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.

Panpan Hou | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Published on 08/10/202508/10/2025 by Book of Award

Assist. Prof. Dr. Panpan Hou | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Macau University Of Science And Technology | Macau

Assist. Prof. Dr. Panpan Hou is a distinguished researcher in the field of Biomedical Engineering and Biophysics, with a prolific record of 375 documents, 541 citations, and an h-index of 16. After obtaining a B.S. in Biomedical Engineering and a Ph.D. in Biophysics from Huazhong University of Science and Technology, Dr. Hou completed postdoctoral training at Washington University in St. Louis before joining Macau University of Science and Technology as an Assistant Professor in 2021. Dr. Hou’s research focuses on ion channel physiology, voltage-sensor domain (VSD) mechanisms, and electro-mechanical coupling, elucidating complex molecular processes such as the VSD-pore coupling in KCNQ1 channels and identifying novel modulators with therapeutic potential. He has made significant contributions to drug screening, cardiovascular disease modeling, and electrophysiology, publishing high-impact work in journals including Nature Communications, PNAS, eLife, Circulation Research, and Scientific Reports. Dr. Hou has received multiple awards including the AHA Postdoctoral Fellowship, Best Poster Awards at international symposia, and the 2025 Best Research Output Award from Macau University of Science and Technology. Beyond research, he actively mentors students, serves on editorial boards, and contributes to national and international scientific societies. With a strong track record of innovation, mentorship, and high-impact publications, Dr. Hou exemplifies excellence in biomedical research and is poised to advance the understanding of ion channel physiology and therapeutic interventions.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Zhong, L., Lin, X., Cheng, X., Wan, S., Hua, Y., Nan, W., Hu, B., Peng, X., Zhou, Z., Zhang, Q., Yang, H., Noé, F., Yan, Z., Jiang, D., Zhang, H., Liu, F., Xiao, C., Zhou, Z., Mou, Y., Yu, H., Ma, L., Huang, C., Wong, V. K. W., Chung, S. K., Shen, B., Jiang, Z.-H., Neher, E., Zhu, W., Zhang, J., & Hou, P. (2025). Secondary structure transitions and dual PIP2 binding define cardiac KCNQ1-KCNE1 channel gating. Cell Research.

Hou, P., Zhao, L., Zhong, L., Shi, J., Wang, H. Z., Gao, J., Liu, H., Zuckerman, J., Cohen, I. S., & Cui, J. (2024). The fully activated open state of KCNQ1 controls the cardiac “fight-or-flight” response. PNAS Nexus.

Liu, Y., Xu, X., Gao, J., Naffaa, M. M., Liang, H., Shi, J., Wang, H. Z., Yang, N.-D., Hou, P., & Zhao, W. (2022). Author correction: A PIP2 substitute mediates voltage sensor-pore coupling in KCNQ activation. Communications Biology.

Dou, A., Kang, P. W., Hou, P., Zaydman, M. A., Zheng, J., Jegla, T., & Cui, J. (2021). Principles of sensor-effector organization in six-transmembrane ion channels.

Lin, Y., Grinter, S. Z., Lu, Z., Xu, X., Wang, H. Z., Liang, H., Hou, P., Gao, J., Clausen, C., & Shi, J. (2021). Modulating the voltage sensor of a cardiac potassium channel shows antiarrhythmic effects. Proceedings of the National Academy of Sciences.

Liu, Y., Xu, X., Gao, J., Naffaa, M. M., Liang, H., Shi, J., Wang, H. Z., Yang, N.-D., Hou, P., & Zhao, W. (2020). A PIP2 substitute mediates voltage sensor-pore coupling in KCNQ activation. Communications Biology.

Taylor, K. C., Kang, P. W., Hou, P., Yang, N.-D., Kuenze, G., Smith, J. A., Shi, J., Huang, H., McFarland White, K., & Peng, D. (2020). Structure and physiological function of the human KCNQ1 channel voltage sensor intermediate state. eLife.

Hou, P., Kang, P. W., Kongmeneck, A. D., Yang, N.-D., Liu, Y., Shi, J., Xu, X., McFarland White, K., Zaydman, M. A., Kasimova, M. A., Seebohm, M., Zhong, L., Zou, X., Tarek, M., & Cui, J. (2020). Two-stage electro–mechanical coupling of a KV channel in voltage-dependent activation. Nature Communications.

Zhu, W., Mazzanti, A., Voelker, T. L., Hou, P., Moreno, J. D., Angsutararux, P., Naegle, K. M., Priori, S. G., & Silva, J. R. (2019). Predicting patient response to the antiarrhythmic mexiletine based on genetic variation: Personalized medicine for long QT syndrome. Circulation Research.

