University of Luebeck | Germany

Mrs. Judith Röske is a dedicated researcher with a strong focus on molecular virology, antiviral drug discovery, and protease-targeted therapeutic development, contributing to 13 scientific publications across high-impact journals. Her work explores the binding behavior of small-molecule inhibitors to viral 3C proteases, including SARS-CoV-2, EV-D68, EV-A71, and HAV, as well as host proteases such as cathepsins and calpain-1. With expertise in photometry, nanoDSF, MST, and SPR, she has optimized methods for determining key biochemical parameters such as IC₅₀, Tm, and Kᴅ, enabling the effective screening of lead compounds for broad-spectrum antivirals. Her research further investigates RNA-binding mechanisms in HAV 3C protease, shedding light on dual-targeting strategies that may advance anti-picornaviral drug development. She has contributed to influential studies on SARS-CoV-2 main protease inhibitors, including work on novel warhead chemistries, α-ketoamide derivatives, and diastereomeric optimization, reinforcing her impact in antiviral medicinal chemistry. Additionally, earlier contributions in transplant biology and liver preservation highlight her versatility in biochemical and molecular research. Through rigorous structural, kinetic, and biophysical analyses, her body of work adds valuable insight into protease inhibition and therapeutic innovation, supported by a growing citation record within the scientific community.

Profiles : Scopus | Orcid

Featured Publications

Theodoropoulou, M. A., El Kilani, H., Mantzourani, C., Jochmans, D., Neyts, J., Zhang, K., Röske, J., Kokotou, M. G., Hilgenfeld, R., & Kokotos, G. (2025). Thiazolyl 4-carboxylate ketone as a new warhead for a highly potent SARS-CoV-2 main protease inhibitor. European Journal of Medicinal Chemistry, 25(11), 118436.

Akula, R. K., El Kilani, H., Metzen, A., Röske, J., Zhang, K., Göhl, M., Arisetti, N., Marsh, G. P., Maple, H. J., Cooper, M. S., et al. (2025). Structure-based optimization of pyridone α-ketoamides as inhibitors of the SARS-CoV-2 main protease. Journal of Medicinal Chemistry, 68(1).

Cooper, M. S., Zhang, L., Ibrahim, M., Zhang, K., Sun, X., Röske, J., Göhl, M., Brönstrup, M., Cowell, J. K., Sauerhering, L., et al. (2022). Diastereomeric resolution yields highly potent inhibitor of SARS-CoV-2 main protease. Journal of Medicinal Chemistry.

Bernard, V., Gebauer, N., Dinh, T., Stegemann, J., Feller, A. C., & Merz, H. (2014). Applicability of next-generation sequencing to decalcified formalin-fixed and paraffin-embedded chronic myelomonocytic leukaemia samples. International Journal of Clinical and Experimental Pathology.

Le Minh, K., Berger, A., Eipel, C., Kuhla, A., Minor, T., Stegemann, J., & Vollmar, B. (2011). Uncoupling protein-2 deficient mice are not protected against warm ischemia/reperfusion injury of the liver. Journal of Surgical Research, 167.

Stegemann, J., Hirner, A., Rauen, U., & Minor, T. (2010). Use of a new modified HTK solution for machine preservation of marginal liver grafts. Journal of Surgical Research.

Koetting, M., Stegemann, J., & Minor, T. (2010). Dopamine as additive to cold preservation solution improves postischemic integrity of the liver. Transplant International, 23.

Minor, T., Stegemann, J., Hirner, A., & Koetting, M. (2009). Impaired autophagic clearance after cold preservation of fatty livers correlates with tissue necrosis upon reperfusion and is reversed by hypothermic reconditioning. Liver Transplantation.

Stegemann, J., & Minor, T. (2009). Energy charge restoration, mitochondrial protection and reversal of preservation-induced liver injury by hypothermic oxygenation prior to reperfusion. Cryobiology.

Stegemann, J., Hirner, A., Rauen, U., & Minor, T. (2009). Gaseous oxygen persufflation or oxygenated machine perfusion with Custodiol-N for long-term preservation of ischemic rat livers? Cryobiology.

Le Minh, K., Kuhla, A., Abshagen, K., Minor, T., Stegemann, J., Ibrahim, S., Eipel, C., & Vollmar, B. (2009). Uncoupling protein-2 deficiency provides protection in a murine model of endotoxemic acute liver failure. Critical Care Medicine.

Manekeller, S., Seinsche, A., Stegemann, J., & Hirner, A. (2008). Optimising post-conditioning time of marginal donor livers. Langenbeck's Archives of Surgery.

