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Dual-spindle formation in zygotes keeps parental genomes apart in early mammalian embryos

Dual-spindle formation in zygotes keeps parental genomes apart in early mammalian embryos
Dual-spindle formation in zygotes keeps parental genomes apart in early mammalian embryos
At the beginning of mammalian life, the genetic material from each parent meets when the fertilized egg divides. It was previously thought that a single microtubule spindle is responsible for spatially combining the two genomes and then segregating them to create the two-cell embryo. We used light-sheet microscopy to show that two bipolar spindles form in the zygote and then independently congress the maternal and paternal genomes. These two spindles aligned their poles before anaphase but kept the parental genomes apart during the first cleavage. This spindle assembly mechanism provides a potential rationale for erroneous divisions into more than two blastomeric nuclei observed in mammalian zygotes and reveals the mechanism behind the observation that parental genomes occupy separate nuclear compartments in the two-cell embryo.
0036-8075
189-193
Reichmann, Judith
72d5d6d2-8b68-4753-b2d6-2f8e9b23f193
Nijmeijer, Bianca
c8c2fe68-1269-49ff-b01d-9047988a2416
Hossain, M. Julius
bba1b875-7604-462b-a55b-ba0b54f728e8
Eguren, Manuel
74f8da86-b959-401f-954c-ecacf2329e05
Schneider, Isabell
4c31f717-963a-4e52-99f4-a0efb4d602b2
Politi, Antonio Z.
871fe135-9a46-4bb8-b438-6584dfabfb77
Roberti, M. Julia
68fbac1f-9c4f-483e-b133-73cad3afbc61
Hufnagel, Lars
cf260e40-39ef-4195-a971-88aa42c170c0
Hiiragi, Takashi
c9ad95d2-717d-4973-abcd-d6b48d3bfab1
Ellenberg, Jan
7b8ab9a9-8076-4db1-b7a2-8445accc9b54
Reichmann, Judith
72d5d6d2-8b68-4753-b2d6-2f8e9b23f193
Nijmeijer, Bianca
c8c2fe68-1269-49ff-b01d-9047988a2416
Hossain, M. Julius
bba1b875-7604-462b-a55b-ba0b54f728e8
Eguren, Manuel
74f8da86-b959-401f-954c-ecacf2329e05
Schneider, Isabell
4c31f717-963a-4e52-99f4-a0efb4d602b2
Politi, Antonio Z.
871fe135-9a46-4bb8-b438-6584dfabfb77
Roberti, M. Julia
68fbac1f-9c4f-483e-b133-73cad3afbc61
Hufnagel, Lars
cf260e40-39ef-4195-a971-88aa42c170c0
Hiiragi, Takashi
c9ad95d2-717d-4973-abcd-d6b48d3bfab1
Ellenberg, Jan
7b8ab9a9-8076-4db1-b7a2-8445accc9b54

Reichmann, Judith, Nijmeijer, Bianca, Hossain, M. Julius, Eguren, Manuel, Schneider, Isabell, Politi, Antonio Z., Roberti, M. Julia, Hufnagel, Lars, Hiiragi, Takashi and Ellenberg, Jan (2018) Dual-spindle formation in zygotes keeps parental genomes apart in early mammalian embryos. Science, 361 (6398), 189-193. (doi:10.1126/science.aar7462).

Record type: Article

Abstract

At the beginning of mammalian life, the genetic material from each parent meets when the fertilized egg divides. It was previously thought that a single microtubule spindle is responsible for spatially combining the two genomes and then segregating them to create the two-cell embryo. We used light-sheet microscopy to show that two bipolar spindles form in the zygote and then independently congress the maternal and paternal genomes. These two spindles aligned their poles before anaphase but kept the parental genomes apart during the first cleavage. This spindle assembly mechanism provides a potential rationale for erroneous divisions into more than two blastomeric nuclei observed in mammalian zygotes and reveals the mechanism behind the observation that parental genomes occupy separate nuclear compartments in the two-cell embryo.

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More information

Accepted/In Press date: 8 June 2018
Published date: 13 July 2018
Additional Information: Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science.

Identifiers

Local EPrints ID: 458217
URI: http://eprints.soton.ac.uk/id/eprint/458217
DOI: doi:10.1126/science.aar7462
ISSN: 0036-8075
PURE UUID: 0fa6adcb-a710-49c7-b50f-443653f4f81d
ORCID for M. Julius Hossain: ORCID iD orcid.org/0000-0003-3303-5755

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Date deposited: 01 Jul 2022 16:32
Last modified: 17 Mar 2024 04:12

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Contributors

Author: Judith Reichmann
Author: Bianca Nijmeijer
Author: M. Julius Hossain ORCID iD
Author: Manuel Eguren
Author: Isabell Schneider
Author: Antonio Z. Politi
Author: M. Julia Roberti
Author: Lars Hufnagel
Author: Takashi Hiiragi
Author: Jan Ellenberg

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