Hou, P., Kang, P. W., Kongmeneck, A. D., Yang, N.-D., Liu, Y., Shi, J., Xu, X., McFarland White, K., Zaydman, M. A., Kasimova, M. A., Seebohm, M., Zhong, L., Zou, X., Tarek, M., & Cui, J. (2019). Two-stage electro-mechanical coupling of a KV channel in voltage-dependent activation.

Hou, P., Shi, J., McFarland White, K., Gao, Y., & Cui, J. (2019). ML277 specifically enhances the fully activated open state of KCNQ1 by modulating VSD-pore coupling. eLife.

Hou, P., Shi, J., McFarland White, K., Gao, Y., & Cui, J. (2019). ML277 specifically enhances pore opening of KCNQ1 with VSD at the activated state by modulating VSD-pore coupling.

Hou, P., Eldstrom, J., Shi, J., Zhong, L., McFarland, K., Gao, Y., Fedida, D., & Cui, J. (2017). Inactivation of KCNQ1 potassium channels reveals dynamic coupling between voltage sensing and pore opening. Nature Communications.

Hui Shen | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Published on 02/06/202502/06/2025 by Book of Award

Prof. Hui Shen | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

China Pharmaceutical University | China

Author Profile

Google Scholar

🎓 Early Academic Pursuits

Prof. Hui Shen embarked on his scientific journey with a Bachelor’s degree in Bioengineering from Wuhan University of Science and Technology (2008–2012), laying a strong foundation in the life sciences. He then pursued a Ph.D. in Biochemistry and Molecular Biology at the prestigious University of Science and Technology of China (2012–2017). His doctoral thesis focused on structural biology, specifically analyzing proteins in Saccharomyces cerevisiae and Staphylococcus aureus, under the mentorship of Prof. Maikun Teng.

👨‍🔬 Professional Endeavors

Prof. Shen has steadily ascended the academic ladder. After completing his Ph.D., he undertook postdoctoral research at the University of Pennsylvania’s Perelman School of Medicine (2018–2023). Working in Prof. Kathy Fange Liu's lab, he focused on RNA biology and molecular mechanisms in human cells. In 2023, he returned to China and assumed the role of Professor at China Pharmaceutical University in Nanjing, where he continues to contribute to cutting-edge research in the School of Life Science and Technology.

🧬 Contributions and Research Focus

Prof. Shen's research centers on RNA biology, structural biochemistry, and epigenetic regulation. He has delved into RNA helicases, methyltransferases, and RNA-protein interactions, significantly expanding our understanding of sexually dimorphic RNA metabolism, ribosome assembly, and RNA modifications. His work has elucidated mechanisms of phase separation, methylation, and protein structure-function relationships, all of which are vital for both basic science and therapeutic development.

🏆 Accolades and Recognition

Prof. Shen’s scholarly output is remarkable. He has published over a dozen first-author papers in high-impact journals such as Nature Communications, Molecular Cell, Genes & Development, and Journal of Biological Chemistry. His co-authored works also feature in Science Advances, Nature Communications, and ACS Catalysis, underscoring his collaborative and interdisciplinary impact. His presence in top-tier international conferences, including the RNA Society Annual Meeting and the Global Congress of Chinese Biologists, reflects peer recognition of his contributions.

🌍 Impact and Influence

Prof. Shen’s work has influenced fields such as cancer biology, infectious disease research, and epigenetics. For instance, his studies on the DDX3X/DDX3Y helicases and DIMT1 methyltransferases provide novel insights into cell proliferation, translation regulation, and leukemia biology. His findings are not only academically significant but also open avenues for diagnostic and therapeutic strategies targeting RNA and protein modification pathways.

🔮 Legacy and Future Contributions

As a rising star in molecular biology, Prof. Shen is well-positioned to leave a lasting legacy. With a strong publication track record, international training, and a leadership role in China, he is expected to mentor the next generation of scientists while continuing to pioneer research at the interface of structure and function in RNA biology. His work is likely to shape future innovations in biomedicine and pharmaceutical sciences, strengthening China’s global research footprint.