Manekeller, S., Schuppius, A., Stegemann, J., Hirner, A., & Minor, T. (2007). Role of perfusion medium, oxygen and rheology for endoplasmic reticulum stress-induced cell death after hypothermic machine preservation of the liver. Transplant International.

Shadab Ahamad | Biochemistry, Genetics and Molecular Biology | Best Scholar Award

Published on 20/09/202520/09/2025 by Book of Award

Mr. Shadab Ahamad | Biochemistry, Genetics and Molecular Biology | Best Scholar Award

Sri Sathya Sai University for Human Excellence | India

Mr. Shadab Ahamad is a dedicated life sciences researcher specializing in biotechnology, genomics, and congenital heart disease (CHD) studies. He is currently pursuing a Ph.D. in Life Sciences at Sri Sathya Sai University for Human Excellence, focusing on unraveling genetic and environmental factors contributing to CHD through advanced genomic approaches such as GWAS, NGS, and variant screening. His academic background includes a B.Tech. in Biotechnology from GB Pant University of Agriculture and Technology, a DBT-sponsored Postgraduate Diploma in Agricultural Biotechnology from Amity Institute of Biotechnology, and research fellowships across prestigious institutes including JNCASR and IARI Delhi. Professionally, he serves as a Research Officer at Sri Sathya Sai Sanjeevani International Centre for Child Heart Care and Research, where he integrates clinical data analysis with genomic research to explore genotype-phenotype correlations and maternal-perinatal risk factors. His work spans plant biotechnology, nanotechnology integration, and clinical genomics, with multiple peer-reviewed research articles, reviews, and book chapters. Having presented at numerous international conferences and received recognition for his contributions, Mr. Ahamad continues to bridge translational research and clinical application to improve child health outcomes globally.

Profile : Orcid

Featured Publications

"Maternal Peri-Conceptional Sleep Quality and Risk of Congenital Heart Disease in Offspring: An Exploratory Case–Control Study"
"Developmental Origins of Health and Disease"
"Impact of long-term deep freeze storage on human leukocytes viability & DNA extraction: Insights from a resource-limited biorepository"
"Navigating Life with Rare Syndromes and Congenital Heart Disease: The Unseen Link"
"Is Poor Maternal Sleep Quality in the Periconceptional Period a Risk Factor for Congenital Anomalies in Offspring?"
"Systematic molecular view of targets prioritization of congenital heart disease against developmental toxicity"
"Paternal Teratogen Exposure and Risk of Congenital Heart Disease in Offspring: A Two-Year Retrospective Observational Study"
"Summary of initiatives for treating congenital heart disease: Enhancing quality of life and bridging the knowledge gap"
"Computational insights into maternal environmental pollutants and folate pathway regulation"
"Isolation and PCR Validation of DNA from Chicory (Cichorium intybus L.) Leaves Using an Optimized CTAB Method to Propel Medicinal Insights"

Abdelaziz Ghanemi | Medicine and Dentistry | Best Researcher Award

Published on 27/05/202527/05/2025 by Book of Award

Dr. Abdelaziz Ghanemi | Medicine and Dentistry | Best Researcher Award

Laval University | Canada

Author Profile

Orcid

Google Scholar

🎓 Early Academic Pursuits

Dr. Abdelaziz Ghanemi’s academic foundation reflects both intellectual rigor and global engagement. He graduated as the top student from the pharmacy program at Mentouri University of Constantine in Algeria. His quest for advanced scientific knowledge led him to China Pharmaceutical University, where he earned a Master of Science in Pharmacology, completing more than twice the credit requirement. His research there involved high-throughput screening for dopamine D5 receptor ligands—a project using transgenic cell lines and cutting-edge fluorescence assays. He then pursued a Ph.D. in Molecular Medicine at Laval University in Canada. His doctoral thesis was a comprehensive study of gene regulation in obesity and exercise, particularly focusing on TFF2 and SPARC, and was constructed from an impressive 27 peer-reviewed publications, marking an extraordinary achievement in biomedical research.

🧪 Professional Endeavors

Dr. Ghanemi’s professional journey spans Algeria, China, and Canada, covering a spectrum of scientific, academic, and community roles. His appointments include:

👨‍🔬 Postdoctoral Fellowships at CHU de Québec–Université Laval Research Center and LOEX Regenerative Medicine Lab, where he explored obesity, vascular calcification, and 3D bioprinting for tissue engineering.
👨‍🏫 Visiting Scholar at the University of Victoria (2024), working under Prof. Stephanie Willerth on bioprinting applications in regenerative medicine.
🔬 Research Professional at the CHUQ’s Functional Genomics and SAGE platform, applying gene expression tools to decode metabolic and ageing pathways.
🌍 Interpreter and Science Communicator, fluent in Arabic, English, French, and Chinese, enhancing cross-cultural scientific collaboration.

