromatin organization, unpaired or interlocked chromosomes, and slowed chromosome movement. The remodeling kinases are delivered to lamins via chromosome ends coupled to the nuclear envelope, potentially enabling crosstalk between the lamina and chromosomal events. Thus, opening the lamina network plays a role in modulating contacts between chromosomes and the nuclear periphery during meiosis.
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spelling pubmed-59201552018-04-27 Transient and Partial Nuclear Lamina Disruption Promotes Chromosome Movement in Early Meiotic Prophase Link, Jana Paouneskou, Dimitra Velkova, Maria Daryabeigi, Anahita Laos, Triin Labella, Sara Barroso, Consuelo Pacheco Piñol, Sarai Montoya, Alex Kramer, Holger Woglar, Alexander Baudrimont, Antoine Markert, Sebastian Mathias Stigloher, Christian Martinez-Perez, Enrique Dammermann, Alexander Alsheimer, Manfred Zetka, Monique Jantsch, Verena Dev Cell Article Meiotic chromosome movement is important for the pairwise alignment of homologous chromosomes, which is required for correct chromosome segregation. Movement is driven by cytoplasmic forces, transmitted to chromosome ends by nuclear membrane-spanning proteins. In animal cells, lamins form a prominent scaffold at the nuclear periphery, yet the role lamins play in meiotic chromosome movement is unclear. We show that chromosome movement correlates with reduced lamin association with the nuclear rim, which requires lamin phosphorylation at sites analogous to those that open lamina network crosslinks in mitosis. Failure to remodel the lamina results in delayed meiotic entry, altered chromatin organization, unpaired or interlocked chromosomes, and slowed chromosome movement. The remodeling kinases are delivered to lamins via chromosome ends coupled to the nuclear envelope, potentially enabling crosstalk between the lamina and chromosomal events. Thus, opening the lamina network plays a role in modulating contacts between chromosomes and the nuclear periphery during meiosis. Cell Press 2018-04-23 /pmc/articles/PMC5920155/ /pubmed/29689196 http://dx.doi.org/10.1016/j.devcel.2018.03.018 Text en © 2018 The Author(s) http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Link, Jana
Paouneskou, Dimitra
Velkova, Maria
Daryabeigi, Anahita
Laos, Triin
Labella, Sara
Barroso, Consuelo
Pacheco Piñol, Sarai
Montoya, Alex
Kramer, Holger
Woglar, Alexander
Baudrimont, Antoine
Markert, Sebastian Mathias
Stigloher, Christian
Martinez-Perez, Enrique
Dammermann, Alexander
Alsheimer, Manfred
Zetka, Monique
Jantsch, Verena
Transient and Partial Nuclear Lamina Disruption Promotes Chromosome Movement in Early Meiotic Prophase
title Transient and Partial Nuclear Lamina Disruption Promotes Chromosome Movement in Early Meiotic Prophase
title_full Transient and Partial Nuclear Lamina Disruption Promotes Chromosome Movement in Early Meiotic Prophase
title_fullStr Transient and Partial Nuclear Lamina Disruption Promotes Chromosome Movement in Early Meiotic Prophase
title_full_unstemmed Transient and Partial Nuclear Lamina Disruption Promotes Chromosome Movement in Early Meiotic Prophase
title_short Transient and Partial Nuclear Lamina Disruption Promotes Chromosome Movement in Early Meiotic Prophase
title_sort transient and partial nuclear lamina disruption promotes chromosome movement in early meiotic prophase
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5920155/
https://www.ncbi.nlm.nih.gov/pubmed/29689196
http://dx.doi.org/10.1016/j.devcel.2018.03.018
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