Browsing by Author "Geyer, Christopher B"
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Discovering mechanisms during spermatogonial differentiation that prepare male germ cells for meiosis
Johnson, Taylor A (East Carolina University, 2022-12-05)Spermatogenesis, the male germ cell maturation process, allows men to become and remain fertile for decades. Male fertility relies on fate decisions of different types of spermatogonia – spermatogonial stem cells maintain ... -
INVESTIGATING MECHANISMS REGULATING MAMMALIAN SPERMATOGONIAL DIFFERENTIATION AND MEIOTIC INITIATION
Kirsanov, Oleksandr (East Carolina University, 2022-06-27)Spermatogonia differentiation and meiotic initiation are complex processes essential for male fertility. Despite knowing for nearly 60 years that retinoic acid (RA) is instrumental for successful production of functional ... -
INVESTIGATING MECHANISMS REGULATING MAMMALIAN SPERMATOGONIAL DIFFERENTIATION AND MEIOTIC INITIATION
Kirsanov, Oleksandr (East Carolina University, 2022-06-27)Spermatogonia differentiation and meiotic initiation are complex processes essential for male fertility. Despite knowing for nearly 60 years that retinoic acid (RA) is instrumental for successful production of functional ... -
THE MECHANISTIC TARGET OF RAPAMYCIN (mTOR) AND ITS COMPLEX 1 ASSOCIATED PROTEIN RPTOR ARE GERM CELL-AUTONOMOUSLY REQUIRED FOR SPERMATOGONIAL DEVELOPMENT & CHAPTER IV: INVESTIGATING CHANGES IN THE TESTICULAR TRANSCRIPTOME DURING THE PROSPERMATOGONIAL TRANSITION
Serra, Nicholas (East Carolina University, 2019-07-26)Stem, progenitor, and differentiating spermatogonia are formed in the neonatal mouse testis, and they provide the foundation for spermatogenesis and life-long fertility. Currently, the factors that regulate these varying ... -
The Role of Differential Sensitivity to Retinoic Acid (RA) in Regulating Spermatogonial Fate
Velte, Ellen Kay (East Carolina University, 2018-12-10)In the mammalian testis, the foundation of spermatogenesis is provided by spermatogonial stem cells (SSCs); their progeny either remain as stem cells (following a self-renewal division) or proliferate as undifferentiated ...