In addition to these, Dr. Ghanemi has participated in numerous internships, including hospital pharmacy and neurobiology labs, and taught pharmacology in China—demonstrating both practical and pedagogical expertise.

🔬 Contributions and Research Focus

Dr. Ghanemi’s research covers some of the most pressing biomedical themes of our time:

🧠 Obesity and metabolism, focusing on gene-environment interactions and exercise-induced molecular changes
💪 Regenerative medicine, especially the roles of SPARC and TFF2 in ageing, obesity, and tissue repair
🧬 Genomic and transcriptomic analysis using transgenic animal models and advanced sequencing platforms
🩺 Chronic kidney disease and mineral bone disorders, examining vitamin D pathways and Wnt/β-catenin signaling

His scholarly productivity includes over 50 scientific articles, a Google Scholar h-index of 22, and contributions to high-impact journals such as Biomedicines, Metabolites, Biology, Medicines, and Cytokine.

🏅 Accolades and Recognition

Dr. Ghanemi’s excellence has been recognized globally:

🥇 “Best Student Award” during his undergraduate pharmacy studies
🏆 Oral Presentation Award at ICOMES & AOCO 2019 in Seoul for research on SPARC and exercise
🎓 Vanier Canada Graduate Scholarship Nominee, one of Canada’s most prestigious honors
💬 “Student Seminar Award” by CHU de Québec Research Center for outstanding research communication
🏅 “I Stand With Her” Award at the Women in Medicine Summit (Chicago), honoring his advocacy for women's health
🌍 Laval University Representative at the Canadian Student Health Research Forum (2021)

These distinctions underscore both the scientific value and societal impact of his work.

🌐 Impact and Influence

Dr. Ghanemi’s influence extends beyond the laboratory. His work on exercise mimetics, bioenergetics, and gene-environment crosstalk holds implications for public health, geriatrics, and personalized medicine. As an editor for a special issue in Biomedicines (2024–2025), he is shaping academic dialogue on metabolism and tissue engineering. His editorial contributions and published opinions have influenced how we view obesity, exercise biology, and post-COVID metabolic health. His multilingual ability and international collaborations make him a bridge between cultures and scientific communities.

🔮 Legacy and Future Contributions

Dr. Ghanemi's trajectory suggests a lasting legacy in translational medicine. His integration of molecular research, clinical relevance, and public health awareness positions him to advance therapeutic development in obesity, regenerative strategies, and age-related diseases. With current projects involving SPARC’s therapeutic applications, vascular biology, and bioprinted tissues, Dr. Ghanemi is at the vanguard of modern biomedical science. His commitment to publishing, mentoring, and interdisciplinary exploration signals continued contributions to global health and scientific progress.

Publications

📄 A Single Intraperitoneal Secreted Protein Acidic and Rich in Cysteine Injection in Mice Is Towards an Exercise-like Phenotype
Authors: Abdelaziz Ghanemi, Mayumi Yoshioka, Jonny St-Amand
Journal: Biology
Year: 2025

📄 Obesity and Bone Mineral Density Protection Paradox in Chronic Kidney Disease: Secreted Protein Acidic and Rich in Cysteine as a Piece of the Puzzle?
Authors: Abdelaziz Ghanemi, Fabrice Mac-Way
Journal: Life
Year: 2023

📄 Secreted Protein Acidic and Rich in Cysteine (SPARC) to Manage Coronavirus Disease-2019 (COVID-19) Pandemic and the Post-COVID-19 Health Crisis
Authors: Abdelaziz Ghanemi, Mayumi Yoshioka, Jonny St-Amand
Journal: Medicines
Year: 2023

📄 Secreted Protein Acidic and Rich in Cysteine (SPARC)—Mediated Exercise Effects: Illustrative Molecular Pathways against Various Diseases
Authors: Abdelaziz Ghanemi, Mayumi Yoshioka, Jonny St-Amand
Journal: Diseases
Year: 2023

📄 DNA Damage as a Mechanistic Link between Air Pollution and Obesity?
Authors: Abdelaziz Ghanemi, Mayumi Yoshioka, Jonny St-Amand
Journal: Medicines
Year: 2022

Guobin Li | Agricultural and Biological Sciences | Best Researcher Award

Published on 18/03/202518/03/2025 by Book of Award

Dr. Guobin Li | Agricultural and Biological Sciences | Best Researcher Award

Northwest A&F University | China

Author Profile

Scopus

Orcid

Early Academic Pursuits 📚

Dr. Guobin Li embarked on his academic journey with a strong foundation in agricultural science. He earned his Ph.D. from Huazhong Agricultural University in 2021, focusing on the intricate molecular mechanisms governing plant development. His doctoral research laid the groundwork for his later contributions to horticultural genomics and plant stress physiology.

