Marziyeh Saghebjoo | Molecular Biology | Editorial Board Member

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Prof. Marziyeh Saghebjoo | Molecular Biology | Editorial Board Member 

Academic Staff | University of Birjand | Iran

Professor Marziyeh Saghebjoo is a leading scholar in exercise physiology whose research has significantly advanced understanding of exercise–induced metabolic regulation, obesity management, and clinical exercise interventions. Her academic influence is demonstrated through 373 citations by 327 documents, 55 publications, and an h-index of 12, reflecting sustained contributions to sport sciences and human metabolic health. Her work spans exercise nutrition, weight-control mechanisms, hormonal responses to training, and exercise-based strategies for chronic disease prevention, with a strong emphasis on obesity, hypertension, and cancer-related metabolic pathways. She has produced impactful studies on high-intensity interval training, combined dietary–exercise models, home-based cardiovascular rehabilitation, and exercise–nutrient interactions, including investigations into gut microbiota modulation, insulin sensitivity, inflammatory markers, and molecular regulators such as miRNAs, VEGF, HIF-1α, ghrelin, and obestatin. Her collaborations with multidisciplinary research teams in physiology, nutrition, biochemistry, and clinical sciences have resulted in publications in internationally indexed journals and translational outputs relevant to public health and athletic performance. In addition to her research productivity, she has contributed to scientific dissemination through editorial board service and active involvement in professional academic committees, helping shape research quality, ethics, and development in sport sciences. Her scholarship consistently integrates laboratory, clinical, and performance-based methodologies, generating evidence that supports healthier lifestyles, improved metabolic outcomes, and enhanced exercise-based therapeutic interventions. Through her sustained commitment to advancing scientific knowledge and mentoring future researchers, Professor Saghebjoo continues to influence global discussions on exercise, health, and metabolic disease prevention.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate
Featured Publications

  1. Ghanbari-Niaki, A., Saghebjoo, M., & Hedayati, M. (2011). A single session of circuit-resistance exercise effects on human peripheral blood lymphocyte ABCA1 expression and plasma HDL-C level. Regulatory Peptides, 166(1–3), 42–47. Citations: 81

  2. Nezamdoost, Z., Saghebjoo, M., Hoshyar, R., Hedayati, M., & Keska, A. (2020). High-intensity training and saffron: Effects on breast cancer-related gene expression. Medicine and Science in Sports and Exercise, 52(7), 1470–1476. Citations: 73

  3. Ghanbari-Niaki, A., Saghebjoo, M., Soltani, R., & Kirwan, J. P. (2010). Plasma visfatin is increased after high-intensity exercise. Annals of Nutrition and Metabolism, 57(1), 3–8. Citations: 71

  4. Saedmocheshi, S., Saghebjoo, M., Vahabzadeh, Z., & Sheikholeslami-Vatani, D. (2019). Aerobic training and green tea extract protect against N-methyl-N-nitrosourea-induced prostate cancer. Medicine and Science in Sports and Exercise, 51(11), 2210–2216. Citations: 67

  5. Ghanbari-Niaki, A., Saghebjoo, M., Rahbarizadeh, F., Hedayati, M., & Rajabi, H. (2008). A single circuit-resistance exercise has no effect on plasma obestatin levels in female college students. Peptides, 29(3), 487–490. Citations: 51

Andrea Gobbo | Molecular Biology | Best Researcher Award

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Andrea Gobbo | Molecular Biology | Best Researcher Award

Research scientist | Transversal Activities in Applied Genomics | Belgium

Ms. Andrea Gobbo, is a molecular biologist and research scientist specializing in molecular biology, genomics, and food safety within the framework of One Health. His expertise lies in the development and validation of advanced molecular detection methods, including qPCR and digital droplet PCR (ddPCR), for the identification and quantification of genetically modified organisms (GMO/GMM), antimicrobial resistance (AMR) genes, and microbial contaminants across diverse biological and environmental matrices. At Sciensano, he has contributed to numerous multidisciplinary national and international projects such as NAP-AMR, CoVWWSurv, ENSURED, METAMORPHOSE, and DARWIN, focusing on food safety, microbial contamination, and environmental health surveillance. His research supports global efforts to strengthen food authenticity, ensure product safety, and enhance AMR monitoring in environmental systems. He is also actively involved in mentoring university students, laboratory coordination, and scientific communication through peer-reviewed publications and international conference presentations. Andrea Gobbo’s scholarly achievements demonstrate a strong commitment to scientific innovation and public health protection. His contributions include the development of reliable molecular assays for environmental biosurveillance and genomic characterization of microorganisms relevant to food and health safety. His publications, appearing in respected international journals such as Food Research International, Frontiers in Microbiology, Water Environment Research, and Heliyon, highlight his role in bridging molecular biology with applied public health research. Andrea Gobbo’s academic impact is evidenced by 34 citations by 27 documents, 10 publications, and an h-index of 3, underscoring his growing influence in molecular diagnostics and genomic surveillance. His collaborative work continues to advance the integration of molecular tools in One Health initiatives, promoting sustainable and science-driven solutions for global biosecurity and environmental safety.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate

  1. Fraiture, M.-A., Gobbo, A., Marchesi, U., Verginelli, D., Papazova, N., & Roosens, N. H. C. (2021). Development of a real-time PCR marker targeting a new unauthorized genetically modified microorganism producing protease identified by DNA walking. International Journal of Food Microbiology, 354, 109330. Citations: 13

  2. Fraiture, M.-A., Gobbo, A., Papazova, N., & Roosens, N. H. C. (2022). Development of a taxon-specific real-time PCR method targeting the Bacillus subtilis group to strengthen the control of genetically modified bacteria in fermentation products. Fermentation, 8(2), 78. Citations: 8

  3. Van Poelvoorde, L. A. E., Picalausa, C., Gobbo, A., Verhaegen, B., Lesenfants, M., Herman, P., Van Hoorde, K., & Roosens, N. H. C. (2023). Development of a droplet digital PCR to monitor SARS-CoV-2 omicron variant BA.2 in wastewater samples. Microorganisms, 11(3), 729. Citations: 7

  4. Gobbo, A., Fraiture, M.-A., Van Poelvoorde, L. A. E., De Keersmaecker, S. C. J., Garcia-Graells, C., Van Hoorde, K., Verhaegen, B., Huwaert, A., Maloux, H., Hutse, V., Ceyssens, P.-J., & Roosens, N. H. C. (2024). Strategy to develop and validate digital droplet PCR methods for global antimicrobial resistance wastewater surveillance. Water Environment Research, 96(11), e11145. Citations: 4

  5. Fraiture, M.-A., Gobbo, A., Guillitte, C., Marchesi, U., Verginelli, D., De Greve, J., D’aes, J., Vanneste, K., Papazova, N., & Roosens, N. H. C. (2024). Pilot market surveillance of GMM contaminations in alpha-amylase food enzyme products: A detection strategy strengthened by a newly developed qPCR method targeting a GM Bacillus licheniformis producing alpha-amylase. Food Chemistry: Molecular Sciences, 8, 100186. Citations: 3