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Abstract
Chromosome segregation during female meiosis is frequently incorrect with severe consequences including termination of further development or severe disorders, such as Down syndrome. Accurate chromosome segregation requires tight control of a protease called separase, which facilitates the separation of sister chromatids by cohesin cleavage. There are several control mechanisms in place, including the binding of specific protein inhibitor securin, phosphorylation by cyclin-dependent kinase 1 (CDK1), and complex with SGO2 and MAD2 proteins. All these mechanisms restrict the activation of separase for the time when all chromosomes are properly attached to the spindle. In our study, we focused on securin and compared the expression profile of endogenous protein with exogenous securin, which is widely used to study chromosome segregation. We also compared the dynamics of securin proteolysis in meiosis I and meiosis II. Our study revealed that the expression of both endogenous and exogenous securin in oocytes is compartmentalized and that this protein accumulates on the spindle during meiosis I. We believe that this might have a direct impact on the regulation of separase activity in the vicinity of the chromosomes.
Highlights
In mitosis, securin inhibits separase until all chromosomes are attached properly to the spindle, and their sister kinetochores are bi-oriented facing the opposite spindle poles (Ciosk et al, 1998; Salah and Nasmyth, 2000; Meadows and Millar, 2015)
Our results demonstrated that during meiosis I, the exogenous securin showed a very similar expression pattern to the endogenous protein, including the timing and the dynamics of its proteolysis
Our experiments revealed an important difference related to the expression of securin in Germinal vesicle (GV) stage oocytes
Summary
Securin inhibits separase until all chromosomes are attached properly to the spindle, and their sister kinetochores are bi-oriented facing the opposite spindle poles (Ciosk et al, 1998; Salah and Nasmyth, 2000; Meadows and Millar, 2015). When this is achieved, spindle assembly checkpoint (SAC) turns off, which leads to the activation of anaphase promoting complex/cyclosome (APC/C) and to the initiation of securin proteolysis (Pines, 2011). Even in these cells, securin is vital for correct timing of anaphase entry (Mei et al, 2001)
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