Publications

📄 Specific catalytically impaired DDX3X mutants form sexually dimorphic hollow condensates
Authors: Owens MC*, Shen H*, Yanas A, Mendoza-Figueroa MS, Lavorando E, Wei XY, Shweta H, Tang HY, Goldman YE, Liu KF
Journal: Nature Communications
Year: 2024

📄 Identification of an RNA-binding region in 18S dimethyladenosine methyltransferase DIMT1 essential for proliferation of acute myeloid leukemia cells
Authors: Gonskikh Y*, Stoute J*, Shen H*, Budinich K, Pingul B, Schultz K, Marmorstein R, Shi JW, Liu KF
Journal: Genes & Development
Year: 2023

📄 Sexually dimorphic RNA helicases DDX3X and DDX3Y differentially regulate RNA metabolism through phase separation
Authors: Shen H*, Yanas A*, Owens MC, Zhang C, Fritsch C, Fare CM, Copley KE, Shorter J, Goldman YE, Liu KF
Journal: Molecular Cell
Year: 2022

📄 Human DIMT1 generates N2⁶,6A-dimethylation-containing small RNAs
Authors: Shen H, Gonskikh Y, Stoute J, Liu KF
Journal: Journal of Biological Chemistry
Year: 2021

📄 TET-mediated 5-methylcytosine oxidation in tRNA promotes translation
Authors: Shen H*, Ontiveros RJ*, Owens MC, Liu MY, Ghanty U, Kohli RM, Liu KF
Journal: Journal of Biological Chemistry
Year: 2021

Ester Tellone | Biochemistry, Genetics and Molecular Biology | Excellence in Research Award

Published on 24/05/202524/05/2025 by Book of Award

Prof. Ester Tellone | Biochemistry, Genetics and Molecular Biology | Excellence in Research Award

University of Messina | Italy

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🎓 Early Academic Pursuits

Prof. Ester Tellone began her academic journey with a degree in Biological Sciences (1989) from the University of Messina, graduating with highest honors (110/110 cum laude). She followed this with a second degree in Natural Sciences (1996), again with top marks and a thesis on hemoglobin function in dolphins. Her early research was focused on environmental and marine biology, including dystrophic crises in lake ecosystems.

👩‍🔬 Professional Endeavors

Prof. Tellone embarked on her academic career in 1990 as a Technical Officer at the University of Messina. In 2001, she was appointed as a confirmed researcher and later became an Associate Professor in Biochemistry (BIO/10) in 2018. Since January 2022, she holds the title of Full Professor in the Department of Chemical, Biological, Pharmaceutical and Environmental Sciences at the University of Messina. She has taught various biochemistry courses at undergraduate and postgraduate levels and has been involved in curriculum development, Ph.D. supervision, and departmental governance.

🔬 Contributions and Research Focus

Prof. Tellone's research is centered on red blood cells (erythrocytes) as model systems. Key research themes include:

🧪 Red Blood Cells: Investigating erythrocytes as biosensors and drug delivery systems and exploring amyloid protein aggregation effects.

🧬 Hemoglobin Functionality: Analyzing structural-functional properties and oxygenation dynamics in hemoglobins.

🧫 Band 3 Protein Interactions: Studying its interplay with deoxyhemoglobin and glycolytic enzymes in metabolic regulation.

Her work employs advanced mathematical models and biochemical tools to unravel complex cellular mechanisms, especially oxidative stress, apoptosis, and environmental toxicity in marine and human systems.

🏆 Accolades and Recognition

Prof. Tellone’s excellence has been widely recognized:

🥇 She holds a National Scientific Qualification for Full Professor in General Biochemistry (BIO/10).

📚 She is the author of over 80 scientific articles indexed in Scopus/Web of Science and has contributed chapters to internationally published books.

🧑‍🏫 She has served as Scientific Coordinator for several major EU- and MIUR-funded projects, including INNOVAQUA, 4FRAILTY, ORTHO Line, and SAMOTHRACE.

She is a reviewer for high-impact journals such as Molecules, Journal of Functional Foods, and British Journal of Hematology, and serves on editorial boards of multiple international scientific journals.

🌍 Impact and Influence

Prof. Tellone’s research has made significant contributions in both basic and applied science:

🔬 Her studies on red blood cells and hemoglobin have advanced understanding of diseases like ALS, Alzheimer’s, and diabetes.

🌱 Her environmental research has influenced biotechnological innovations in aquaculture, marine biology, and environmental biosensors.

👩‍🎓 As a mentor and Ph.D. supervisor, she has nurtured the careers of numerous researchers and students in the field of biochemistry.

🌟 Legacy and Future Contributions

Prof. Ester Tellone is a recognized thought leader in red blood cell biochemistry, environmental toxicology, and oxidative stress. Her work bridges molecular biology, environmental sciences, and medical biochemistry, creating interdisciplinary solutions for modern scientific challenges. With her continued involvement in international projects, editorial activities, and mentoring, her influence is set to grow further, shaping the next generation of biochemists and biomedical researchers.

