Yuxiang Wang | Molecular Biology | Best Researcher Award

Posted on by Cell Biologist

Dr. Yuxiang Wang | Molecular Biology | Best Researcher Award

Dr. Yuxiang Wang, Fudan University, China

Dr. Yuxiang Wang is a Principal Investigator and Ph.D. Supervisor at Fudan University, with an extensive background in molecular biology, oncology, and translational medicine. He earned his Ph.D. in Developmental and Molecular Biology from the Albert Einstein College of Medicine, where he worked under the mentorship of Dr. Jeffrey W. Pollard. Following this, he completed a prestigious research fellowship at Memorial Sloan-Kettering Cancer Center. Dr. Wang has built a strong academic and clinical research portfolio, focusing on gliomas and muscular dystrophy. His work utilizes state-of-the-art preclinical models and CRISPR screening technologies to identify novel therapeutic strategies. Dr. Wang is a recipient of numerous honors, including the MSK Society Scholar Award and Shanghai Leading Overseas Talent recognition. He actively collaborates with clinicians to translate lab discoveries into patient therapies, and his prolific publication record reflects deep scientific rigor and innovation.

Publication Profile: 

Scopus

✅ Strengths for the Award:

  1. Strong Research Track Record
    Dr. Wang has published in top-tier journals such as Nature Communications, Science Advances, Cancer Research, and PNAS. His publication record demonstrates consistency, depth, and high impact across multiple domains including glioma biology and gene therapy.

  2. Dual Research Focus
    He leads research in two distinct yet critical biomedical areas—malignant gliomas and muscular dystrophy. This breadth shows versatility and the ability to manage complex translational programs.

  3. Innovative Techniques
    Dr. Wang effectively applies CRISPR-based genetic screening, preclinical mouse models, and patient-derived cell lines—cutting-edge tools that reflect a forward-thinking, high-tech research approach.

  4. International Research Background
    His training and professional experience in both the U.S. (at Memorial Sloan-Kettering Cancer Center) and China make him a bridge between Western and Eastern biomedical research ecosystems.

  5. Leadership and Mentorship
    Serving as both Principal Investigator and Ph.D. Supervisor, and having been Vice Director at a major clinical research center, Dr. Wang shows strong leadership and a commitment to research training.

  6. Recognitions and Awards
    Prestigious honors such as the Shanghai Leading Overseas Talent, Shanghai Pujiang Talent, and MSK Society Scholar Award (twice) underline peer recognition and scientific excellence.

🛠️ Areas for Improvement:

  1. Clinical Translation and Implementation
    While his preclinical work is strong, more details or evidence on how these findings have progressed toward clinical trials or therapeutic products could further strengthen his translational profile.

  2. Interdisciplinary Collaborations
    Expanding collaborations across fields like bioengineering, immunotherapy, or computational biology may add further value and broaden research impact.

  3. Visibility and Outreach
    Increasing visibility through keynote lectures, patents, or public datasets could enhance his reputation globally and support broader dissemination of his work.

  4. Grants and Funding Portfolio
    While not detailed in the CV, highlighting national/international grant leadership or participation would provide insight into his ability to secure and manage competitive research funding.

🎓 Education:

Dr. Yuxiang Wang holds a distinguished academic background across leading institutions. He completed his Ph.D. in Developmental and Molecular Biology at Albert Einstein College of Medicine (2008–2014), under Dr. Jeffrey W. Pollard, focusing on hormone signaling and uterine biology. Before that, he earned a Master of Sciences from Fudan University (2004–2007), mentored by Dr. Bo Chen, where he explored hormone interactions in reproductive biology. He began his academic journey with a Bachelor of Sciences from the Ocean University of China (2000–2004), majoring in life sciences. This robust education laid the foundation for his later success in cancer biology and translational research. Throughout his academic path, Dr. Wang has demonstrated a consistent focus on the cellular and molecular mechanisms underlying human diseases, especially cancer and genetic disorders. His education, blending rigorous laboratory work and clinical relevance, has uniquely positioned him for cutting-edge biomedical research.

