2018
DOI: 10.1016/j.cub.2018.06.057
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Segregating Chromosomes in the Mammalian Oocyte

Abstract: Chromosome segregation errors in human oocytes lead to aneuploid embryos that cause infertility and birth defects. Here we provide an overview of the chromosome-segregation process in the mammalian oocyte, highlighting mechanistic differences between oocytes and somatic cells that render oocytes so prone to segregation error. These differences include the extremely large size of the oocyte cytoplasm, the unique geometry of meiosis-I chromosomes, idiosyncratic function of the spindle assembly checkpoint, and dr… Show more

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Cited by 97 publications
(98 citation statements)
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References 142 publications
(217 reference statements)
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“…Our monastrol data ( Figure 6) provides a simple but clear indication that severe loss of spindle organisation can activate SAC and prevent polar body extrusion. Therefore taken together with the aforementioned work, it would appear that in human oocytes as in mouse, aspects of the pathway are functional, but SAC is insensitive to prevent segregation errors, providing at least part of the explanation for the high levels of aneuploidy in the human oocyte (Gui and Homer, 2012;Hassold and Hunt, 2001;Mihajlović and FitzHarris, 2018).…”
Section: Discussionmentioning
confidence: 96%
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“…Our monastrol data ( Figure 6) provides a simple but clear indication that severe loss of spindle organisation can activate SAC and prevent polar body extrusion. Therefore taken together with the aforementioned work, it would appear that in human oocytes as in mouse, aspects of the pathway are functional, but SAC is insensitive to prevent segregation errors, providing at least part of the explanation for the high levels of aneuploidy in the human oocyte (Gui and Homer, 2012;Hassold and Hunt, 2001;Mihajlović and FitzHarris, 2018).…”
Section: Discussionmentioning
confidence: 96%
“…The function of the spindle checkpoint in mammalian oocytes has long been a source of contention. In mouse, whereas severe spindle disruption activates the checkpoint to prevent polar body extrusion, moderate spindle insults fail to prevent polar body extrusion, causing defective chromosome segregation that likely leads to aneuploidy (discussed in (Greaney et al, 2017;Mihajlović and FitzHarris, 2018)). But little has been known about the spindle checkpoint in human oocytes.…”
Section: Discussionmentioning
confidence: 99%
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“…It suggested the high error rate in oocytes was not simply a matter of making more mistakes but of allowing cells to survive and become viable eggs -albeit ones that would give rise to aneuploid embryos. I assumed this cell cycle control difference would become the focus of my research, but serendipitous events turned our efforts in another direction, while others unraveled the unique features of the mammalian oocyte that allow cells with errors in chromosome attachment and alignment to become viable gametes (Homer et al 2005, McGuinness et al 2009, Kolano et al 2012, Mihajlovic & FitzHarris 2018.…”
Section: F93mentioning
confidence: 99%