Isolation of Homogeneous Sub-populations of Spermatocytes from Mouse Testis.

ABSTRACT

Mammalian meiosis is a highly specialized cell division process, resulting in the production of genetically unique haploid cells. However, the molecular mechanisms governing meiosis remain largely unknown, primarily due to the difficulty in isolating pure sub-populations of spermatocytes. Definitive molecular, biochemical, and functional investigations of the meiosis process require the isolation of these individual homogeneous sub-populations of spermatocytes. Here, we present an approach that enables the purification of homogeneous spermatocytes from mouse testis at desired sub-stages. This approach consists of two strategic steps. The first is to synchronize spermatogenesis, aiming to minimize the diversity and complexity of testicular germ cells. The second involves utilizing mouse models with germ cell-specific fluorescent markers to differentiate the desired subtype from other cells in the testis. By employing fluorescence-activated cell sorting (FACS), this approach yields highly pure populations of spermatocytes at each sub-stage. When combined with other massively parallel sequencing techniques and in vitro cell culture methods, this approach will enhance our comprehension of the molecular mechanisms underlying mammalian meiosis and promote in vitro gametogenesis.