💼 Experience:

Dr. Wang currently serves as Principal Investigator and Ph.D. Supervisor at Fudan University’s School of Basic Medical Sciences (2020–present), where he leads research on gliomas and muscular dystrophy. From 2021 to 2023, he also held the position of Vice Director of the Research Department at the Clinical Research Center of the Affiliated Children’s Hospital of Fudan University, coordinating clinical and translational projects. Prior to his return to China, Dr. Wang worked as a Research Fellow at Memorial Sloan-Kettering Cancer Center (2015–2020), collaborating with Dr. Timothy Chan and Dr. Jason Huse on the molecular basis of brain tumors and treatment resistance. His career bridges fundamental science and clinical applications, with a focus on leveraging genetic models and CRISPR technologies to uncover therapeutic targets. Dr. Wang’s international experience and leadership in high-impact research programs underscore his contributions to biomedical innovation and mentorship.

🏅 Awards and Honors:

Dr. Yuxiang Wang’s outstanding scientific contributions have been recognized through several prestigious awards. He was named a Shanghai Leading Overseas Talent (2020) and a Shanghai Pujiang Talent (2020), highlighting his excellence in international scientific exchange and leadership. While at Memorial Sloan-Kettering Cancer Center, he was twice awarded the MSK Society Scholar Award (2018, 2019), which recognizes exceptional postdoctoral researchers demonstrating strong potential for independent academic careers. These accolades underscore Dr. Wang’s commitment to impactful research, innovation in therapeutic development, and mentorship of young scientists. His ability to translate fundamental research into preclinical and potentially clinical solutions sets him apart as a research leader. These honors reflect peer recognition of both the depth and translational potential of his work in oncology and genetic diseases.

🔬 Research Focus:

Dr. Wang’s research centers on two critical areas: malignant gliomas and muscular dystrophy. In glioma studies, his team investigates the cooperative role of IDH and ATRX mutations using CRISPR-based genetic screening in mouse models to identify synthetic lethal targets—genes whose inhibition can selectively kill tumor cells with specific mutations. This strategy opens doors to novel, mutation-specific therapies with minimal harm to healthy cells. In muscular dystrophy, Dr. Wang focuses on rare genetic mutations affecting glycosylation pathways, utilizing patient-derived cells and animal models to evaluate gene therapy and genome editing solutions. His work seeks not only to understand disease mechanisms but also to bridge the lab-to-clinic gap. A long-term objective is to offer personalized therapies for patients with genetically defined diseases. The integration of molecular biology, translational research, and therapeutic innovation defines his approach.

📚 Publication Top Notes: 

  1. 🧬 Genetically Engineered Mouse Models Unveil Mechanisms and Therapeutic Strategies for GMPPB-Associated Dystroglycanopathy – Nature Communications (under revision)

  2. 🧠 PRICKLE4 Underlies IDH mutant Tumor Resistance against PARP Inhibition – Advanced Science (under revision)

  3. 🧫 Comprehensively characterizing eRNA in immune cells to screen combinational strategies for anti-cancer immunotherapy – Cancer Research (2025)

  4. 🔬 Targeting therapeutic vulnerabilities with PARP inhibition and radiation in IDH-mutant gliomas and cholangiocarcinomas – Science Advances

  5. 🧬 G-quadruplex DNA drives genomic instability and represents a targetable molecular abnormality in ATRX-deficient malignant glioma – Nature Communications

  6. 🧪 Mutant-IDH1-dependent chromatin state reprogramming, reversibility, and persistence – Nature Genetics

  7. 🧠 Atrx inactivation drives disease-defining phenotypes in glioma cells of origin through global epigenomic remodeling – Nature Communications

  8. 🧬 Activation of protein synthesis in mouse uterine epithelial cells by estradiol-17β is mediated by a PKC–ERK1/2–mTOR signaling pathway – PNAS

  9. 🔬 GSK-3β mediates in the progesterone inhibition of estrogen-induced cyclin D2 nuclear localization and cell proliferation in cyclin D1−/− mouse uterine epithelium – FEBS Letters

🧾 Conclusion:

Dr. Yuxiang Wang is a highly deserving candidate for the Best Researcher Award. He demonstrates:

  • A clear and sustained record of scientific excellence,

  • Deep expertise in cancer biology and rare disease genetics,

  • Use of innovative methodologies, and

  • Leadership in both academic and clinical research environments.