Publications

📄 Exploring Tumor Cell–Platelet Biochemical Interactions by Dielectric Measurements of Blood: A Potential Target for Tumor Detection and Staging
Journal: Biology
Year: 2025
Authors: Annamaria Russo, Ester Tellone, Francesco Farsaci

📄 Crosstalk Between Sickle Cell Disease and Ferroptosis
Journal: International Journal of Molecular Sciences
Year: 2025
Authors: Annamaria Russo, Giuseppe Tancredi Patanè, Antonella Calderaro, Davide Barreca, Ester Tellone, Stefano Putaggio

📄 Emerging Ferroptosis Involvement in Amyotrophic Lateral Sclerosis Pathogenesis: Neuroprotective Activity of Polyphenols
Journal: Molecules
Year: 2025
Authors: Annamaria Russo, Stefano Putaggio, Ester Tellone, Antonella Calderaro, Santa Cirmi, Giuseppina Laganà, Silvana Ficarra, Davide Barreca, Giuseppe Tancredi Patanè

📄 Epicatechin Influence on Biochemical Modification of Human Erythrocyte Metabolism and Membrane Integrity
Journal: International Journal of Molecular Sciences
Year: 2024
Authors: Annamaria Russo, Giuseppe Tancredi Patanè, Giuseppina Laganà, Santa Cirmi, Silvana Ficarra, Davide Barreca, Elena Giunta, Ester Tellone, Stefano Putaggio

📄 Canine and Human Red Blood Cells: Biochemical Mechanisms for the Control of Heat Dissipation
Journal: Stresses
Year: 2024
Authors: Annamaria Russo, Giuseppe Tancredi Patanè, Stefano Putaggio, Ester Tellone, Silvana Ficarra, Davide Barreca, Giuseppina Laganà

Sakthivel Muthu | Biochemistry, Genetics and Molecular Biology | Best Faculty Award

Published on 12/10/202412/10/2024 by Book of Award

Dr. Sakthivel Muthu | Biochemistry, Genetics and Molecular Biology | Best Faculty Award

Saveetha Medical College and Hospital | India

Author profile

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🎓 Early Academic Pursuits

Dr. Sakthivel Muthu’s academic journey began with a Bachelor's degree in Botany from Madurai Kamaraj University in 2005. He continued his education with an M.Sc. in Botany in 2007 and an M.Phil. in Botany from the University of Madras in 2008. His deep interest in plant sciences culminated in a Ph.D. in Botany from the University of Madras in 2016, where his thesis was highly commended.

👨‍🏫 Professional Endeavors

Dr. Muthu's professional career took off as a Post-Doctoral Fellow in Biotechnology at the University of Madras, supported by the prestigious UGC fellowship (2017–2022). He later transitioned into academia as a Guest Faculty member in Biotechnology at the same institution in 2023, bringing his expertise in bioactive compounds and protein biochemistry to students and peers alike.

🔬 Contributions and Research Focus

With a strong passion for interdisciplinary collaboration, Dr. Muthu has delved into various research fields, including protein biochemistry, enzymology, and bioactive compounds from plants and marine algae. His work extends to microbiology and cancer biology, aiming to unlock new therapeutic approaches through natural compounds. His notable contributions include research on phloroglucinol encapsulation for lung cancer and the antibacterial properties of lysozymes.

🏆 Accolades and Recognition

Dr. Muthu's contributions to science have been recognized with multiple awards and fellowships, such as:

UGC Post-Doctoral Fellowship (2017–2022)
Project Fellowship under the UGC’s BSR Fellowships (2010–2015)

He has also published several high-impact research papers in internationally renowned journals, contributing to fields like nanotechnology, enzymology, and phytochemistry.

🌍 Impact and Influence

Dr. Muthu's research has had a broad influence, particularly in understanding the bioactive properties of natural compounds and their potential in areas like cancer therapy and antibacterial applications. His work with nanoparticles and natural enzyme extraction has provided significant insights into sustainable biotechnological solutions.

🏅 Legacy and Future Contributions

Looking ahead, Dr. Muthu’s dedication to innovative biotechnological research and his willingness to collaborate across disciplines ensure that his contributions to science will continue to inspire future researchers. His ongoing projects, publications, and involvement in patent applications reflect his unwavering commitment to advancing our understanding of biochemistry and biotechnology.

