Бюллетень сибирской медицины (Jul 2018)
Molecular genetic mechanisms of ovarian organization and development
Abstract
A review of the literature devoted to the analysis of conditions and development of the female reproductive gland. From the moment of the formation of urogenital scallops to the formation of a full gonad, at the different stages of ontogeny, a huge number of genes, factors and proteins are expressed, since in them the primary sex cells and in their surroundings render folliculogenesis and determine the reproductive health of a woman. Aberrant production of these factors can be the cause of ovarian dysfunction and disorders. Different points of view on the emergence of the problem of migration and colonization of germ cells in female gonads, as well as directions for further fundamental and practical research. The development and differentiation of the follicle is a succession of events that are tightly regulated by endocrine factors, intraocular regulators and intercellular interactions. The initial migration of germ cells and their multiplication within the urogenital scallop require regulation using integrated signals such as growth factors, transcription and differentiation, secreted oocytes, transforming growth factors, growth factor and differentiation-9, bone morphogenetic proteins, stem cell factor, basic growth factor of fibroblasts, tumor factor of Williams transcription, gene steroidogenesis, antimulylerovy hormone, meiosis-regulating genes and many others, as well as a contact these interactions of germ cells with extracellular matrix proteins and cellular substrates attract the developing gonads. Recent studies indicate the possibility of obtaining human gametes from the culture of stem cells, a distinct molecular genetic mechanism of the origin, migration and colonization of the sex cells. Consequently, the understanding that all the subtleties and molecular mechanisms at each stage of the bookmarking and development of the ovaries, germ cells and their environment, the death of gametes, can help in finding regulators and preventing pathological follicular depletion.
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