His contributions to understanding the molecular basis of gliomas and developing targeted therapies for muscular dystrophy have significant implications for personalized medicine. With continued development in clinical translation and interdisciplinary reach, he stands out as a leader of the next generation of biomedical scientists.

Minjian Chen | Metabolism | Best Researcher Award

Posted on by Cell Biologist

Prof. Dr. Minjian Chen | Metabolism | Best Researcher Award

Prof. Dr. Minjian Chen, Nanjing Medical University, China

Professor Minjian Chen is a leading academic in toxicology and reproductive health at Nanjing Medical University (NMU). After earning both his Bachelor’s in Preventive Medicine (2008) and Ph.D. in Toxicology (2013) at NMU, he undertook postdoctoral research there and served as a guest researcher at the U.S. National Institute of Environmental Health Sciences (NIEHS), NIH. Since 2023, he has held a professorial position and was recognized as an Outstanding Young Backbone Teacher in Jiangsu’s prestigious “Qinglan Project.” His work spans reproductive toxicity, metabolomics, and exposomics, focusing on environmental and nutritional factors affecting fertility. With over 10 funded national and provincial research projects and numerous peer-reviewed publications, Professor Chen has significantly contributed to understanding spermatogenic dysfunction and metabolic profiling in reproductive biology. He continues to push boundaries in public health and environmental toxicology.

Publication Profile: 

Orcid

✅ Strengths for the Award:

  1. Strong Academic Foundation

    • Bachelor’s and Ph.D. in Preventive Medicine and Toxicology from a top Chinese institution (Nanjing Medical University).

    • Postdoctoral research and international exchange experience, including at the U.S. National Institute of Environmental Health Sciences (NIH/NIEHS).

  2. Outstanding Research Leadership

    • Principal Investigator (PI) for multiple competitive national and provincial grants, with over ¥2 million in individual research funding and participation in projects exceeding ¥70 million total budget.

    • Active contributor in 11 funded research projects, with core themes on reproductive toxicology, metabolomics, and AI-based diagnostics.

  3. High-Impact Publications

    • Recent publications in top-tier international journals including EMBO Journal, Molecular & Cellular Proteomics, IJMS, Theriogenology, and Toxics.

    • Regular authorship and collaborations on cutting-edge studies in exposomics, spermatogenesis, and reproductive metabolomics.

  4. Recognition and Honors

    • Named Outstanding Young Backbone Teacher under Jiangsu’s “Qinglan Project”.

    • Appointed Distinguished Young Academic Leader at Nanjing Medical University.

  5. Interdisciplinary & Translational Approach

    • Work spans basic toxicology, systems biology, and big-data-driven clinical research, positioning him well for translational impact in reproductive health and environmental medicine.

⚠️ Areas for Improvement:

  1. Expanded Global Visibility

    • While Prof. Chen has published widely, further collaboration with global institutions could help amplify international recognition.

  2. Clinical Translation

    • While he has contributed to diagnostic R&D and cohort-based studies, greater emphasis on real-world clinical application or intervention trials could boost impact and societal benefit.

  3. Leadership in Multi-National Consortia

    • Assuming leadership roles in global consortia or organizations could further solidify his position as a top-tier researcher.

🎓 Education:

Professor Minjian Chen pursued his entire academic training at Nanjing Medical University, beginning with a Bachelor’s degree in Preventive Medicine from 2003 to 2008. His passion for understanding environmental impacts on human health led him to complete a Ph.D. in Toxicology between 2008 and 2013. During his doctoral studies, he specialized in reproductive toxicology, investigating the metabolic mechanisms by which environmental toxins affect male fertility. Following his doctorate, he deepened his expertise with postdoctoral training (2013–2018) at the NMU School of Basic Medicine. In 2014, he was selected for the China–Australia Young Scientist Exchange Program, an early recognition of his academic promise and leadership. His international exposure was further enhanced through a research fellowship at the U.S. National Institute of Environmental Health Sciences (NIH) from 2019 to 2020. This robust educational background laid a strong foundation for his research in reproductive health, metabolomics, and environmental toxicology.