Publications

📄 Encapsulation of Phloroglucinol from Rosenvingea intricata Macroalgae with Zinc Oxide Nanoparticles against A549 Lung Cancer Cells
- Journal: Pharmaceutics
- Date: 2024-10-05
- Authors: Sakthivel Muthu, Mythileeswari Lakshmikanthan, Edwin Edward-Sam, Mutheeswaran Subramanian, Lakshmanan Govindan, Afrina Begum Mithen Patcha, Kathiravan Krishnan, Nallusamy Duraisamy, Selvakumari Jeyaperumal, Al Thabiani Aziz

📄 A Comprehensive Review on Anthocyanin-rich Foods: Insights into Extraction, Medicinal Potential, and Sustainable Applications
- Journal: Journal of Agriculture and Food Research
- Date: 2024-06
- Authors: Mythileeswari Lakshmikanthan, Sakthivel Muthu, Kathiravan Krishnan, Ammar B. Altemimi, Noor N. Haider, Lakshmanan Govindan, Jeyaperumal Selvakumari, Zina T. Alkanan, Francesco Cacciola, Yuvaraj Maria Francis

📄 A Bioflocculant Made from Chitosan and Modified Shrimp Waste Might Collect Fresh and Saltwater Microalgae
- Journal: Biosciences Biotechnology Research Asia
- Date: 2024-03-30
- Authors: Nallusamy Duraisamy, Sakthivel Muthu, Kumaran Thangavel, Kathiravan Krishnan, Sivamalar Sathasivam

📄 Extraction, Purification, and Investigation of the Antibacterial Potential of Lysozyme Isolated from the Latex of Calotropis procera
- Journal: European Food Research and Technology
- Date: 2024-02-21
- Authors: Sakthivel Muthu, Venkateshbabu Gopal, Zena Kadhim AL-Younis, Ammar B. Altemimi, Palani Perumal, Mythileeswari Lakshmikanthan, Kathiravan Krishnan, Mazin A. A. Najm, Angelo Maria Giuffrè, Lakshmanan Govindan

📄 Viral Diseases of Ornamental Plants-III
- Journal: Viral Diseases of Field and Horticultural Crops (Book Chapter)
- Date: 2023
- Authors: D. Sundararaj, S. Pushpanathan, S. Muthu, K. Krishnan

Jairus Nandwa | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Published on 23/04/202423/04/2024 by Book of Award

Mr. Jairus Nandwa | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Hebrew University of Jerusalem | Israel

Author Profile

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Early Academic Pursuits

Mr. Jairus Nandwa's academic journey commenced with a Bachelor's in Industrial Microbiology and Biotechnology from The Technical University of Mombasa, Kenya. He pursued his passion further with a Master's in Biosciences from COMSATS University Islamabad, Pakistan, where he delved into cancer genetics. Currently, he is pursuing a Ph.D. in Genetics at The Hebrew University of Jerusalem, focusing on circular RNAs, SNORDs, and miRNAs in cancer under the guidance of Professor Ruth Sperling.

Professional Endeavors

Jairus has garnered diverse professional experiences, from his tenure as a Laboratory Analyst at the Regional Veterinary Investigation Laboratory, Kenya, to his role as the Head of Public Needs Research at the Integrated Cancer Research Foundation of Kenya. He has contributed significantly to cancer education and research, both as a volunteer and in leadership positions, demonstrating his commitment to advancing cancer management in Kenya.

Contributions and Research Focus

With a strong background in biochemistry, genetics, and molecular biology, Jairus has dedicated his research efforts to elucidating the roles of non-coding RNAs in gene expression regulation, tumor microenvironment, biomarker discovery, and DNA repair mechanisms. His research spans both experimental and computational domains, aiming to unravel the complexities of cancer genetics and improve therapeutic strategies.

Accolades and Recognition

Jairus's contributions to the field of cancer genetics have been recognized internationally. He has been awarded prestigious scholarships, including the Queen Elizabeth Commonwealth Scholarship, and has received honors for his academic achievements. Additionally, his research publications in reputable journals underscore his growing influence in the scientific community.

Impact and Influence

Through his research, leadership roles, and volunteer activities, Jairus has made a significant impact on cancer education, awareness, and research in Kenya. His work has contributed to the understanding of cancer pathogenesis and has paved the way for innovative approaches to cancer management and treatment.

Legacy and Future Contributions

As Jairus continues his doctoral studies and pursues his research interests in cancer genetics, he aims to leave a lasting legacy in the field through groundbreaking discoveries and transformative contributions. His multidisciplinary approach, coupled with his passion for scientific inquiry, positions him as a promising leader in cancer research with the potential to drive positive change in the global fight against cancer.

Notable Publications

Targeting allosteric sites on PDK-1 and PLK-1 with bioactive compounds from Daucus carota as a potential therapy for triple-negative breast cancer 2023