Professional Endeavors 🎓

Currently serving as an Assistant Professor at Northwest A&F University, Dr. Li is dedicated to unraveling the complexities of tomato fruit development and their responses to environmental stresses. His research delves into temperature and salinity stress tolerance, functional genomics, and the application of biotechnological tools to enhance the resilience of horticultural crops.

Contributions and Research Focus 🔬

Dr. Li’s work has significantly advanced our understanding of plant molecular responses. His primary research interests include:

Investigating the molecular pathways governing tomato fruit development and quality traits.
Exploring the genetic and biochemical responses of tomatoes to abiotic stress, including extreme temperatures and salinity.
Applying functional genomics and biotechnology to improve crop yield and stress resilience.

His notable studies have identified key regulatory proteins, such as the chloroplast metalloproteinase L2, that influence ethylene-mediated fruit ripening, and DC1 domain proteins that interact with critical regulatory pathways in flower and root development.

Accolades and Recognition 🏆

Dr. Li’s impactful research has been published in prestigious journals, including Journal of Experimental Botany, New Phytologist, Plant Science, and Environmental and Experimental Botany. His findings on polyamine biosynthesis and ionic homeostasis have provided new insights into improving plant stress tolerance, earning him recognition among plant scientists and biotechnologists.

Impact and Influence 🌍

By bridging molecular biology with practical agricultural applications, Dr. Li’s research contributes to global food security and sustainable agriculture. His studies on stress resilience mechanisms are instrumental in developing climate-resilient tomato varieties, addressing challenges posed by climate change and soil degradation.

Legacy and Future Contributions 🔮

Dr. Li’s future endeavors aim to expand the frontiers of plant biotechnology. His work will continue to shape the understanding of plant-environment interactions, with a vision to develop genetically improved crops that thrive under adverse conditions. His contributions hold immense potential for revolutionizing modern horticulture and ensuring agricultural sustainability in the face of environmental challenges.

Publications

📄SlCHP16 promotes root growth and enhances saline-alkali tolerance of tomato
Author(s): Zhen Kang, Xiangguang Meng, Zhijun Fang, Chunyu Shang, Rihan Wu, Junhong Zhang, Xiaohui Hu, Guobin Li
Journal: Environmental and Experimental Botany
Year: 2024

📄The SlWRKY42–SlMYC2 module synergistically enhances tomato saline–alkali tolerance by activating the jasmonic acid signaling and spermidine biosynthesis pathway
Author(s): Xiaoyan Liu, Chunyu Shang, Pengyu Duan, Jianyu Yang, Jianbin Wang, Dan Sui, Guo Chen, Xiaojing Li, Guobin Li, Songshen Hu, et al.
Journal: Journal of Integrative Plant Biology
Year: 2025

📄Genome-Wide Analysis of the DC1 Domain Protein Gene Family in Tomatoes under Abiotic Stress
Author(s): Guobin Li, Jiao Dang, Jiaqi Pan, Jingyi Liu, Tieli Peng, Guo Chen, Rongqun Wang, Songshen Hu, Xiaojing Li, Xiaohui Hu
Journal: International Journal of Molecular Sciences
Year: 2023

📄SlGH3.15, a member of the GH3 gene family, regulates lateral root development and gravitropism response by modulating auxin homeostasis in tomato
Author(s): Guobin Li
Journal: Plant Science
Year: 2023

📄Over-expression of spermidine synthase 2 (SlSPDS2) in tomato plants improves saline-alkali stress tolerance by increasing endogenous polyamines content to regulate antioxidant enzyme system and ionic homeostasis
Author(s): Guobin Li
Journal: Plant Physiology and Biochemistry
Year: 2022

Ridwan Salaam | Biochemistry, Genetics and Molecular Biology | Editorial Board Member

Published on 10/12/202410/12/2024 by Book of Award

Mr. Ridwan Salaam | Biochemistry, Genetics and Molecular Biology | Editorial Board Member

University of Ibadan | Nigeria

Author Profile

Orcid

Google Scholar

🌟 Early Academic Pursuits

Ridwan Salaam’s academic journey reflects a deep commitment to scientific excellence. His Bachelor’s degree from Obafemi Awolowo University (OAU) laid the foundation for his expertise in molecular genetics, with a thesis focused on the chromosomal studies of Arvicanthis niloticus. He graduated with a Second Class Upper degree, achieving a remarkable GPA of 4.19/5.0. Building on this, he pursued a Master’s degree at the University of Ibadan, earning a distinction (GPA: 6.2/7.0). His thesis investigated the antiplasmodial activity of phytocompounds using in silico pharmacology, supervised by esteemed scholars like Dr. Afolayan Funmilayo I.D.