💼 Experience:

Professor Chen began his academic career as a Lecturer at NMU in 2013, shortly after completing his Ph.D. Over the following decade, he rose through the ranks, becoming a Professor in 2023, thanks to his prolific research and educational contributions. Between 2013 and 2018, he completed an intensive postdoctoral fellowship at NMU, focusing on toxicological studies related to male reproductive health. In 2019–2020, he broadened his global research experience by joining the NIEHS at the U.S. NIH as a guest researcher. His teaching and mentorship have earned him several accolades, including Distinguished Young Academic Leader at NMU and Outstanding Young Backbone Teacher in Jiangsu’s “Qinglan Project.” Professor Chen also plays a vital role in large-scale, national R&D programs and key provincial projects in China, acting as a Principal Investigator (PI) or Sub-project PI in more than ten funded initiatives in toxicology, reproductive biology, and data-driven diagnostics.

🔬 Research Focus:

Professor Minjian Chen’s research is centered on environmental toxicology, reproductive health, and metabolomics. His primary scientific contributions lie in uncovering how environmental toxins—including phytochemicals, metals, and industrial chemicals—disrupt male fertility through metabolic pathways. His studies on arachidonic acid metabolism, n-6 PUFA pathways, and sorbitol metabolism have advanced our understanding of oligospermia and other reproductive dysfunctions. More recently, Professor Chen has explored the application of integrative omics (metabolomics + transcriptomics) in reproductive cells like oocytes and cumulus cells, providing insights into fertility and early development. He is also involved in big-data-driven diagnosis for pregnancy complications such as intrahepatic cholestasis and macrosomia, and in nationwide projects investigating genetic risks in ART offspring and structural birth defects. His work is highly interdisciplinary, blending toxicology, biochemistry, epidemiology, and computational biology to push the frontiers of precision reproductive health and environmental health sciences.

📚 Publications Top Notes:

  1. 🧬 Association of Personal Care and Consumer Product Chemicals with Long-Term Amenorrhea: Insights into Serum Globulin and STAT3 (Toxics, 2025)

  2. 🧫 Characterization of Metabolic Patterns in Mouse Spermatogenesis and Its Clinical Implications in Humans (IJMS, 2025)

  3. 🧪 A Metabolome and Microbiome Analysis of Acute Myeloid Leukemia: Insights into the Carnosine–Histidine Metabolic Pathway (Toxics, 2024)

  4. 🐷 Characterization of Metabolic Patterns in Porcine Cumulus Cells During Meiotic Maturation (Theriogenology, 2024)

  5. 🐐 Combined Analysis of Temporal Metabolomics and Transcriptomics in Goat Oocytes During Maturation (Theriogenology, 2024)

  6. 🧍 Exposure to Molybdate Results in Metabolic Disorder: Urine Elementome and Serum Metabolome in Mice (Toxics, 2024)

  7. 🧬 Integrative Omics Reveals the Metabolic Patterns During Oocyte Growth (Molecular & Cellular Proteomics, 2024)

  8. 🌐 The Global Phosphorylation Landscape of Mouse Oocytes During Meiotic Maturation (EMBO Journal, 2024)

  9. ⚗️ Environmental Chemical Exposomics and Metabolomics in Toxicology: The Latest Updates (Toxics, 2024)

  10. 👶 Cohort Profile: The Jiangsu Birth Cohort (International Journal of Epidemiology, 2023)

📝 Conclusion:

Professor Minjian Chen is highly suitable for the Best Researcher Award. His consistent research excellence, broad project leadership, publication strength, and interdisciplinary work make him a standout candidate. His research is not only scientifically rigorous but also socially relevant—targeting reproductive health challenges through environmental and metabolic lenses. With additional emphasis on global outreach and clinical application, Prof. Chen’s impact could become even more transformative.