Martin Šodek scite author profile

Martin Šodek

2Publications

16Citation Statements Received

81Citation Statements Given

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Affiliations

Veterinary Research Institute, Central European Institute of Technology, Czech Academy of Sciences, Institute of Animal Physiology and Genetics

Publications

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A Balance between Nuclear and Cytoplasmic Volumes Controls Spindle Length

et al. 2016

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Proper assembly of the spindle apparatus is crucially important for faithful chromosome segregation during anaphase. Thanks to the effort over the last decades, we have very detailed information about many events leading to spindle assembly and chromosome segregation, however we still do not understand certain aspects, including, for example, spindle length control. When tight regulation of spindle size is lost, chromosome segregation errors emerge. Currently, there are several hypotheses trying to explain the molecular mechanism of spindle length control. The number of kinetochores, activity of molecular rulers, intracellular gradients, cell size, limiting spindle components, and the balance of the spindle forces seem to contribute to spindle size regulation, however some of these mechanisms are likely specific to a particular cell type. In search for a general regulatory mechanism, in our study we focused on the role of cell size and nuclear to cytoplasmic ratio in this process. To this end, we used relatively large cells isolated from 2-cell mouse embryos. Our results showed that the spindle size upper limit is not reached in these cells and suggest that accurate control of spindle length requires balanced ratio between nuclear and cytoplasmic volumes.

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True Nondisjunction of Whole Bivalents in Oocytes with Attachment and Congression Defects

Šodek

Kovacovicova

Anger

2017

Cytogenet Genome Res

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Chromosome segregation in mammalian oocytes is prone to errors causing aneuploidy with consequences such as precocious termination of development or severe developmental disorders. Aneuploidy also represents a serious problem in procedures utilizing mammalian gametes and early embryos in vitro. In our study, we focused on congression defects during meiosis I and observed whole nondisjoined bivalents in meiosis II as a direct consequence, together with a substantially delayed first polar body extrusion. We also show that the congression defects are accompanied by less stable attachments of the kinetochores. Our results describe a process by which congression defects directly contribute to aneuploidy.

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Martin Šodek

A Balance between Nuclear and Cytoplasmic Volumes Controls Spindle Length

True Nondisjunction of Whole Bivalents in Oocytes with Attachment and Congression Defects

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