Nanjing Agricultural University | China
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Early Academic Pursuits ๐
Prof. Dr. Ming Shen embarked on a distinguished academic journey at Nanjing Agricultural University, earning a doctorate in November 2014. With a strong foundation in reproductive biology, Dr. Shen laid the groundwork for exploring intricate mechanisms of ovarian follicular development.
Professional Endeavors ๐ข
Currently serving as an Associate Professor, Dr. Shen's career is marked by impactful teaching and groundbreaking research. As a mentor, educator, and researcher, Dr. Shen seamlessly integrates these roles to contribute to advancements in animal science and reproductive biology.
Contributions and Research Focus ๐ฌ
Dr. Shen specializes in unraveling the regulatory mechanisms of follicular development in mammalian ovaries. His research spans:
- Molecular responses to oxidative stress.
- Redox balance and antioxidants in ovarian follicles.
- Epigenetic mechanisms influencing ovarian function.
- Interactions between oocytes and granulosa cells during follicular development.
Supported by numerous grants, including prestigious projects under the National Natural Science Foundation of China, his work has significantly advanced understanding of reproductive biology.
Accolades and Recognition ๐
Dr. Shen's contributions have garnered numerous awards:
- Second Prize for Outstanding Scientific Research Achievements (Ministry of Education, 2019 & 2023).
- First and Second Prizes for excellent posters at national forums.
- Recognition as a High-Contribution Author for Wiley China Open Science (2023).
Additionally, Dr. Shen has been invited as a guest editor, project evaluation expert, and speaker at esteemed conferences.
Impact and Influence ๐
Dr. Shen's extensive publications in high-impact journals have shaped global understanding of ovarian follicular biology. His work addresses critical issues such as hypoxia, oxidative stress, and cell survival mechanisms, influencing both theoretical knowledge and practical applications in animal reproduction.
Legacy and Future Contributions Highlight ๐ฎ
Dr. Shen's legacy is defined by his transformative research, dedication to education, and mentorship. As he continues to explore new horizons in reproductive biology, his innovations promise to enhance animal reproductive performance, support sustainable agricultural practices, and inspire the next generation of scientists.
Publications
- ๐ Lactylation drives hCG-triggered luteinization in hypoxic granulosa cells
Authors: Wu, G., Pan, Y., Chen, M., Shen, M., Liu, H.
Journal: International Journal of Biological Macromolecules
Year: 2024
- ๐ Sulforaphane Promotes Proliferation of Porcine Granulosa Cells via the H3K27ac-Mediated GDF8-ALK5-ERK Pathway
Authors: Zhou, J., Fu, C., Shen, M., Tao, J., Liu, H.
Journal: Journal of Agricultural and Food Chemistry
Year: 2024
- ๐ CXCR3 participates in asymmetric division of mouse oocytes by modulating actin dynamics
Authors: Li, W.-J., Li, R.-Y., Wang, D.-Y., Shen, M., Liu, H.-L.
Journal: Theriogenology
Year: 2024
- ๐ FSH preserves the viability of hypoxic granulosa cells via activating the HIF-1ฮฑ-GAS6-Axl-Akt pathway
Authors: Li, C., Fu, C., He, T., Liu, H., Shen, M.
Journal: Journal of Cellular Physiology
Year: 2024
- ๐ FOXO1-mediated nuclear sequestration of STAT3 and AKT1 triggers FOXO3-dependent autophagic death in hypoxic granulosa cells
Authors: Li, C., Wu, G., Ning, C., Shen, M., Liu, H.
Journal: International Journal of Biological Sciences
Year: 2024