🚀 Professional Endeavors

With hands-on research experience spanning academia and industry, Ridwan has excelled in roles such as Research Intern at Hackbio, Graduate Research Assistant at the University of Ibadan, and Research Assistant at OAU. He has mastered advanced bioinformatics tools, molecular docking, and statistical analysis, actively contributing to cancer and infectious disease studies. His contributions extend to mentoring students, conducting DNA extractions, and organizing independent research groups like the Computer-Aided Biological Research Group (COMBReG).

🧬 Contributions and Research Focus

Ridwan’s research spans Cell Biology, Molecular Genetics, Drug Discovery, and Immunotherapy, with an emphasis on cancer and infectious diseases. He has published extensively on computational drug discovery, molecular docking, and network pharmacology. Notable works include elucidating antiplasmodial mechanisms and exploring phytocompounds for cancer treatments. He has participated in groundbreaking projects, such as developing multipotent antivenom under the 2023 TETFUND National Research Fund.

🏆 Accolades and Recognition

Ridwan’s achievements have garnered national and international recognition. His certificate of commendation from Government Secondary School, Maina, acknowledges his teaching contributions, while multiple workshop certifications highlight his expertise in computer-aided drug design and vaccine development. His collaborative research efforts have been showcased at prestigious conferences like the Zoological Society of Nigeria Annual Conference and the International Conference on Scientific Research in Nigeria.

🌍 Impact and Influence

As a convener of COMBReG and a research team coordinator, Ridwan has demonstrated exceptional leadership by fostering collaborative environments and driving innovation. He has trained over 40 participants in bioinformatics and spearheaded projects addressing global health challenges like malaria and cancer. His ability to work across diverse cultural and professional backgrounds has solidified his reputation as a team player and mentor.

📜 Legacy and Future Contributions

Ridwan Salaam’s robust academic background and research endeavors position him as a trailblazer in molecular genetics and bioinformatics. His work not only addresses pressing global health issues but also inspires future generations of scientists. With ongoing research in computational drug discovery and molecular pathways, Ridwan’s contributions are poised to leave a lasting impact on the fields of cancer therapy and infectious disease treatment. His journey exemplifies the spirit of innovation and dedication, promising a legacy of transformative research.

Publications

📄 A Review of Selected Parasitic Plants in Nigeria: Converting Harms to Benefits

Authors: Funmilayo I. D. Afolayan, Ridwan A. Salaam, Ebenezer S. Oladokun, Samson D. Adesoye
Journal: Natural Therapy Advances
Year: 2024

📄 Antiplasmodial Mechanism of Lawsonia inermis: An In Silico-Based Investigation

Authors: Ridwan Abiodun Salaam, Funmilayo I. D. Afolayan
Journal: Infectious Diseases Research
Year: 2024

📄 In Silico Discovery of Potential Androgen Receptor and Cytochrome P450 17A1 Inhibitors from Camellia sinensis for Prostate Cancer Treatment

Authors: Ridwan Abiodun Salaam, Christopher Terseer Tarkaa, Rachael Pius Ebuh, Damilare Adebayo Olaniyi, Sayo Ebenezer Oladokun, Rodiat Omotola Sowemimo, Oluwaponmile Florence Ajayi, Olusola Abayomi Akangbe
Journal: Next Research
Year: 2024

📄 In Silico and In Vivo Evaluations of Multistage Antiplasmodial Potency and Toxicity Profiling of n-Hexadecanoic Acid Derived from Vernonia amygdalina

Authors: Funmilayo I. D. Afolayan, R. A. Odeyemi, Ridwan A. Salaam
Journal: Frontiers in Pharmacology
Year: 2024

📄 Elucidating the Molecular Targets of Curcuma longa for Breast Cancer Treatment Using Network Pharmacology, Molecular Docking, and Molecular Dynamics Simulation

Authors: Christopher Terseer Tarkaa, Damilare Adebayo Oyaniyi, Ridwan Abiodun Salaam, Rachael Pius Ebuh, Olusola Abayomi Akangbe, Sayo Ebenezer Oladokun, Rodiat Omotola Sowemimo, Oluwaponmile Florence Ajayi
Journal: Precision Medicine Research
Year: 2023