Spermatogonia

Spermatogonia are one of the first cells to appear during spermatogenesis. It is an undifferentiated cell that is the precursor of sperm. Spermatogonia can be found in the seminiferous tubules of the testes, where they form clusters called spermatogenic epithelial cells.

Spermatogonia are very important in spermatogenesis. They are responsible for the production and growth of new sperm cells and for maintaining the health and function of the seminiferous tubules.

During maturation, sperm go through several stages called mitotic divisions, which occur in the seminiferous tubules. Spermatogenic epithelial cells divide by mitosis to form new spermatogonia, which in turn divide and grow to form new sperm cells and so on.

In addition, spermatogonia also play an important role in maintaining the healthy function of the seminiferous tubules and preventing their damage. They may also be involved in the treatment of certain diseases associated with impaired spermatogenesis, such as hypogonadism and infertility.

Thus, spermatogonia are key cells in the process of spermatogenesis and play an important role in maintaining testicular health and male reproductive function.

Spermatogonia is a male germ cell, one of two types of germ cells, including those necessary for the formation of male sperm and seminal cells during the process of spermatogenesis (the process of intrauterine formation, development and maturation of male germ cells) in most male animals and some females plants. During the period of embryonic histogenesis - between the 24th and 30th day of the fetus - spermatogonia turns into spermatium, which gives rise to microscopic motile spermatozoa. At the exit, spermatozoa have a tip-shaped head on top, a shiny tail and vacuoles for transporting nutrients. Then they enter the vas deferens into the urethra or through the ejaculatory openings near the urethra and are excreted during ejaculation. In the male body, spermatogony precedes solely due to their similar biology, but it is believed that it is differentiated