1. Cellular Processes in Human Ovarian Follicles Are Regulated by Expression Profile of New Gene Markers—Clinical Approach
    Błażej Chermuła et al, 2021, Journal of Clinical Medicine CrossRef
  2. Human Granulosa Cells—Stemness Properties, Molecular Cross-Talk and Follicular Angiogenesis
    Claudia Dompe et al, 2021, Cells CrossRef
  3. Coenzyme and cofactor metabolism belongs to biochemical processes significantly regulated in human granulosa cells collected after IVF during long-term primary in vitro culture
    Mariusz J. Nawrocki et al, 2019, Medical Journal of Cell Biology CrossRef
  4. Ovarian follicular cells - living in the shadow of stemness cellular competence
    Lisa Moncrieff et al, 2019, Medical Journal of Cell Biology CrossRef
  5. Human Ovarian Granulosa Cells Isolated during an IVF Procedure Exhibit Differential Expression of Genes Regulating Cell Division and Mitotic Spindle Formation
    Maciej Brązert et al, 2019, Journal of Clinical Medicine CrossRef
  6. Muscle Cell Morphogenesis, Structure, Development and Differentiation Processes Are Significantly Regulated during Human Ovarian Granulosa Cells In Vitro Cultivation
    Claudia Dompe et al, 2020, Journal of Clinical Medicine CrossRef
  7. New gene markers involved in regulation of granulosa cells development and differentiation towards endodermal and epithelial tissues – a new insight into the stemness specificity of ovarian follicular cells
    Wiesława Kranc et al, 2021, Medical Journal of Cell Biology CrossRef
  8. Identification and molecular characterization of genes modulating progression of an oocyte from M‐I to M‐II in rat ovary
    Alka Sharma et al, 2024, American Journal of Reproductive Immunology CrossRef
  9. Histone demethylases JHDM1D, PHF2 and PHF8 expression pattern in granulosa cells obtained from patients undergoing IVF procedure during short-term IVC
    Rut Bryl et al, 2021, Medical Journal of Cell Biology CrossRef
  10. The Stemness of Human Ovarian Granulosa Cells and the Role of Resveratrol in the Differentiation of MSCs—A Review Based on Cellular and Molecular Knowledge
    Malgorzata Jozkowiak et al, 2020, Cells CrossRef
  11. Nucleotide, ribonucleotide and ribonucleoside binding belongs to differentially expressed genes in porcine epithelial oviductal cells during longterm primary cultivation
    Mariusz J. Nawrocki et al, 2019, Medical Journal of Cell Biology CrossRef