Abstract

Late vitellogenic oocytes of the common frog, Rana temporaria, represent a promising model for studying the behavior of meiotic chromosomes, since at the diplotene stage, they unite into a karyosphere, which in R. temporaria is believed to have an extrachromosomal capsule – unlike in Xenopus laevis, a classic model object of cell biology and developmental biology. However, in comparison with Xenopus, the strict breeding seasonality of R. temporaria significantly limits the possibility of using its oocytes as an experimental model. By adapting classical hormonal stimulation protocols proposed for anurans including Xenopus, we were able to obtain R. temporaria oocytes with a fully developed karyosphere outside the breeding season, namely in December–January. We observed pronounced changes in the chromosomal apparatus of oocytes with a double injection of human chorionic gonadotropin (hCG) at a dose of 500 IU. In this case, chromosomes undergo compaction and aggregation, leading to the formation of a characteristic chromosomal “knot” (karyosphere), the morphological features of which corresponded to those in R. temporaria oocytes at the beginning of the natural breeding season. Based on the proposed protocol for the use of hCG for out-of-season stimulation of oogenesis in R. temporaria, it can be further refined to obtain more stable results and improve the quality of oocytes.

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