Abstract
Ovulation is a unique physiological phenomenon that is essential for sexual reproduction. It refers to the entire process of ovarian follicle responses to hormonal stimulation resulting in the release of mature fertilization-competent oocytes from the follicles and ovaries. Remarkably, ovulation in different species can be reproduced out-of-body with high fidelity. Moreover, most of the molecular mechanisms and signaling pathways engaged in this process have been delineated using in vitro ovulation models. Here, we provide an overview of the major molecular and cytological events of ovulation observed in frogs, primarily in the African clawed frog Xenopus laevis, using mainly ex vivo approaches, with the focus on meiotic oocyte maturation and follicle rupture. For the purpose of comparison and generalization, we also refer extensively to ovulation in other biological species, most notoriously, in mammals.
Highlights
Reviewed by: Matteo Avella, University of Tulsa, United States Sally Ann Moody, George Washington University, United States
It was found subsequently that maturation-promoting factor (MPF) represents a complex of cyclin B and Cdk1 kinase (Hunt, 1989), and cytostatic factor (CSF) was identified as a multicomponent system comprising the meiotic protein kinase Mos and the MAPK pathway
Progesterone receptor, a nuclear receptor transcription factor, plays an important role in follicular rupture. It is robustly induced in mural granulosa cells via protein kinase A/cAMP response element-binding protein (CREB)-mediated transactivation and MAPK pathway activation after the luteinizing hormone (LH) surge (Park and Mayo, 1991)
Summary
Ovulation is a unique physiological phenomenon that is essential for sexual reproduction. It refers to the entire process of ovarian follicle responses to hormonal stimulation resulting in the release of mature fertilization-competent oocytes from the follicles and ovaries. Most of the molecular mechanisms and signaling pathways engaged in this process have been delineated using in vitro ovulation models. We provide an overview of the major molecular and cytological events of ovulation observed in frogs, primarily in the African clawed frog Xenopus laevis, using mainly ex vivo approaches, with the focus on meiotic oocyte maturation and follicle rupture. For the purpose of comparison and generalization, we refer extensively to ovulation in other biological species, most notoriously, in mammals
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